CN215963986U - Automatic crushing and collecting equipment for production residual materials - Google Patents

Abstract

The utility model relates to the field of crushing equipment, and particularly discloses automatic crushing and collecting equipment for production residual materials. The automatic crushing and collecting equipment for the production residual materials comprises a crusher, a fan and at least one dust bag; the crusher comprises an installation frame connected to the frame, a crushing cavity is formed in the installation frame, and a fixed blade and a rotatable rotary cutter set are arranged in the crushing cavity; the crushing cavity is provided with a feeding hole and a discharging hole, the feeding hole is connected with a dust absorption pipe, the discharging hole is communicated with an air inlet of a fan through a connecting pipe, and an air outlet of the fan is communicated with each dust collection bag through a pipeline. This automatic collecting device that smashes of production residual material can in time smash the processing, collect the residual material that produces in the production process.

Description

Automatic crushing and collecting equipment for production residual materials

Technical Field

The utility model relates to the field of crushing equipment, in particular to automatic crushing and collecting equipment for production residual materials.

Background

The existing automatic production workshop generally has certain requirements on the internal environment of the workshop, waste materials and dust generated in the production process must be collected, and equipment in the workshop is required to be connected into a production line and can realize unified scheduling and remote control.

The common rubbing crusher in the existing market, either general type or special type, is used for the not high workshop of environmental requirement usually to do not possess and collect the function, can't direct access automation line.

Therefore, it is necessary to design an automatic pulverizing and collecting device for production residue materials to solve the above problems.

Disclosure of Invention

The utility model aims to provide automatic crushing and collecting equipment for production residual materials, which can crush and collect the residual materials generated in the production process in time.

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

an automatic crushing and collecting device for production residual materials comprises a crusher, a fan and at least one dust bag; the crusher comprises an installation frame connected to a rack, a crushing cavity is formed in the installation frame, and a fixed blade and a rotatable rotary blade set are arranged in the crushing cavity; the crushing cavity is provided with a feeding hole and a discharging hole, the feeding hole is connected with a dust absorption pipe, the discharging hole is communicated with an air inlet of the fan through a connecting pipe, and an air outlet of the fan is communicated with the dust collection bags through pipelines.

Furthermore, the rotary knife group comprises a rotating shaft which is rotatably connected with the mounting frame, two circular plates are coaxially connected to the rotating shaft, a plurality of connecting plates are connected between the two circular plates at intervals along the circumferential direction, rotary blades are connected to the connecting plates, and the rotary blades can be matched with the fixed blades to complete crushing.

Furthermore, a plurality of kidney-shaped holes are formed in the connecting plate or the rotating blade, and the length direction of each kidney-shaped hole is consistent with the radial direction of the rotating shaft; the connecting plate and the rotary blade are connected through a bolt positioned in the waist-shaped hole.

Furthermore, the cross section of the connecting plate is L-shaped; one side of the connecting plate, which is close to the rotating shaft, is connected with a plurality of adjusting screws, and one end of each adjusting screw penetrates through the connecting plate to be abutted against the rotary blade.

Furthermore, the rotating shaft is connected with a driving assembly for driving the rotating shaft to rotate; the drive assembly comprises a driving wheel, a driven wheel, a belt and a motor, the belt is connected with the driving wheel and the driven wheel, the driving wheel is rotatably connected with the rack, the driven wheel is coaxially connected with the rotating shaft, and the motor drives the driving wheel to rotate.

Further, be connected with the second protection casing in the frame, the action wheel, from the driving wheel and the belt all is located in the second protection casing.

Further, the stationary blade is disposed proximate the feed opening.

Further, the top surface of crushing chamber is uncovered and is set up, uncovered department is connected with first protection casing.

Further, the feed inlet with feed inlet intercommunication through cavity and both ends are link up between the dust absorption pipe, the discharge gate with through cavity and both ends link up between the connecting pipe discharge port intercommunication.

Furthermore, the outer side of the feed inlet and the outer side of the discharge outlet are both connected with square adapter plates, and the two adapter plates are respectively attached to the end face of the feed interface and the end face of the discharge interface.

The utility model has the beneficial effects that: according to the automatic crushing and collecting equipment for the production residual materials, under the action of the fan, waste materials and dust generated in the production process enter the crushing cavity through the dust absorption pipe, the waste materials are crushed into small particles or powder through the cooperation of the rotary cutter set and the fixed blade, and the crushed waste materials and dust enter the dust collection bag through the connecting pipe, the fan and the pipeline, so that the production residual materials generated in the production process are crushed and collected in time. This automatic collecting device that smashes of production residual material is applicable to the automated production workshop, can be used in product production lines such as cardboard, PCB board, woodwork, and the commonality is stronger, can compatible multiple automation equipment and semi-automatization equipment, optimizes production technology, improves the production environment, and the waste material that produces in making production handles more conveniently, rationally.

