阅读说明：本技术 一种基于动态特性原理的长条形人造文化石制造设备 (Long-strip artificial culture stone manufacturing equipment based on dynamic characteristic principle ) 是由 张来源 于 2021-09-08 设计创作，主要内容包括：本发明公开了一种基于动态特性原理的长条形人造文化石制造设备,包括隐蔽型全覆盖自筛分式陶砂微粒回转角磨收集装置、环置型纵单向自补偿式陶砂微粒直径调控装置、粒径可调式自补偿型陶板刨削粗切装置、架空式刨削驱动组件、自动循环型柔性骨架热固及混合料保温成型装置、中介介入式双螺旋搅拌混合装置和集成式控制面板。本发明属于人造文化石原料制备技术领域,具体是指一种基于动态特性原理的长条形人造文化石制造设备；本发明通过粒径可调式自补偿型陶板刨削粗切装置能够切割出粒径大小相等的石材,通过环置型纵单向自补偿式陶砂微粒直径调控装置在没有筛分和回炉装置的情况下,实现了自动筛分以及对粒径超出范围的颗粒继续研磨的技术效果。(The invention discloses a strip-shaped artificial culture stone manufacturing device based on a dynamic characteristic principle, which comprises a hidden full-coverage self-screening type pottery sand particle turning angle grinding and collecting device, a ring-shaped longitudinal unidirectional self-compensation type pottery sand particle diameter regulating and controlling device, a particle diameter adjustable self-compensation type pottery plate planing rough cutting device, an overhead planing driving component, an automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, an intermediate intervention type double-helix stirring and mixing device and an integrated control panel. The invention belongs to the technical field of artificial culture stone raw material preparation, and particularly relates to a strip-shaped artificial culture stone manufacturing device based on a dynamic characteristic principle; the stone with the same particle size can be cut by the particle size adjustable self-compensation type ceramic plate planing rough cutting device, and the technical effects of automatic screening and continuous grinding of particles with particle sizes beyond the range are realized by the annular longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device under the condition of no screening and furnace returning device.)

1. A manufacturing equipment of long-strip artificial culture stone based on the dynamic characteristic principle is characterized in that: comprises a concealed full-covering self-screening type pottery sand particle turning angle grinding and collecting device, a ring-arranged longitudinal unidirectional self-compensating type pottery sand particle diameter regulating and controlling device, a particle diameter adjustable self-compensating type pottery plate planing rough cutting device, an overhead planing driving assembly, an automatic circulating type flexible framework thermosetting and mixture heat preservation forming device, an intermediate interposed type double-screw stirring and mixing device and an integrated control panel, wherein the concealed full-covering self-screening type pottery sand particle turning angle grinding and collecting device is arranged on the particle diameter adjustable self-compensating type pottery plate planing rough cutting device, the ring-arranged longitudinal unidirectional self-compensating type pottery sand particle diameter regulating and controlling device is arranged on the concealed full-covering self-screening type pottery sand particle turning angle grinding and collecting device, the particle diameter adjustable self-compensating type pottery plate rough cutting device is arranged on the automatic circulating type flexible framework thermosetting and mixture heat preservation forming device, and the overhead planing driving assembly is arranged on the particle diameter adjustable self-compensating type pottery sand particle planing rough cutting device, the medium intervention type double-helix stirring and mixing device is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, and the integrated control panel is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device.

2. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 1, wherein: the concealed full-coverage self-screening type pottery sand particle rotation angle grinding and collecting device comprises a cantilever type angle grinding shell base support frame, a single cantilever type angle grinding motor installation arm frame, a pottery sand angle grinding shell body, an inner roller self-resetting pre-tightening spring, a pottery sand grinding roller driving motor, a pottery sand grinding driving gear and an angle grinding device accessory, wherein the cantilever type angle grinding shell base support frame is arranged on a particle size adjustable self-compensation type pottery plate planing rough cutting device, the single cantilever type angle grinding motor installation arm frame is arranged on the cantilever type angle grinding shell base support frame, an angle grinding motor arm frame top round hole is arranged on the single cantilever type angle grinding motor installation arm frame, the pottery sand grinding roller driving motor is clamped in the angle grinding motor arm frame top round hole, a grinding driving motor output shaft is arranged on the pottery sand grinding roller driving motor, the pottery sand grinding driving gear is clamped on the grinding driving motor output shaft, the single cantilever type angle grinder motor mounting arm frame is provided with an angle grinder motor arm frame bottom round hole, the ceramic sand angle grinder shell body is provided with an angle grinder shell bottom round ring, the ceramic sand angle grinder shell body is clamped in a round hole at the bottom of the angle grinder motor arm support through a round ring at the bottom of the angle grinder shell, the ceramic sand angle grinder shell body is provided with an angle grinder shell high-hardness crushing surface above a circular ring at the bottom of the angle grinder shell, the ceramic sand angle grinder shell body is provided with an angle grinder shell inner circular platform, the ceramic sand angle grinder shell body is provided with a shell inner circular platform notch on the angle grinder shell inner circular platform, the ceramic sand angle grinder shell body is annularly and uniformly provided with circular table guide upright posts in the angle grinder shell on a circular table in the angle grinder shell, the inner rotary drum self-resetting pre-tightening springs are annularly and uniformly distributed on a circular table in the angle grinder shell, and the angle grinder accessory is arranged in the ceramic sand angle grinder shell body;

the accessory of the angle grinder comprises a pottery sand grinding bottom supporting bearing, an angle grinder bottom lifting limiting sleeve, an angle grinder inner cavity blocking cover, an inclined front blocking blanking hopper, an anti-gravity pumping pipe and an anti-gravity sand pumping blast pump, the ceramic sand grinding bottom supporting bearing is clamped in a bottom circular ring of the angle grinder shell, the bottom lifting limit sleeve of the angle grinder is clamped in an inner ring of the ceramic sand grinding bottom supporting bearing, the angle grinder inner cavity blocking cover is clamped in the annular longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating device, the inclined front blocking blanking hopper is clamped in the particle size adjustable self-compensating ceramic plate planing rough cutting device, one end of the antigravity material pumping pipe is clamped at the bottom of the lifting limiting sleeve at the bottom of the angle grinder, the other end of the antigravity material pumping pipe is arranged on an antigravity sand pumping blower pump, and the antigravity sand pumping blower pump is arranged on the intermediary intervention type double-helix stirring and mixing device.

3. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 2, wherein: the annular longitudinal unidirectional self-compensation type pottery sand particle diameter regulating device comprises an inner roller lifting annular platform, an inner roller top supporting bearing, a pottery sand angle grinder inner roller body, a pottery sand grinding driven gear ring and a pottery sand particle lifting diameter regulating device, wherein an annular platform outer round platform is arranged on the inner roller lifting annular platform, the inner roller lifting annular platform is clamped and slidably arranged in the pottery sand angle grinder shell body through the annular platform outer round platform, the inner roller lifting annular platform is arranged on an inner roller self-resetting pre-tightening spring through the annular platform outer round platform, annular outer circular platform guide round holes are annularly and uniformly distributed on the annular platform outer round platform of the inner roller lifting annular platform, the inner roller lifting annular platform is clamped and slidably arranged on an angle grinder shell inner circular platform guide upright post through the annular outer circular platform guide round holes, and an annular platform notch is arranged on the inner roller lifting annular platform, the ceramic sand angle grinder is characterized in that the annular outer circular table notch is located above the outer circular table notch, the inner roller top supporting bearing is clamped in the inner roller lifting annular table, the ceramic sand angle grinder inner roller body is provided with an angle grinder inner roller top straight ring table, the angle grinder inner cavity blocking cover is clamped in the angle grinder inner roller top straight ring table, the ceramic sand angle grinder inner roller body is clamped in the inner ring of the inner roller top supporting bearing through the angle grinder inner roller top straight ring table, the ceramic sand angle grinder inner roller body is provided with an angle grinder inner roller high-hardness crushing surface below the angle grinder inner roller top straight ring table, the ceramic sand angle grinder inner roller body is provided with an angle grinder inner roller bottom straight pipe table below the angle grinder inner roller high-hardness crushing surface, the ceramic sand angle grinder inner roller body is provided with angle grinder inner roller feeding notches annularly and uniformly above the angle grinder inner roller bottom circular table, and the ceramic sand angle grinder inner roller body is provided with an angle grinder inner roller bottom straight pipe below the angle grinder inner roller bottom straight pipe table The ceramic sand angle grinder inner roller body is clamped and slidably arranged in a lifting limiting sleeve at the bottom of the angle grinder device through a straight pipe at the bottom of the angle grinder inner roller, the ceramic sand grinding driven gear ring is clamped in a straight ring table at the top of the angle grinder inner roller, the ceramic sand grinding driven gear ring is meshed and connected with a ceramic sand grinding driving gear, and the ceramic sand particle lifting type diameter adjusting devices are annularly and uniformly distributed on the ceramic sand angle grinder shell body;

pottery sand particle over-and-under type diameter adjusting device includes lift adjustment base, manual adjusting screw and manual regulation twist grip, the top of pottery sand angle grinder shell body is located to lift adjustment base annular equipartition, be equipped with manual adjustment base round platform on the lift adjustment base, the lift adjustment base is equipped with manual adjustment base screw hole on manual adjustment base round platform, manual adjusting screw rotates and locates in the manual adjustment base screw hole, manual adjusting screw and manual adjustment base screw hole screw-thread fit, be equipped with manual screw bottom round platform on the manual adjusting screw, the last surface contact of manual screw bottom round platform and the outside round platform of annular platform, be equipped with manual screw top round hole on the manual adjusting screw, manual regulation twist grip block is located in manual screw top round hole.

4. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 3, wherein: the particle size adjustable self-compensation type ceramic plate planing rough cutting device comprises an array gantry type planing device base, a self-compensation planing device box body, a lifting limit guide plate, a self-compensation return spring, a self-compensation lifting base, a flat plate-shaped base material and a staggered type sliding planing device, wherein the array gantry type planing device base is arranged on an automatic circulation type flexible framework thermosetting and mixed material heat preservation forming device in an array mode, a cantilever type angle grinder shell base support frame is arranged at the bottom of the array gantry type planing device base, the self-compensation planing device box body is arranged on the array gantry type planing device base, a planing box body cantilever type bottom plate is arranged on the self-compensation planing device box body, a planing box body middle partition plate is arranged on the self-compensation planing device box body, planing box body side plates are symmetrically arranged on the self-compensation planing device box body, and a blocking lower hopper at the inclined front portion is clamped in the planing box body side plates, the self-compensating planing device comprises a self-compensating planing device box body, a planing box body side sliding groove is formed in a planing box body side plate, a planing box body cantilever plate is arranged at the top of one group of the planing box body side plate of the self-compensating planing device box body, lifting limiting guide plates are symmetrically arranged on the self-compensating planing device box body, a self-compensating reset spring array is arranged in the self-compensating planing device box body, a self-compensating lifting base station is arranged on the self-compensating reset spring, a flat plate-shaped base material is clamped in the self-compensating lifting base station, the self-compensating lifting base station is clamped in the lifting limiting guide plates in a sliding mode, the flat plate-shaped base material is clamped in the planing box body side plate in a sliding mode, and the staggered type sliding planing device is arranged in the self-compensating planing device box body.

5. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 4, wherein: the staggered sliding planing device comprises a staggered sliding plate body, high-hardness planing tool bits, a sliding plate top hinged seat, a sliding plate top hinged shaft and a planing sliding plate driving connecting rod, staggered sliding plate end circular shafts are symmetrically arranged on the staggered sliding plate body, the staggered sliding plate body is slidably arranged in a planing box side sliding chute through the clamping of the staggered sliding plate end circular shafts, staggered sliding plate clamping grooves are formed in the staggered sliding plate body, the high-hardness planing tool bits are clamped in the staggered sliding plate clamping grooves, the high-hardness planing tool bits are fixedly connected with the staggered sliding plate clamping grooves, array staggered planing teeth are arranged on the high-hardness planing tool bits in an array mode, the array staggered planing teeth are in sliding contact with a flat plate-shaped base material, a self-compensation lifting base station is symmetrically arranged at the top of the staggered sliding plate body, and the sliding plate top hinged shaft is clamped in the sliding plate top hinged seat, the one end of planing slide drive connecting rod is equipped with planing connecting rod tip hole, planing slide drive connecting rod rotates through planing connecting rod tip hole and locates on the articulated shaft of slide top, the other end of planing slide drive connecting rod is equipped with planing connecting rod tip ring.

6. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 5, wherein: the overhead planing drive assembly comprises a single cantilever type bearing frame, a cantilever fixed round shaft, a planing drive crank support bearing, a planing drive crank body, a connecting rod hinged round platform, a crank driven belt pulley, a crank drive motor, a crank drive belt pulley and a crank transmission belt, wherein the single cantilever type bearing frame is arranged on a planing box cantilever type bottom plate, a single fork arm round hole is formed in the single cantilever type bearing frame, the cantilever fixed round shaft is clamped in the single fork arm round hole, the planing drive crank support bearing is clamped on the cantilever fixed round shaft, a crank center annular table is arranged on the planing drive crank body, the planing drive crank body is clamped on the planing drive crank support bearing through the crank center annular table, crank weight reduction grooves are uniformly and annularly distributed on the planing drive crank body, and crank edge grooves are formed in the planing drive crank body, the connecting rod is hinged to a circular table and clamped in a crank edge groove, the planing sliding plate drives a connecting rod to rotate through a circular ring at the end of the planing connecting rod and is arranged on the connecting rod hinged to the circular table, the crank driven belt pulley is clamped on a crank center circular table, the crank driving motor is arranged on a planing box cantilever plate, a crank motor output shaft is arranged on the crank driving motor, the crank driving belt pulley is clamped on the crank motor output shaft, the crank driving belt and the crank driving belt pulley are in rolling contact, and the crank driving belt and the crank driven belt pulley are in rolling contact.

7. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 6, wherein: the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device comprises a flat plate type main body base, a long strip-shaped internal heating mould box body, a long strip-shaped mould body, a high-power hot blast heater, a thermosetting flexible framework paving device, an automatic circulation type material injection device and a circulation driving device, wherein the array gantry type planing device base is arranged on the flat plate type main body base in an array manner, the long strip-shaped internal heating mould box body is arranged on the flat plate type main body base, the long strip-shaped mould body is clamped in the long strip-shaped internal heating mould box body, the high-power hot blast heater is symmetrically arranged on the flat plate type main body base, the high-power hot blast heater is arranged on two sides of the long strip-shaped internal heating mould box body, the thermosetting flexible framework paving device comprises a thermosetting polyurethane coiled material placing frame, a polyurethane coiled material supporting shaft, a strip-shaped thermosetting polyurethane coiled material and a coiled thermosetting polyurethane framework body, the automatic circulation type material injection device is characterized in that the thermosetting polyurethane coiled material placing frame is arranged on a flat plate type main body base, a placing frame top groove is formed in the thermosetting polyurethane coiled material placing frame, a strip-shaped thermosetting polyurethane winding drum is clamped in the placing frame top groove, a placing frame top round hole is formed in the thermosetting polyurethane coiled material placing frame, a polyurethane winding drum supporting shaft is clamped in the placing frame top round hole, the strip-shaped thermosetting polyurethane winding drum is rotatably arranged on a polyurethane winding drum supporting shaft, a winding thermosetting polyurethane framework body is wound on the strip-shaped thermosetting polyurethane winding drum, an anti-breaking steel wire mesh interlayer is arranged in the middle of the winding thermosetting polyurethane framework body, the automatic circulation type material injection device is arranged on a long strip-shaped internal heating die box body, and the circulation driving device is arranged on the automatic circulation type material injection device.

8. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 7, wherein: the automatic circulation type material injection device comprises linear guide rails, linear sliding blocks, linear sliding plates, a mixed raw material blanking control valve and an injection hose, wherein the linear guide rails are symmetrically arranged on two sides of a long strip-shaped internal heating mould box body; the circulating driving device comprises a dynamic injection sliding plate driving motor, a sliding plate motor driving gear, an idler supporting frame, an idler supporting shaft, a replaceable inertia fixed gear and a sliding plate transmission fixed gear belt, wherein the dynamic injection sliding plate driving motor is arranged on a linear sliding plate, a sliding plate motor driving main shaft is arranged on the dynamic injection sliding plate driving motor, the sliding plate motor driving gear is clamped on the sliding plate motor driving main shaft, the idler supporting frame is symmetrically arranged on one side of a strip-shaped internal heating mould box body, the idler supporting shaft is clamped in the idler supporting frame, the idler supporting shaft is fixedly connected with the idler supporting frame, the replaceable inertia fixed gear is clamped on the idler supporting shaft, the replaceable inertia fixed gear is fixedly connected with the idler supporting shaft, the sliding plate transmission fixed gear belt is clamped on the replaceable inertia fixed gear, the upper end and the slide motor drive gear meshing of the fixed cingulum of slide transmission are connected, the lower extreme and the slide motor drive gear separation of the fixed cingulum of slide transmission.

9. An apparatus for manufacturing an elongated artificial culture stone based on the dynamic characteristics principle as claimed in claim 8, wherein: the intermediary intervention type double-helix stirring and mixing device comprises a gantry-shaped stirring device base, a material mixing barrel, a mixing barrel external fixing frame, a stirring motor mounting plate, a mixing and stirring motor, a stirring rotating main shaft, a double-helix middle cross bar, opposite stirring double-helix bands, a raw material storage device and a raw material filling control device, wherein the gantry-shaped stirring device base is arranged on a flat plate type main body base, a gantry-shaped base central circular hole is arranged on the gantry-shaped stirring device base, a mixing barrel bottom discharge hole is arranged on the material mixing barrel, the material mixing barrel is clamped in the gantry-shaped stirring device base through the mixing barrel bottom discharge hole, the other end of a material injection hose is clamped in the mixing barrel bottom discharge hole, the mixing barrel external fixing frame is symmetrically arranged on the gantry-shaped stirring device base, and a fixing frame arc-shaped hoop is arranged on the mixing barrel external fixing frame, the external fixing frame of the mixing drum is fixedly connected with the outer wall of the material mixing drum through an arc-shaped hoop of the fixing frame, the stirring motor mounting plate is arranged on the material mixing drum, the anti-gravity sand pumping blower pump is arranged on the material mixing drum, the mixing stirring motor is clamped in the stirring motor mounting plate, a stirring motor output shaft is arranged on the mixing stirring motor, the stirring rotating main shaft is fixedly connected with the stirring motor output shaft, a cross rod center clamping hole is arranged on a cross rod in the middle of the double ribbon, the cross rod in the middle of the double ribbon is arranged on the stirring rotating main shaft through a cross rod center clamping hole array, the oppositely-arranged stirring double ribbons are symmetrically arranged at the end part of the cross rod in the middle of the double ribbon, the oppositely-arranged stirring double ribbon and the cross rod in the middle of the double ribbon are fixedly connected, the raw material storage device comprises a raw material storage box and a raw material discharging pipe, and a raw material box base is arranged on the raw material storage box, the raw material storage boxes are annularly and uniformly distributed at the top of the material mixing barrel through a raw material box base, and the raw material discharging pipe is clamped at the bottom of the raw material storage boxes; the raw material filling control device comprises a first raw material control valve, a second raw material control valve and a third raw material control valve, wherein the first raw material control valve is clamped at the top of one group of the raw material discharging pipes, the second raw material control valve is clamped at the top of one group of the raw material discharging pipes, and the third raw material control valve is clamped at the top of the other group of the raw material discharging pipes.

10. An elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle as claimed in claim 9, wherein: the integrated control panel is arranged on the flat plate type main body base and comprises a power supply button, an automatic forming button, a central processing unit, a raw material planing button, an anti-gravity sand pumping button, a double-ribbon stirring button and a ceramic sand grinding button, wherein the power supply button is arranged on the automatic forming button and electrically connected with the automatic forming button, the power supply button is arranged on the raw material planing button and electrically connected with the anti-gravity sand pumping button, the power supply button is arranged on the double-ribbon stirring button and electrically connected with the ceramic sand grinding button, the central processing unit is arranged on a raw material control valve for communication connection, the central processing unit is arranged on a high-power hot blast heater for communication connection, central processing unit locates and mixes raw materials unloading control valve communication connection, central processing unit locates developments and annotates material slide driving motor communication connection, central processing unit locates rectangular shape internal heating mould box communication connection, the raw materials planing button is connected with crank driving motor electricity, antigravity takes out the sand button and antigravity takes out sand blower pump electricity to be connected, two ribbon stirring buttons are connected with mixed agitator motor electricity, the pottery sand grinds button and pottery sand and grinds cylinder driving motor electricity and connect.

Technical Field

The invention belongs to the technical field of artificial culture stone raw material preparation, and particularly relates to a strip-shaped artificial culture stone manufacturing device based on a dynamic characteristic principle.

Background

Along with the progress of society and the development of economy, and the beautifying requirements of people on urban construction and domestic living environment are higher and higher, in order to meet the increasing requirements, at present, stones with natural stone grains are often adopted by a plurality of building industries to serve as building surfaces and indoor decoration, but the natural stone resources are limited, and excessive exploitation of the stones brings a plurality of adverse effects to the surrounding environment of a mine area, for example, mud-rock flow is caused by the fact that mountain rock-soil layers are soft due to cutting of mountain vegetation; in recent years, an artificial culture stone replacing natural stone for decoration of buildings is produced by manually preparing materials such as cement, sand, ceramsite and the like into the artificial culture stone with the texture of the natural stone through a certain process, and the production process of the artificial culture stone is generally that the cement, the sand, the ceramsite (or perlite) and water are stirred by a stirrer, then are directly poured into a mould, and then are slowly baked to obtain the artificial culture stone.

