CN219483736U - Furniture production clout recovery unit - Google Patents

Abstract

The application discloses furniture production clout recovery unit relates to furniture production technical field. The application comprises the following steps: the recycling bin is internally provided with a crushing cavity and a compression cavity which are communicated, the recycling bin is provided with a bin door and a feeding hopper, the feeding hopper is communicated with the crushing cavity, two symmetrically distributed crushing rollers are rotationally arranged in the crushing cavity, and two symmetrically distributed extrusion plates are slidingly arranged in the compression cavity; and the driving part is arranged on the recovery box and fixedly connected with the two crushing rollers, and drives the two crushing rollers to synchronously and reversely rotate through the driving part. This application is retrieving the time spent in furniture production, drops into the feeder hopper with the spent, drives two crushing roller synchronous reverse rotation through drive division, smashes the spent, drives two stripper plates through the driving piece and is close to each other along horizontal direction synchronous reverse rotation, compresses the spent after smashing, reduces the volume of spent to reduce the occupation space of spent when transportation and transfer, be convenient for transportation and transfer.

Description

Furniture production clout recovery unit

Technical Field

The application relates to the technical field of furniture production, in particular to a furniture production residue recovery device.

Background

Furniture is a major appliance for maintaining normal life, practicing production practice and developing social activities, the furniture is developed and innovated continuously along with the steps of the times, the furniture is various in types, various in materials, complete in varieties and different in purposes, is an important foundation for building working and living spaces, in the production process of the furniture, the surfaces of raw materials are irregular and need to be processed into needed shapes, so that surplus materials can be produced, the surplus materials can be recycled, when the existing surplus material recycling device for furniture production is used, the surplus materials are usually crushed and then are directly recycled, the mode can lead to larger occupied space of the surplus materials during transportation and transfer, and accordingly inconvenience is caused in transportation and transfer, and the surplus material recycling device for furniture production is provided.

Disclosure of Invention

The purpose of the present application is: for solving the direct recovery of clout after smashing, this mode can lead to the clout to occupy the space great when transportation and transfer to cause transportation and transfer inconvenient problem, this application provides a furniture production clout recovery unit.

The application specifically adopts the following technical scheme for realizing the purposes:

a furniture production residue recovery device, comprising:

the recycling bin is internally provided with a crushing cavity and a compression cavity which are communicated, the recycling bin is provided with a bin door and a feeding hopper, the feeding hopper is communicated with the crushing cavity, two symmetrically distributed crushing rollers are rotationally arranged in the crushing cavity, and two symmetrically distributed extrusion plates are slidingly arranged in the compression cavity;

the driving part is arranged on the recovery box and fixedly connected with the two crushing rollers, and drives the two crushing rollers to synchronously and reversely rotate through the driving part;

the driving piece is arranged on the recovery box and hinged with the two extrusion plates, and drives the two extrusion plates to synchronously and reversely slide through the driving piece.

Further, the driving section includes:

the gear pair is arranged on the two crushing rollers;

and the crushing motor is arranged on the recovery box, and the output shaft is connected with one of the crushing rollers.

Further, the driving member includes:

the two front and back screw rods are respectively and rotatably arranged on the opposite sides of the recovery box and are symmetrically distributed, driving blocks are sleeved on the front and back screw thread sections of the front and back screw rods in a threaded manner, driving rods are hinged to the driving blocks, and the free ends of the driving rods penetrate through the recovery box and are hinged to the extrusion plates;

the rotating rod is rotatably arranged on the recovery box, a driving motor with an output shaft connected with the rotating rod is arranged on the recovery box, and the rotating rod is connected with the two positive and negative screw rods through two bevel gear assemblies.

Further, a pushing piece for pushing the compressed residual materials is arranged on the recovery box.

Further, the pushing member includes:

the accommodating cavity is arranged in the recovery box and communicated with the compression cavity, and a push plate is slidably arranged in the accommodating cavity;

the electric push rod is arranged on the recovery box, and the movable end of the electric push rod is connected with the push plate.

Further, two symmetrical distribution and the cavity of stepping down that all communicates with the compression chamber have been seted up in the collection box, and the intracavity that stepping down is provided with the shutoff board in the sliding of stepping down, is provided with the dead lever that the free end slip runs through the collection box on the shutoff board.

Further, the fixing rod is in transmission connection with the positive and negative screw rod through a transmission part, so that the positive and negative screw rod rotates and the fixing rod slides.