Drawings

FIG. 1 is a schematic structural diagram of an automatic pulverizing and collecting device for production residue materials provided by the utility model;

FIG. 2 is a schematic view of the shredder of FIG. 1;

FIG. 3 is a schematic view of the shredder of FIG. 1 shown at another angle;

FIG. 4 is an exploded view of the shredder of FIG. 1;

fig. 5 is a schematic structural view of the rotary cutter unit in fig. 4.

In the figure: 1-a pulverizer; 2-a dust suction pipe; 3-connecting pipe; 4-a fan; 5-a pipeline; 6-dust collecting bag; 7-a feed interface; 8-a discharge port; 10-a frame; 11-mounting a support; 12-a second shield; 20-a mounting frame; 21-a feed inlet; 22-a discharge hole; 23-an adapter plate; 24-a first shield; 30-a rotary cutter group; 31-a rotating shaft; 32-circular plate; 33-a connecting plate; 34-a rotating blade; 35-kidney shaped hole; 36-adjusting screws; 40-fixing the blade; 50-a drive assembly; 51-a driving wheel; 52-driven wheel; 53-belts; 54-motor.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1-5, an automatic pulverizing and collecting apparatus for production residue materials comprises a pulverizer 1, a blower 4 and at least one dust bag 6, wherein the pulverizer 1 comprises a mounting frame 20 connected to a frame 10, a pulverizing chamber is formed in the mounting frame 20, and a fixed blade 40 and a rotatable rotary knife set 30 are arranged in the pulverizing chamber; the crushing cavity is provided with a feeding hole 21 and a discharging hole 22, wherein the feeding hole 21 is connected with a dust absorption pipe 2, and the inlet end of the dust absorption pipe 2 is communicated with the residual material discharging end of the production equipment; the discharge port 22 is communicated with the air inlet of the fan 4 through the connecting pipe 3, and the air outlet of the fan 4 is communicated with each dust collecting bag 6 through the pipeline 5.

Specifically, as shown in fig. 2, 3 and 4, a mounting bracket 11 is connected to the frame 10, and the mounting frame 20 is connected to the mounting bracket 11. Wherein, the top surface of the crushing cavity is open, so as to facilitate the disassembly and assembly of the rotary knife tackle 30. The opening is connected with a first protective cover 24 to form a closed crushing cavity with the mounting frame 20, so that the waste and dust in the crushing cavity are prevented from overflowing.

The feeding port 21 is communicated with the dust collection pipe 1 through a hollow feeding interface 7 with two through ends, and the discharging port 22 is communicated with the connecting pipe 3 through a hollow discharging interface 8 with two through ends. Furthermore, in order to ensure the sealing performance of the connection, a square adapter plate 23 may be connected to the outer side of the feed port 21 and the outer side of the discharge port 22, and the two adapter plates 23 are respectively attached to the end surface of the feed port 7 and the end surface of the discharge port 8.

As shown in fig. 5, the rotary knife assembly 30 includes a rotating shaft 31 rotatably connected to the mounting frame 20, two circular plates 32 are coaxially connected to the rotating shaft 31, a plurality of connecting plates 33 are connected between the two circular plates 32 at intervals in a circumferential direction, a rotary knife 34 is connected to each connecting plate 33, and each rotary knife 34 can cooperate with the fixed blade 40 to complete the crushing.

Wherein the cross section of the connecting plate 33 is L-shaped. A plurality of kidney-shaped holes 35 are formed in the connecting plate 33 or the rotating blade 34, and the length direction of each kidney-shaped hole 35 is consistent with the radial direction of the rotating shaft 31; the connecting plate 33 and the rotary blade 34 are connected by a bolt located in the kidney-shaped hole 35. A plurality of adjusting screws 36 are connected to one side of the connecting plate 33 close to the rotating shaft 31, and one end of each adjusting screw 36 penetrates through the connecting plate 33 and abuts against the rotary blade 34.

When the device is used, the installation position of the rotary blade 34 on the connecting plate 33 is adjusted along the radial direction of the rotating shaft 31, so that the gap between the rotary blade 34 and the fixed blade 40 is realized, and the purpose of adjusting the crushing thickness of waste materials is achieved.

In the crusher 1, the fixed blade 40 is disposed near the feed opening 21 so that the waste material is crushed after entering the crushing chamber through the feed opening 21.

As shown in fig. 3, the rotating shaft 31 is connected with a driving assembly 50 for driving the rotating shaft to rotate. In this embodiment, the driving assembly 50 includes a driving wheel 51, a driven wheel 52, a belt 53 connecting the driving wheel 51 and the driven wheel 52, and a motor 54. Wherein, the driving wheel 51 is rotatably connected with the frame 10, the driven wheel 52 is coaxially connected with the rotating shaft 31, and the motor 54 drives the driving wheel 51 to rotate.

