CN112875591B

CN112875591B - Lifting mechanism for stacking and feeding wood plastic processing

Info

Publication number: CN112875591B
Application number: CN202011608188.XA
Authority: CN
Inventors: 叶润露; 袁森林
Original assignee: Anhui Kojo New Material Technology Co Ltd
Current assignee: Anhui Kojo New Material Technology Co Ltd
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2022-06-14
Anticipated expiration: 2040-12-29
Also published as: CN112875591A

Abstract

The invention relates to the technical field of wood-plastic processing, in particular to a lifting mechanism for stacking and feeding wood-plastic processing, which comprises a case assembly, a lifting assembly and a composite wood-plastic material receiving assembly, wherein a rotary conveying structure is arranged inside a wood-plastic material receiving outer frame structure, so that each device has a conveying structure, the rotary conveying structure is accommodated inside the wood-plastic material receiving outer frame structure in an unused state, the occupied area is small, the rotary conveying structure can be automatically popped out during use, the feeding process of workers is more convenient, the rotary conveying structure is matched with the wood-plastic material receiving outer frame structure, the problem of height non-adaption caused by an externally-mounted conveying structure is avoided, the position of the conveying structure does not need to be manually debugged during use, and the feeding efficiency of wood-plastic plates is effectively improved; the automatic limiting of the wood-plastic board can be realized without manual operation after the wood-plastic board is fed, time and labor are saved, and the position stability of the wood-plastic board in the transportation process is effectively guaranteed.

Description

Lifting mechanism for stacking and feeding wood plastic processing

Technical Field

The invention relates to the technical field of wood-plastic processing, in particular to a lifting mechanism for stacking and feeding in wood-plastic processing.

Background

The wood-plastic processing refers to a process of processing the wood-plastic composite material, and the wood-plastic composite material is processed into a plate or a section by using plastic processing technologies such as extrusion, die pressing, injection molding and the like during processing, and the processed wood-plastic plate is mainly used in industries such as building materials, furniture, material packaging and the like.

In the wood-plastic processing process, the formed wood-plastic board needs to be carried, if a height difference exists between carrying points, the formed wood-plastic board needs to be carried by using a lifting mechanism, most of the lifting mechanisms for stacking and feeding the existing wood-plastic processing are plate-type lifting mechanisms, namely, a driving device drives a lifting plate to lift, so that the effect of driving the wood-plastic board placed on the lifting plate to lift synchronously is achieved, but before the wood-plastic board is used, workers need to manually carry the wood-plastic board to the lifting plate, time and labor are wasted, the carrying efficiency is reduced, the wood-plastic board is carried to the lifting plate by adopting a conveying belt structure, the labor can be saved, but the existing conveying belt structure is an external independent conveying structure, in order to realize the matching of the conveying belt structure and the lifting plate, the position of the conveying belt structure needs to be manually adjusted when the wood-plastic board is used, the operation is complex, and a great amount of time is consumed, the use is inconvenient, the feeding efficiency of the wood-plastic board is not greatly improved, and the practicability is poor.

Disclosure of Invention

The invention aims to provide a lifting mechanism for stacking and feeding in wood plastic processing, which has the advantages of small occupied area, automatic ejection of a material conveying structure during use, more convenient feeding process of workers, capability of avoiding the problem of height mismatch caused by an external material conveying structure, no need of manually debugging the position of the material conveying structure during use, effective improvement of the feeding efficiency of wood plastic plates, realization of automatic limit of the wood plastic plates without manual operation, time and labor saving, and reduction of the conveying efficiency due to the fact that the wood plastic plates are conveyed to a lifting plate manually in the background technology, labor and time are saved, the wood plastic plates are conveyed to the lifting plate by adopting a conveying belt structure, the labor is saved, but the existing conveying belt structure is an external independent conveying structure, and the position of the conveying belt structure needs to be manually adjusted during use in order to realize the matching of the conveying belt structure and the lifting plate, the operation is complicated, a large amount of time is consumed, the use is inconvenient, the feeding efficiency of the wood-plastic board is not greatly improved, and the practicability is not good.