Further, the transmission member includes:

the shaft rod is rotatably arranged on the recovery box, the shaft rod is in transmission connection with the positive and negative screw rod through a belt pulley assembly, a transmission gear is sleeved on the shaft rod, and a transmission rack meshed with the transmission gear is arranged on the fixed rod.

The beneficial effects of this application are as follows: this application is retrieving the time spent in furniture production, drops into the feeder hopper with the spent, drives two crushing roller synchronous reverse rotation through drive division, smashes the spent, drives two stripper plates through the driving piece and is close to each other along horizontal direction synchronous reverse rotation, compresses the spent after smashing, reduces the volume of spent to reduce the occupation space of spent when transportation and transfer, be convenient for transport and transfer, consequently more have the practicality.

Drawings

FIG. 1 is a perspective view of the structure of the present application;

FIG. 2 is a perspective cross-sectional view of the present application;

FIG. 3 is an enlarged view of FIG. 2A of the present application;

FIG. 4 is a perspective view of another view structure of the present application;

FIG. 5 is an enlarged view of FIG. 4B of the present application;

FIG. 6 is another perspective cross-sectional view of the present application;

fig. 7 is an enlarged view at C in fig. 6 of the present application.

Reference numerals: 1. a recovery box; 2. a crushing cavity; 3. a compression chamber; 4. a door; 5. a feed hopper; 6. a pulverizing roller; 7. an extrusion plate; 8. a driving section; 801. a gear pair; 802. a crushing motor; 9. a driving member; 901. a positive and negative screw rod; 902. a driving block; 903. a driving rod; 904. a rotating rod; 905. a driving motor; 906. a bevel gear assembly; 10. a pushing member; 1001. a receiving chamber; 1002. a push plate; 1003. an electric push rod; 11. a relief cavity; 12. a plugging plate; 13. a fixed rod; 14. a transmission member; 1401. a shaft lever; 1402. a pulley assembly; 1403. a transmission gear; 1404. and (5) driving the rack.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As shown in fig. 1 to 7, a furniture production residue recycling device according to an embodiment of the present application includes: the recycling bin 1 is internally provided with a crushing cavity 2 and a compression cavity 3 which are communicated, the crushing cavity 2 and the compression cavity 3 are vertically distributed, the recycling bin 1 is provided with a bin door 4 and a feed hopper 5, one side of the recycling bin 1 is provided with a discharge hole communicated with the compression cavity 3, the bin door 4 is vertically arranged and is installed on one side of the recycling bin 1 through a hinge and a lock catch, the bin door 4 is used for plugging or unblocking the discharge hole, the feed hopper 5 is conically arranged at the top of the recycling bin 1, the feed hopper 5 is communicated with the crushing cavity 2, two symmetrically distributed crushing rollers 6 are rotationally arranged in the crushing cavity 2, the two crushing rollers 6 are horizontally arranged, two symmetrically distributed extrusion plates 7 are slidably arranged in the compression cavity 3, and the two extrusion plates 7 are vertically arranged and horizontally slide; the driving part 8 is arranged on the recovery box 1 and fixedly connected with the two crushing rollers 6, and the driving part 8 drives the two crushing rollers 6 to synchronously and reversely rotate; the driving piece 9 is arranged on the recycling bin 1 and hinged with the two extrusion plates 7, the two extrusion plates 7 are driven to synchronously and reversely slide through the driving piece 9, under the initial state, the bin door 4 is used for plugging a discharge hole, the two extrusion plates 7 are mutually far away, when the recycling bin is used, the residual materials produced by furniture are put into the feed hopper 5, raw materials can enter the crushing cavity 2 due to the action of gravity, the driving piece 8 is used for driving the two crushing rollers 6 to synchronously reversely rotate, the residual materials after crushing are crushed, the compression cavity 3 can be driven to synchronously reversely rotate to mutually approach the two extrusion plates 7 along the horizontal direction, the crushed residual materials are compressed through the driving piece 9, the bin door 4 is opened, the compressed residual materials are taken out from the compression cavity 3, the two extrusion plates 7 are driven to synchronously reversely rotate to mutually far away along the horizontal direction, when the residual materials are recovered for furniture production, the two crushing rollers 6 are driven to synchronously reversely rotate through the driving piece 8, the residual materials are crushed, the residual materials are driven to be more reversely rotate along the horizontal direction through the driving piece 9, and the residual materials are more convenient to transport and more practical and more convenient to transfer the residual materials after the residual materials are crushed along the horizontal direction, the two compression space is more convenient to transport, and the volume is reduced, and the residual materials are more convenient to transport and the volume is reduced.