The production process of common artificial culture stone on the market includes steps such as crushing, grinding, storage, stirring with adding water, shaping, and crushing device uses extrusion breaker such as jaw breaker mostly, breaks massive mother metal into the stone material of fritter, but extrudees broken product particle size and has certain randomness, does not exceed certain scope in order to guarantee that the particle diameter of broken product, adopts following two kinds of broken modes at present more:

a: the method of repeated crushing, however, when repeated crushing is performed, the target material is a mixture of large particles, small particles and powder, so that not only the powdery material can form buffer to influence the impact crushing effect, but also the useful work of the equipment is little and the crushing efficiency is seriously influenced; b: in the crushing process, two steps of circular screening and secondary crushing are continuously and alternately carried out, and although the mode improves the effective utilization rate of equipment, the structure is complex, the steps are complex, and the practicability is still not high.

Patent application No. CN201611016560.1 discloses a grinding device for producing ceramic tiles, which comprises a hard object grinding barrel and a clay grinding barrel positioned below the hard object grinding barrel, wherein the hard object grinding barrel and the clay grinding barrel form a closed grinding cavity together; the lower end of the hard material grinding barrel is provided with a plurality of sieve pores communicated with the clay grinding barrel; the clay grinding barrel comprises a backflow part and a centrifugal part from top to bottom, wherein the backflow part is in a frustum shape, and the centrifugal part is in an inverted frustum shape; the lower extreme of clay grinding barrel is equipped with the pivot, and the pivot is connected with the motor.

The patent application with the application number of CN201610190732.0 discloses a raw material grinding and stirring device for ceramic products, which comprises a grinding outer barrel body and a frame body which are transversely arranged, wherein an inner barrel body is inserted in the grinding outer barrel body, the frame body comprises a bottom connecting plate, two supporting plates are fixed on the top surface of the bottom connecting plate, driving motors are fixed on the two supporting plates, output shafts of the driving motors penetrate through the supporting plates and are hinged to a left end plate and a right end plate of the grinding outer barrel body, and the end parts of the output shafts of the driving motors are fixed on two side end plates of the inner barrel body; and a rotating gear is fixed on the outer side wall of the grinding outer barrel body, and a main driving motor is fixed on the bottom connecting plate.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the elongated artificial culture stone manufacturing equipment based on the dynamic characteristic principle, and the process of manufacturing the raw materials of the artificial culture stone is creatively improved from the process perspective; in order to obtain rough machining products with uniform particle size in a rough grinding stage, the invention creatively provides a particle size adjustable self-compensating type ceramic plate planing rough cutting device based on the planing technology of the traditional woodworker, a rough product with approximate volume size is cut from stone in a mode of reciprocating motion of inverted hook teeth which are arranged in a staggered mode on the stone, the particle size of the rough machining product can be adjusted in a mode of replacing planing tool bits, and the problems that the products produced by the existing rough machining preparation device are different in size, not only need to be crushed for the second time, but also the energy utilization rate is low during the secondary crushing are effectively solved; in the precise grinding stage, in order to simplify the structure and the operation process, the invention creatively provides a hidden full-coverage self-screening type pottery sand particle gyration angle grinding and collecting device based on a self-service principle, only crushed stone can continue to sink in a continuously narrowed grinding space, the stone with large particle size still remains on the upper layer for crushing, the technical effects of automatic screening and continuous grinding of particles with particle sizes beyond the range are realized under the condition of no screening and furnace returning (secondary grinding) device, and the problems of long grinding time, low efficiency, frequent screening and furnace returning of the current precise grinding device are effectively solved by matching with a ring-arranged longitudinal unidirectional self-compensation type pottery sand particle diameter regulating and controlling device; during final forming, the invention creatively provides an automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, thermosetting aggregate is laid in slurry, and then drying forming is carried out, so that the problem that sand materials generated by grinding are easy to damp and harden after being stored for a long time is avoided, and the structural strength of the long-strip-shaped artificial culture stone is greatly improved under the condition of not influencing indoor wireless signals.

The technical scheme adopted by the invention is as follows: the invention relates to a strip-shaped artificial culture stone manufacturing device based on a dynamic characteristic principle, which comprises a hidden full-coverage self-screening type ceramic sand particle rotary angle grinding and collecting device, a ring-arranged longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device, a particle diameter adjustable self-compensation type ceramic plate planing rough cutting device, an overhead planing driving component, an automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, an intermediate intervention type double-helix stirring and mixing device and an integrated control panel, wherein the hidden full-coverage self-screening type ceramic sand particle rotary angle grinding and collecting device is arranged on the particle diameter adjustable self-compensation type ceramic plate planing rough cutting device, the ring-arranged longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device is arranged on the hidden full-coverage self-screening type ceramic sand particle rotary angle grinding and collecting device, the hidden full-coverage self-screening type ceramic sand particle rotary angle grinding and collecting device and the ring-arranged longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device are used for grinding ceramic sand The particle size adjustable self-compensation type ceramic plate planing rough cutting device is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, the overhead type planing driving component is arranged on the particle size adjustable self-compensation type ceramic plate planing rough cutting device, the particle size adjustable self-compensation type ceramic plate planing rough cutting device and the overhead type planing driving component have the function of roughly cutting off ceramic sand from a parent material, the intermediary intervention type double-helix stirring and mixing device is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, the intermediary type double-helix stirring and mixing device has the function of mixing raw materials, the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device has the function of curing and forming, and the integrated control panel is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device; the concealed full-coverage self-screening type pottery sand particle rotary angle grinding and collecting device comprises a cantilever type angle grinding shell base support frame, a single cantilever type angle grinding motor installation arm frame, a pottery sand angle grinding shell body, an inner roller self-resetting pre-tightening spring, a pottery sand grinding roller driving motor, a pottery sand grinding driving gear and an angle grinding device accessory, wherein the cantilever type angle grinding shell base support frame is arranged on a particle size adjustable self-compensation type pottery plate planing rough cutting device, the single cantilever type angle grinding motor installation arm frame is arranged on the cantilever type angle grinding shell base support frame, the single cantilever type angle grinding motor installation arm frame plays a role in fixing the pottery sand grinding roller driving motor, an angle grinding motor arm frame top round hole is arranged on the single cantilever type angle grinding motor installation arm frame, the pottery sand grinding roller driving motor is clamped in the angle grinding motor arm frame top round hole, and a grinding driving motor output shaft is arranged on the pottery sand grinding roller driving motor, the ceramic sand grinding drive gear is clamped on an output shaft of the grinding drive motor, an angle grinding motor arm support bottom round hole is arranged on the single-cantilever angle grinding motor installation arm support, an angle grinding shell bottom round hole is arranged on the ceramic sand angle grinding shell body, the ceramic sand angle grinding shell body is clamped in the angle grinding motor arm support bottom round hole through the angle grinding shell bottom round hole, an angle grinding shell high-hardness crushing surface is arranged above the angle grinding shell bottom round ring on the ceramic sand angle grinding shell body, an angle grinding shell inner round platform is arranged on the ceramic sand angle grinding shell body, a shell inner round platform notch is arranged on the angle grinding shell inner round platform on the ceramic sand angle grinding shell body, angle grinding shell inner round platform guide upright posts are annularly arranged on the angle grinding shell inner round platform, and inner drum self-resetting pre-tightening springs are annularly arranged on the angle grinding shell inner round platform, the inner roller self-resetting pre-tightening spring can jack the annular longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device upwards under the condition of no external limitation, so that the annular longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating and controlling device is always kept at the highest allowable position, and the angle grinder accessory is arranged in the ceramic sand angle grinder shell body; the angle grinder accessory comprises a pottery sand grinding bottom supporting bearing, an angle grinder bottom lifting limiting sleeve, an angle grinder inner cavity blocking cover, an inclined front blocking blanking hopper, an antigravity pumping pipe and an antigravity pumping blast pump, the pottery sand grinding bottom supporting bearing is clamped in a bottom circular ring of an angle grinder shell, the angle grinder bottom lifting limiting sleeve is clamped in an inner ring of the pottery sand grinding bottom supporting bearing, the angle grinder bottom lifting limiting sleeve plays a role in supporting a ring-shaped longitudinal unidirectional self-compensation type pottery sand particle diameter regulating and controlling device to rotate, the angle grinder inner cavity blocking cover is clamped in the ring-shaped longitudinal unidirectional self-compensation type pottery sand particle diameter regulating and controlling device, the ring-shaped longitudinal unidirectional self-compensation type pottery sand particle diameter regulating and controlling device can be conveniently cleaned after the angle grinder inner cavity blocking cover is taken down, the inclined front blocking blanking hopper is clamped in a particle size adjustable self-compensation type pottery plate planing rough cutting device, the inclined front blocking hopper plays a role in guiding flow, one end of the anti-gravity pumping pipe is clamped at the bottom of the lifting limiting sleeve at the bottom of the angle grinder, the other end of the anti-gravity pumping pipe is arranged on the anti-gravity sand pumping air blast pump, the anti-gravity sand pumping air blast pump is arranged on the intermediary intervention type double-helix stirring and mixing device, and particles formed by grinding can be pumped into the intermediary intervention type double-helix stirring and mixing device by the anti-gravity sand pumping air blast pump.

Preferably, the annular longitudinal unidirectional self-compensating type pottery sand particle diameter regulating device comprises an inner roller lifting annular table, an inner roller top supporting bearing, a pottery sand angle grinder inner roller body, a pottery sand grinding driven gear ring and a pottery sand particle lifting diameter regulating device, wherein the inner roller lifting annular table is provided with an annular table external circular table and plays a role in regulating the height of the pottery sand angle grinder inner roller body and supporting the rotation of the pottery sand angle grinder inner roller body, the inner roller lifting annular table is clamped and slidably arranged in the pottery sand angle grinder shell body through an annular table external circular table, the inner roller lifting annular table is arranged on an inner roller self-resetting pre-tightening spring through an annular table external circular table, annular outer circular table guiding circular holes are annularly distributed on the annular table external circular table of the inner roller lifting annular table, and the inner roller lifting annular table is clamped and slidably arranged on an angle grinder shell internal circular table guiding upright post through the annular outer circular table guiding circular holes, the inner cylinder lifting annular table is provided with an annular outer circular table gap, the annular outer circular table gap is positioned above the inner circular table gap of the shell, the inner cylinder top supporting bearing is clamped in the inner cylinder lifting annular table, the ceramic sand angle grinder inner cylinder body is provided with an angle grinder inner cylinder top straight annular table, the angle grinder inner cavity baffle cover is clamped in the angle grinder inner cylinder top straight annular table, the ceramic sand angle grinder inner cylinder body is clamped in an inner ring of the inner cylinder top supporting bearing through the angle grinder inner cylinder top straight annular table, the ceramic sand angle grinder inner cylinder body is provided with an angle grinder inner cylinder high-hardness crushing surface below the angle grinder inner cylinder top straight annular table, the ceramic sand angle grinder inner cylinder body is provided with an angle grinder inner cylinder bottom circular table below the angle grinder inner cylinder high-hardness crushing surface, the ceramic sand angle grinder inner cylinder body is provided with angle grinder inner cylinder feeding gaps annularly and uniformly above the angle grinder inner cylinder bottom circular table, the inner cylinder body of the ceramic sand angle grinder is provided with an angle grinder inner cylinder bottom straight pipe below a round platform at the bottom of the angle grinder inner cylinder, the ceramic sand angle grinder inner roller body is clamped and slidingly arranged in a lifting limiting sleeve at the bottom of the angle grinder device through a straight pipe at the bottom of the angle grinder inner roller, the ceramic sand grinding driven gear ring is clamped in a straight ring table at the top of the inner roller of the angle grinder, the ceramic sand grinding driven gear ring is meshed and connected with the ceramic sand grinding driving gear, the ceramic sand particle lifting type diameter adjusting devices are annularly and uniformly distributed on the ceramic sand angle grinder shell body, the ceramic sand particle lifting type diameter adjusting devices play a role in manually adjusting the height of the inner roller lifting annular table, the height of the inner roller body of the pottery sand angle grinder is adjusted by adjusting the height of the inner roller lifting annular table, thereby adjust the clearance size between interior cylinder body of pottery sand angle mill and the pottery sand angle mill shell body, and then control the particle diameter of grinding the pottery sand.

