阅读说明：本技术 一种全自动板材立剖生产线 (Full-automatic plate vertical cutting production line ) 是由 张华� 周小俊 于 2021-08-11 设计创作，主要内容包括：本发明涉及板材加工设备技术领域,一种全自动板材立剖生产线,其包括：进料输送装置、翻板装置、过渡装置、进给装置、立剖装置、出料输送装置,其共同构成板材定向移动的输送系统,所述立剖装置在板材的输送路径上设有竖直的锯条,能够对板材进行纵向贯穿切割,所述进给装置在板材的输送路径左右两侧设有能够夹持所述板材的滚轮,并在板材输送路径的上下两侧分别设有夹持轮及输送带,对位于所述立剖装置内的板材形成纵向、左右方向上的定位约束结构,进而使得进给装置和立剖装置构成连续性立剖结构。本发明目的在于解决现有结构无法连续性作业、加工效率低的问题。(The invention relates to the technical field of plate processing equipment, in particular to a full-automatic plate vertical cutting production line, which comprises: feeding conveyor, plate turnover, transition device, feed arrangement, cut open device, ejection of compact conveyor immediately, its common conveying system who constitutes the directional removal of panel, cut open immediately the device and be equipped with vertical saw blade on the transfer path of panel, can vertically run through the cutting to panel, feed arrangement is equipped with at the transfer path left and right sides of panel and can the centre gripping the gyro wheel of panel to be equipped with centre gripping wheel and conveyer belt respectively in the upper and lower both sides of panel transfer path, to lieing in cut open panel in the device immediately forms vertical, the ascending location restraint structure of left and right sides side, and then make feed arrangement and cut open the device immediately and constitute the continuity and cut open the structure immediately. The invention aims to solve the problems that the existing structure cannot continuously operate and has low processing efficiency.)

1. The utility model provides a full-automatic panel cuts open production line immediately which characterized in that, this full-automatic production line of cutting open immediately includes:

the vertical cutting device is used for longitudinally cutting the plate;

the feeding devices are arranged at the front end and the rear end of the vertical cutting device and are used for clamping and conveying the plates in a longitudinally-arranged state;

the plate turnover devices are arranged on two outer sides of the feeding device, which are far away from the vertical cutting device, and are used for driving the plates to turn over so as to switch the transverse and longitudinal states of the plates;

the feeding conveying device is arranged at the front end of the turning plate device on the front end side of the vertical cutting device and is used for conveying the plate in a transverse state;

the discharging conveying device is arranged at the rear end of the turning device at the rear end side of the vertical cutting device;

the feeding conveying device, the plate turnover device, the feeding device and the discharging device form a conveying system for directional movement of the plates together, the direction of a conveying path of the plates is defined as the front-back direction, and the direction horizontally vertical to the conveying path is the left-right direction; the vertical cutting device is provided with a vertical saw blade on the conveying path of the plate, can longitudinally penetrate through and cut the plate, the feeding device is provided with rollers capable of clamping the plate on the left side and the right side of the conveying path of the plate, clamping wheels and conveying belts are respectively arranged on the upper side and the lower side of the conveying path of the plate, and the feeding device and the vertical cutting device form a vertical positioning constraint structure in the left-right direction and then form a continuous vertical cutting structure.

2. The full-automatic vertical plate material cutting production line according to claim 1, wherein the plate turnover device is provided with a rotary drum capable of rotating back and forth, a pivot shaft of the rotary drum is horizontally arranged in the front-back direction, a vertical turnover cavity for accommodating the plate material is arranged in the rotary drum, a vertical turnover first conveying belt, a vertical turnover second conveying belt and a vertical turnover pressing wheel are arranged outside the vertical turnover cavity, the vertical turnover pressing wheel and the vertical turnover first conveying belt are oppositely arranged at intervals, the vertical turnover second conveying belt is perpendicular to the vertical turnover first conveying belt, and the vertical turnover first conveying belt, the vertical turnover second conveying belt and the vertical turnover pressing wheel cooperatively operate to form a clamping constraint structure in three directions for the plate material in the vertical turnover cavity.

