CN215543662U - A waste recovery processing device for design is created to non-heritage - Google Patents

Abstract

The utility model relates to a waste recovery device, in particular to a waste recovery processing device for non-legacy design, which comprises a feeding extrusion mechanism, a processing box mechanism and a positive pressure crushing mechanism, wherein the device can complete one-time extrusion on the premise of ensuring smooth feeding in the feeding process, can perform environment-friendly operation, can crush, can extrude and collect waste into blocks, and is connected with the feeding extrusion mechanism and the processing box mechanism which is connected with the positive pressure crushing mechanism.

Description

A waste recovery processing device for design is created to non-heritage

Technical Field

The utility model relates to a waste recovery device, in particular to a waste recovery and treatment device for non-heritage design.

Background

In the non-heritage design, a lot of artware waste materials are often generated, for example, in the paper-cut art, a lot of paper scraps are generated, the waste materials are often compressible, the traditional recycling mode is not extruded and is simply recycled, so that the collected bags or boxes need to be large in volume, the occupied space is large, and the waste material recycling and treating device for the non-heritage design is designed.

Disclosure of Invention

The utility model provides a waste recovery and treatment device for non-original design, which has the advantages that the device can complete one-time extrusion on the premise of ensuring smooth feeding in the feeding process, the device can perform environment-friendly operation, the device can perform crushing, and the device can extrude the waste into blocks to be collected.

In order to solve the technical problems, the utility model relates to a waste recovery device, in particular to a waste recovery processing device for non-heritage creative design, which comprises a feeding extrusion mechanism, a processing box mechanism and a positive pressure crushing mechanism, wherein the device can complete one-time extrusion on the premise of ensuring smooth feeding in the feeding process, can perform environment-friendly operation, can crush waste materials, and can extrude the waste materials into blocks for collection.

The feeding and extruding mechanism is connected with the processing box mechanism, and the processing box mechanism is connected with the positive pressure crushing mechanism;

the feeding and extruding mechanism comprises a cam, a motor, a matching seat, a rotating support, a sliding rod, a spring and a seat with an inclined surface, wherein the cam is connected with the motor, the cam is contacted with the matching seat, the matching seat is connected with the sliding rod, the sliding rod is connected with the seat with the inclined surface, the rotating support is connected with the cam in a rotating manner, the motor is connected with the rotating support, and the spring is sleeved on the sliding rod.

As a further optimization of the technical scheme, the treatment box mechanism of the waste recovery treatment device comprises supporting legs, a box body, a conveying motor, a motor cavity, an exhaust pipe, a connecting pipeline, a discharge one-way valve, a compression cavity, a suction one-way valve, a filter element, a suction pipeline, a feeding hopper, a feeding cavity, a crushing cavity, a spiral shaft, a baffle plate, a collecting box, a hydraulic rod, a gate cavity, a hydraulic cylinder, a movable baffle with a rod, a reset spring and a pulley, wherein the supporting legs are connected with the box body, the box body is internally provided with the motor cavity, the conveying motor is arranged in the motor cavity, the conveying motor is connected with the spiral shaft, the spiral shaft is rotatably connected to the box body, the exhaust pipe is communicated with the motor cavity, the exhaust pipe is communicated with the connecting pipeline, the exhaust pipe is connected with the box body, the connecting pipeline is arranged on the box body, and the discharge one-way valve is arranged in the connecting pipeline, the connecting pipeline is communicated with the compression cavity, the compression cavity is arranged in the box body, the compression cavity is communicated with the suction pipeline, the suction pipeline is arranged on the box body, the suction check valve is arranged in the suction pipeline, the filter element is slidably connected with the box body, the filter element penetrates through the suction pipeline, the feed hopper is arranged on the box body, the feed hopper is communicated with the feed cavity, the feed cavity is arranged on the box body, the suction pipeline is communicated with the feed cavity, the crushing cavity is arranged on the box body and is communicated with the feed hopper, the crushing cavity is arranged on the box body, the baffle plate is slidably connected with the gate cavity, the gate cavity is arranged on the box body, the baffle plate is connected with the hydraulic rod, the hydraulic rod is connected with the hydraulic cylinder, the hydraulic cylinder is arranged in the box body, the collecting box is arranged under the baffle plate, the movable baffle plate with the rod is slidably connected on the box body, and the reset spring is sleeved on the movable baffle plate with the rod, the movable baffle with the rod is rotatably connected with a pulley, the rotating support is connected with the box body, the two ends of the spring are respectively connected to the matching seat and the box body, and the inclined seat is connected with the compression cavity in a sliding mode.