In order to achieve the purpose, the invention provides the following technical scheme: a lifting mechanism for stacking and feeding wood plastic comprises a case component, a lifting component and a composite wood plastic material bearing component, wherein the outer wall of one side of the case component is provided with the lifting component, the end part of the lifting component extends into the inner side of the case component to be connected with the composite wood plastic material bearing component, the case component comprises a roller, a control box and a case body, the roller is arranged at the bottom of the machine box body, a control box is arranged at the bottom end of the machine box body, the control box is electrically connected with the lifting assembly and the composite wood-plastic material receiving assembly, a first sliding groove is formed in the outer wall of the left side of the machine box body, the first sliding groove is of a through groove structure, the mounting block is arranged on the side face of the first sliding groove, the mounting block is fixedly connected with the lifting assembly, two groups of second sliding grooves are formed in the inner wall of the right side of the machine box body, and a rack is arranged on the inner wall of the machine box body on the side face of the second sliding groove;

lifting unit includes vertical main support, the radial frame that extends of L type, an electric telescopic handle and end plate, the bottom of vertical main support is fixed on the installation piece, the top of vertical main support is passed through the radial frame that extends of L type and an electric telescopic handle's top fixed connection, the one end at the end plate is fixed to an electric telescopic handle's bottom, the other end of end plate stretches into the inside of quick-witted box, the end plate sets up to the Y template body component that a stainless steel made, the end plate is fixed on the bottom surface that the subassembly was accepted to combined type wood-plastic material.

Preferably, the composite wood-plastic material receiving assembly is composed of a wood-plastic material receiving outer frame structure and a rotary material conveying structure, and the rotary material conveying structure is sleeved inside the wood-plastic material receiving outer frame structure.

Preferably, the wood-plastic material bearing outer frame structure comprises a bearing outer frame, a bearing groove, a sliding block, a third sliding groove, a gear, a connecting rod, a pressing block, a telescopic rod switch, a second electric telescopic rod, a mounting groove and a clamping piece, wherein the bearing groove is formed in the top surface of the bearing outer frame, the third sliding groove is formed in the bottom surface of the bearing groove and is communicated with the mounting groove, the mounting groove is an open-ended groove body structure formed in the bearing outer frame, a rotary material conveying structure is arranged in the mounting groove, two groups of sliding blocks are mounted on the outer wall of the right side of the bearing outer frame and respectively slide in the two groups of second sliding grooves, the gear meshed with a rack is arranged on one side of each sliding block, the central shaft of the gear is connected with one end of the connecting rod, the other end of the connecting rod penetrates through the side wall of the bearing outer frame and extends into the bearing outer frame, the end of the connecting rod is positioned above the pressing block, and the end of the connecting rod is positioned below the telescopic rod switch, the telescopic rod switch is electrically connected with the second electric telescopic rod through a wire, the second electric telescopic rod is embedded in the bearing outer frame, and the output end of the second electric telescopic rod extends out of the bearing groove to be connected with the clamping piece.

Preferably, the defeated material structure of rotation type is including defeated material outer frame, the joint piece, the apparatus further comprises a rotating shaft, micro motor, motor switch, the conveyer belt structure, main spacing spring, clamp the groove, wedge and inferior spacing spring, the pivot removes in the inside of third spout, the pivot cup joints with the one end of defeated material outer frame, the right side outer wall of defeated material outer frame is connected with the cell wall of mounting groove through main spacing spring, the joint piece is installed to the bottom outer wall of defeated material outer frame, the left side outer wall fixed mounting micro motor of defeated material outer frame, micro motor is last to be provided with motor switch, micro motor's output shaft passes defeated material outer frame and meets with the conveyer belt structure that sets up at defeated material outer frame inside, conveyer belt structrual installation is in one side that clamps the groove, the tank bottom surface that clamps the groove is through the bottom fixed connection of two sets of inferior spacing spring and wedge.