3. The full-automatic plate vertical cutting production line according to claim 1, wherein the vertical cutting device at least comprises two vertical cutting machines, and a feeding device is arranged between every two adjacent vertical cutting machines; immediately cut open the machine and include that two are controlled the found frame that cuts open that sets up, two are found to cut open to have between the frame and supply panel current to cut open the cavity immediately, the saw blade is loop configuration, its interior side vertical set up in the cavity is cut open immediately, cut open immediately and be equipped with the action wheel that longitudinal separation set up in the frame and follow the driving wheel, the saw blade is around establishing the action wheel is with from the driving wheel on, the action wheel is connected with drive arrangement, can drive the saw blade rotates.

4. The full-automatic plate vertical cutting production line according to claim 3, wherein a movable seat is arranged at the bottom of the vertical cutting rack, a vertical cutting base is arranged at the bottom of the movable seat, the vertical cutting base is fixedly arranged on the ground, and the movable seat is movably connected with the vertical cutting base through a left-right displacement rack.

5. A full-automatic plate vertical cut production line as claimed in claim 3, wherein a tensioning adjusting piece is arranged between the driven wheel and the vertical cut rack, and the tensioning adjusting piece can drive the driven wheel to longitudinally displace.

6. The full-automatic plate vertical cutting production line according to claim 1, wherein the feeding device comprises a feeding table frame, a feeding cavity for passing plates is formed in the middle of the feeding table frame, a horizontal feeding conveying belt is arranged at the bottom of the feeding cavity, fixed rollers and movable pressing rollers which are oppositely arranged at intervals are respectively arranged on the left side and the right side of the feeding cavity, a clamping wheel is arranged at the top of the feeding cavity, and a lifting mechanism is arranged between the clamping wheel and the feeding table frame.

7. A full-automatic plate vertical cut production line according to claim 1 or 6, characterized in that a transition device is further arranged between the plate turnover device and the feeding device, a transition cavity for passing plates is arranged in the middle of the transition device, a horizontal transition conveying belt is arranged at the bottom of the transition cavity, and a fixed roller and a movable pressing roller which are oppositely arranged at intervals are arranged on two sides of the transition cavity respectively.

8. The fully automatic vertical section production line for plates as claimed in claim 1, wherein the discharging device comprises a conveying table and a sorting device.

9. A full-automatic vertical plate cutting production line as claimed in claim 3, wherein the saw blades of different vertical cutting machines arranged in front and back are staggered.

Technical Field

The invention relates to the technical field of plate processing equipment, in particular to a full-automatic plate vertical cutting machine.

Background

With the development of building material industry, more and more novel building material products appear, and stone is widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction as a high-grade building decoration material.

Plate-type stone generally needs to be processed for many times, and a thin plate stone is generally obtained by rough processing of square materials and is used as a semi-finished product, and then the thin plate stone is subjected to fine processing and is continuously cut into a cost plate meeting the construction specification. At present, in the cutting process of panel, most all utilize panel self weight or frock clamp to fix panel on the workstation, reciprocal horizontal and longitudinal movement of the cutter through high-speed rotation, realize the cutting of panel, this kind of sword moves the motionless mode of material because need fix spacingly to panel, can't cut off whole slabstone completely, the clout can be persisted to the bottom, the later stage need be cut off and get rid of and cause the waste, and this kind of cutting mode can only intermittent type nature operation, loading and unloading stone material needs manual operation, high labor strength, low efficiency.

Disclosure of Invention

The invention provides a full-automatic plate vertical cutting production line, and mainly aims to solve the problems that the existing structure cannot be operated continuously and is low in machining efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a full-automatic panel cuts open production line immediately, this full-automatic production line of cutting open immediately includes:

the vertical cutting device is used for longitudinally cutting the plate;

the feeding devices are arranged at the front end and the rear end of the vertical cutting device and are used for clamping and conveying the plates in a longitudinally-arranged state;

the plate turnover devices are arranged on two outer sides of the feeding device, which are far away from the vertical cutting device, and are used for driving the plates to turn over so as to switch the transverse and longitudinal states of the plates;

the feeding conveying device is arranged at the front end of the turning plate device on the front end side of the vertical cutting device and is used for conveying the plate in a transverse state;

the discharging conveying device is arranged at the rear end of the turning device at the rear end side of the vertical cutting device;

the feeding conveying device, the plate turnover device, the feeding device and the discharging device form a conveying system for directional movement of the plates together, the direction of a conveying path of the plates is defined as the front-back direction, and the direction horizontally vertical to the conveying path is the left-right direction; the vertical cutting device is provided with a vertical saw blade on the conveying path of the plate, can longitudinally penetrate through and cut the plate, the feeding device is provided with rollers capable of clamping the plate on the left side and the right side of the conveying path of the plate, clamping wheels and conveying belts are respectively arranged on the upper side and the lower side of the conveying path of the plate, and the feeding device and the vertical cutting device form a vertical positioning constraint structure in the left-right direction and then form a continuous vertical cutting structure.