Wherein, the motor 54 can be a high-power speed-regulating motor. In use, the waste material can be crushed into particles of different sizes by varying the speed of the motor 54 for recycling.

Further, a second protection cover 12 is connected to the frame 10, and the driving wheel 51, the driven wheel 52 and the belt 53 are all located in the second protection cover 12.

In this embodiment, two dust collecting bags 6 are provided, and can be taken out and replaced; the duct 5 is provided with two outlets which communicate with two dust bags 6, respectively.

When the automatic crushing and collecting device for production residual materials is used, waste materials and dust generated by the production device enter the crushing cavity through the dust suction pipe 2 under the action of the fan 4; under the driving of the driving assembly 50, the rotary knife group 30 rotates, so that the rotary knife 34 cooperates with the fixed blade 40 to crush the waste into small particles or powder; the crushed waste and dust enter the dust collection bag 6 through the connecting pipe 3, the fan 4 and the pipeline 5, so that the production residual materials generated in the production process are crushed and collected in time.

This automatic collecting device that smashes of production residual material is applicable to the automated production workshop, can be used in product production lines such as cardboard, PCB board, woodwork, and the commonality is stronger, can compatible multiple automation equipment and semi-automatization equipment, optimizes production technology, improves the production environment, and the waste material that produces in making production handles more conveniently, rationally.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the utility model and should not be construed in any way as limiting the scope of the utility model. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. An automatic crushing and collecting device for production residual materials is characterized by comprising a crusher (1), a fan (4) and at least one dust collecting bag (6); the crusher (1) comprises an installation frame (20) connected to a rack (10), wherein a crushing cavity is formed in the installation frame (20), and a fixed blade (40) and a rotatable rotary cutter set (30) are arranged in the crushing cavity; the crushing cavity is provided with a feeding hole (21) and a discharging hole (22), the feeding hole (21) is connected with a dust collection pipe (2), the discharging hole (22) is communicated with an air inlet of the fan (4) through a connecting pipe (3), and an air outlet of the fan (4) is communicated with the dust collection bags (6) through pipelines (5).

2. The automatic production residue material smashing and collecting device according to claim 1, wherein the rotating knife set (30) comprises a rotating shaft (31) rotatably connected with the mounting frame (20), two circular plates (32) are coaxially connected to the rotating shaft (31), a plurality of connecting plates (33) are connected between the two circular plates (32) at intervals along the circumferential direction, a rotating knife blade (34) is connected to each connecting plate (33), and each rotating knife blade (34) can be matched with the fixed blade (40) to complete smashing.

3. The automatic production residue material smashing and collecting device according to claim 2, wherein a plurality of kidney-shaped holes (35) are formed in the connecting plate (33) or the rotating blade (34), and the length direction of each kidney-shaped hole (35) is consistent with the radial direction of the rotating shaft (31); the connecting plate (33) and the rotary blade (34) are connected through a bolt positioned in the kidney-shaped hole (35).

4. The automatic crushing and collecting device for the production residue material as claimed in claim 3, wherein the cross section of the connecting plate (33) is L-shaped; one side of the connecting plate (33) close to the rotating shaft (31) is connected with a plurality of adjusting screws (36), and one end of each adjusting screw (36) penetrates through the connecting plate (33) to abut against the rotating blade (34).

5. The automatic crushing and collecting device for the production residue material as claimed in any one of claims 2 to 4, wherein the rotating shaft (31) is connected with a driving assembly (50) for driving the rotating shaft to rotate; drive assembly (50) include action wheel (51), follow driving wheel (52), connect action wheel (51) and belt (53) and motor (54) from driving wheel (52), action wheel (51) with frame (10) rotate and are connected, follow driving wheel (52) with pivot (31) coaxial coupling, motor (54) drive action wheel (51) are rotated.

6. The automatic production residue material smashing and collecting device according to claim 5, wherein a second protective cover (12) is connected to the rack (10), and the driving wheel (51), the driven wheel (52) and the belt (53) are located in the second protective cover (12).

7. The automatic crushing and collecting device for production residues of claim 1, wherein said fixed blade (40) is disposed close to said feed opening (21).

8. The automatic pulverizing and collecting apparatus for production residues as claimed in claim 1, wherein the top surface of said pulverizing chamber is open, and a first protective cover (24) is connected to said opening.

9. The automatic production residue material smashing and collecting device according to claim 1, wherein the feeding port (21) is communicated with the dust suction pipe (2) through a hollow feeding interface (7) with two through ends, and the discharging port (22) is communicated with the connecting pipe (3) through a hollow discharging interface (8) with two through ends.

10. The automatic production residue material smashing and collecting device according to claim 9, wherein square adapter plates (23) are connected to the outer sides of the feeding port (21) and the discharging port (22), and the two adapter plates (23) are respectively connected with the end face of the feeding port (7) and the end face of the discharging port (8) in an attaching mode.

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