Preferably, the clamping piece is provided with a groove structure, the groove structure arranged on the clamping piece is clamped with a lug structure arranged on the pressing block, and the pressing block is fixed on the inner wall of the bottom of the bearing outer frame through a spring.

Preferably, the height of the wedge-shaped block is the same as the distance between the top surface of the mounting groove and the bearing outer frame.

Preferably, the top surface of the rotating shaft is flush with the bottom surface of the bearing groove.

The invention provides a lifting mechanism for stacking and feeding wood plastic processing, which has the beneficial effects that:

1. this elevating system that processing was piled to wood is piled and is put material loading usefulness is failed the material structure setting of rotation type and is being moulded the inside that the outer frame structure was accepted to the material, and the inside of outer frame structure was accepted at wood-plastic material to the defeated material structure of rotation type is accomodate under unused state, and area is little, can pop out during the use automatically, and workman's material loading process is more convenient.

2. This elevating system that processing pile material loading was used is moulded to wood, every device all has its defeated material structure of taking certainly, and the defeated material structure of rotation type accepts frame structure looks adaptation with wood plastic materials, avoids the problem of the high mismatch that outer dress formula defeated material structure brought, also need not the position of artifical debugging defeated material structure during the use, effectively improves wood plastic board material loading efficiency.

3. This elevating system that processing was piled to wood was put material loading and is used, second electric telescopic handle are in the contraction state during wood-plastic board material loading, and after lifting unit began to start, second electric telescopic handle outwards stretched out, and it is spacing to the wood-plastic board of accepting inslot portion, and simple structure need not manual operation and can realize that wood-plastic board's automation is spacing, labour saving and time saving.

Drawings

FIG. 1 is a schematic view of the overall structure of a lifting mechanism for stacking and feeding wood plastic in an unused state;

FIG. 2 is a schematic structural diagram of a chassis assembly of a lifting mechanism for stacking and feeding wood plastic processing according to the present invention;

FIG. 3 is a schematic structural view of a lifting assembly of the lifting mechanism for stacking and feeding wood plastic processing according to the present invention;

FIG. 4 is a schematic view of the connection between the wood-plastic material receiving outer frame and the lifting assembly of the lifting mechanism for wood-plastic processing, stacking and feeding provided by the invention;

FIG. 5 is a schematic connection diagram of a gear and a connecting rod of a lifting mechanism for stacking and feeding wood plastic processing according to the invention;

FIG. 6 is a schematic view of an internal structure of a receiving outer frame of the lifting mechanism for stacking and feeding wood plastic processing provided by the invention;

FIG. 7 is a schematic view of a rotary conveying structure of a lifting mechanism for stacking and feeding wood plastic processing according to the present invention;

fig. 8 is a schematic view of the overall structure of the lifting mechanism for stacking and feeding wood plastic in a feeding state.

In the figure: 1. a chassis component; 11. a roller; 12. a control box; 13. a case body; 14. a first chute; 15. a second chute; 16. mounting blocks; 17. a rack; 2. a lifting assembly; 21. a vertical main support; 22. an L-shaped radially extending frame; 23. a first electric telescopic rod; 24. an end plate; 3. a composite wood-plastic material receiving assembly; 31. the wood-plastic material receiving outer frame structure; 311. carrying the outer frame; 312. a receiving groove; 313. a slider; 314. a third chute; 315. a gear; 316. a connecting rod; 317. briquetting; 318. the telescopic rod is opened and closed; 319. a second electric telescopic rod; 3110. mounting grooves; 3111. a clip; 32. a rotary material conveying structure; 321. a material conveying outer frame; 322. a clip sheet; 323. a rotating shaft; 324. a micro motor; 325. a motor switch; 326. a conveyor belt structure; 327. a main limit spring; 328. clamping grooves; 329. a wedge block; 3210. and a secondary limit spring.