In one embodiment, the plate turnover device is provided with a rotary drum capable of rotating back and forth, a pivot shaft of the rotary drum is arranged in a horizontal front and back direction, a vertical turnover cavity for accommodating plates is arranged in the rotary drum, a vertical turnover first conveying belt, a vertical turnover second conveying belt and a vertical turnover pressing wheel are arranged on the outer side of the vertical turnover cavity, the vertical turnover pressing wheel and the vertical turnover first conveying belt are arranged at intervals and oppositely, the vertical turnover second conveying belt is perpendicular to the vertical turnover first conveying belt, and the vertical turnover first conveying belt, the vertical turnover second conveying belt and the vertical turnover pressing wheel work in a cooperation mode to form a clamping and restraining structure in three directions for the plates in the vertical turnover cavity.

In one embodiment, the vertical cutting device at least comprises two vertical cutting machines, and a feeding device is arranged between every two adjacent vertical cutting machines; immediately cut open the machine and include that two are controlled the found frame that cuts open that sets up, two are found to cut open to have between the frame and supply panel current to cut open the cavity immediately, the saw blade is loop configuration, its interior side vertical set up in the cavity is cut open immediately, cut open immediately and be equipped with the action wheel that longitudinal separation set up in the frame and follow the driving wheel, the saw blade is around establishing the action wheel is with from the driving wheel on, the action wheel is connected with drive arrangement, can drive the saw blade rotates.

In one embodiment, the bottom of the vertical splitting rack is provided with a movable seat, the bottom of the movable seat is provided with a vertical splitting base, the vertical splitting base is fixedly arranged on the ground, and the movable seat is movably connected with the vertical splitting base through a left displacement rack and a right displacement rack.

In one embodiment, a tension adjusting piece is arranged between the driven wheel and the vertical section frame, and the tension adjusting piece can drive the driven wheel to longitudinally displace.

In one embodiment, the feeding device comprises a feeding table frame, a feeding cavity for the passing of the plates is formed in the middle of the feeding table frame, a horizontal feeding conveying belt is arranged at the bottom of the feeding cavity, fixed rollers and movable pressing rollers which are oppositely arranged at intervals are respectively arranged on the left side and the right side of the feeding cavity, a clamping wheel is arranged at the top of the feeding cavity, and a lifting mechanism is arranged between the clamping wheel and the feeding table frame.

In one embodiment, a transition device is further arranged between the plate turnover device and the feeding device, a transition cavity for the passing of the plates is arranged in the middle of the transition device, a horizontal transition conveying belt is arranged at the bottom of the transition cavity, and a fixed roller and a movable pressing wheel which are oppositely arranged at intervals are arranged on two sides of the transition cavity respectively.

In one embodiment, the outfeed device comprises a transport table and a sorting device.

In one embodiment, the saw blades on different vertical cutting machines arranged in front and back are arranged in a staggered manner.

Compared with the prior art, the invention at least comprises the following advantages:

the invention forms a continuous plate conveying vertical cutting production line by arranging a feeding conveying device, a plate turnover device, a feeding device, a vertical cutting device and a discharging conveying device, when in work, plates are transferred and moved among the devices, the plates are turned into a longitudinal state by the plate turnover device from the transverse state of the feeding conveying device stage, then enter the feeding device to be dynamically clamped and directionally conveyed, the feeding devices positioned at the front side and the rear side of the vertical cutting device can independently or simultaneously clamp and restrict the plates entering the vertical cutting device, so as to provide clamping and fixing effects in the longitudinal direction and the left and right direction when the saw blade of the vertical cutting device cuts the plates, the plates are converted into the transverse state by the feeding device and the plate turnover device after being cut by the vertical cutting device, and finally are output by the discharging conveying device, and the mode of finishing vertical cutting in the continuous moving process of workpieces is adopted, the traditional mode of fixing the workpiece and movably cutting the cutter is replaced, so that the vertical section is reasonably connected with the plate, the effect of continuous operation can be achieved, the processes of manually loading, unloading and fixing the workpiece are saved, the labor intensity is reduced, and the production efficiency is improved; according to the invention, the saw blade is arranged on the vertical cutting device and vertically arranged on the conveying path of the plate, so that the plate can be longitudinally penetrated and cut, the full utilization of the plate is facilitated, compared with the traditional cutting process, the generation of leftover bits and pieces is reduced, the resource waste is avoided, and the production cost can be saved.

