阅读说明：本技术 一种小型的纸浆生产装置 (Small-size paper pulp apparatus for producing ) 是由 郭毅义 于 2020-06-05 设计创作，主要内容包括：本发明公开了一种小型的纸浆生产装置,由液压底座、出渣柜、底座、驱动电机、加工筒、连接口、粉碎装置、捣碎电机、液压活塞、主体组成,液压活塞竖直安装于液压底座顶端,出渣柜连接粉碎装置与主体,底座安装于驱动电机底端,驱动电机与粉碎装置齿轮相啮合,加工筒与粉碎装置在同一中心线上,粉碎装置与主体相焊接,捣碎电机嵌入安装于主体顶端,出渣柜安装于底座上端,连接口与加工筒相焊接,液压活塞安装于主体下端,液压底座安装于底座右侧,粉碎装置安装于底座上端,升降装置底端与液压活塞相连接,减少加工流程的同时提升了加工效率与质量,将小型加工不必经过流水线可直接利用设备进行生产,操作简单,智能化高,方便使用。(The invention discloses a small paper pulp production device, which consists of a hydraulic base, a slag discharging cabinet, a base, a driving motor, a processing cylinder, a connecting port, a crushing device, a mashing motor, a hydraulic piston and a main body, wherein the hydraulic piston is vertically arranged at the top end of the hydraulic base, the slag discharging cabinet is connected with the crushing device and the main body, the base is arranged at the bottom end of the driving motor, the driving motor is meshed with a gear of the crushing device, the processing cylinder and the crushing device are on the same central line, the crushing device is welded with the main body, the mashing motor is embedded and arranged at the top end of the main body, the slag discharging cabinet is arranged at the upper end of the base, the connecting port is welded with the processing cylinder, the hydraulic piston is arranged at the lower end of the main body, the hydraulic base is arranged at the right side of the base, the crushing device is arranged at the upper end of the base, the operation is simple, the intellectualization is high, and the use is convenient.)

1. The small-sized paper pulp production device is characterized by comprising a device body, wherein the device body consists of a hydraulic base (1), a slag discharging cabinet (2), a base (3), a driving motor (4), a processing barrel (5), a connecting port (6), a crushing device (7), a mashing motor (8), a hydraulic piston (9) and a main body (10), the hydraulic piston (9) is vertically arranged at the top end of the hydraulic base (1), the slag discharging cabinet (2) is connected with the crushing device (7) and the main body (10), the base (3) is arranged at the bottom end of the driving motor (4), the driving motor (4) is meshed with a gear of the crushing device (7), the processing barrel (5) and the crushing device (7) are on the same central line, the crushing device (7) is welded with the main body (10), and the mashing motor (8) is embedded and arranged at the top end of the main body (10), slag discharging cabinet (2) is installed on base (3), connector (6) and processing section of thick bamboo (5) are welded mutually, hydraulic piston (9) are installed in main part (10) lower extreme, install in base (3) right side hydraulic base (1), reducing mechanism (7) are installed in base (3) upper end.

The main part (10) comprises a mashing device (101), a lifting device (102) and a clamping device (103), wherein the mashing device (101) is installed on the right side of the crushing device (7), the bottom end of the mashing device (101) is communicated with the lifting device (102), the clamping device (103) is installed at the upper end of the lifting device (102), and the bottom end of the lifting device (102) is connected with a hydraulic piston (9).