Detailed Description

The technical scheme in the embodiment of the invention will be made clear below by combining the attached drawings in the embodiment of the invention; fully described, it is to be understood that the described embodiments are merely exemplary of some, but not all, embodiments of the invention and that all other embodiments, which can be derived by one of ordinary skill in the art based on the described embodiments without inventive faculty, are within the scope of the invention.

Please refer to fig. 1, a lifting mechanism for wood plastic processing stacking and feeding comprises a case assembly 1, a lifting assembly 2 and a composite wood plastic material receiving assembly 3, wherein the lifting assembly 2 is installed on the outer wall of one side of the case assembly 1, the end part of the lifting assembly 2 extends into the inner side of the case assembly 1 and is connected with the composite wood plastic material receiving assembly 3, a wood plastic board is placed on the composite wood plastic material receiving assembly 3 during use, the lifting assembly 2 drives the composite wood plastic material receiving assembly 3 to move up and down, and the transportation process of the wood plastic board is realized.

Referring to fig. 2, the chassis assembly 1 includes a roller 11, a control box 12, a chassis body 13, a first sliding groove 14, a second sliding groove 15, a mounting block 16 and a rack 17, the roller 11 is disposed at the bottom of the chassis body 13, the roller 11 adopts a wheel structure with a brake pad, the control box 12 is mounted at the bottom end of the chassis body 13, the control box 12 is electrically connected with the lifting assembly 2 and the composite wood-plastic material receiving assembly 3, the first sliding groove 14 is disposed on the outer wall of the left side of the chassis body 13, the first sliding groove 14 is configured as a through groove structure, the mounting block 16 is disposed on the side surface of the first sliding groove 14, the mounting block 16 is fixedly connected with the lifting assembly 2, two sets of second sliding grooves 15 are disposed on the inner wall of the chassis body 13 on the side surface of the second sliding groove 15, and the rack 17 is disposed on the inner wall of the chassis body 13 on the side surface of the chassis body 13.

Referring to fig. 3, the lifting assembly 2 includes a vertical main support 21, an L-shaped radial extension frame 22, a first electric telescopic rod 23 and an end plate 24, the bottom of the vertical main support 21 is fixed on the mounting block 16, the top of the vertical main support 21 is fixedly connected to the top of the first electric telescopic rod 23 through the L-shaped radial extension frame 22, the bottom of the first electric telescopic rod 23 is fixed to one end of the end plate 24, the other end of the end plate 24 extends into the interior of the housing 13, the end plate 24 is a Y-shaped plate member made of stainless steel, the end plate 24 is fixed to the bottom surface of the composite wood plastic material receiving assembly 3, the lifting height of the first electric telescopic rod 23 is controlled by the control box 12, so as to realize the height adaptation between the composite wood plastic material receiving assembly 3 and the feeding platform, the end plate 24 is driven to lift by the extension and retraction of the first electric telescopic rod 23, thereby achieving the lifting effect of the composite wood plastic material receiving assembly 3, the end plate 24 is arranged as a Y-shaped plate body component, so that the bearing area is increased, and the bearing capacity of the end plate 24 is improved.

Please refer to fig. 4-6, the composite wood-plastic receiving assembly 3 is composed of a wood-plastic receiving outer frame structure 31 and a rotary material conveying structure 32, the inside of the wood-plastic receiving outer frame structure 31 is sleeved with the rotary material conveying structure 32, the rotary material conveying structure 32 is arranged inside the wood-plastic receiving outer frame structure 31, so that each device has its own material conveying structure, the rotary material conveying structure 32 is accommodated inside the wood-plastic receiving outer frame structure 31 in an unused state, the occupied area is small, the material conveying structure can be automatically ejected when in use, the feeding process of workers is more convenient, the rotary material conveying structure 32 is matched with the wood-plastic receiving outer frame structure 31, the problem of non-matching height caused by the outer material conveying structure is avoided, the position of the material conveying structure is not required to be manually debugged during use, and the feeding efficiency of the wood-plastic board is effectively improved.