Drawings

FIG. 1 is a schematic structural view of an automatic plate vertical cutting production line in one embodiment;

FIG. 2 is a front view of a first stand-up upender in one embodiment;

FIG. 3 is a side view of FIG. 2;

fig. 4 is a schematic view illustrating a state that the first vertical turnover machine in fig. 3 overturns the thin stone;

FIG. 5 is a top view of a first transition table in an embodiment;

FIG. 6 is a side view of FIG. 5;

FIG. 7 is a top view of a first feed table in one embodiment;

FIG. 8 is a side view of FIG. 7;

FIG. 9 is a top view of a first vertical cross-section machine in an embodiment;

FIG. 10 is a schematic perspective view of FIG. 9;

FIG. 11 is a schematic view of a portion of the structure of FIG. 9;

FIG. 12 is an enlarged view of a portion of FIG. 11;

fig. 13 is a simplified schematic view of a thin stone slab in a cutting state.

The figure is marked with: 1-a feed conveyor table; 2-a first vertical turning machine; 21-a roller; 211-drum link; 212-roller chain; 22-a stand-up tilter base; 23-a drum motor; 231-a drum sprocket; 24-turning over the first conveyer belt vertically; 241-vertically turning over the first conveying motor; 25-turning over the second conveying belt vertically; 251-vertically turning over a second conveying motor; 26-vertical overturning wheel; 27-turning the cavity vertically; 271-vertical turning machine inlet; 272-vertical turning machine outlet; 3-a first transition table; 31-a transition table frame; 32-a transition cavity; 321-a transition table inlet; 322-transition table outlet; 33-a transition conveyor belt; 331-transition conveying motor; 34-transition table fixed rollers; 35-transition table pinch roller; 4-a first feeding station; 41-a feeding table frame; 42-a feeding cavity; 421-inlet of feeding table; 422-the outlet of the feeding table; 43-a first feed conveyor belt; 431-a feed conveyor motor; 44-feed table fixed rollers; 45-first feed pinch roller; 46-a first infeed nip wheel; 461-lifting seat; 462-a lifting cylinder; 463-lifting guide wheel; 464-lifting guide rails; 5-a first vertical cutting machine; 51-a main support; 511-repairing stairs; 512-maintenance platform; 52-vertically cutting the frame; 521-vertical cutting of the cavity; 522-vertical cutting of the base; 523-movable seat; 53-driving wheel; 531-vertical section motor; 54-a driven wheel; 55-saw blade; 56-tensioning adjustment; 57-a roller; 58-a stop; 59-a cover; 6-a second feeding table; 61-a second feed conveyor belt; 62-a second feed pinch roller; 63-a second feed pinch wheel; 7-a second vertical cutting machine; 8-a third feed station; 9-a second transition table; 10-a second vertical turning machine; 11-a discharge conveying table; 111-a flat belt transport table; 112-positioning the conveying table; 12-a sorting device; 121-a wafer separator manipulator; 122-a blank discharging conveying platform; 100-thin slab stone; 110-cutting the seam.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description is made with reference to the accompanying drawings and detailed description. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the two elements or intervening elements may be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a schematic structural diagram of a full-automatic plate vertical cutting production line in an embodiment is shown. This full-automatic upright section production line includes: the feeding conveying device, the plate turnover device, the transition device, the feeding device, the vertical cutting device and the discharging conveying device form a conveying system for directional movement of plates, the plates are specifically thin plate stone materials 100, the thin plate stone materials 100 are semi-finished stone material workpieces with certain thicknesses, and the vertical cutting device is used for refining and processing the thin plate stone materials and further vertically cutting the thin plate stone materials into a plurality of thin plate structures. The direction of the conveying path of the thin stone material 100 is defined as the front-back direction (the left-right direction in fig. 1), and the direction horizontally perpendicular to the conveying path is defined as the left-right direction (the up-down direction in fig. 1).