2. A compact pulp production apparatus according to claim 1, characterized in that: the crushing device (7) comprises a push plate (71), a worm gear (72), a rotating gear (73), a first crushing and stirring gear (74), a second crushing and stirring gear (75), a stirring block (76), a crushing motor (77), a slag outlet (78), an air cylinder (79) and a drill bit (710), wherein the push plate (71) is welded with the air cylinder (79), the worm gear (72) and the drill bit (710) are on the same central line, the inner wall of the rotating gear (73) is welded with the outer surface of the worm gear (72), the first crushing and stirring gear (74) is meshed with the second crushing and stirring gear (75), the first crushing and stirring gear (74) and the worm gear (72) are of an integrated structure, the second crushing and stirring gear (75) and the stirring block (76) are of an integrated structure, the stirring block (76) is installed on the rear side of the drill bit (710), the crushing motor (77) and the drill bit (710) are on the same central line, and the stirring port (78) is installed on the rear side of the slag outlet (76), slag notch (78) and slag tap cabinet (2) are integrated structure, push pedal (71) are installed inside slag tap cabinet (2), it meshes with driving motor (4) to change tooth (73), spiral tooth (72) and processing section of thick bamboo (5) are on same central line, push pedal (71) are installed in solenoid valve (10113) left side.

3. A compact pulp production apparatus according to claim 1, characterized in that: the mashing device (101) comprises a mashing shell (1011), cams (1012), a mashing rod (1013), a conical gear set (1014), a rotating disc (1015), a lifting rod (1016), a connecting rod set (1017), a driving rod (1018), a partition plate (1019), a return spring (10110), a mashing cavity (10111), a mashing head (10112) and an electromagnetic valve (10113), wherein the mashing shell (1011) and the mashing cavity (10111) are in an integrated structure, the cams (1012) are installed on two sides of the conical gear set (1014), the mashing rod (1013) and the mashing head (10112) are in an integrated structure, the rotating disc (1015) is installed on the rear side of the conical gear set (1014), the head end of the lifting rod (1016) is embedded in a groove of the rotating disc (1015), the tail end of the lifting rod (1016) is connected with the connecting rod set (1017), the driving rod (1018) is installed at the lower end of the partition plate (1019), and the head end of the driving rod (1018) is connected, reset spring (10110) are installed between ram (1013) and division board (1019), smash head (10112) and install in smashing chamber (10111) upper end, install in smashing chamber (10111) both sides two solenoid valve (10113), smash motor (8) embedding and install in smashing shell (1011) upper end, slag discharging cabinet (2) are installed in solenoid valve (10113) left side.

4. A compact pulp production apparatus according to claim 1, characterized in that: elevating gear (102) include lift solenoid valve (1021), controller (1022), go out thick liquid mouth (1023), place chamber (1024), pressurization piece (1025), pressurization shell (1026), two lift solenoid valve (1021) are installed and are being put chamber (1024) bottom surface, controller (1022) are connected with lift solenoid valve (1021) electricity, go out thick liquid mouth (1023) and place chamber (1024) structure as an organic whole, install in putting chamber (1024) upper end with pressurization piece (1025), install in pressurization shell (1026) inside, install in pressing the left side of getting device (103) with pressing, complex hydraulic piston (9) top is connected and is gone up and down solenoid valve (1021).

5. A compact pulp production apparatus according to claim 1, characterized in that: the clamping device (103) comprises a discharging shell (1031), a clamping motor (1032), a clamping connecting rod set (1033), a connecting block (1034), a hydraulic cylinder (1035) and a clamping plate (1036), wherein the clamping motor (1032) is installed inside the discharging shell (1031), the tail end of the clamping motor (1032) is welded with the connecting block (1034), the left side of the clamping connecting rod set (1033) is provided with the two clamping plates (1036), the hydraulic cylinder (1035) is installed inside the connecting block (1034), a piston of the hydraulic cylinder (1035) is connected with the clamping connecting rod set (1033), the clamping plates (1036) are installed at the upper end of the lifting device (102), and the discharging shell (1031) is installed on the right side of the pressurizing shell (1026).

Technical Field

The invention relates to a small-sized paper pulp production device, belonging to the industrial field.

