CN115254616A

CN115254616A - Decoration garbage classification system

Info

Publication number: CN115254616A
Application number: CN202210956822.1A
Authority: CN
Inventors: 孙勇
Original assignee: Guangdong Xinruilong Ecological Building Materials Co ltd
Current assignee: Guangdong Xinruilong Ecological Building Materials Co ltd
Priority date: 2022-08-10
Filing date: 2022-08-10
Publication date: 2022-11-01

Abstract

The invention provides a decoration garbage classification processing system, which comprises: the conveying device comprises a first sorting mechanism, a second sorting mechanism, a third sorting mechanism, a first conveying belt, a second conveying belt, a third conveying belt, a fourth conveying belt, a fifth conveying belt, a sixth conveying belt and a seventh conveying belt; use this fitment rubbish classification processing system, through first classification mechanism, second classification mechanism, third classification mechanism, first conveyer belt, the second conveyer belt, the third conveyer belt, the fourth conveyer belt, the fifth conveyer belt, the cooperation between sixth conveyer belt and the seventh conveyer belt, only need the user to pour into first classification mechanism through the fitment rubbish that will classify, finally with categorised coarse aggregate, fine aggregate and other debris clear up and can accomplish whole classification process, holistic classification efficiency is high, there is not the potential safety hazard.

Description

Decoration garbage classification system

Technical Field

The invention relates to the technical field of decoration garbage treatment equipment, in particular to a decoration garbage classification treatment system.

Background

At present, the garbage generally comprises construction garbage and decoration garbage. Due to domestic particularity, construction waste is mainly blocks containing miscellaneous walls, namely, most of the construction waste is hanging block concrete containing reinforcing steel bars. The decoration garbage is generally residual garbage after individual decoration, and compared with the construction garbage, the decoration garbage has less aggregate content, but more available substances (such as nonferrous metals, plastics, wood blocks and the like) except the aggregate.

At present common classification mode is for producing the line and classify, produces the line and need be equipped with a large amount of manual works and select separately rubbish, and in the operational environment who has noise and raise dust, artificial work efficiency can't obtain guaranteeing, has the potential safety hazard simultaneously.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme: a finishing waste classification system, comprising: the automatic sorting device comprises a first sorting mechanism, a second sorting mechanism, a third sorting mechanism, a first conveyor belt, a second conveyor belt, a third conveyor belt, a fourth conveyor belt, a fifth conveyor belt, a sixth conveyor belt and a seventh conveyor belt;

the first sorting mechanism is respectively connected with the first conveyor belt and the second conveyor belt, the second sorting mechanism is arranged below one end, far away from the first sorting mechanism, of the first conveyor belt, the third conveyor belt is arranged below one end of the second sorting mechanism, the fourth conveyor belt is arranged below the other end of the second sorting mechanism, one end, far away from the first sorting mechanism, of the second conveyor belt is arranged above the third sorting mechanism, one end, far away from the second sorting mechanism, of the third conveyor belt is arranged above the third sorting mechanism, the fifth conveyor belt and the sixth conveyor belt are both arranged below the third sorting mechanism, and the seventh conveyor belt is arranged below the fourth conveyor belt.

Further, first classification mechanism includes first casing, first drum screen cloth and first motor, first feed inlet, first discharge gate and second discharge gate have been seted up on the first casing, first feed inlet is seted up in one side of first casing, first discharge gate with the second discharge gate is seted up in the opposite side of first casing, first motor set up in on the first casing, first drum screen cloth rotate set up in the first casing, the output shaft of first motor passes drive behind the first casing first drum screen cloth, first conveyer belt set up in one side of first discharge gate, the second conveyer belt set up in one side of second discharge gate.

Further, first conveyer belt includes first support frame, first mount, first transmission belt and first drive motor, first support frame set up in on the first mount, first transmission belt rotate set up in on the first support frame, first drive motor set up in on the first support frame, just first drive motor is used for the transmission first transmission belt, first transmission belt's rotation is located in the first discharge gate.

Further, the second conveyer belt includes second support frame, second mount, second conveyer belt and second drive motor, the second support frame set up in on the second mount, second conveyer belt rotate set up in on the second support frame, second drive motor set up in on the second support frame, just second drive motor is used for the transmission second conveyer belt, second conveyer belt's rotation is located in the second discharge gate.