As a further optimization of the technical scheme, the positive pressure crushing mechanism for the non-heritage design waste recovery and treatment device comprises a sliding support, a motor base, a sliding chute, a pulling hydraulic cylinder, a crushing wheel, an extrusion pipeline, a negative pressure pipeline, a pushing cavity, a shaft with a bulge and a driving motor, wherein the motor base is connected in the sliding chute in a sliding manner, the sliding chute is arranged on the sliding support, the pulling hydraulic cylinder is connected with the motor base, the pulling hydraulic cylinder is connected with the sliding support, the motor base is connected with the driving motor, the driving motor is connected with the shaft with the bulge, the shaft with the bulge is connected with the motor base in a rotating manner, the shaft with the bulge is connected with the pushing cavity in a sliding manner, the pushing cavity is arranged on the crushing wheel, the crushing wheel is connected on a box body in a rotating manner, the extrusion pipeline and the negative pressure pipeline are arranged on the crushing wheel, the extrusion pipeline and the negative pressure pipeline are both communicated with the pushing cavity, a one-way valve is arranged in the extrusion pipeline, the one-way crushing cavity is opened, the negative pressure pipeline is internally provided with a one-way valve, the cavity is pushed to be opened in a one-way direction, and the pulley is contacted with the shaft with the bulge.

As a further optimization of the technical scheme, the material of the crushing wheel of the waste recovery and treatment device for the non-original design is stainless steel.

The waste recovery and treatment device for the non-heritage creative design has the beneficial effects that:

according to the waste recovery and treatment device for the non-legacy design, disclosed by the utility model, one-time extrusion can be completed on the premise of ensuring smooth feeding in the feeding process, the device can be operated in an environment-friendly manner, the device can be used for crushing, and the device can be used for extruding and collecting the waste in a block manner.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of a waste recycling and processing device for non-heritage design.

Fig. 2 is a schematic structural diagram of a feeding and extruding mechanism 1 of the waste recycling and processing device of the non-original design.

FIG. 3 is a schematic structural view of a treatment tank mechanism 2 of a waste recycling and treatment apparatus of the non-heritage design according to the present invention.

Fig. 4 is a schematic structural diagram of a positive pressure pulverizing mechanism 3 of a waste recycling and processing device of non-heritage design.

In the figure: a feeding and extruding mechanism 1; a cam 1-1; a motor 1-2; 1-3 of a matching seat; 1-4 of a rotary support; 1-5 of a sliding rod; 1-6 of a spring; 1-7 parts of a seat with a bevel; a treatment tank mechanism 2; 2-1 of supporting legs; a box body 2-2; a conveying motor 2-3; 2-4 of a motor cavity; 2-5 of an exhaust pipe; connecting pipelines 2-6; discharge check valves 2-7; 2-8 of a compression cavity; suction one-way valves 2-9; 2-10 parts of a filter element; suction lines 2-11; 2-12 parts of a feed hopper; 2-13 of a feeding cavity; 2-14 parts of a crushing cavity; 2-15 parts of a spiral shaft; 2-16 parts of a material baffle plate; a collecting box 2-17; 2-18 of hydraulic rod; 2-19 of a gate cavity; 2-20 parts of hydraulic cylinder; 2-21 of movable baffle with rod; 2-22 of a return spring; 2-23 of pulleys; a positive pressure crushing mechanism 3; 3-1 of a sliding support; 3-2 of a motor base; 3-3 of a chute; pulling the hydraulic cylinder 3-4; 3-5 of a crushing wheel; 3-6 parts of an extrusion pipeline; 3-7 parts of a negative pressure pipeline; 3-8 parts of a pushing cavity; 3-9 of a shaft with a bulge; and driving the motor 3-10.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3 and 4, and the utility model relates to a waste recovery device, in particular to a waste recovery processing device for non-legacy design, which comprises a feeding extrusion mechanism 1, a processing box mechanism 2 and a positive pressure crushing mechanism 3, wherein the device can complete one-time extrusion on the premise of ensuring smooth feeding in the feeding process, can operate in an environment-friendly manner, can crush waste, and can extrude the waste into blocks to be collected.