The wood-plastic material bearing outer frame structure 31 comprises a bearing outer frame 311, a bearing groove 312, a sliding block 313, a third sliding groove 314, a gear 315, a connecting rod 316, a pressing block 317, a telescopic rod switch 318, a second electric telescopic rod 319, a mounting groove 3110 and a clamping piece 3111, wherein the bearing groove 312 is formed in the top surface of the bearing outer frame 311, the third sliding groove 314 is formed in the bottom surface of the bearing groove 312, the third sliding groove 314 is communicated with the mounting groove 3110, the mounting groove 3110 is a side-opening groove body structure formed in the bearing outer frame 311, a rotary material conveying structure 32 is arranged in the mounting groove 3110, two groups of sliding blocks 313 are arranged on the outer wall of the right side of the bearing outer frame 311, the two groups of sliding blocks 313 respectively slide in the two groups of second sliding grooves 15, a gear 315 meshed with a rack 17 is arranged on one side of the sliding block 313, the central shaft of the gear 315 is connected with one end of the connecting rod 316, the other end of the connecting rod 316 penetrates through the side wall of the bearing outer frame 311 and extends into the bearing outer frame 311, the end of the connecting rod 316 is located above the pressing block 317, the end of the connecting rod 316 is located below the telescopic rod switch 318, the telescopic rod switch 318 is electrically connected with the second electric telescopic rod 319 through a conducting wire, the second electric telescopic rod 319 is embedded inside the receiving frame 311, the output end of the second electric telescopic rod 319 extends into the receiving groove 312 and is connected with the clamping piece 3111, the sliding block 313 slides inside the second sliding groove 15 during the lifting process of the receiving frame 311, so as to ensure the position stability of the receiving frame 311 during the lifting process, the receiving frame 311 in the initial state is located at the top of the case body 13, when the receiving frame 311 moves from top to bottom, the gear 315 is in contact with the smooth inner wall of the case body 13, the gear 315 does not rotate until the gear 315 is in contact with the rack 17 arranged on the inner wall of the case body 13, the gear 315 is driven to rotate under the engagement action of the two, so that the connecting rod 316 rotates downwards and extrudes the pressing block 317, the pressing block 317 moves downwards to release the clamping state between the bump structure arranged on the pressing block 317 and the clamping sheet 322, and the material conveying outer frame 321 rotates outwards around the rotating shaft 323 under the action of the main limiting spring 327, and the rotating shaft 323 is located at the front side of the third chute 314; after the wood plastic material loading is finished, a worker pushes the material conveying outer frame 321 outwards, the material conveying outer frame 321 returns to an initial position under the action of the main limiting spring 327, the lifting component 2 drives the receiving outer frame 311 to move upwards, the gear 315 rotates reversely to drive the connecting rod 316 to move upwards, the connecting rod 316 is pressed to the telescopic rod switch 318, the second electric telescopic rod 319 is started and extends outwards, the clamping piece 3111 clamps the wood plastic material to realize the automatic limiting of the wood plastic material, the middle section of the second electric telescopic rod 319 is provided with a spring rod component, so that the second electric telescopic rod 319 has certain buffering capacity, the second electric telescopic rod 319 is in a contraction state during the wood plastic material loading, when the lifting component 2 starts, the second electric telescopic rod 319 extends outwards to limit the wood plastic material in the receiving groove 312, the structure is simple, and the automatic limiting of the wood plastic material can be realized without manual operation, time and labor are saved, and the position stability of the wood-plastic plate in the transportation process is effectively ensured.