As shown in fig. 4, in some embodiments, the driving section 8 includes: the gear pair 801 is arranged on the two crushing rollers 6, the same ends of the two crushing rollers 6 rotate to penetrate through the recovery box 1, the gear pair 801 consists of two meshed gears, the two gears are respectively sleeved on the same ends of the two crushing rollers 6, and the rotation directions of the two gears are opposite, so that the rotation directions of the two crushing rollers 6 are also opposite; the crushing motor 802 is arranged on the recovery box 1, and the output shaft is connected with one of the crushing rollers 6, and referring to the above, when the crushing motor 802 is turned on during use, the crushing motor 802 works, the output shaft rotates positively to drive one of the crushing rollers 6 to rotate together, and the gear pair 801 drives the other crushing roller 6 to rotate reversely synchronously, so that the two crushing rollers 6 are driven to rotate reversely synchronously and crush the residual materials.

As shown in fig. 4-7, in some embodiments, the driver 9 includes: the two front and back screw rods 901 are respectively and rotatably arranged on opposite sides of the recovery box 1 and are symmetrically distributed, the two front and back screw rods 901 are in a horizontal direction, driving blocks 902 are sleeved on front and back thread sections of the front and back screw rods 901 in a threaded manner, driving rods 903 are hinged to the driving blocks 902, the driving blocks 902 and the driving rods 903 are in a horizontal direction, free ends of the driving rods 903 penetrate through the recovery box 1 and are hinged to the extrusion plates 7, and in an initial state, the two driving blocks 902 positioned on the same front and back screw rod 901 are mutually far away, and the two extrusion plates 7 are mutually far away; the rotary rod 904 rotates and sets up on the collection box 1, the rotary rod 904 is the horizontal direction, be provided with the driving motor 905 that output shaft and rotary rod 904 are connected on the collection box 1, be connected through two bevel gear assembly 906 transmission between rotary rod 904 and the two positive and negative lead screws 901, two bevel gear assembly 906 are symmetrical distribution, bevel gear assembly 906 comprises two meshing bevel gears, two bevel gears cover are established respectively in positive and negative lead screw 901 and the tip of rotary rod 904, refer to the above, when using, open driving motor 905, driving motor 905 work, the output shaft corotation, drive the rotary rod 904 together rotation, drive two positive and negative lead screws 901 together forward rotation through two bevel gear assembly 906, two driving blocks 902 that lie in same positive and negative lead screw 901 respectively because of positive and negative screw thread effect synchronous reverse motion is to be close to each other, two driving rods 903 rotate around the pin joint that corresponds respectively, thereby drive two extrusion plates 7 synchronous reverse slide together and are close to each other, conversely, when the output shaft of driving motor 905 is in reverse rotation, drive two lead screws 904 together rotate through two bevel gear assembly 906 drive two lead screws 901 and rotate together, drive two positive and negative lead screws 901 respectively and drive two opposite extrusion plates and are kept away from each other because of the opposite directions and are kept away from each other to synchronous drive the pin joint, respectively, thereby the opposite directions are kept away from each other.

As shown in fig. 4, in some embodiments, the recycling bin 1 is provided with a pushing member 10 for pushing the compressed residual material, and referring to the above, after the bin door 4 is opened, the compressed residual material is pushed by the pushing member 10, so that the compressed residual material is far away from the compression cavity 3, thereby facilitating the removal of the compressed residual material from the compression cavity 3, and facilitating the operation.

As shown in fig. 7, in some embodiments, the pusher 10 includes: the accommodating cavity 1001 is arranged in the recovery box 1 and is communicated with the compression cavity 3, a push plate 1002 is slidably arranged in the accommodating cavity 1001, and the push plate 1002 slides in the vertical direction and in the horizontal direction; the electric push rod 1003 is arranged on the recovery box 1, the movable end of the electric push rod 1003 is connected with the push plate 1002, the electric push rod 1003 is in the horizontal direction, the movable end of the electric push rod 1003 penetrates through the recovery box 1, referring to the above, in the initial state, the push plate 1002 is located in the accommodating cavity 1001, the movable end of the electric push rod 1003 is in a retracted state, after the box door 4 is opened, the movable end of the electric push rod 1003 is driven to extend, the push plate 1002 is driven to slide along the horizontal direction, the push plate 1002 slides from the accommodating cavity 1001 to the compression cavity 3, the compressed residual materials are pushed by the push plate 1002 to be far away from the compression cavity 3 so as to push the compressed residual materials, and then the movable end of the electric push rod 1003 is driven to retract, the push plate 1002 is driven to slide along the horizontal direction, and the push plate 1002 slides from the compression cavity 3 to the accommodating cavity 1001.