The feeding and extruding mechanism 1 is connected with the processing box mechanism 2, and the processing box mechanism 2 is connected with the positive pressure crushing mechanism 3;

the feeding and extruding mechanism 1 comprises a cam 1-1, a motor 1-2, a matching seat 1-3, a rotating support 1-4, a sliding rod 1-5, a spring 1-6 and a seat with a slope 1-7, wherein the cam 1-1 is connected with the motor 1-2, the cam 1-1 is contacted with the matching seat 1-3, the matching seat 1-3 is connected with the sliding rod 1-5, the sliding rod 1-5 is connected with the seat with the slope 1-7, the rotating support 1-4 is rotatably connected with the cam 1-1, the motor 1-2 is connected with the rotating support 1-4, and the spring 1-6 is sleeved on the sliding rod 1-5.

The second embodiment is as follows:

the embodiment is described below by combining with figures 1, 2, 3 and 4, and the embodiment further describes the embodiment, the treatment box mechanism 2 comprises support legs 2-1, a box body 2-2, a conveying motor 2-3, a motor cavity 2-4, an exhaust pipe 2-5, a connecting pipeline 2-6, a discharge one-way valve 2-7, a compression cavity 2-8, a suction one-way valve 2-9, a filter element 2-10, a suction pipeline 2-11, a feed hopper 2-12, a feed cavity 2-13, a crushing cavity 2-14, a spiral shaft 2-15, a material baffle plate 2-16, a collection box 2-17, a hydraulic rod 2-18, a gate cavity 2-19, a hydraulic cylinder 2-20, a movable baffle plate with a rod 2-21, a return spring 2-22 and pulleys 2-23, the landing leg 2-1 is connected with a box body 2-2, a motor cavity 2-4 is arranged in the box body 2-2, a conveying motor 2-3 is arranged in the motor cavity 2-4, the conveying motor 2-3 is connected with a screw shaft 2-15, the screw shaft 2-15 is rotatably connected with the box body 2-2, an exhaust pipe 2-5 is communicated with the motor cavity 2-4, the exhaust pipe 2-5 is communicated with a connecting pipeline 2-6, the exhaust pipe 2-5 is connected with the box body 2-2, the connecting pipeline 2-6 is arranged on the box body 2-2, a discharge one-way valve 2-7 is arranged in the connecting pipeline 2-6, the connecting pipeline 2-6 is communicated with a compression cavity 2-8, and the compression cavity 2-8 is arranged in the box body 2-2, the compression cavity 2-8 is communicated with a suction pipeline 2-11, the suction pipeline 2-11 is arranged on a box body 2-2, a suction one-way valve 2-9 is arranged in the suction pipeline 2-11, a filter element 2-10 is in sliding connection with the box body 2-2, the filter element 2-10 penetrates through the suction pipeline 2-11, a feed hopper 2-12 is arranged on the box body 2-2, the feed hopper 2-12 is communicated with a feed cavity 2-13, the feed cavity 2-13 is arranged on the box body 2-2, the suction pipeline 2-11 is communicated with the feed cavity 2-13, a crushing cavity 2-14 is arranged on the box body 2-2 and is communicated with the feed hopper 2-12, the crushing cavity 2-14 is arranged on the box body 2-2, a material baffle plate 2-16 is in sliding connection with a gate cavity 2-19, the gate cavity 2-19 is arranged on the box body 2-2, the striker plate 2-16 is connected with the hydraulic rod 2-18, the hydraulic rod 2-18 is connected with the hydraulic cylinder 2-20, the hydraulic cylinder 2-20 is arranged in the box body 2-2, the collecting box 2-17 is arranged under the striker plate 2-16, the movable baffle plate 2-21 with the rod is connected with the box body 2-2 in a sliding way, the reset spring 2-22 is sleeved on the movable baffle plate 2-21 with the rod, the movable baffle plate 2-21 with the rod is connected with the pulley 2-23 in a rotating way, the rotating support 1-4 is connected with the box body 2-2, two ends of the spring 1-6 are respectively connected with the matching seat 1-3 and the box body 2-2, the seat 1-7 with the inclined plane is connected with the compression cavity 2-8 in a sliding way, the cam 1-1 is driven to rotate by the operation of the motor 1-2, the cam 1-1 drives the matching seat 1-3 to reciprocate by matching with the spring 1-6, the matching seat 1-3 drives the inclined seat 1-7 to reciprocate, after waste materials are put into the feeding