Further, the third conveyer belt includes third support frame, third mount, third conveyer belt and third driving motor, the third support frame set up in on the third mount, third conveyer belt rotate set up in on the third support frame, third driving motor set up in on the third support frame, just third driving motor is used for the transmission third conveyer belt.

Furthermore, the fourth conveyer belt includes a fourth support frame, a fourth mount, a fourth conveyer belt and a fourth transmission motor, the fourth support frame set up in on the fourth mount, the fourth conveyer belt rotate set up in on the fourth support frame, the fourth transmission motor set up in on the fourth support frame, just the fourth transmission motor is used for the transmission the fourth conveyer belt.

Further, the fifth conveyor belt comprises a fifth support frame, a fifth fixing frame, a fifth conveyor belt and a fifth transmission motor, the fifth support frame is arranged on the fifth fixing frame, the fifth conveyor belt is rotatably arranged on the fifth support frame, the fifth transmission motor is arranged on the fifth support frame, and the fifth transmission motor is used for transmitting the fifth conveyor belt.

Further, the second classification mechanism comprises a second shell, a second cylindrical screen and a second motor, a feeding funnel, a third discharge port and a fourth discharge port are arranged on the second shell, the feeding funnel is located below the first conveying belt, the second shell and the second motor are arranged on the fourth supporting frame, an output shaft of the second motor penetrates through the second shell to drive the second cylindrical screen, the third discharge port is located above the third conveying belt, and the fourth discharge port is located above the fourth conveying belt.

Further, third classification mechanism includes third casing and air-blower, second feed inlet, fifth discharge gate and sixth discharge gate have been seted up to the third casing, the second feed inlet is located the second conveyer belt with the below of third conveyer belt, the fifth discharge gate is located the top of fifth conveyer belt, the sixth discharge gate is located the top of sixth conveyer belt.

Further, the sixth conveyor belt comprises a sixth support frame, a sixth fixing frame, a sixth conveyor belt and a sixth transmission motor, the sixth support frame is arranged on the sixth fixing frame, the sixth conveyor belt is rotatably arranged on the sixth support frame, the sixth transmission motor is used for transmitting the sixth conveyor belt, the seventh conveyor belt comprises a seventh support frame, a seventh fixing frame, a seventh conveyor belt and a seventh transmission motor, the seventh support frame is arranged on the seventh fixing frame, the seventh conveyor belt is rotatably arranged on the seventh support frame, the seventh transmission motor is arranged on the seventh support frame, and the seventh transmission motor is used for transmitting the seventh conveyor belt.

The beneficial effects of the invention are as follows: use this fitment rubbish classification processing system, through first classification mechanism, second classification mechanism, third classification mechanism, first conveyer belt, the second conveyer belt, the third conveyer belt, the fourth conveyer belt, the fifth conveyer belt, the cooperation between sixth conveyer belt and the seventh conveyer belt, only need the user to pour into first classification mechanism through the fitment rubbish that will classify, finally with categorised coarse aggregate, fine aggregate and other debris clear up and can accomplish whole classification process, holistic classification efficiency is high, there is not the potential safety hazard.

Drawings

The figures further illustrate the invention, but the examples in the figures do not constitute any limitation of the invention.

FIG. 1 is a schematic view of an exemplary embodiment of a system for classifying and processing waste;

FIG. 2 is a schematic diagram of an internal structure of a first sorting mechanism according to an embodiment;

fig. 3 is a schematic view of an embodiment of a direction of a first conveyor belt;

FIG. 4 is a schematic view of an embodiment of a second conveyor belt;

FIG. 5 is a schematic view of an embodiment of a third conveyor belt;

FIG. 6 is a schematic view of an embodiment of a fourth conveyor belt;

FIG. 7 is a schematic view of an embodiment of a fifth conveyor belt;

FIG. 8 is a schematic view of an embodiment of a sixth conveyor belt;

FIG. 9 is a schematic view of a seventh conveyor belt according to an embodiment;

FIG. 10 is a schematic diagram illustrating an orientation of a second sorting mechanism according to an embodiment;

fig. 11 is a schematic view of an orientation of the third sorting mechanism according to an embodiment.