As shown in fig. 3, in some embodiments, two relief cavities 11 which are symmetrically distributed and are all communicated with the compression cavity 3 are provided in the recovery box 1, a plugging plate 12 is slidably provided in the relief cavities 11, a fixing rod 13 is provided on the plugging plate 12, the plugging plate 12 and the fixing rod 13 are both horizontally oriented and slide along the horizontal direction, referring to the above, in an initial state, the two plugging plates 12 are respectively positioned in the two relief cavities 11, at this time, the crushing cavity 2 and the compression cavity 3 are in a communicating state, when two extrusion plates 7 are driven by a driving piece 9 to synchronously reversely rotate along the horizontal direction to mutually approach each other, and after crushed residual materials are compressed, the two fixing rods 13 are driven to synchronously reversely slide, respectively, the two plugging plates 12 are driven to synchronously slide to mutually approach each other, the communicating position of the crushing cavity 2 and the compression cavity 3 is driven by the two plugging plates 12, the residual materials in the crushing cavity 2 cannot enter the compression cavity 3, so that when the crushed residual materials are compressed, the crushed residual materials are prevented from reentering the compression cavity 3, and simultaneously, the two extrusion plates 7 are driven by the two opposite compression cavity 3 are driven by the two plugging plates 7 to synchronously slide along the horizontal direction, the two opposite extrusion plates 7 are prevented from being driven by the two opposite extrusion plates 7 to synchronously slide along the two opposite directions, the two extrusion plates 7 are driven by the two opposite extrusion plates 3 to be further, the two compression cavity 4 are prevented from being driven by the two opposite extrusion plates, and the two extrusion plates are driven by the opposite extrusion plates 3 to synchronously slide along the two opposite extrusion plates 3 to be separated from the opposite to be mutually close to each other, and the opposite to be driven by the opposite to be separated from the compression cavity 3, and then to be driven by the opposite to be separated from the compression cavity 3 and then to be separated by the compression cavity and then to be driven by the compression cavity 4 and then to be separated by the compression cavity and then to be separated, the remainder in the crushing cavity 2 can normally enter the compression cavity 3.

As shown in fig. 1, in some embodiments, the fixing rod 13 is in transmission connection with the positive and negative screw rod 901 through the transmission member 14, so as to realize rotation of the positive and negative screw rod 901 and sliding of the fixing rod 13, referring to the above, when the positive and negative screw rod 901 rotates forward, the two extrusion plates 7 slide synchronously and reversely to approach each other, at this time, the fixing rod 13 is driven to slide through the transmission member 14, the two plugging plates 12 slide together to approach each other, the communicating place of the crushing cavity 2 and the compression cavity 3 is plugged by the two plugging plates 12, and the residual materials in the crushing cavity 2 cannot enter the compression cavity 3, otherwise, when the positive and negative screw rod 901 rotates reversely, the two extrusion plates 7 slide synchronously and reversely to be far away from each other, at this time, the fixing rod 13 slide through the transmission member 14, the two plugging plates 12 slide together to be far away from each other, the two plugging plates 12 are respectively located in the two giving-way cavities 11, at this time, the crushing cavity 2 and the compression cavity 3 are in a state without communicating, the residual materials in the crushing cavity 2 can normally enter the compression cavity 3, the positive and negative screw rod 901 can not only be realized, but also realize rotation of the fixing rod 13, and the additional power, and the energy saving effect.