Background

The fibrous materials prepared by using plant fibers as raw materials through different processing methods can be divided into mechanical pulp, chemical pulp and chemi-mechanical pulp according to the processing methods; the fiber raw materials can be divided into wood pulp, straw pulp, hemp pulp, reed pulp, cane pulp, bamboo pulp, rag pulp and the like according to the used fiber raw materials, and can be divided into refined paper pulp, bleached paper pulp, unbleached paper pulp, high-yield paper pulp, semi-chemical pulp and the like according to different purities, and the refined paper pulp is generally used for manufacturing paper and paperboards, is often used as a raw material for manufacturing cellulose derivatives such as cellulose ester, cellulose ether and the like besides being used for manufacturing special paper, and is also used in the fields of artificial fiber, plastics, paint, films, gunpowder and the like.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a small paper pulp production device to solve the problems that a production line is long, a processing workshop occupying space is required to be operated and processed by a plurality of workers, and the intelligentization is low and the inconvenience is high.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a miniature paper pulp apparatus for producing, the equipment body comprises hydraulic pressure base, slag discharging cabinet, base, driving motor, a processing section of thick bamboo, connector, reducing mechanism, pound to pieces motor, hydraulic piston, main part to become, the hydraulic piston is vertical to be installed on the hydraulic pressure base top, slag discharging cabinet connects reducing mechanism and main part, pedestal mounting is in the driving motor bottom, driving motor meshes with the reducing mechanism gear mutually, a processing section of thick bamboo and reducing mechanism are on same central line, reducing mechanism welds with the main part mutually, pound to pieces the motor embedding and install on the main part top, slag discharging cabinet installs in the base upper end, the connector welds with a processing section of thick bamboo mutually, hydraulic piston installs in the main part lower extreme, hydraulic pressure pedestal mounting is on the base right side, reducing mechanism installs in the base upper end, the main part is including smashing device, elevating gear, elevating, The device is got to the clamp, smash the device to pieces and install in the reducing mechanism right side, smash the device bottom and be linked together with elevating gear to pieces, the device is installed in the elevating gear upper end to get the clamp, the elevating gear bottom is connected with hydraulic piston.

In order to optimize the technical scheme, the method further comprises the following steps:

according to a preferable mode, the crushing device comprises a push plate, a worm gear, a rotating gear, a first crushing and stirring gear, a second crushing and stirring gear, a stirring block, a crushing motor, a slag outlet, a cylinder and a drill bit, the push plate is welded with the cylinder, the worm gear and the drill bit are positioned on the same central line, the inner wall of the rotating gear is welded with the outer surface of the worm gear, the first crushing and stirring teeth are meshed with the second crushing and stirring teeth, the first crushing and stirring teeth and the worm teeth are of an integrated structure, the second crushing and stirring teeth and the stirring block are of an integrated structure, the stirring block is arranged at the rear side of the drill bit, the crushing motor and the drill bit are on the same central line, the slag hole is arranged at the rear side of the stirring block, the slag hole and the slag discharging cabinet are of an integrated structure, the push plate is arranged in the slag discharging cabinet, the rotating teeth are meshed with the driving motor, the worm teeth and the processing barrel are on the same central line, and the push plate is arranged on the left side of the electromagnetic valve.

According to a preferred mode, the mashing device comprises a mashing shell, cams, a mashing rod, a conical gear set, a rotary disc, a lifting rod, a connecting rod group, a shifting rod, a partition plate, a reset spring, a mashing cavity, a mashing head and electromagnetic valves, wherein the mashing shell and the mashing cavity are of an integrated structure, the cams are arranged on two sides of the conical gear set, the mashing rod and the mashing head are of an integrated structure, the rotary disc is arranged on the rear side of the conical gear set, the head end of the lifting rod is embedded and arranged in a groove of the rotary disc, the tail end of the lifting rod is connected with the connecting rod group, the shifting rod is arranged at the lower end of the partition plate, the head end of the shifting rod is connected with the connecting rod group, the reset spring is arranged between the mashing rod and the partition plate, the mashing head is arranged at the upper end, the slag discharging cabinet is arranged on the left side of the electromagnetic valve.