Referring to fig. 7-8, the rotary feeding structure 32 includes a feeding frame 321, a latch 322, a rotating shaft 323, a micro motor 324, a motor switch 325, a conveyor belt structure 326, a main limiting spring 327, a locking slot 328, a wedge 329, and a sub limiting spring 3210, the rotating shaft 323 moves inside the third sliding slot 314, the top surface of the rotating shaft 323 is flush with the bottom surface of the receiving slot 312, the rotating shaft 323 is connected to one end of the feeding frame 321, the right outer wall of the feeding frame 321 is connected to the slot wall of the mounting slot 3110 through the main limiting spring 327, the latch 322 is installed on the outer wall of the bottom of the feeding frame 321, the micro motor 324 is fixedly installed on the outer wall of the left side of the feeding frame 321, the micro motor switch 325 is installed on the micro motor 324, the output shaft of the micro motor 324 passes through the feeding frame 321 to be connected to the conveyor belt structure 326 installed inside the feeding frame 321, the conveyor belt structure 326 is installed on one side of the locking slot 328, the bottom surface of the clamping groove 328 is fixedly connected with the bottom of the wedge block 329 through two sets of secondary limiting springs 3210, the height dimension of the wedge block 329 is the same as the distance dimension between the groove top surface of the mounting groove 3110 and the receiving outer frame 311, because the sleeved part of the material conveying outer frame 321 and the rotating shaft 323 is not on the central axis of the material conveying outer frame 321, after the material conveying outer frame 321 is rotated out, the material conveying outer frame 321 can drop downwards under the action of gravity until the bottom of the material conveying outer frame 321 is contacted with the ground, at the moment, the material conveying outer frame 321 is pushed inwards through manpower, the rotating shaft 323 moves from the front side of the third sliding groove 314 to the rear side of the third sliding groove 314, the distance between the material conveying outer frame 321 and the case 13 is reduced, under the blocking action of the case 13, the main limiting spring 327 keeps a stretching state, the position of the material conveying outer frame 321 is limited, and simultaneously the position of the groove top surface of the mounting groove 3110 of the wedge block 329 is limited, pop up upwards under the restoring force effect of inferior spacing spring 3210, play and connect defeated material outer frame 321 and accept the bridge effect of outer frame 311, the workman can use conveyer belt structure 326 to carry wood-plastic board, makes it upwards transport to accept in the groove 312, realizes wood-plastic board's material loading process.

The clamping piece 322 is provided with a groove structure, the groove structure arranged on the clamping piece 322 is clamped with a lug structure arranged on the pressing block 317, and the pressing block 317 is fixed on the inner wall of the bottom of the bearing outer frame 311 through a spring.

The working principle is as follows: the lifting height of the first electric telescopic rod 23 is controlled through the control box 12, the height adaptation of the composite wood-plastic material receiving component 3 and the feeding platform is realized, the first electric telescopic rod 23 stretches and retracts to drive the end plate 24 to lift, so that the lifting effect of the composite wood-plastic material receiving component 3 is achieved, the end plate 24 is set to be a Y-shaped plate body component, the bearing area is increased, the bearing capacity of the end plate 24 is improved, the sliding block 313 slides in the second sliding groove 15 in the lifting process of the receiving outer frame 311, the position stability of the receiving outer frame 311 in the lifting process is ensured, the receiving outer frame 311 in the initial state is positioned at the top of the machine box body 13, when the receiving outer frame 311 moves from top to bottom, the gear 315 is in contact with the inner wall of the smooth machine box body 13, the gear 315 does not rotate until the gear 315 is in contact with the rack 17 arranged on the inner wall of the machine box body 13, the gear 315 is driven to rotate under the meshing effect of the two, the link rod 316 is caused to rotate downwards and press the pressing block 317, the pressing block 317 moves downwards to release the engagement between the bump structure on the pressing block 317 and the engagement piece 322, the feeding outer frame 321 rotates outwards around the rotating shaft 323 under the action of the main limiting spring 327, the rotating shaft 323 is located at the front side of the third sliding chute 314, the sleeved portion of the feeding outer frame 321 and the rotating shaft 323 is not on the central axis of the feeding outer frame 321, so that the feeding outer frame 321 will fall downwards under the action of gravity until the bottom of the feeding outer frame 321 contacts with the ground after rotating out, at this time, the feeding outer frame 321 is pushed inwards by manpower to move the rotating shaft 323 from the front side of the third sliding chute 314 to the rear side of the third sliding chute 314, the distance between the feeding outer frame 321 and the machine case 13 is reduced, under the blocking action of the machine case 13, the main limiting spring 327 maintains the stretched state, and the position of the feeding outer frame 321 is limited, meanwhile, the wedge block 329 loses the limitation of the position of the groove top surface of the mounting groove 3110 to the wedge block, the wedge block upwards pops under the restoring force action of the secondary limiting spring 3210 to play a role of a bridge connecting the material conveying outer frame 321 with the receiving outer frame 311, a worker can convey the wood-plastic board by using the conveyor belt structure 326 to enable the wood-plastic board to be upwards conveyed into the receiving groove 312, and the feeding process of the wood-plastic board is realized.