hopper 2-12, the inclined seat 1-7 plays a role in vibration feeding, and plays a role in intermittent lateral extrusion on the materials in the transverse direction, the waste materials are extruded between the inclined seat 1-7 and the inner wall of the box body 2-2 and then fall downwards to the bottom of the feeding cavity 2-13, the inclined seat 1-7 can cause the pressure difference change in the compression cavity 2-8 in the reciprocating motion process, so that air discharged from the feeding cavity 2-13 communicated with the one-way valve 2-7 is continuously sucked into the compression cavity 2-8 after being filtered by the filter element 2-10 The waste materials and the crushed materials are driven to extrude towards the direction of the material baffle plate 2-16 by the screw shaft 2-15, the extruded waste materials and the crushed materials are driven to extrude towards the direction of the material baffle plate 2-16 by the screw shaft 2-15, the hydraulic cylinder 2-20 drives the hydraulic rod 2-18 to pull the material baffle plate 2-16 after extrusion, and the extruded materials are dropped into the collecting box 2-17 after losing support, and collection is finished.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3 and 4, and the embodiment further describes the first embodiment, wherein the positive pressure pulverizing mechanism 3 comprises a sliding support 3-1, a motor base 3-2, a chute 3-3, a pulling hydraulic cylinder 3-4, a pulverizing wheel 3-5, an extrusion pipeline 3-6, a negative pressure pipeline 3-7, a pushing cavity 3-8, a shaft with a protrusion 3-9 and a driving motor 3-10, the motor base 3-2 is slidably connected in the chute 3-3, the chute 3-3 is arranged on the sliding support 3-1, the pulling hydraulic cylinder 3-4 is connected with the motor base 3-2, the pulling hydraulic cylinder 3-4 is connected with the sliding support 3-1, the motor base 3-2 is connected with the driving motor 3-10, the driving motor 3-10 is connected with the shaft with the protrusion 3-9, the shaft 3-9 with the bulge is rotatably connected with the motor base 3-2, the shaft 3-9 with the bulge is slidably connected with the pushing cavity 3-8, the pushing cavity 3-8 is arranged on the crushing wheel 3-5, the crushing wheel 3-5 is rotatably connected with the box body 2-2, the crushing wheel 3-5 is provided with an extrusion pipeline 3-6 and a negative pressure pipeline 3-7, the extrusion pipeline 3-6 and the negative pressure pipeline 3-7 are both communicated with the pushing cavity 3-8, the extrusion pipeline 3-6 is internally provided with a one-way valve which is opened towards the crushing cavity 2-14 in a one-way manner, the negative pressure pipeline 3-7 is internally provided with a one-way valve which is opened towards the pushing cavity 3-8 in a one-way manner, the pulley 2-23 is contacted with the shaft 3-9 with the bulge, and the shaft 3-9 with the bulge is driven to rotate by the operation of the driving motor 3-10, the crushing wheel 3-5 is driven to rotate by the shaft 3-9 with the bulge, the material added into the crushing cavity 2-14 is crushed by the rotation of the crushing wheel 3-5, when the material needs to be discharged, the motor base 3-2 is driven to move towards the direction close to the hydraulic cylinder 3-4 by pulling the hydraulic cylinder 3-4, the motor base 3-2 drives the shaft 3-9 with the bulge to move, the shaft 3-9 with the bulge drives the movable baffle plate 2-21 with the rod to move through the pulley 2-23, the shaft 3-9 with the bulge moves towards the pushing cavity 3-8, so that the gas in the pushing cavity 3-8 is pressurized and then the one-way valve in the extrusion pipeline 3-6 is opened, the opening of the crushing cavity 2-14 is reduced by the movable baffle plate 2-21 with the rod to play a role in reducing dust raising, and the gas rushing the one-way valve drives the material to move, so that the material is helped to move downwards to the cavity where the spiral shafts 2-15 are located.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, and 4, and the present embodiment further describes the first embodiment in which the material of the crushing wheels 3 to 5 is stainless steel.