Detailed Description

The technical solutions of the present invention will be further described below with reference to the drawings of the embodiments of the present invention, and the present invention is not limited to the following specific embodiments. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 1 to 11, a finishing waste classification processing system includes: the first sorting mechanism 100, the second sorting mechanism 200, the third sorting mechanism 300, the first conveyor belt 400, the second conveyor belt 500, the third conveyor belt 600, the fourth conveyor belt 700, the fifth conveyor belt 800, the sixth conveyor belt 900 and the seventh conveyor belt 1000; the first sorting mechanism 100 is connected to the first conveyor 400 and the second conveyor 500, the second sorting mechanism 200 is disposed below one end of the first conveyor 400 away from the first sorting mechanism 100, the third conveyor 600 is disposed below one end of the second sorting mechanism 200, the fourth conveyor 700 is disposed below the other end of the second sorting mechanism 200, one end of the second conveyor 500 away from the first sorting mechanism 100 is disposed above the third sorting mechanism 300, one end of the third conveyor 600 away from the second sorting mechanism 200 is disposed above the third sorting mechanism 300, the fifth conveyor 800 and the sixth conveyor 900 are both disposed below the third sorting mechanism 300, and the seventh conveyor 1000 is disposed below the fourth conveyor 700.

Specifically, the first conveyor belt 400 includes a first support frame 410, a first fixing frame 420, a first conveyor belt 430 and a first transmission motor 440, the first support frame 410 is disposed on the first fixing frame 420, the first conveyor belt 430 is rotatably disposed on the first support frame 410, the first transmission motor 440 is used for transmitting the first conveyor belt 430, and the first conveyor belt 430 is rotatably disposed in the first discharge port. The second conveyor belt 500 includes a second supporting frame 510, a second fixing frame 520, a second conveyor belt 530 and a second transmission motor 540, the second supporting frame 510 is disposed on the second fixing frame 520, the second conveyor belt 530 is rotatably disposed on the second supporting frame 510, the second transmission motor 540 is used for transmitting the second conveyor belt 530, and the second conveyor belt 530 rotates and is disposed in the second discharge port. The third conveyor belt 600 includes a third support frame 610, a third fixing frame 620, a third conveyor belt 630 and a third transmission motor 640, the third support frame 610 is disposed on the third fixing frame 620, the third conveyor belt 630 is rotatably disposed on the third support frame 610, the third transmission motor 640 is disposed on the third support frame 610, and the third transmission motor 640 is used for transmitting the third conveyor belt 630. The fourth conveyor belt 700 includes a fourth supporting frame 710, a fourth fixing frame 720, a fourth conveyor belt 730 and a fourth transmission motor 740, the fourth supporting frame 710 is disposed on the fourth fixing frame 720, the fourth conveyor belt 730 is rotatably disposed on the fourth supporting frame 710, the fourth transmission motor 740 is disposed on the fourth supporting frame 710, and the fourth transmission motor 740 is used for transmitting the fourth conveyor belt 730. The fifth conveyor belt 800 includes a fifth supporting frame 810, a fifth fixing frame 820, a fifth conveyor belt 830 and a fifth transmission motor 840, the fifth supporting frame 810 is disposed on the fifth fixing frame 820, the fifth conveyor belt 830 is rotatably disposed on the fifth supporting frame 810, the fifth transmission motor 840 is disposed on the fifth supporting frame 810, and the fifth transmission motor 840 is configured to transmit the fifth conveyor belt 830. The sixth conveyor 900 includes a sixth supporting frame 910, a sixth fixing frame 920, a sixth conveyor belt 930, and a sixth transmission motor 940, the sixth supporting frame 910 is disposed on the sixth fixing frame 920, the sixth conveyor belt 930 is rotatably disposed on the sixth supporting frame 910, the sixth transmission motor 940 is disposed on the sixth supporting frame 910, and the sixth transmission motor 940 is used for transmitting the sixth conveyor belt 930, the seventh conveyor 1000 includes a seventh supporting frame 1010, a seventh fixing frame 1020, a seventh conveyor belt 1030, and a seventh transmission motor 1040, the seventh supporting frame 1010 is disposed on the seventh fixing frame 1020, the seventh conveyor belt 1030 is rotatably disposed on the seventh supporting frame 1010, the seventh transmission motor 1040 is disposed on the seventh supporting frame 1010, and the seventh transmission motor 1040 is used for transmitting the seventh conveyor belt 1030. Further, the first sorting mechanism 100 includes a first casing 110, a first cylindrical screen 120 and a first motor 130, the first casing 110 is provided with a first feeding hole, a first discharging hole and a second discharging hole, the first feeding hole is provided at one side of the first casing 110, the first discharging hole and the second discharging hole are provided at the other side of the first casing 110, the first motor 130 is provided on the first casing 110, the first cylindrical screen 120 is rotatably provided in the first casing 110, an output shaft of the first motor 130 passes through the first casing 110 to drive the first cylindrical screen 120, the first conveyor belt 400 is provided at one side of the first discharging hole, and the second conveyor belt 500 is provided at one side of the second discharging hole. The second sorting mechanism 200 includes a second housing 210, a second cylindrical screen 220 and a second motor, a feeding funnel 230, a third discharging port 212 and a fourth discharging port 213 are disposed on the second housing 210, the feeding funnel 230 is located below the first conveying belt 430, the second housing 210 and the second motor are both disposed on the fourth supporting frame 710, an output shaft of the second motor passes through the second housing 210 and drives the second cylindrical screen 220, the third discharging port 212 is located above the third conveying belt 600, and the fourth discharging port 213 is located above the fourth conveying belt 700. The third sorting mechanism 300 includes a third casing 310 and a blower 320, the third casing 310 has a second feeding hole 311, a fifth discharging hole 312 and a sixth discharging hole 313, the second feeding hole 311 is located below the second conveyor 500 and the third conveyor 600, the fifth discharging hole 312 is located above the fifth conveyor 800, and the sixth discharging hole 313 is located above the sixth conveyor 900.