Further, the ceramic sand particle lifting type diameter adjusting device comprises a lifting adjusting base, a manual adjusting screw rod and a manual adjusting rotary handle, the lifting adjusting bases are annularly and uniformly distributed on the top of the pottery sand angle grinder shell body, manual adjusting base round tables are arranged on the lifting adjusting bases, the manual adjusting base threaded hole is arranged on the manual adjusting base round platform of the lifting adjusting base, the manual adjusting screw rod is rotatably arranged in the manual adjusting base threaded hole, the manual adjusting screw is in threaded fit with the threaded hole of the manual adjusting base, the manual adjusting screw is provided with a circular truncated cone at the bottom of the manual screw, the upper surface contact of manual screw rod bottom round platform and the outside round platform of annular platform, be equipped with manual screw rod top round hole on the manual adjusting screw rod, manual regulation twist grip block is located in manual screw rod top round hole.

As a further preferred aspect of the present invention, the particle size adjustable self-compensating type ceramic plate planing rough cutting device comprises an array gantry type planing device base, a self-compensating planing device box, a lifting limit guide plate, a self-compensating return spring, a self-compensating lifting base, a flat plate-shaped base material and a staggered type sliding planing device, wherein the array gantry type planing device base is arranged on the automatic circulating type flexible skeleton thermosetting and mixed material heat preservation forming device in an array manner, the cantilever type angle mill shell base support is arranged at the bottom of the array gantry type planing device base, the self-compensating planing device box is arranged on the array gantry type planing device base, the self-compensating planing device box guides the staggered type sliding planing device in the horizontal direction, the lifting limit guide plate guides the self-compensating lifting base in the vertical direction, and a planing box cantilever type bottom plate is arranged on the self-compensating planing device box, the self-compensating planing device box is provided with a planing box intermediate baffle, the self-compensating planing device box is symmetrically provided with planing box side plates, the inclined front blocking blanking hopper is clamped in the planing box side plates, the self-compensating planing device box is provided with planing box side sliding grooves on the planing box side plates, the self-compensating planing device box is provided with a planing box cantilever plate on the top of one group of the planing box side plates, the lifting limit guide plates are symmetrically arranged on the self-compensating planing device box, the self-compensating reset spring array is arranged in the self-compensating planing device box, the self-compensating lifting base station is arranged on a self-compensating reset spring, the flat plate-shaped parent material is clamped in the self-compensating lifting base station, the self-compensating lifting base station is clamped in the lifting limit guide plates in a sliding manner, and the flat plate-shaped parent material is clamped in the planing box side plates in a sliding manner, the staggered sliding planing device is arranged in the self-compensating planing device box body.

Wherein, the staggered sliding planing device comprises a staggered sliding plate body, a high-hardness planing tool bit, a sliding plate top hinging seat, a sliding plate top hinging shaft and a planing sliding plate driving connecting rod, the staggered sliding plate body is symmetrically provided with staggered sliding plate end round shafts, the staggered sliding plate body is clamped and glidingly arranged in a planing box side sliding chute through the staggered sliding plate end round shafts, the staggered sliding plate body is provided with staggered sliding plate clamping grooves, the high-hardness planing tool bit is clamped and arranged in the staggered sliding plate clamping grooves, the high-hardness planing tool bit is fixedly connected with the staggered sliding plate clamping grooves, the high-hardness planing tool bit is provided with array staggered planing teeth in an array manner, the high-hardness planing tool bit cuts small-diameter particles from a flat parent material through the array staggered planing teeth for grinding, and the staggered sliding plate body can only horizontally slide under the matching of the staggered sliding plate end round shafts and the planing box side sliding chute, the staggered type slide plate body reciprocates under the drive of the planing slide plate driving connecting rod, the array type staggered type planing teeth and the flat plate-shaped base metal are in sliding contact, the top of the staggered type slide plate body is symmetrically arranged on the self-compensation lifting base station, the sliding plate top hinged shaft is clamped in the sliding plate top hinged seat, a planing connecting rod end hole is formed in one end of the planing slide plate driving connecting rod, the planing slide plate driving connecting rod is rotatably arranged on the sliding plate top hinged shaft through the planing connecting rod end hole, and a planing connecting rod end circular ring is arranged at the other end of the planing slide plate driving connecting rod.

Preferably, the overhead planing drive assembly comprises a single cantilever type bearing frame, a cantilever fixed circular shaft, a planing drive crank support bearing, a planing drive crank body, a connecting rod hinged circular platform, a crank driven belt pulley, a crank drive motor, a crank drive belt pulley and a crank drive belt, the overhead planing drive assembly plays a role in driving the longitudinal unidirectional self-compensation type ceramsite diameter control device, the single cantilever type bearing frame is arranged on a planing box cantilever type bottom plate, a single fork arm circular hole is arranged on the single cantilever type bearing frame, the cantilever fixed circular shaft is clamped in the single fork arm circular hole, the planing drive crank support bearing is clamped on the cantilever fixed circular shaft, a crank center annular table is arranged on the planing drive crank body, and the planing drive crank body is clamped on the planing drive crank support bearing through the crank center annular table, the planing driving crank body is characterized in that crank weight reduction grooves are formed in the planing driving crank body in an annular and uniform mode, crank edge grooves are formed in the planing driving crank body, a connecting rod hinged round platform is clamped in the crank edge grooves, the planing sliding plate driving connecting rod is arranged on the connecting rod hinged round platform in a circular rotation mode through the end portion of the planing connecting rod, a crank driven belt pulley is clamped on a crank center annular platform, the crank driving motor is arranged on a planing box body cantilever plate, a crank motor output shaft is arranged on the crank driving motor, the crank driving belt pulley is clamped on the crank motor output shaft, a crank driving belt is in rolling contact with the crank driving belt pulley, and the crank driving belt is in rolling contact with the crank driven belt pulley.

Further, the automatic circulation type flexible skeleton thermosetting and mixture heat preservation forming device comprises a flat plate type main body base, a long strip-shaped internal heating mould box body, a long strip-shaped mould body, a high-power hot blast heater, a thermosetting flexible skeleton paving device, an automatic circulation type material injection device and a circulation driving device, wherein the array gantry type planing device base is arranged on the flat plate type main body base in an array manner, the long strip-shaped internal heating mould box body is arranged on the flat plate type main body base and plays a role in heating and curing the thermosetting flexible skeleton paving device, the long strip-shaped mould body is clamped in the long strip-shaped internal heating mould box body, the high-power hot blast heater is symmetrically arranged on the flat plate type main body base, the high-power hot blast heater is arranged on two sides of the long strip-shaped internal heating mould box body, and plays a role in long-time heat preservation of the long strip-shaped mould body, the thermosetting flexible skeleton paving device comprises a thermosetting polyurethane coiled material placing frame, a polyurethane reel supporting shaft, a strip-shaped thermosetting polyurethane reel and a packaged thermosetting polyurethane skeleton body, wherein the thermosetting polyurethane coiled material placing frame is arranged on a flat plate type main body base, a placing frame top groove is formed in the thermosetting polyurethane coiled material placing frame, the strip-shaped thermosetting polyurethane reel is clamped in the placing frame top groove, a placing frame top round hole is formed in the thermosetting polyurethane coiled material placing frame, the polyurethane reel supporting shaft is clamped in the placing frame top round hole, the strip-shaped thermosetting polyurethane reel is rotatably arranged on the polyurethane reel supporting shaft, the packaged thermosetting polyurethane skeleton body is wound on the strip-shaped thermosetting polyurethane reel, and the packaged thermosetting polyurethane skeleton body plays a role in reinforcing the structural strength of the long-strip-shaped artificial cultural stone, the middle of package thermosetting polyurethane skeleton body is equipped with the steel wire net intermediate layer that prevents to break, prevents that the steel wire net intermediate layer that breaks plays the effect that prevents the product and break off at once when the product breaks, automatic cycle type is annotated the material device and is located on rectangular shape internal heating mould box, circulation drive arrangement locates on the automatic cycle type is annotated the material device.

The automatic circulation type material injection device comprises a linear guide rail, a linear sliding block, a linear sliding plate, a mixed raw material blanking control valve and a material injection hose, wherein the linear guide rail and the linear sliding block are used for guiding the linear sliding plate in a horizontal sliding mode, the linear guide rail is symmetrically arranged on two sides of a long strip-shaped internal heating mould box body, the linear sliding block is clamped and slidably arranged on the linear guide rail, the linear sliding plate is arranged on the linear sliding block, a sliding plate center hole is formed in the linear sliding plate, the mixed raw material blanking control valve is clamped and arranged in the sliding plate center hole, the speed of injecting mixed raw materials into the long strip-shaped mould body is controlled through the mixed raw material blanking control valve, one end of the material injection hose is arranged on the mixed raw material blanking control valve, and the other end of the material injection hose is arranged on the intermediary intervention type double-helix stirring mixing device; the circulating driving device comprises a dynamic injection sliding plate driving motor, a sliding plate motor driving gear, an idler supporting frame, an idler supporting shaft, a replaceable inertia fixed gear and a sliding plate transmission fixed gear belt, wherein the dynamic injection sliding plate driving motor is arranged on a linear sliding plate, a sliding plate motor driving main shaft is arranged on the dynamic injection sliding plate driving motor, the sliding plate motor driving gear is clamped on the sliding plate motor driving main shaft, the idler supporting frame is symmetrically arranged on one side of a strip-shaped internal heating mould box body, the idler supporting shaft is clamped in the idler supporting frame, the idler supporting shaft is fixedly connected with the idler supporting frame, the replaceable inertia fixed gear is clamped on the idler supporting shaft, the replaceable inertia fixed gear is fixedly connected with the idler supporting shaft, the sliding plate transmission fixed gear belt is clamped on the replaceable inertia fixed gear, the upper end and the slide motor drive gear meshing of the fixed cingulum of slide transmission are connected, the lower extreme and the slide motor drive gear separation of the fixed cingulum of slide transmission, connect the straight line slide level of drive through the meshing of the fixed cingulum of slide motor drive gear and slide transmission and slide.