The working principle of the utility model is as follows: the device can complete one-time extrusion on the premise of ensuring smooth feeding in the feeding process, the device can be operated in an environment-friendly way, the motor 1-2 operates to drive the cam 1-1 to rotate, the cam 1-1 can drive the matching seat 1-3 to reciprocate through matching with the spring 1-6, the matching seat 1-3 can drive the seat with the inclined surface 1-7 to reciprocate, after waste materials are put into the device from the feeding hopper 2-12, the seat with the inclined surface 1-7 can play a role in vibration feeding, meanwhile, the intermittent lateral extrusion function can be performed on the materials in the transverse direction, the waste materials are extruded between the seat with the inclined surface 1-7 and the inner wall of the box body 2-2 and then fall downwards to the bottom of the feeding cavity 2-13, the seat with the inclined surface 1-7 can cause the pressure difference change in the compression cavity 2-8 in the reciprocating motion process, the air in the feeding cavity 2-13 communicated with the discharge one-way valve 2-7 is continuously sucked into the compression cavity 2-8 after being filtered by the filter element 2-10, is pressurized and then is sprayed out from the discharge one-way valve 2-7, then is cooled in the motor cavity 2-4, and finally is blown out upwards from the exhaust pipe 2-5 to cool the cam 1-1; the device can crush, the driving motor 3-10 is operated to drive the shaft with the bulge 3-9 to rotate, the shaft with the bulge 3-9 can drive the crushing wheel 3-5 to rotate, the crushing wheel 3-5 can rotate to crush the materials added into the crushing cavity 2-14, when the materials need to be discharged, the hydraulic cylinder 3-4 is pulled to drive the motor base 3-2 to move towards the direction close to the hydraulic cylinder 3-4, the motor base 3-2 can drive the shaft with the bulge 3-9 to move, the shaft with the bulge 3-9 can drive the movable baffle plate with the rod 2-21 to move through the pulley 2-23, the shaft with the bulge 3-9 moves towards the pushing cavity 3-8, so that the gas in the pushing cavity 3-8 is pressurized to open the one-way valve in the extruding pipeline 3-6, the openings of the crushing cavities 2-14 are reduced by the movable baffles 2-21 with rods to play a role in reducing dust, and the gas rushing the one-way valves can drive the materials to move, so that the materials are helped to move downwards to the cavities of the spiral shafts 2-15; the device can extrude and collect the waste materials into blocks, the conveying motor 2-3 operates to drive the screw shaft 2-15 to rotate, the screw shaft 2-15 can drive the waste materials extruded laterally and the crushed materials to the direction of the material baffle plate 2-16 to extrude, the hydraulic cylinder 2-20 drives the hydraulic rod 2-18 to pull the material baffle plate 2-16 after extrusion, and the extruded materials lose support and fall into the collection box 2-17 to finish collection.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a waste recovery processing apparatus for non-heritage is created design, includes feed extrusion mechanism (1), handles case mechanism (2), malleation rubbing crusher constructs (3), its characterized in that: the feeding and extruding mechanism (1) is connected with the processing box mechanism (2), and the processing box mechanism (2) is connected with the positive pressure crushing mechanism (3);

the feeding extrusion mechanism (1) comprises a cam (1-1), a motor (1-2), a matching seat (1-3), a rotating support (1-4), a sliding rod (1-5), a spring (1-6) and a seat (1-7) with an inclined surface, the cam (1-1) is connected with the motor (1-2), the cam (1-1) is in contact with the matching seat (1-3), the matching seat (1-3) is connected with the sliding rod (1-5), the sliding rod (1-5) is connected with the seat (1-7) with the inclined surface, the rotating support (1-4) is rotatably connected with the cam (1-1), the motor (1-2) is connected with the rotating support (1-4), and the spring (1-6) is sleeved on the sliding rod (1-5).