According to a preferred mode, elevating gear includes lift solenoid valve, controller, goes out the thick liquid mouth, places the chamber, adds briquetting, pressurization shell, two lift solenoid valve install in and place the chamber bottom surface, the controller is connected with lift solenoid valve electricity, go out the thick liquid mouth with place the chamber structure as an organic whole, add the briquetting and install in putting the chamber upper end, the piece that pressurizes is installed in pressurization shell inside, the pressurization shell is installed in pressing the clamp and is got the device left side, plural root hydraulic piston top is connected and is gone up and down solenoid valve.

According to a preferred mode, the clamping device comprises a discharging shell, a clamping motor, a clamping connecting rod group, a connecting block, a hydraulic cylinder and clamping plates, the clamping motor is installed inside the discharging shell, the clamping motor is welded to the connecting block, the left side of the clamping connecting rod group is provided with the two clamping plates, the hydraulic cylinder is installed inside the connecting block, a piston of the hydraulic cylinder is connected with the clamping connecting rod group, the clamping plates are installed at the upper end of the lifting device, and the discharging shell is installed on the right side of the pressurizing shell.

The small-sized paper pulp production device has the beneficial effects that: the machining efficiency and the quality are improved while the machining process is reduced, small machining does not need to be carried out through an assembly line, equipment can be directly utilized for production, the operation is simple, the intelligence is high, and the use is convenient.

The invention relates to a small paper pulp production device, which is characterized in that a tree core is inserted into an opening of a processing barrel, a driving motor is used for braking a crushing device to crush the tree core, scraps are discharged from a slag discharging cabinet to a main body, the crushing device is braked by a crushing motor to process the scraps, a lifting device is used for lifting the processed scraps into a clamping device, and the clamping device is used for collecting and stacking the processed paper boards.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a small pulp production plant according to the present invention.

FIG. 2 is a schematic view of a small-sized pulp production apparatus main body according to the present invention.

FIG. 3 is a schematic view showing the structure of a crushing apparatus and a mashing apparatus of a small-sized pulp production apparatus according to the present invention.

FIG. 4 is a schematic diagram of the lifting device and the gripping device of a small pulp production apparatus according to the present invention.