Further, the intermediary intervention type double-helix stirring and mixing device comprises a gantry-shaped stirring device base, a material mixing barrel, a mixing barrel external fixing frame, a stirring motor mounting plate, a mixing and stirring motor, a stirring rotating main shaft, a double-helix middle cross rod, opposite stirring double-helix belts, a raw material storage device and a raw material filling control device, wherein the gantry-shaped stirring device base is arranged on the flat plate type main body base, a gantry-shaped base center round hole is arranged on the gantry-shaped stirring device base, a mixing barrel bottom discharge hole is arranged on the material mixing barrel, the material mixing barrel is clamped in the gantry-shaped stirring device base through the mixing barrel bottom discharge hole, the material mixing barrel plays a role of containing raw materials, the other end of the material injection hose is clamped in the mixing barrel bottom discharge hole, the mixing barrel external fixing frames are symmetrically arranged on the gantry-shaped stirring device base, the device is characterized in that a fixed frame arc hoop is arranged on a fixed frame outside the mixing drum, the fixed frame outside the mixing drum is fixedly connected with the outer wall of the material mixing drum through the fixed frame arc hoop, the stirring motor mounting plate is arranged on the material mixing drum, the antigravity sand pumping air blower pump is arranged on the material mixing drum, the mixing stirring motor is clamped in the stirring motor mounting plate, a stirring motor output shaft is arranged on the mixing stirring motor, the stirring rotating main shaft is fixedly connected with the stirring motor output shaft, a cross rod center clamping hole is arranged on a cross rod in the middle of the double helical ribbon, the cross rod in the middle of the double helical ribbon is arranged on the stirring rotating main shaft through a cross rod center clamping hole array, the cross rod in the middle of the double helical ribbon plays a role in fixing and supporting, the oppositely arranged stirring double helical ribbon is symmetrically arranged at the end part of the cross rod in the middle of the double helical ribbon, the oppositely arranged stirring double helical ribbon is fixedly connected with the cross rod in the middle of the double helical ribbon, the raw material storage device comprises a raw material storage box and raw material discharging pipes, wherein a raw material box base is arranged on the raw material storage box, the raw material storage box is annularly and uniformly distributed at the top of the material mixing barrel through the raw material box base, and the raw material discharging pipes are clamped at the bottom of the raw material storage box; the raw material filling control device comprises a first raw material control valve, a second raw material control valve and a third raw material control valve, automatic filling of various raw materials is controlled through the raw material filling control device, the first raw material control valve is clamped and arranged at the tops of one group of raw material discharging pipes, the second raw material control valve is clamped and arranged at the tops of one group of raw material discharging pipes, and the third raw material control valve is clamped and arranged at the tops of the other group of raw material discharging pipes.

Wherein the integrated control panel is arranged on the flat plate type main body base and comprises a power supply button, an automatic forming button, a central processing unit, a raw material planing button, an antigravity sand pumping button, a double-ribbon stirring button and a ceramic sand grinding button, the power supply button is arranged on the automatic forming button and electrically connected, the power supply button is arranged on the raw material planing button and electrically connected, the power supply button is arranged on the antigravity sand pumping button and electrically connected, the power supply button is arranged on the double-ribbon stirring button and electrically connected, the central processing unit is arranged on the raw material control valve for communication connection, the central processing unit is arranged on the high-power hot blast heater for communication connection, central processing unit locates and mixes raw materials unloading control valve communication connection, central processing unit locates developments and annotates material slide driving motor communication connection, central processing unit locates rectangular shape internal heating mould box communication connection, the raw materials planing button is connected with crank driving motor electricity, antigravity takes out the sand button and antigravity takes out sand blower pump electricity to be connected, two ribbon stirring buttons are connected with mixed agitator motor electricity, the pottery sand grinds button and pottery sand and grinds cylinder driving motor electricity and connect.

The invention with the structure has the following beneficial effects: the scheme is that the manufacturing equipment of the strip-shaped artificial culture stone based on the dynamic characteristic principle is used for creatively improving the process of manufacturing the raw materials of the artificial culture stone from the process perspective; in order to obtain rough machining products with uniform particle size in a rough grinding stage, the invention creatively provides a particle size adjustable self-compensating type ceramic plate planing rough cutting device based on the planing technology of the traditional woodworker, a rough product with approximate volume size is cut from stone in a mode of reciprocating motion of inverted hook teeth which are arranged in a staggered mode on the stone, the particle size of the rough machining product can be adjusted in a mode of replacing planing tool bits, and the problems that the products produced by the existing rough machining preparation device are different in size, not only need to be crushed for the second time, but also the energy utilization rate is low during the secondary crushing are effectively solved; in the precise grinding stage, in order to simplify the structure and the operation process, the invention creatively provides a hidden full-coverage self-screening type pottery sand particle gyration angle grinder collection device based on a self-service principle, only crushed stone can continue to sink in a continuously narrowed grinding space, the stone with large particle size still remains on the upper layer for crushing, the technical effects of automatic screening and continuous grinding of particles with particle sizes beyond the range are realized under the condition of no screening and furnace returning device, and the problems of long grinding time, low efficiency, frequent screening and furnace returning of the existing precise grinding device are effectively solved by matching with an annular longitudinal unidirectional self-compensation type pottery sand particle diameter regulation and control device; during final forming, the invention creatively provides an automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, thermosetting aggregate is laid in slurry, and then drying forming is carried out, so that the problem that sand materials generated by grinding are easy to damp and harden after being stored for a long time is avoided, and the structural strength of the long-strip-shaped artificial culture stone is greatly improved under the condition of not influencing indoor wireless signals.

Drawings

Fig. 1 is a perspective view of an elongated artificial culture stone manufacturing apparatus based on the dynamic characteristic principle according to the present invention;

fig. 2 is a front view of an elongated artificial culture stone manufacturing apparatus based on the dynamic characteristics principle according to the present invention;

fig. 3 is a right side view of an elongated artificial culture stone manufacturing apparatus according to the principle of dynamic characteristics of the present invention;

fig. 4 is a top view of an elongated artificial culture stone manufacturing apparatus according to the principle of dynamic characteristics of the present invention;

FIG. 5 is a cross-sectional view taken along section line A-A of FIG. 3;

FIG. 6 is a cross-sectional view taken along section line B-B of FIG. 3;

FIG. 7 is a cross-sectional view taken along section line C-C of FIG. 2;

FIG. 8 is a schematic structural view of a concealed full-coverage self-screening type pottery sand particle gyration angle mill collection device;

FIG. 9 is a schematic structural view of a ring-type longitudinal unidirectional self-compensating ceramic sand particle diameter control device;

FIG. 10 is a schematic view of a particle size adjustable self-compensating ceramic plate planing rough cutting device;

FIG. 11 is a schematic view of an overhead planing drive assembly;

FIG. 12 is a schematic structural view of an automatic circulation type flexible skeleton thermosetting and mixture heat-preservation molding device;

FIG. 13 is a schematic structural diagram of an intermediate intervention type double helix stirring and mixing device;

FIG. 14 is an enlarged view of a portion I of FIG. 7;

FIG. 15 is an enlarged view of a portion II of FIG. 7;

fig. 16 is a partial enlarged view of a portion iii in fig. 7;

FIG. 17 is an enlarged view of a portion IV of FIG. 7;

FIG. 18 is an enlarged view of a portion V in FIG. 6;

FIG. 19 is an enlarged view of a portion VI of FIG. 7;

FIG. 20 is an enlarged fragmentary view of the portion VII of FIG. 4;

fig. 21 is a schematic block diagram of an elongated artificial culture stone manufacturing apparatus based on the principle of dynamic characteristics according to the present invention;

fig. 22 is a circuit diagram of an automatic filling and forming circuit of an elongated artificial culture stone manufacturing apparatus according to the dynamic characteristic principle of the present invention;

fig. 23 is a motor control circuit diagram of an elongated artificial culture stone manufacturing apparatus according to the principle of dynamic characteristics of the present invention;

fig. 24 is a circuit diagram of a switch control of an elongated artificial culture stone manufacturing apparatus according to the principle of dynamic characteristics of the present invention;

fig. 25 is a circuit diagram of a solenoid valve control circuit of an elongated artificial culture stone manufacturing apparatus according to the principle of dynamic characteristics of the present invention.