The feeding conveying device is specifically 2 feeding conveying platforms 1 which are arranged in a front-back mode and aligned, and the feeding conveying platforms 1 can specifically adopt feeding mechanisms such as PU (polyurethane) conveying belts, PVC (polyvinyl chloride) conveying belts, nylon conveying belts and the like for conveying thin stone plates 100 in a transverse state.

The plate turnover device comprises a first vertical turnover machine 2 and a second vertical turnover machine 10 and is mainly used for turning over the plate 100 for 90 degrees, so that the plate 100 is converted between a transverse state and a longitudinal state.

The first vertical turnover machine 2 is arranged at the rear end of the feeding conveying table 1, and the feeding conveying table 1 can convey the plate 100 in a horizontal state to the first vertical turnover machine 2.

As shown in fig. 2 and 3, the first vertical turnover machine 2 includes a roller 21, a roller connecting frame 211 which is staggered horizontally and vertically is arranged inside the roller 21, the roller connecting frame 211 mainly plays a role of a supporting structure, roller chains 212 are arranged at the front end and the rear end outside the roller 21, a vertical turnover machine base 22 is arranged below the roller 21, a roller motor 23 is arranged on the vertical turnover machine base 22, the roller motor 23 is in transmission connection with a roller chain wheel 231 arranged at the bottom of the roller 21 through a transmission part, a roller material wheel 231 is in meshing connection with the roller chains 212 to form a complete transmission structure of the roller 21, the roller motor 23 rotates forward and backward to drive the roller 21 to rotate 90 degrees in a reciprocating manner, and a pivot shaft of the roller 21 is arranged in a horizontal forward and backward direction.

The roller 21 is internally provided with a vertical turning cavity 27 for containing the thin slab stone 100, the front end and the rear end of the vertical turning cavity 27 are respectively provided with a vertical turning machine inlet 271 and a vertical turning machine outlet 272, the vertical turning machine 271 inlet is close to and aligned with the feeding conveying platform 1, so that the feeding conveying platform 1 can convey the thin slab stone 100 into the vertical turning cavity 100, the vertical turning cavity 27 is in a horizontal state in an initial state, the bottom of the vertical turning cavity is provided with a vertical turning first conveying belt 24, one side of the vertical turning first conveying belt 24 is provided with a second vertical turning conveying belt 25 vertical to the vertical turning first conveying belt 24, the vertical turning first conveying belt 24 and the vertical turning second conveying belt 25 are respectively in transmission connection with a vertical turning first conveying motor 241 and a vertical turning second conveying motor 251, a plurality of vertical turning wheels 26 are arranged above the vertical turning cavity 27, the vertical turning wheels 26 are arranged at intervals relative to the vertical turning first conveying belt 24, and the vertical turning wheels 26 can roll along the conveying path of the thin slab stone 100, the vertically-turned first conveying belt 24, the vertically-turned second conveying belt 25 and the vertically-turned pressing wheel 26 are fixedly connected with the roller connecting frame 211, an elastic part is arranged between the vertically-turned pressing wheel 26 and the roller connecting frame 211, the elastic part specifically adopts a spring, so that the vertically-turned pressing wheel 26 has a certain elastic displacement effect, and it needs to be noted that the distance between the vertically-turned pressing wheel 26 and the vertically-turned first conveying belt 24 is slightly smaller than the thickness of the thin stone material 100.

Referring to fig. 4, when the thin slab stone 100 enters the vertical turnover cavity 27 from the vertical turnover entrance 271, the bottom of the thin slab stone 100 in the horizontal state is in contact with the vertical turnover first conveyor belt 24, the vertical turnover pressing wheel 26 is pressed by the top of the thin slab stone, the vertical turnover first conveyor belt 24 plays a main bearing and supporting role, the vertical turnover pressing wheel 26 can move upwards due to the elastic element and exerts a clamping force on the thin slab stone 100, the vertical turnover pressing wheel 26 and the vertical turnover first conveyor belt 24 clamp the thin slab stone 100 together, and one side of the thin slab stone 100 is tightly attached to or in clearance fit with the vertical turnover second conveyor belt 25. When the thin slab stone 100 completely enters the vertical turnover cavity 27, the roller motor 23 drives the roller 21 to rotate 90 degrees in a specific direction, so that the vertical turnover second conveyor belt 25 is positioned right below to play a main bearing and supporting role, and after the turnover action is completed, the vertical turnover first conveyor motor 241 and the vertical turnover second conveyor motor 251 respectively and synchronously drive the vertical turnover first conveyor belt 24 and the vertical turnover second conveyor belt 25 to output the vertical thin slab stone 100 to one side of the vertical turnover machine outlet 272.