2. A waste recovery and disposal device for non-legacy designs, according to claim 1, characterized in that: the treatment box mechanism (2) comprises supporting legs (2-1), a box body (2-2), a conveying motor (2-3), a motor cavity (2-4), an exhaust pipe (2-5), a connecting pipeline (2-6), a discharge one-way valve (2-7), a compression cavity (2-8), a suction one-way valve (2-9), a filter element (2-10), a suction pipeline (2-11), a feed hopper (2-12), a feed cavity (2-13), a crushing cavity (2-14), a screw shaft (2-15), a material baffle plate (2-16), a collection box (2-17), a hydraulic rod (2-18), a gate cavity (2-19), a hydraulic cylinder (2-20), a movable baffle plate with a rod (2-21), a return spring (2-22), Pulleys (2-23) which comprise supporting legs (2-1) are connected with a box body (2-2), a motor cavity (2-4) is arranged in the box body (2-2), a conveying motor (2-3) is arranged in the motor cavity (2-4), the conveying motor (2-3) is connected with a spiral shaft (2-15), the spiral shaft (2-15) is rotatably connected with the box body (2-2), an exhaust pipe (2-5) is communicated with the motor cavity (2-4), the exhaust pipe (2-5) is communicated with a connecting pipeline (2-6), the exhaust pipe (2-5) is connected with the box body (2-2), the connecting pipeline (2-6) is arranged on the box body (2-2), a discharge one-way valve (2-7) is arranged in the connecting pipeline (2-6), the connecting pipeline (2-6) is communicated with the compression cavity (2-8), the compression cavity (2-8) is arranged in the box body (2-2), the compression cavity (2-8) is communicated with the suction pipeline (2-11), the suction pipeline (2-11) is arranged on the box body (2-2), the suction one-way valve (2-9) is arranged in the suction pipeline (2-11), the filter element (2-10) is connected with the box body (2-2) in a sliding way, the filter element (2-10) passes through the suction pipeline (2-11), the feed hopper (2-12) is arranged on the box body (2-2), the feed hopper (2-12) is communicated with the feed cavity (2-13), the feed cavity (2-13) is arranged on the box body (2-2), the suction pipeline (2-11) is communicated with the feeding cavity (2-13), the crushing cavity (2-14) is arranged on the box body (2-2) and is communicated with the feeding hopper (2-12), the crushing cavity (2-14) is arranged on the box body (2-2), the material baffle plate (2-16) is in sliding connection with the gate cavity (2-19), the gate cavity (2-19) is arranged on the box body (2-2), the material baffle plate (2-16) is connected with the hydraulic rod (2-18), the hydraulic rod (2-18) is connected with the hydraulic cylinder (2-20), the hydraulic cylinder (2-20) is arranged in the box body (2-2), the collecting box (2-17) is arranged under the material baffle plate (2-16), the movable baffle plate (2-21) with the rod is in sliding connection with the box body (2-2), the return spring (2-22) is sleeved on the movable baffle plate (2-21) with the rod, the movable baffle plate (2-21) with the rod is rotatably connected with the pulley (2-23), the rotating support (1-4) is connected with the box body (2-2), two ends of the spring (1-6) are respectively connected to the matching seat (1-3) and the box body (2-2), and the seat (1-7) with the inclined surface is slidably connected with the compression cavity (2-8).

3. A waste recovery and disposal device for non-legacy designs according to claim 2, characterized in that: the positive pressure crushing mechanism (3) comprises a sliding support (3-1), a motor base (3-2), a sliding groove (3-3), a pulling hydraulic cylinder (3-4), a crushing wheel (3-5), an extrusion pipeline (3-6), a negative pressure pipeline (3-7), a pushing cavity (3-8), a shaft with a bulge (3-9) and a driving motor (3-10), wherein the motor base (3-2) is connected in the sliding groove (3-3) in a sliding manner, the sliding groove (3-3) is arranged on the sliding support (3-1), the pulling hydraulic cylinder (3-4) is connected with the motor base (3-2), the pulling hydraulic cylinder (3-4) is connected with the sliding support (3-1), the motor base (3-2) is connected with the driving motor (3-10), the driving motor (3-10) is connected with the shaft with the bulge (3-9), the shaft with the bulge (3-9) is rotationally connected with the motor base (3-2), the shaft with the bulge (3-9) is slidably connected with the pushing cavity (3-8), the pushing cavity (3-8) is arranged on the crushing wheel (3-5), the crushing wheel (3-5) is rotationally connected with the box body (2-2), the crushing wheel (3-5) is provided with an extrusion pipeline (3-6) and a negative pressure pipeline (3-7), the extrusion pipeline (3-6) and the negative pressure pipeline (3-7) are both communicated with the pushing cavity (3-8), the extrusion pipeline (3-6) is internally provided with a one-way valve, the one-way valve is opened to the crushing cavity (2-14), the negative pressure pipeline (3-7) is internally provided with a one-way valve, the unidirectional pushing cavity (3-8) is opened, and the pulley (2-23) is contacted with the shaft (3-9) with the bulge.

4. A waste recovery and disposal device for non-legacy designs according to claim 3, characterized in that: the material of the crushing wheel (3-5) is stainless steel.

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