Wherein, 1, a hidden full-covering self-screening type pottery sand particle rotary angle grinder collection device, 2, a ring-arranged longitudinal unidirectional self-compensation type pottery sand particle diameter regulation and control device, 3, a particle diameter adjustable self-compensation type pottery plate planing rough cutting device, 4, an overhead planing drive component, 5, an automatic circulation type flexible framework thermosetting and mixture heat preservation forming device, 6, an intermediate intervention type double helix stirring and mixing device, 7, an integrated control panel, 8, a cantilever type angle grinder shell base support frame, 9, a single cantilever type angle grinder motor mounting arm support, 10, a pottery sand angle grinder shell body, 11, an inner roller self-resetting pre-tightening spring, 12, a pottery sand grinder roller drive motor, 13, a pottery sand grinder drive gear, 14, an angle grinder device accessory, 15, a top round hole of the angle grinder motor arm support frame, 16, the bottom of the angle grinder motor arm support, 17 and a bottom ring of the angle grinder shell, 18. an angle grinder shell high-hardness crushing surface, 19 an angle grinder shell internal circular table, 20 an shell internal circular table notch, 21 an angle grinder shell internal circular table guide upright post, 22 a grinding driving motor output shaft, 23 a ceramic sand grinding bottom supporting bearing, 24 an angle grinder device bottom lifting limiting sleeve, 25 an angle grinder inner cavity blocking cover, 26 an inclined front blocking blanking hopper, 27 a counter-gravity pumping pipe, 28 a counter-gravity pumping blowing pump, 29 an inner roller lifting annular table, 30 an inner roller top supporting bearing, 31 an inner roller body of a ceramic sand angle grinder, 32 a ceramic sand grinding driven gear ring, 33 a ceramic sand particle lifting diameter adjusting device, 34 an annular table external circular table, 35 an annular outer circular table guide circular hole, 36 an annular outer circular table notch, 37 an angle grinder inner roller top straight annular table, 38 an angle grinder inner roller high-hardness crushing surface, 39 an angle grinder inner roller bottom circular table, 40. corner milling inner drum feeding gap, 41, corner milling inner drum bottom straight pipe, 42, lifting adjusting base, 43, manual adjusting screw, 44, manual adjusting rotating handle, 45, manual adjusting base circular table, 46, manual adjusting base threaded hole, 47, manual screw bottom circular table, 48, manual screw top circular hole, 49, array gantry type planing device base, 50, self-compensating planing device box, 51, lifting limiting guide plate, 52, self-compensating return spring, 53, self-compensating lifting base table, 54, flat plate-shaped base material, 55, staggered type sliding planing device, 56, planing box cantilever type bottom plate, 57, planing box middle partition plate, 58, planing box side plate, 59, planing box side sliding groove, 60, planing box cantilever plate, 61, staggered type hinged sliding plate body, 62, high hardness planing tool bit, 63, sliding plate top seat, 64, sliding plate top seat, sliding plate, A hinged shaft at the top of the sliding plate 65, a planing sliding plate driving connecting rod 66, a round shaft at the end part of the staggered sliding plate 67, a clamping groove of the staggered sliding plate 68, an array-type staggered planing teeth 69, a planing connecting rod end hole 70, a planing connecting rod end ring 71, a single cantilever type bearing bracket 72, a cantilever fixed round shaft 73, a planing driving crank supporting bearing 74, a planing driving crank body 75, a connecting rod hinged round platform 76, a crank driven pulley 77, a crank driving motor 78, a crank driving pulley 79, a crank driving belt 80, a round hole of a single fork arm 81, a crank center ring platform 82, a crank lightening groove 83, a crank edge groove 84, a crank motor output shaft 85, a flat plate type main body base 86, a strip-shaped internal heating die box 87, a strip-shaped die body 88, a high-power hot blast heater 89, a thermosetting flexible framework paving device, 90. an automatic circulation type material injection device, 91, a circulation driving device, 92, a thermosetting polyurethane coiled material placing rack, 93, a polyurethane reel supporting shaft, 94, a strip-shaped thermosetting polyurethane reel, 95, a packaged thermosetting polyurethane framework body, 96, a linear guide rail, 97, a linear sliding block, 98, a linear sliding plate, 99, a mixed raw material blanking control valve, 100, a material injection hose, 101, a dynamic material injection sliding plate driving motor, 102, a sliding plate motor driving gear, 103, an idler wheel supporting frame, 104, an idler wheel supporting shaft, 105, a replaceable inert fixed gear, 106, a sliding plate transmission fixed gear belt, 107, a placing rack top groove, 108, a placing rack top round hole, 109, an anti-fracture steel wire mesh interlayer, 110, a sliding plate central hole, 111, a sliding plate motor driving main shaft, 112, a gantry-shaped stirring device base, 113, a material mixing barrel, 114 and a mixing barrel external fixing rack, 115. a stirring motor mounting plate, 116, a mixing and stirring motor, 117, a stirring rotating main shaft, 118, a double-ribbon middle cross bar, 119, an opposite type stirring double-ribbon, 120, a raw material storage device, 121, a raw material filling control device, 122, a gantry base center circular hole, 123, a mixing cylinder bottom discharge hole, 124, a fixed frame arc hoop, 125, a stirring motor output shaft, 126, a cross bar center clamping hole, 127, a raw material storage box, 128, a raw material discharging pipe, 129, a raw material control valve I, 130, a raw material control valve II, 131, a raw material control valve III, 132, a raw material box base, 133, a power supply button, 134, an automatic forming button, 135, a central processing unit, 136, a raw material planing button, 137, an anti-gravity sand pumping button, 138, a double-ribbon stirring button, 139 and a ceramic sand grinding button.

In the circuit diagram of fig. 22, VCC is the power supply of the circuit, GND is the ground, C1-C2 is the capacitor, STC89C52 is the cpu, and Y1 is the crystal oscillator.

In the motor control circuit diagram of fig. 23, VCC is a power supply of the circuit, GND is a ground terminal, R1-R9 are resistors, C1-C8 are capacitors, Q1-Q6 are triodes, D1-D4 are diodes, and M is a motor.

In the switch control circuit diagram of fig. 24, +5V is the power supply of the circuit, GND is the ground, C5 is the capacitor, S1 is the processing button, and JP1 has port 1 as the power control terminal of the cpu.

In the solenoid valve control circuit diagram of fig. 25, 24V is the power supply of the circuit, GND is the ground, R1-R4 are resistors, D1 diode, and CM is the solenoid valve.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, 4, 6, 7, 12 and 19, the invention provides a device for manufacturing a long artificial culture stone based on the dynamic characteristic principle, comprising a concealed full-covering self-screening type pottery sand particle turning angle grinder collecting device 1, a ring-shaped longitudinal unidirectional self-compensating type pottery sand particle diameter regulating device 2, a particle diameter adjustable self-compensating type pottery plate planing rough cutting device 3, an overhead planing driving component 4, an automatic circulating type flexible framework thermosetting and mixture heat preservation forming device 5, an intermediate interposed type double-helix stirring and mixing device 6 and an integrated control panel 7, wherein the concealed full-covering self-screening type pottery sand particle turning angle grinder collecting device 1 is arranged on the particle diameter adjustable self-compensating type pottery plate planing rough cutting device 3, the ring-shaped longitudinal unidirectional self-compensating type pottery sand particle diameter regulating device 2 is arranged on the concealed full-covering self-screening type pottery sand particle turning angle grinder collecting device 1, the concealed full-coverage self-screening type ceramsite particle rotation angle grinding and collecting device 1 and the annular longitudinal unidirectional self-compensation type ceramsite particle diameter regulating and controlling device 2 have the function of grinding ceramsite, the particle size adjustable self-compensation type ceramic plate planing rough cutting device 3 is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device 5, the overhead type planing driving component 4 is arranged on the particle size adjustable self-compensation type ceramic plate planing rough cutting device 3, the particle size adjustable self-compensation type ceramic plate planing rough cutting device 3 and the overhead type planing driving component 4 have the function of roughly cutting off ceramsite from a parent metal, the intermediate interposed type double-spiral stirring and mixing device 6 is arranged on the automatic circulation type flexible thermosetting framework and mixture heat preservation forming device 5, the intermediate interposed type double-spiral stirring and mixing device 6 has the function of mixing raw materials, and the integrated control panel 7 is arranged on the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device 5; the automatic circulation type flexible framework thermosetting and mixture heat preservation forming device 5 comprises a flat plate type main body base 85, a strip-shaped inner heating mould box body 86, a strip-shaped mould body 87, a high-power hot blast heater 88, a thermosetting flexible framework paving device 89, an automatic circulation type material injection device 90 and a circulation driving device 91, wherein the strip-shaped inner heating mould box body 86 is arranged on the flat plate type main body base 85, the strip-shaped mould body 87 is clamped in the strip-shaped inner heating mould box body 86, the high-power hot blast heaters 88 are symmetrically arranged on the flat plate type main body base 85, the high-power hot blast heaters 88 are arranged on two sides of the strip-shaped inner heating mould box body 86, the high-power hot blast heaters 88 play a role in long-time heat preservation of the strip-shaped mould body 87, the thermosetting flexible framework paving device 89 comprises a thermosetting polyurethane coiled material placing frame 92, a polyurethane reel supporting shaft 93, a circular mould box body and a circular mould, a circular mould cover is arranged on the flat plate, and a circular mould body, and a circular mould is arranged on the circular plate, and a circular plate, A strip-shaped thermosetting polyurethane winding drum 94 and a wound thermosetting polyurethane framework body 95, a thermosetting polyurethane coiled material placing rack 92 is arranged on the flat plate type main body base 85, a placing rack top groove 107 is arranged on the thermosetting polyurethane coiled material placing rack 92, the strip-shaped thermosetting polyurethane winding drum 94 is clamped in the placing rack top groove 107, the thermosetting polyurethane coiled material placing frame 92 is provided with a placing frame top round hole 108, the polyurethane reel supporting shaft 93 is clamped in the placing frame top round hole 108, a belt-shaped thermosetting polyurethane winding drum 94 is rotatably arranged on a polyurethane winding drum supporting shaft 93, a packaged thermosetting polyurethane framework body 95 is wound on the belt-shaped thermosetting polyurethane winding drum 94, a breakage-proof steel wire mesh interlayer 109 is arranged in the middle of the packaged thermosetting polyurethane framework body 95, an automatic circulation type material injection device 90 is arranged on the strip-shaped internal heating mold box body 86, and a circulation driving device 91 is arranged on the automatic circulation type material injection device 90; the automatic circulation type material injection device 90 comprises linear guide rails 96, linear sliding blocks 97, linear sliding plates 98, a mixed raw material blanking control valve 99 and material injection hoses 100, wherein the linear guide rails 96 are symmetrically arranged on two sides of a strip-shaped internal heating die box body 86, the linear sliding blocks 97 are clamped and slidably arranged on the linear guide rails 96, the linear sliding plates 98 are arranged on the linear sliding blocks 97, sliding plate center holes 110 are formed in the linear sliding plates 98, the mixed raw material blanking control valve 99 is clamped and arranged in the sliding plate center holes 110, one end of each material injection hose 100 is arranged on the mixed raw material blanking control valve 99, and the other end of each material injection hose 100 is arranged on an intermediate intervention type double-helix stirring and mixing device 6; the circulating driving device 91 comprises a dynamic injection sliding plate driving motor 101, a sliding plate motor driving gear 102, an idle wheel supporting frame 103, an idle wheel supporting shaft 104, a replaceable inert fixed gear 105 and a sliding plate transmission fixed toothed belt 106, wherein the dynamic injection sliding plate driving motor 101 is arranged on a linear sliding plate 98, a sliding plate motor driving main shaft 111 is arranged on the dynamic injection sliding plate driving motor 101, the sliding plate motor driving gear 102 is clamped on the sliding plate motor driving main shaft 111, the idle wheel supporting frame 103 is symmetrically arranged on one side of a strip-shaped internal heating mould box body 86, the idle wheel supporting shaft 104 is clamped in the idle wheel supporting frame 103, the idle wheel supporting shaft 104 is fixedly connected with the idle wheel supporting frame 103, the replaceable inert fixed gear 105 is clamped on the idle wheel supporting shaft 104, the replaceable inert fixed gear 105 is fixedly connected with the idle wheel supporting shaft 104, and the sliding plate transmission fixed toothed belt 106 is clamped on the replaceable inert fixed gear 105, the upper end of the sliding plate transmission fixed toothed belt 106 is meshed with the sliding plate motor driving gear 102, and the lower end of the sliding plate transmission fixed toothed belt 106 is separated from the sliding plate motor driving gear 102.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 10, fig. 15, the particle size adjustable self-compensating type ceramic slab planing rough cutting device 3 comprises an array gantry type planing device base 49, a self-compensating planing device box 50, a lifting limit guide plate 51, a self-compensating return spring 52, a self-compensating lifting base 53, a flat plate-shaped base material 54 and a staggered type sliding planing device 55, the array gantry type planing device base 49 is arranged on a flat plate type main body base 85 in an array manner, the self-compensating planing device box 50 is arranged on the array gantry type planing device base 49, a planing box cantilever type bottom plate 56 is arranged on the self-compensating planing device box 50, a planing box middle partition plate 57 is arranged on the self-compensating planing device box 50, planing box side plates 58 are symmetrically arranged on the self-compensating planing device box 50, a planing box side chute 59 is arranged on the planing box side plates 58 of the self-compensating planing device box 50, the self-compensation planing device box 50 is provided with a planing box cantilever plate 60 at the top of one group of planing box side plates 58, lifting limit guide plates 51 are symmetrically arranged on the self-compensation planing device box 50, self-compensation return springs 52 are arranged in the self-compensation planing device box 50 in an array mode, a self-compensation lifting base platform 53 is arranged on the self-compensation return springs 52, a flat plate-shaped base material 54 is clamped in the self-compensation lifting base platform 53, the self-compensation lifting base platform 53 is clamped and slidably arranged in the lifting limit guide plates 51, the flat plate-shaped base material 54 is clamped and slidably arranged in the planing box side plates 58, and the staggered type slippage planing device 55 is arranged in the self-compensation planing device box 50; the staggered type sliding planing device 55 comprises a staggered type sliding plate body 61, a high-hardness planing tool bit 62, a sliding plate top hinging seat 63, a sliding plate top hinging shaft 64 and a planing sliding plate driving connecting rod 65, wherein staggered type sliding plate end round shafts 66 are symmetrically arranged on the staggered type sliding plate body 61, the staggered type sliding plate body 61 is clamped and slidingly arranged in a planing box side sliding groove 59 through the staggered type sliding plate end round shafts 66, a staggered type sliding plate clamping groove 67 is arranged on the staggered type sliding plate body 61, the high-hardness planing tool bit 62 is clamped and slidingly arranged in the staggered type sliding plate clamping groove 67, the high-hardness planing tool bit 62 is fixedly connected with the staggered type sliding plate clamping groove 67, an array type staggered type planing teeth 68 are arranged on the high-hardness planing tool bit 62, the array type staggered type planing teeth 68 are in sliding contact with the flat plate base material 54, the self-compensation lifting base 53 is symmetrically arranged on the top of the staggered type sliding plate body 61, the sliding plate top hinging shaft 64 is clamped and arranged in the sliding plate top hinging seat 63, one end of the planing slide drive link 65 is provided with a planing link end hole 69, the planing slide drive link 65 is rotatably disposed on the slide top hinge shaft 64 through the planing link end hole 69, and the other end of the planing slide drive link 65 is provided with a planing link end ring 70.