The second vertical turning machine 10 has the same structure as the first vertical turning machine 2, and the initial state is opposite, the first vertical turning machine 2 is used for turning the thin slab stone 100 in the horizontal state into the vertical state, and the second vertical turning machine 10 is used for turning the thin slab stone 100 in the vertical state into the horizontal state.

The transition arrangement comprises a first transition table 3 and a second transition table 9. The first transition table 3 is arranged at the rear end of the first vertical turnover machine 2, as shown in fig. 5 and 6, the first transition table 3 includes a transition table frame 31, a transition cavity 32 is arranged at the center of the transition table frame 31, a transition table inlet 321 and a transition table outlet 322 are respectively arranged at the front side and the rear side of the transition cavity 32, the transition table inlet 321 is close to and aligned with the vertical turnover machine outlet 272, the thin stone 100 directly enters the transition cavity 32 through the transition table inlet 321 after coming out of the vertical turnover machine outlet 272, a transition conveyor belt 33 is arranged at the bottom of the transition cavity 32 on the transition table frame 31, the transition conveyor belt 33 is in transmission connection with a transition conveyor motor 331, the transition conveyor belt 33 can carry and convey the thin stone 100 in the transition cavity 32, the transition table frame 31 is provided with a transition table fixing roller 34 and a transition table pressing roller 35 which are horizontally arranged at the left side and the right side of the transition cavity 32, and the two sides are arranged at a relative interval, and can roll along the direction of conveyance of sheet stone material 100, and the interval between the two equals the thickness of sheet stone material 100, and both synergistic effect can carry out directional centre gripping to sheet stone material 100, play the location effect of left and right direction. It should be noted that, transition table pinch roller 35 is connected fixedly with transition table frame 31 through flexible regulating part, and flexible regulating part specifically can adopt parts such as cylinder, electric telescopic handle, can adjust the left and right positions of transition table pinch roller 35, and then plays the effect of adjustment transition table pinch roller 35 and the interval between transition table fixed roller 34.

The structure of the second transition table 9 is consistent with that of the first transition table 3, the second transition table 9 is arranged at the front end of the second vertical turning machine 10, the left and right positions of the thin stone 100 can be adjusted, the conveying path of the thin stone can be influenced, and the thin stone can stably and accurately enter a vertical turning cavity of the second vertical turning machine 10.

As shown in fig. 1, the feeding device comprises a first feeding table 4, a second feeding table 6 and a third feeding table 8 which are consistent in structure, wherein the first feeding table 4 is arranged at the rear end of the first transition table 3.

Referring to fig. 7 and 8, the first feeding table 4 includes a feeding table frame 41, a feeding cavity 42 is disposed at a center of the feeding table frame 41, a feeding table inlet 421 and a feeding table outlet 422 are respectively disposed at front and rear sides of the feeding cavity 42, the feeding table inlet 421 is close to and aligned with the transition table outlet 322 of the first transition table 3, the thin stone 100 comes out from the transition table outlet 322 and directly enters the feeding cavity 42 through the feeding table inlet 421, a first feeding conveyor belt 43 is disposed at a bottom of the feeding cavity 42 of the feeding table frame 41, the first feeding conveyor belt 43 is in transmission connection with a feeding conveyor motor 431, the first feeding conveyor belt 43 can carry and convey the thin stone 100 located in the feeding cavity 42, the feeding table frame 41 is disposed at left and right sides of the feeding cavity 42 and respectively with a feeding table fixing roller 44 and a first feeding pressure roller 45 which are horizontally disposed and are relatively spaced, and can roll along the direction of delivery of sheet stone material 100, interval between the two equals the thickness of sheet stone material 100, both synergism, can carry out directional centre gripping to sheet stone material 100, play left right direction's location effect, it is equipped with first clamping wheel 46 to feed the platform frame 41 and be located to feed cavity 42 top, first clamping wheel 46 of feeding is vertical downwards, its top is equipped with lift seat 461, the top of lift seat 461 is connected with the lift cylinder 462 that sets firmly on feeding platform frame 41, the lift seat 461 left and right sides is equipped with lift guide wheel 463, the movable joint in lift guide wheel 463 outside is equipped with lift guide 464, lift guide 464 is vertical to be set up on feeding platform frame 41, lift cylinder 462 can drive lift seat 461 and utilize lift guide 463 and lift guide 464 to carry out longitudinal reciprocating motion, and then drive first clamping wheel 46 of feeding and take place longitudinal position and change. It should be noted that, the first feeding pressing wheel 45 is connected and fixed with the feeding table frame 41 through a telescopic adjusting part, the telescopic adjusting part specifically can adopt a cylinder, an electric telescopic rod and other parts, the left and right positions of the first feeding pressing wheel 45 can be adjusted, and then the effect of adjusting the distance between the first feeding pressing wheel 45 and the feeding table fixed roller 44 is achieved, in addition, the width of the first feeding clamping wheel 46 is not less than the thickness of the thin stone 100, and after the first feeding clamping wheel moves downwards, the first feeding clamping wheel can abut against the top of the thin stone 100 and cooperates with the first feeding conveying belt 43 at the bottom to form up-and-down clamping of the thin stone 100.