Description of reference numerals: a hydraulic base-1, a slag discharging cabinet-2, a base-3, a driving motor-4, a processing cylinder-5, a connecting port-6, a crushing device-7, a mashing motor-8, a hydraulic piston-9, a main body-10, a mashing device-101, a lifting device-102, a clamping device-103, a push plate-71, a worm-gear-72, a rotating gear-73, a first crushing and stirring gear-74, a second crushing and stirring gear-75, a stirring block-76, a crushing motor-77, a slag discharging port-78, a cylinder-79, a drill bit-710, a mashing shell-1011, a cam-1012, a stirring rod-1013, a conical gear set-1014, a rotary disc-1015, a lifting rod-1016, a connecting rod set-1017, a driving rod-1018, a partition plate-1019, a separating plate-1019, a, The automatic mortar smashing machine comprises a reset spring-10110, a smashing cavity-10111, a smashing head-10112, an electromagnetic valve-10113, a lifting electromagnetic valve-1021, a controller-1022, a mortar outlet-1023, a placing cavity-1024, a pressurizing block-1025, a pressurizing shell-1026, a discharging shell-1031, a clamping motor-1032, a clamping connecting rod group-1033, a connecting block-1034, a hydraulic cylinder-1035 and a clamping plate-1036.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-4, the present invention provides a small pulp production apparatus: comprises a hydraulic base 1, a slag discharging cabinet 2, a base 3, a driving motor 4, a processing barrel 5, a connector 6, a crushing device 7, a mashing motor 8, a hydraulic piston 9 and a main body 10, wherein the hydraulic piston 9 is vertically arranged on the top end of the hydraulic base 1, the slag discharging cabinet 2 is connected with the crushing device 7 and the main body 10, the base 3 is arranged at the bottom end of the driving motor 4, the driving motor 4 is meshed with the gear of the crushing device 7, the processing barrel 5 and the crushing device 7 are on the same central line, the crushing device 7 is welded with the main body 10, the mashing motor 8 is embedded and arranged at the top end of the main body 10, the slag discharging cabinet 2 is arranged at the upper end of the base 3, the connector 6 is welded with the processing barrel 5, the hydraulic piston 9 is arranged at the lower end of the main body 10, the hydraulic base 1 is arranged at the right side of the base 3, the main body 10 comprises a mashing device 101, a lifting device 102 and a clamping device 103, the mashing device 101 is mounted on the right side of a crushing device 7, the bottom end of the mashing device 101 is communicated with the lifting device 102, the clamping device 103 is mounted on the upper end of the lifting device 102, the bottom end of the lifting device 102 is connected with a hydraulic piston 9, the crushing device 7 comprises a push plate 71, a worm gear 72, a rotating gear 73, a first crushing and stirring gear 74, a second crushing and stirring gear 75, a stirring block 76, a crushing motor 77, a slag outlet 78, a cylinder 79 and a drill bit 710, the push plate 71 is welded with the cylinder 79, the worm gear 72 and the drill bit 710 are on the same central line, the inner wall of the rotating gear 73 is welded with the outer surface of the worm gear 72, the first crushing and stirring gear 74 is engaged with the second crushing and stirring gear 75, the first crushing and stirring gear 74 and the worm gear 72 are of an integrated structure, the second crushing and stirring block 76 are of an integrated structure, the stirring block 76 is arranged at the rear side of the drill bit 710, the crushing motor 77 and the drill bit 710 are on the same central line, the slag outlet 78 is arranged at the rear side of the stirring block 76, the slag outlet 78 and the slag outlet cabinet 2 are in an integrated structure, the push plate 71 is arranged in the slag outlet cabinet 2, the rotary tooth 73 is engaged with the driving motor 4, the worm tooth 72 and the processing cylinder 5 are on the same central line, the push plate 71 is arranged at the left side of the electromagnetic valve 10113, the mashing device 101 comprises a mashing shell 1011, a cam 1012, a mashing rod 1013, a conical gear set 1014, a rotary table 1015, a lifting rod 1016, a connecting rod set 1017, a lifting rod 1018, a separation plate 1019, a return spring 10110, a mashing cavity 10111, a mashing head 10112 and an electromagnetic valve 10113, the mashing shell 1011 and the mashing cavity 10111 are in an integrated structure, the plurality of cams 1012 are arranged at two sides of the conical gear set 1014, the mashing rod 1013 and, the rotary table 1015 is arranged at the rear side of the bevel gear set 1014, the head end of the lifting rod 1016 is embedded and arranged in a groove of the rotary table 1015, the tail end of the lifting rod 1016 is connected with the connecting rod group 1017, the driving rod 1018 is arranged at the lower end of the separation plate 1019, the head end of the driving rod 1018 is connected with the connecting rod group 1017, the return spring 10110 is arranged between the tamping rod 1013 and the separation plate 1019, the tamping head 10112 is arranged at the upper end of the mashing cavity 10111, the two electromagnetic valves 10113 are arranged at two sides of the mashing cavity 10111, the mashing motor 8 is embedded and arranged at the upper end of the mashing shell 1011, the slag discharging cabinet 2 is arranged at the left side of the electromagnetic valve 10113, the lifting device 102 comprises a lifting electromagnetic valve 1021, a controller 1022, a slurry outlet 1023, a placing cavity 1024, a pressurizing block 1025 and a pressurizing shell 1026, the two lifting electromagnetic valves 1021, the slurry outlet 1023 and the placing cavity 1024 are of an integrated structure, the pressurizing block 1025 is arranged at the upper end of the placing cavity 1024, the pressurizing block 1025 is installed inside a pressurizing housing 1026, the pressurizing housing 1026 is installed at the left side of the gripping device 103, the top ends of the plurality of hydraulic pistons 9 are connected with a lifting electromagnetic valve 1021, the clamping device 103 comprises a discharging shell 1031, a clamping motor 1032, a clamping connecting rod group 1033, a connecting block 1034, a hydraulic cylinder 1035 and a clamping plate 1036, the clamping motor 1032 is arranged in the discharging shell 1031, the tail end of the clamping motor 1032 is welded with a connecting block 1034, two clamping plates 1036 are arranged at the left side of the clamping linkage 1033, the hydraulic cylinder 1035 is arranged in the connecting block 1034, the piston of the hydraulic cylinder 1035 is connected with a clamping linkage 1033, the clamping plate 1036 is arranged at the upper end of the lifting device 102, and the discharging shell 1031 is arranged at the right side of the pressurizing shell 1026.