As shown in fig. 1, 5, 6, 11 and 14, the overhead planing drive assembly 4 includes a single-cantilever type bearing bracket 71, a cantilever fixed type circular shaft 72, a planing drive crank support bearing 73, a planing drive crank body 74, a connecting rod hinged circular table 75, a crank driven pulley 76, a crank drive motor 77, a crank drive pulley 78 and a crank drive belt 79, the single-cantilever type bearing bracket 71 is disposed on the planing box cantilever type bottom plate 56, the single-cantilever type bearing bracket 71 is provided with a single-fork arm circular hole 80, the cantilever fixed type circular shaft 72 is clamped in the single-fork arm circular hole 80, the planing drive crank support bearing 73 is clamped on the cantilever fixed type circular shaft 72, the planing drive crank body 74 is provided with a crank center annular table 81, the planing drive crank body 74 is clamped on the planing drive crank support bearing 73 through the crank center annular table 81, the planing drive crank body 74 is provided with crank weight reduction grooves 82 uniformly and annularly, the planing driving crank body 74 is provided with a crank edge groove 83, the connecting rod hinging circular truncated cone 75 is clamped in the crank edge groove 83, the planing sliding plate driving connecting rod 65 is rotatably arranged on the connecting rod hinging circular truncated cone 75 through a planing connecting rod end circular ring 70, the crank driven belt pulley 76 is clamped on a crank center circular truncated cone 81, the crank driving motor 77 is arranged on a planing box cantilever plate 60, the crank driving motor 77 is provided with a crank motor output shaft 84, the crank driving belt pulley 78 is clamped on the crank motor output shaft 84, the crank driving belt 79 is in rolling contact with the crank driving belt pulley 78, and the crank driving belt 79 is in rolling contact with the crank driven belt pulley 76.

As shown in fig. 1, 6, 7, 8 and 16, the concealed full-coverage self-screening type pottery sand particle rotation angle grinder collection device 1 comprises a cantilever type angle grinder shell base support frame 8, a single cantilever type angle grinder motor mounting arm frame 9, a pottery sand angle grinder shell body 10, an inner roller self-resetting pre-tightening spring 11, a pottery sand grinding roller driving motor 12, a pottery sand grinding driving gear 13 and an angle grinder attachment 14, wherein the cantilever type angle grinder shell base support frame 8 is arranged at the bottom of an array gantry type planing device base 49, the single cantilever type angle grinder motor mounting arm frame 9 is arranged on the cantilever type angle grinder shell base support frame 8, the single cantilever type angle grinder motor mounting arm frame 9 is provided with an angle grinder motor arm frame top round hole 15, the pottery sand grinding roller driving motor 12 is clamped in the angle grinder arm frame top round hole 15, the pottery sand grinding roller driving motor 12 is provided with a grinding driving motor output shaft 22, the ceramic sand grinding drive gear 13 is clamped on an output shaft 22 of a grinding drive motor, a single cantilever type angle grinding motor mounting arm support 9 is provided with an angle grinding motor arm support bottom round hole 16, a ceramic sand angle grinding shell body 10 is provided with an angle grinding shell bottom round ring 17, the ceramic sand angle grinding shell body 10 is clamped in the angle grinding motor arm support bottom round hole 16 through the angle grinding shell bottom round ring 17, the ceramic sand angle grinding shell body 10 is provided with an angle grinding shell high-hardness crushing surface 18 above the angle grinding shell bottom round ring 17, the ceramic sand angle grinding shell body 10 is provided with an angle grinding shell inner round platform 19, the ceramic sand angle grinding shell body 10 is provided with a shell inner round platform notch 20 on the angle grinding shell inner round platform 19, the ceramic sand angle grinding shell body 10 is annularly provided with angle grinding shell inner round platform guide upright posts 21 on the angle grinding shell inner round platform 19, and inner drum self-resetting pre-tightening springs 11 are annularly and uniformly distributed on the angle grinding shell inner round platform 19, the angle grinder attachment 14 is arranged in the ceramic sand angle grinder shell body 10; the angle grinder attachment 14 comprises a ceramic sand grinding bottom supporting bearing 23, an angle grinder bottom lifting limiting sleeve 24, an angle grinder inner cavity blocking cover 25, an inclined front blocking blanking hopper 26, an anti-gravity pumping pipe 27 and an anti-gravity sand pumping blast pump 28, the ceramic sand grinding bottom supporting bearing 23 is clamped in a bottom ring 17 of an angle grinder shell, the bottom lifting limit sleeve 24 of the angle grinder is clamped in the inner ring of the ceramic sand grinding bottom support bearing 23, the angle grinder inner cavity blocking cover 25 is clamped in the annular longitudinal unidirectional self-compensation type ceramic sand particle diameter regulating device 2, the inclined front blocking lower hopper 26 is clamped in the planing box side plate 58, one end of the antigravity pumping pipe 27 is clamped at the bottom of the angle grinder device bottom lifting limiting sleeve 24, the other end of the antigravity pumping pipe 27 is arranged on the antigravity sand pumping air blast pump 28, and the antigravity sand pumping air blast pump 28 is arranged on the intermediary intervention type double-helix stirring and mixing device 6.

As shown in fig. 1, 6, 7, 9 and 16, the annular longitudinal unidirectional self-compensating ceramic sand particle diameter adjusting device 2 comprises an inner roller lifting annular table 29, an inner roller top supporting bearing 30, a ceramic sand angle grinder inner roller body 31, a ceramic sand grinding driven gear ring 32 and a ceramic sand particle lifting diameter adjusting device 33, wherein an annular table outer circular table 34 is arranged on the inner roller lifting annular table 29, the inner roller lifting annular table 29 is clamped and slidably arranged in the ceramic sand angle grinder shell body 10 through the annular table outer circular table 34, the inner roller lifting annular table 29 is arranged on an inner roller self-resetting pre-tightening spring 11 through the annular table outer circular table 34, annular outer circular table guiding round holes 35 are annularly distributed on the annular table outer circular table 34 of the inner roller lifting annular table 29, the inner roller lifting annular table 29 is clamped and slidably arranged on an angle grinder shell inner circular table guiding upright post 21 through the annular outer circular table guiding round holes 35, an annular outer circular truncated cone notch 36 is arranged on the inner roller lifting annular platform 29, the annular outer circular truncated cone notch 36 is positioned above the inner circular platform notch 20 in the shell, an inner roller top supporting bearing 30 is clamped in the inner roller lifting annular platform 29, an angle grinder inner roller top straight annular platform 37 is arranged on the ceramic sand angle grinder inner roller body 31, an angle grinder inner cavity baffle cover 25 is clamped in the angle grinder inner roller top straight annular platform 37, the ceramic sand angle grinder inner roller body 31 is clamped in the inner ring of the inner roller top supporting bearing 30 through the angle grinder inner roller top straight annular platform 37, an angle grinder inner roller high-hardness crushing surface 38 is arranged below the angle grinder inner roller top straight annular platform 37 on the ceramic sand angle grinder inner roller body 31, an angle grinder inner roller bottom circular truncated cone 39 is arranged below the angle grinder inner roller high-hardness crushing surface 38 on the ceramic sand angle grinder inner roller body 31, angle grinder inner roller feeding notches 40 are uniformly distributed on the upper circular truncated cone 39 on the angle grinder inner roller bottom circular truncated cone, the inner cylinder body 31 of the ceramic sand angle grinder is provided with an inner cylinder bottom straight pipe 41 below an inner cylinder bottom round platform 39 of the angle grinder, the inner cylinder body 31 of the ceramic sand angle grinder is clamped and slidably arranged in a bottom lifting limiting sleeve 24 of the angle grinder through the inner cylinder bottom straight pipe 41 of the angle grinder, a ceramic sand grinding driven gear ring 32 is clamped and arranged in a straight ring platform 37 at the top of the inner cylinder of the angle grinder, the ceramic sand grinding driven gear ring 32 is meshed and connected with a ceramic sand grinding driving gear 13, and ceramic sand particle lifting diameter adjusting devices 33 are annularly and uniformly distributed on the outer cylinder body 10 of the ceramic sand angle grinder; the ceramic sand particle lifting type diameter adjusting device 33 comprises a lifting adjusting base 42, manual adjusting screws 43 and a manual adjusting rotating handle 44, the lifting adjusting base 42 is annularly and uniformly arranged at the top of the ceramic sand angle grinder shell body 10, a manual adjusting base circular truncated cone 45 is arranged on the lifting adjusting base 42, a manual adjusting base threaded hole 46 is formed in the manual adjusting base circular truncated cone 45 of the lifting adjusting base 42, the manual adjusting screws 43 are rotatably arranged in the manual adjusting base threaded hole 46, the manual adjusting screws 43 are in threaded fit with the manual adjusting base threaded hole 46, manual screw bottom circular truncated cones 47 are arranged on the manual adjusting screws 43, the manual screw bottom circular truncated cones 47 are in contact with the upper surface of the annular table outer circular truncated cone 34, manual screw top round holes 48 are formed in the manual adjusting screws 43, and the manual adjusting rotating handle 44 is clamped in the manual screw top round holes 48.