As shown in fig. 1, the vertical cutting device comprises a first vertical cutting machine 5 and a second vertical cutting machine 7 which are consistent in structure, the first vertical cutting machine 5 is arranged at the rear end of a first feeding table 4, a second feeding table 6 is arranged between the first vertical cutting machine 5 and the second vertical cutting machine 7, and a third vertical cutting machine 8 is arranged between the second vertical cutting machine 7 and a second transition table 9.

With reference to fig. 9-12, the first vertical cutting machine 5 includes a main support 51 having a rectangular top, the bottoms of four corners of the rectangular structure are fixedly connected to the ground through vertical posts, an access stair 511 is disposed on the outer side of the main support 51, and an access platform 512 is disposed on the inner side of the top of the access stair 511. The inside of the main bracket 51 is provided with 2 vertical cut frames 52 which are symmetrically arranged at left and right intervals, the two vertical cut frames 52 are vertically arranged, and a vertical cut cavity 521 for the thin stone 100 to pass through is arranged between the two vertical cut frames. Cut open the frame 52 bottom immediately and be equipped with about the orientation immediately and cut open base 522, cut open the base 522 top immediately and be connected with movable seat 523, movable seat 523 cuts open base 522 swing joint immediately through displacement adjusting device, and this displacement adjusting device specifically can adopt the transmission structure of gear motor and lead screw, cuts open frame 52 bottom immediately and is connected fixedly with movable seat 523, and this gear motor can drive movable seat 523 and remove in the top of cutting open the base 522 immediately, and then plays the effect of adjusting and cut open the frame 52 left and right sides position immediately.

The vertical cutting machine frame 52 is provided with a driving wheel 53 and a driven wheel 54 which are distributed at intervals up and down, the driving wheel 53 is positioned under the driven wheel 54, the driving wheel 53 is in transmission connection with a vertical cutting motor 531, a tensioning adjusting part 56 is arranged between the driven wheel 54 and the vertical cutting machine frame 52, the tensioning adjusting part 56 is particularly in a structure of a cylinder or an electric telescopic rod, the telescopic part of the tensioning adjusting part is connected with two ends of a horizontal transmission rotating shaft of the driven wheel 54, the tensioning adjusting part 56 can drive the driven wheel 54 to move longitudinally to adjust the distance between the driving wheel 53 and the driven wheel 54, the outer peripheries of the driving wheel 53 and the driven wheel 54 are sleeved with saw blades 55 with annular structures, the left side and the right side of each saw blade 55 are in a vertical state, the inner ends of the saw blades are positioned in the vertical cutting cavity 521, the left side and the right side of each saw blade are in symmetrical structures, so that the vertical cutting machine forms a double-blade cutting structure, and the left side and right side positions of the inner ends of the left saw blades 55 can be adjusted by utilizing the movable seat 523, thereby play the effect of adjustment cutting position, according to the demand, set up that the panel thickness that the cutting was obtained is cut open immediately to different positions is different.