In conclusion, according to the lifting mechanism for stacking and feeding in wood plastic processing, the rotary material conveying structure 32 is arranged inside the wood plastic material receiving outer frame structure 31, so that each device has the material conveying structure of the device, the rotary material conveying structure 32 is accommodated inside the wood plastic material receiving outer frame structure 31 in an unused state, the occupied area is small, the device can be automatically popped out during use, the feeding process of workers is more convenient, the rotary material conveying structure 32 is matched with the wood plastic material receiving outer frame structure 31, the problem of height non-adaption caused by an external material conveying structure is avoided, the position of the material conveying structure does not need to be manually debugged during use, and the feeding efficiency of wood plastic plates is effectively improved; second electric telescopic handle 319 is in the shrink state during wood-plastic board material loading, and after lifting unit 2 began to start, second electric telescopic handle 319 outwards stretched out, carries on spacingly to the wood-plastic board of accepting the inside of groove 312, and simple structure need not manual operation and can realize that wood-plastic board's automation is spacing, and labour saving and time saving effectively guarantees the position stability of wood-plastic board in the transportation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A lifting mechanism for wood plastic processing, stacking and feeding comprises a case component (1), a lifting component (2) and a composite wood plastic material bearing component (3), wherein the lifting component (2) is installed on the outer wall of one side of the case component (1), the end part of the lifting component (2) extends into the inner side of the case component (1) and is connected with the composite wood plastic material bearing component (3), the lifting mechanism is characterized in that the case component (1) comprises a roller (11), a control box (12), a case body (13), a first sliding groove (14), a second sliding groove (15), an installation block (16) and a rack (17), the roller (11) is arranged at the bottom of the case body (13), the control box (12) is installed at the bottom end of the case body (13), and the control box (12) is electrically connected with the lifting component (2) and the composite wood plastic material bearing component (3), a first sliding groove (14) is formed in the outer wall of the left side of the machine box body (13), the first sliding groove (14) is set to be a through groove structure, a mounting block (16) is arranged on the side face of the first sliding groove (14), the mounting block (16) is fixedly connected with the lifting assembly (2), two groups of second sliding grooves (15) are formed in the inner wall of the right side of the machine box body (13), and racks (17) are arranged on the inner wall of the machine box body (13) on the side face of each second sliding groove (15);

the lifting assembly (2) comprises a vertical main support (21), an L-shaped radial extension frame (22), a first electric telescopic rod (23) and an end plate (24), the bottom of the vertical main support (21) is fixed on the mounting block (16), the top of the vertical main support (21) is fixedly connected with the top of the first electric telescopic rod (23) through the L-shaped radial extension frame (22), the bottom of the first electric telescopic rod (23) is fixed at one end of the end plate (24), the other end of the end plate (24) extends into the machine box body (13), the end plate (24) is arranged to be a Y-shaped plate body component made of stainless steel, and the end plate (24) is fixed on the bottom surface of the composite wood-plastic material bearing assembly (3);