As shown in fig. 1, 4, 13, 17, 18 and 19, the intermediary intervention type double helix stirring and mixing device 6 comprises a gantry-shaped stirring device base 112, a material mixing cylinder 113, a mixing cylinder external fixing frame 114, a stirring motor mounting plate 115, a mixing and stirring motor 116, a stirring rotating main shaft 117, a double-ribbon middle cross bar 118, an opposite type stirring double ribbon 119, a raw material storage device 120 and a raw material filling control device 121, wherein the gantry-shaped stirring device base 112 is arranged on a flat plate type main body base 85, a gantry-shaped base central circular hole 122 is arranged on the gantry-shaped stirring device base 112, a mixing cylinder bottom discharge hole 123 is arranged on the material mixing cylinder 113, the material mixing cylinder 113 is clamped in the gantry-shaped stirring device base 112 through the mixing cylinder bottom discharge hole 123, the other end of an injection hose 100 is clamped in the mixing cylinder bottom discharge hole 123, the mixing cylinder external fixing frames 114 are symmetrically arranged on the gantry-shaped stirring device base 112, the external fixing frame 114 of the mixing drum is provided with a fixing frame arc-shaped hoop 124, the external fixing frame 114 of the mixing drum is fixedly connected with the outer wall of the material mixing drum 113 through the fixing frame arc-shaped hoop 124, the stirring motor mounting plate 115 is arranged on the material mixing drum 113, the counter-gravity sand pumping air-blowing pump 28 is arranged on the material mixing drum 113, the mixing stirring motor 116 is clamped in the stirring motor mounting plate 115, the mixing stirring motor 116 is provided with a stirring motor output shaft 125, the stirring rotating main shaft 117 is fixedly connected with the stirring motor output shaft 125, a cross bar center clamping hole 126 is arranged on the double-ribbon middle cross bar 118, the double-ribbon middle cross bar 118 is arranged on the stirring rotating main shaft 117 in an array through the cross bar center clamping holes 126, the opposite stirring double-ribbons 119 are symmetrically arranged at the end part of the double-ribbon middle cross bar 118, the opposite stirring double-ribbon 119 is fixedly connected with the double-ribbon middle cross bar 118, the raw material storage device 120 comprises a raw material storage box 127 and a raw material discharging pipe 128, the raw material storage box 127 is provided with a raw material box base 132, the raw material storage box 127 is annularly and uniformly distributed on the top of the material mixing cylinder 113 through the raw material box base 132, and the raw material discharging pipe 128 is clamped on the bottom of the raw material storage box 127; the raw material filling control device 121 comprises a first raw material control valve 129, a second raw material control valve 130 and a third raw material control valve 131, wherein the first raw material control valve 129 is clamped at the top of one group of the raw material discharging pipes 128, the second raw material control valve 130 is clamped at the top of one group of the raw material discharging pipes 128, and the third raw material control valve 131 is clamped at the top of the other group of the raw material discharging pipes 128.

As shown in fig. 1, 20, 21, 22, 23, 24 and 25, the integrated control panel 7 is disposed on the flat plate type main body base 85, the integrated control panel 7 includes a power button 133, an automatic forming button 134, a central processor 135, a material planing button 136, a counter-gravity sand pumping button 137, a double-ribbon stirring button 138 and a ceramic sand grinding button 139, the power button 133 is disposed on the automatic forming button 134 and electrically connected, the power button 133 is disposed on the material planing button 136 and electrically connected, the power button 133 is disposed on the counter-gravity sand pumping button 137 and electrically connected, the power button 133 is disposed on the double-ribbon stirring button 138 and electrically connected, the power button 133 is disposed on the ceramic sand grinding button 139 and electrically connected, the central processor 135 is disposed on the first material control valve 129 and communicatively connected, the central processor 135 is disposed on the second material control valve 130 and communicatively connected, the central processor 135 is disposed on the third material control valve 131 and communicatively connected, the central processing unit 135 is arranged on the first raw material control valve 129 and is in communication connection, the central processing unit 135 is arranged on the high-power hot blast heater 88 and is in communication connection, the central processing unit 135 is arranged on the mixed raw material blanking control valve 99 and is in communication connection, the central processing unit 135 is arranged on the dynamic injection sliding plate driving motor 101 and is in communication connection, the central processing unit 135 is arranged on the strip-shaped internal heating mold box 86 and is in communication connection, the raw material planing key 136 is electrically connected with the crank driving motor 77, the antigravity sand pumping key 137 is electrically connected with the antigravity sand pumping blast pump 28, the double-ribbon stirring key 138 is electrically connected with the mixed stirring motor 116, and the ceramic sand grinding key 139 is electrically connected with the ceramic sand grinding roller driving motor 12.

When the device is used, a user firstly presses the power key 133 to supply power to the device, then presses the raw material planing key 136 to start the crank drive motor 77, the crank drive motor output shaft 84 drives the crank driven pulley 76 to rotate through the crank drive pulley 78 and the crank drive belt 79, so as to drive the planing drive crank body 74 to rotate under the support of the planing drive crank support bearing 73, the planing drive crank body 74 drives the staggered sliding plate body 61 to do linear reciprocating motion under the limit of the planing box side sliding chute 59 through the planing sliding plate drive connecting rod 65 during rotation, during the movement of the staggered sliding plate body 61, the surface of the flat plate-shaped base material 54 is roughly sliced through the arrayed staggered planing teeth 68 arrayed on the high-hardness planing tool bit 62, small-particle ceramic sand is roughly sliced off, but the particle size is far from meeting the use requirement, then, the manual adjusting rotary handle 44 is manually rotated to adjust the height of the inner roller lifting annular table 29, the inner roller lifting annular table 29 can compress the inner roller self-resetting pre-tightening spring 11 under the compression of the round table 47 at the bottom of the manual screw rod, and drives the ceramic sand angle grinder inner roller body 31 to move downwards until the minimum gap between the high-hardness crushing surface 38 of the inner roller of the angle grinder and the high-hardness crushing surface 18 of the shell of the angle grinder is in an appropriate value position; the small-particle ceramic sand generated by rough cutting in the previous process falls into the concealed full-coverage self-screening type ceramic sand particle rotary angle grinding and collecting device 1 along the inclined front blocking discharge hopper 26, and falls to the middle of the high-hardness crushing surface 18 of the angle grinding shell and the high-hardness crushing surface 38 of the angle grinding inner drum through the shell inner circular table notch 20 and the annular outer circular table notch 36; then the ceramic sand grinding button 139 is pressed to start the ceramic sand grinding drum driving motor 12, the ceramic sand angle grinder inner drum body 31 is driven to rotate by the grinding driving motor output shaft 22 through the ceramic sand grinding driving gear 13 and the ceramic sand grinding driven gear ring 32, the ceramic sand particles are ground through the relative rotation of the angle grinder shell high-hardness crushing surface 18 and the angle grinder inner drum high-hardness crushing surface 38 until the ceramic sand particles are smaller than the minimum value of the gap between the angle grinder shell high-hardness crushing surface 18 and the angle grinder inner drum high-hardness crushing surface 38, the ceramic sand particles fall onto the bottom circular table 39 of the angle grinder inner drum and enter the antigravity pumping pipe 27 through the angle grinder inner drum feeding gap 40, then the antigravity sand pumping button 137 is pressed to start the antigravity sand pumping air pump 28, and the ground ceramic sand is pumped into the material mixing cylinder 113 by the antigravity sand pumping air pump 28 at a constant speed, pressing the double helical ribbon stirring key 138 to start the mixing and stirring motor 116, pressing the automatic forming key 134, driving the double helical ribbon middle cross bar 118 and the oppositely arranged stirring double helical ribbon 119 to rotate together at a constant speed by the stirring and rotating main shaft 117 through the stirring and rotating output shaft 125, automatically controlling the raw material filling control device 121 to perform blanking through the central processor 135, enabling the mixed raw materials in the material mixing cylinder 113 to flow into the strip-shaped die body 87 through the mixed raw material blanking control valve 99, simultaneously performing combined control on the strip-shaped internal heating die box body 86, the high-power hot blast heater 88, the mixed raw material blanking control valve 99 and the dynamic material injection sliding plate driving motor 101 through the central processor 135, enabling the linear sliding plate 98 to perform linear reciprocating motion under the driving of the dynamic material injection sliding plate driving motor 101, and closing the mixed raw material blanking control valve 99 when general mixed materials are injected into the strip-shaped die body 87, the production method comprises the steps of manually paving the package thermosetting polyurethane framework body 95 on raw materials filled into the strip-shaped mould body 87 and cutting off the raw materials, opening the mixed raw material blanking control valve 99 again, covering the package thermosetting polyurethane framework body 95 with new mixed materials, heating the strip-shaped mould body 87 to the melting point of the package thermosetting polyurethane framework body 95 through the strip-shaped internal heating mould box body 86, closing the strip-shaped internal heating mould box body 86, slowly cooling and baking products in the strip-shaped mould body 87 through the high-power hot blast heater 88 to finish production of the products.

The actual operation process is simple and easy, firstly, the power supply button 133 is pressed to supply power to the equipment, then the raw material planing button 136 is pressed to start the crank driving motor 77, and the plate-shaped base material 54 is roughly sliced through the particle size adjustable self-compensation type ceramic plate planing rough cutting device 3 and the overhead planing driving component 4; then the manual adjustment rotary handle 44 is manually rotated to adjust the height of the inner drum lifting annular table 29 until the minimum gap between the inner drum high hardness crushing surface 38 of the angle grinder and the outer shell high hardness crushing surface 18 of the angle grinder is at an appropriate value; then, the ceramic sand grinding button 139 is pressed down to start the ceramic sand grinding roller driving motor 12, and ceramic sand particles are ground through the relative rotation of the ceramic sand angle grinder shell body 10 and the ceramic sand angle grinder inner roller body 31; then, the antigravity sand pumping button 137 is pressed to start the antigravity sand pumping air blowing pump 28, the double-ribbon stirring button 138 is pressed to start the mixing stirring motor 116, the automatic forming button 134 is pressed while the antigravity sand pumping air blowing pump 28 pumps the ground ceramic sand into the material mixing cylinder 113 at a constant speed, the raw material filling control device 121 is automatically controlled by the central processing unit 135 to carry out blanking, the central processing unit 135 also carries out combined control on the strip-shaped internal heating mold box body 86, the high-power hot blast heater 88, the mixed raw material blanking control valve 99 and the dynamic material injection sliding plate driving motor 101, the packaged thermosetting polyurethane framework body 95 is manually paved and cut on the raw material which is already arranged in the strip-shaped mold body 87 in the middle pause stage of material injection of the mixed raw material blanking control valve 99 each time, and the packaged thermosetting polyurethane framework body 95 is covered when the material is injected again, and then heating the strip-shaped die body 87 to the melting point of the packaged thermosetting polyurethane framework body 95 through the strip-shaped internal heating die box body 86, then closing the strip-shaped internal heating die box body 86, and slowly cooling and baking the product in the strip-shaped die body 87 through the high-power hot blast heater 88 to finish the production of the product.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.