As shown in fig. 12, the vertical cutting frame 52 is provided with rollers 57 at the front and rear sides of the area of the saw blade 55 in the vertical cutting cavity 521 (in fig. 12, only the structure of the roller 57 at one side is shown for fully showing the structural details), the rollers 57 have a plurality of roller bodies capable of rolling along the conveying path of the thin plate stone 100, when the thin plate stone 100 passes through the vertical cutting cavity 521, the bottom of the thin plate stone 100 abuts against the rollers 57, and the rollers 57 can play a role of bearing and supporting, and assist in conveying, so that the thin plate stone 100 can ensure the stability in the vertical cutting area. In addition, saw blade 55 is located and is cut open immediately the regional a plurality of locating parts 58 that are equipped with of cavity 521, and locating part 58 has horizontally U-shaped plate body structure, and this plate body center is equipped with the clearance that supplies saw blade 55 vertical to wear to establish, and locating part 58 outside end sets firmly on the upright section frame 52 inside wall, and locating part 58 can control spacing to saw blade 55, avoids saw blade 55 to take place too big rocking when cutting the operation to influence the cutting quality.

The saw blade 55 of the first vertical cutting machine 5 and the saw blade 55 of the second vertical cutting machine 7 are disposed in a staggered manner, and vertical cutting operations are performed on different positions of the same thin stone material 100. In other embodiments, a greater number of vertical cutting machines may be provided as desired to perform more cutting operations on the same sheet of stone material 100.

As shown in fig. 1, the discharging conveyor includes a discharging conveyor table 11 and a sorting device 12 arranged in front and at back, the discharging conveyor table 11 is arranged at the rear end of the second vertical turnover machine 10, the discharging conveyor table 11 includes a flat belt conveyor table 111 and a positioning conveyor table 112, both are belt conveyor structures, the positioning conveyor table 112 is provided with a plurality of positioning devices in left and right directions compared with the flat belt conveyor table 111, the positioning devices are specifically arranged in left and right relative intervals and in pairs, and can adjust left and right positions of the middle thin stone plate 100 to prepare left and right positioning of the subsequent sorting device. The sorting device 12 comprises a slicing manipulator 121 and a blank-discharging conveying platform 122, the blank-discharging conveying platform 122 is parallel to the flat belt conveying platform 111 and the positioning conveying belt 112, and the slicing manipulator 121 is used for clamping and conveying the slices obtained by vertical cutting one by one onto the blank-discharging conveying platform 122 for cost output.

In the concrete implementation process, the thin plate stone 100 in the horizontal state enters the production line from the feeding conveying table 1, the thin plate stone is turned into the vertical state by the first vertical turning machine 2 and then enters the first transition table 3, the first transition table 3 does not adjust the conveying path of the thin plate stone 100 and then enters the first feeding table 4, when the front end part of the thin plate stone 100 enters the vertical section cavity 521, the first feeding conveying belt 43 on the first feeding table 4 is used as a main driving source for driving the thin plate stone 100 to continue to advance, the feeding table fixed roller 44, the first feeding pressing wheel 45 and the first feeding clamping wheel 46 on the first feeding table 4 are used as main clamping structures for positioning and conveying the thin plate stone 100, and can ensure that the thin plate stone 100 can keep stable during cutting, when the thin plate stone 100 continues to advance, the front end of the thin plate stone passes through the vertical section cavity 521 to be contacted with the second feeding table 6, as shown in fig. 13, the bottom of the front end of the second feeding conveyor belt 61 is in contact with the second feeding press wheel 62, the top of the front end of the second feeding conveyor belt is in contact with the left and right sides of the second feeding press wheel 62, and the top of the front end of the second feeding press wheel 63 is in contact with the second feeding clamping wheel; the bottom of the rear side end of the thin stone is continuously contacted with the first feeding conveying belt 43 in an abutting mode, the left side and the right side of the rear side end of the thin stone are continuously contacted with the first feeding pressing wheel 45, the top of the rear side end of the thin stone is continuously contacted with the first feeding clamping wheel 46 in an abutting mode to form a structure with the front side and the rear side cooperatively clamped and conveyed, the rear end of the thin stone 100 is separated from the first feeding table 4, the second feeding table 6 serves as a main bearing conveying structure at the moment, the thin stone 100 is subjected to complete vertical section cutting operation, vertical section cutting at different operation positions is performed through the second vertical section cutting machine 7 in the same manner, the thin stone enters the second vertical turning machine 10 after passing through the third feeding table 8 and the second transition table 9, and the thin stone 100 in a vertical state is turned into a horizontal state by the second vertical turning machine 10 and then conveyed to the discharging conveying table 11 and the sorting device 12 for outputting.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.