As shown in fig. 3-4, in some embodiments, the transmission 14 includes: the shaft rod 1401 is rotationally arranged on the recovery box 1, the shaft rod 1401 is in a horizontal direction, the shaft rod 1401 and the positive and negative screw rods 901 are in transmission connection through the belt pulley assembly 1402, the belt pulley assembly 1402 is composed of two belt pulleys and a connecting belt, the two belt pulleys are respectively sleeved on the shaft rod 1401 and the positive and negative screw rods 901, the connecting belt is wound on the two belt pulleys, the shaft rod 1401 is sleeved with the transmission gear 1403, the fixed rod 13 is provided with the transmission rack 1404 meshed with the transmission gear 1403, the transmission rack 1404 is in the horizontal direction, when the positive and negative screw rods 901 are positively rotated, the belt pulley assembly 1402 drives the shaft rod 1401 to positively rotate together, the transmission gear 1403 can be rotated together with the shaft rod 1401, the transmission rack 1404 can slide and drive the fixed rod 13 to positively slide together due to the meshing effect, and the two plugging plates 12 can positively slide together to mutually close together, otherwise, when the positive and negative screw rods 901 reversely rotate, the transmission gear 1403 can positively slide together with the shaft rod 1401.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Furniture production clout recovery unit, characterized by, include:

the recycling bin (1) is internally provided with a crushing cavity (2) and a compression cavity (3) which are communicated, the recycling bin (1) is provided with a bin door (4) and a feeding hopper (5), the feeding hopper (5) is communicated with the crushing cavity (2), two symmetrically distributed crushing rollers (6) are rotationally arranged in the crushing cavity (2), and two symmetrically distributed extrusion plates (7) are slidably arranged in the compression cavity (3);

the driving part (8) is arranged on the recovery box (1) and fixedly connected with the two crushing rollers (6), and the two crushing rollers (6) are driven to synchronously and reversely rotate through the driving part (8);

the driving piece (9) is arranged on the recovery box (1) and hinged with the two extrusion plates (7), and the two extrusion plates (7) are driven to synchronously and reversely slide through the driving piece (9).

2. -a furniture production residue recovery device according to claim 1, characterized in that the drive part (8) comprises:

a gear pair (801) arranged on the two crushing rollers (6);

and a crushing motor (802) which is arranged on the recovery box (1) and the output shaft is connected with one of the crushing rollers (6).

3. -a furniture production residue recovery device according to claim 1, characterized in that the driving element (9) comprises:

the two front and back screw rods (901) are respectively and rotatably arranged on the opposite sides of the recovery box (1) and are symmetrically distributed, driving blocks (902) are sleeved on the front and back thread sections of the front and back screw rods (901) in a threaded manner, driving rods (903) are hinged to the driving blocks (902), and the free ends of the driving rods (903) penetrate through the recovery box (1) and are hinged to the extrusion plates (7);

the rotating rod (904) is rotatably arranged on the recovery box (1), a driving motor (905) with an output shaft connected with the rotating rod (904) is arranged on the recovery box (1), and the rotating rod (904) is in transmission connection with the two positive and negative screw rods (901) through two bevel gear assemblies (906).

4. Furniture production residue recycling device according to claim 1, characterized in that the recycling bin (1) is provided with a pushing member (10) for pushing the compressed residue.

5. -a furniture production residue recovery device according to claim 4, characterized in that the pusher (10) comprises:

the accommodating cavity (1001) is arranged in the recovery box (1) and is communicated with the compression cavity (3), and a push plate (1002) is arranged in the accommodating cavity (1001) in a sliding manner;

and the electric push rod (1003) is arranged on the recovery box (1) and the movable end of the electric push rod is connected with the push plate (1002).

6. A furniture production surplus material recovery device according to claim 3, characterized in that two symmetrical distribution yielding cavities (11) which are communicated with the compression cavity (3) are formed in the recovery box (1), a plugging plate (12) is arranged in the yielding cavities (11) in a sliding mode, and a fixing rod (13) with a free end penetrating through the recovery box (1) in a sliding mode is arranged on the plugging plate (12).

7. The furniture production residue recycling apparatus according to claim 6, wherein the fixing rod (13) is in transmission connection with the front and back screw rod (901) through a transmission piece (14), so as to realize rotation of the front and back screw rod (901) and sliding of the fixing rod (13).

8. -a furniture production residue recovery device according to claim 7, characterized in that the transmission element (14) comprises:

the shaft rod (1401) is rotatably arranged on the recovery box (1), the shaft rod (1401) is in transmission connection with the positive and negative screw rod (901) through the belt pulley assembly (1402), the transmission gear (1403) is sleeved on the shaft rod (1401), and the transmission rack (1404) meshed with the transmission gear (1403) is arranged on the fixed rod (13).