the composite wood-plastic material bearing assembly (3) consists of a wood-plastic material bearing outer frame structure (31) and a rotary material conveying structure (32), wherein the rotary material conveying structure (32) is sleeved inside the wood-plastic material bearing outer frame structure (31);

the wood-plastic material bearing outer frame structure (31) comprises a bearing outer frame (311), a bearing groove (312), sliding blocks (313), a third sliding groove (314), a gear (315), a connecting rod (316), a pressing block (317), a telescopic rod switch (318), a second electric telescopic rod (319), a mounting groove (3110) and a clamping piece (3111), wherein the bearing groove (312) is formed in the top surface of the bearing outer frame (311), the third sliding groove (314) is formed in the bottom surface of the bearing groove (312), the third sliding groove (314) is communicated with the mounting groove (3110), the mounting groove (3110) is a side-open groove body structure formed in the bearing outer frame (311), a rotary type material conveying structure (32) is arranged in the mounting groove (3110), two groups of sliding blocks (313) are mounted on the outer wall of the right side of the bearing outer frame (311), the two groups of sliding blocks (313) respectively slide in the two groups of second sliding grooves (15), the gear (315) meshed with a rack (17) is arranged on one side of the sliding blocks (313), the central shaft of the gear (315) is connected with one end of the connecting rod (316), the other end of the connecting rod (316) penetrates through the side wall of the bearing outer frame (311) and extends into the bearing outer frame (311), the end part of the connecting rod (316) is positioned above the pressing block (317), the end part of the connecting rod (316) is positioned below the telescopic rod switch (318), the telescopic rod switch (318) is electrically connected with the second electric telescopic rod (319) through a conducting wire, the second electric telescopic rod (319) is embedded in the bearing outer frame (311), and the output end of the second electric telescopic rod (319) extends into the bearing groove (312) and is connected with the clamping piece (3111).

2. The lifting mechanism for wood plastic processing, stacking and feeding as claimed in claim 1, wherein: the rotary material conveying structure (32) comprises a material conveying outer frame (321), a clamping piece (322), a rotating shaft (323), a micro motor (324), a motor switch (325), a conveyor belt structure (326), a main limiting spring (327), a clamping groove (328), a wedge block (329) and a secondary limiting spring (3210), wherein the rotating shaft (323) moves in the third sliding groove (314), the rotating shaft (323) is sleeved with one end of the material conveying outer frame (321), the right outer wall of the material conveying outer frame (321) is connected with the groove wall of the mounting groove (3110) through the main limiting spring (327), the clamping piece (322) is installed on the outer wall of the bottom of the material conveying outer frame (321), the micro motor (324) is fixedly installed on the outer wall of the left side of the material conveying outer frame (321), the motor switch (325) is arranged on the micro motor (324), an output shaft of the micro motor (324) penetrates through the material conveying outer frame (321) and is connected with the conveyor belt structure (326) arranged in the outer frame (321), the conveying belt structure (326) is installed on one side of the clamping groove (328), and the bottom surface of the clamping groove (328) is fixedly connected with the bottom of the wedge block (329) through two sets of secondary limiting springs (3210).

3. The lifting mechanism for wood plastic processing, stacking and feeding as claimed in claim 2, wherein: the clamping piece (322) is provided with a groove structure, the groove structure arranged on the clamping piece (322) is clamped with a lug structure arranged on the pressing block (317), and the pressing block (317) is fixed on the inner wall of the bottom of the bearing outer frame (311) through a spring.

4. The lifting mechanism for wood plastic processing, stacking and feeding as claimed in claim 2, wherein: the height dimension of the wedge block (329) is the same as the distance dimension between the groove top surface of the mounting groove (3110) and the bearing outer frame (311).

5. The lifting mechanism for wood plastic processing, stacking and feeding as claimed in claim 2, wherein: the top surface of the rotating shaft (323) is flush with the bottom surface of the bearing groove (312).