The use principle is as follows: the tree core is inserted from the opening of the processing cylinder 5, the driving motor 4 drives the rotary teeth 73 to rotate the worm teeth 72, the tree core rotates to move inwards, the braking crushing motor 77 rotates the drill bit 710, meanwhile, the first crushing stirring teeth 74 at the tail end of the worm teeth 72 are meshed with the second crushing stirring teeth 75 to rotate, the stirring block 76 and the drill bit 710 crush the tree core, the generated debris flows into the slag discharging cabinet 2, the additive can be added into the connecting port 6 by opening the electromagnetic valve 10113 to increase the crushing efficiency, the tree debris enters the crushing cavity 10111 from the slag discharging cabinet 2, the crushing motor 8 brakes the conical gear set 1014 to rotate the cams 1012 at two sides of the conical gear set 1014, the crushing rod 1013 makes piston motion to knock paper debris by utilizing the height difference generated by the rotation of the cams 1012, the rotary disk 1015 is braked by utilizing one conical gear to make the head end of the lifting rod 1016 make circular motion along the rotary disk 1015, the connecting rod group 1017 is stretched, so that the shifting rod 1018 makes reciprocating motion by taking the connecting point of the shifting rod group 1017 as a fulcrum, the tree scraps are pushed to the lower end of the tamping head 10112, after the processing is finished, the electromagnetic valves 10113 on the two sides are opened, the push plate 71 is pushed to move by the air cylinder 79, the tree scraps are pushed into the placing cavity 1024, the hydraulic piston 9 is lifted through the hydraulic base 1, so that the placing cavity 1024 moves upwards, the pressing block 1025 extrudes the tree pulp, the redundant water flows out from the pulp outlet 1023, after the pressing is finished, the lifting electromagnetic valves 1021 on the two sides are controlled to be opened through the controller 1022, so that the hydraulic piston 9 can directly act on the extruded paperboard to jack up the paperboard, the clamping motor 1032 controls the angle of the rotary connecting block 1034, the clamping plates 1036 are aligned with the paperboard, the upper clamping plate 1036 and the lower clamping plate 1036 clamp the paperboard by utilizing the contraction of the hydraulic cylinder 1035, and the clamping motor 1032 resets the connecting block 1034 to enable the paperboard to enter the discharging shell 1031 for collection.

According to the invention, through the mutual combination of the components, the processing flow is reduced, the processing efficiency and quality are improved, small-sized processing can be directly carried out by using equipment without a production line, the operation is simple, the intellectualization is high, the use is convenient, and the problems that the production line is long, a processing workshop which needs to occupy a space is operated and processed by a plurality of workers, the intellectualization is low, and the processing workshop is inconvenient are solved.

The driving motor 4 is a motor with the model number of Y2-200L-430kw, the anti-interference capability is strong, the heat dissipation effect is good, the controller 1022 is an intelligent digital voltage stabilizing and regulating processor with the model number of SDVC20-S, the processor is high in processing speed, good in heat dissipation effect and long in service life.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.