It should be mentioned that the decoration garbage classification processing system further comprises a control system, the control system is a PLC control system, the first classification mechanism 100, the second classification mechanism 200, the third classification mechanism 300, the first conveyor belt 400, the second conveyor belt 500, the third conveyor belt 600, the fourth conveyor belt 700, the fifth conveyor belt 800, the sixth conveyor belt 900 and the seventh conveyor belt 1000 can be well controlled by the PLC control system, that is, the worker can respectively control the first classification mechanism 100, the second classification mechanism 200, the third classification mechanism 300, the first conveyor belt 400, the second conveyor belt 500, the third conveyor belt 600, the fourth conveyor belt 700, the fifth conveyor belt 800, the sixth conveyor belt 900 and the seventh conveyor belt 1000 according to specific requirements through the control system. Furthermore, the programming technique or control technique used by the control system can be realized by the prior art, and is not described redundantly in the embodiment. That is to say, when using this fitment rubbish classification processing system to carry out classification processing to fitment rubbish, the staff through pouring fitment rubbish from first feed inlet, then start first motor 130, the output shaft of first motor 130 rotates and drives first drum screen cloth 120 and rotate, because directly fall to first drum screen cloth 120 in after fitment rubbish gets into from first feed inlet, consequently through first drum screen cloth 120 high-speed rotation, can filter fitment rubbish well, also be exactly because a plurality of first sieve meshes have been seted up on the first drum screen cloth 120, a plurality of first sieve mesh equidistance are seted up, consequently, can filter fitment rubbish. That is, the building aggregate is thrown out through the first sieve holes, and then other garbage is left in the first cylindrical sieve 120, it is worth mentioning that the first cylindrical sieve 120 is obliquely arranged in the first housing 110, that is, from the end close to the first feeding hole to the end far away from the first feeding hole, the building aggregate is obliquely arranged from high to low. Other waste remaining in the first cylindrical screen 120 will eventually fall to the end remote from the first feed opening due to gravity. Further, the building aggregate thrown out of the first cylindrical screen 120 falls onto the first conveyor belt 430 through the first discharge port, and other garbage falling to the end far away from the first feed port falls onto the second conveyor belt 530 through the second discharge port. At the same time when the first motor 130 is started, the worker also turns on the first transmission motor 440, the second transmission motor 540, the third transmission motor 640, the fourth transmission motor 740, the fifth transmission motor 840, the sixth transmission motor 940 and the seventh transmission motor 1040 through the control system. Therefore, after the building aggregates fall onto the first conveyor belt 430, the first conveyor belt 430 is driven by the first motor 440 to rotate, so that the building aggregates can be conveyed out of the first sorting mechanism 100 and finally fall into the feeding funnel 230, the building aggregates fall onto the second cylindrical screen 220 in the second shell 210 through the feeding funnel 230, by starting the second motor, the output shaft of the second motor rotates to drive the second cylindrical screen 220 to rotate, and as the second cylindrical screen 220 is provided with a plurality of second screen holes which are arranged at equal intervals, the building aggregates falling onto the second cylindrical screen 220 are screened for the second time under the high-speed rotation of the second cylindrical screen 220, that is, the coarse aggregates are located in the second cylindrical screen 220, and the fine aggregates are thrown out to the second shell 210 through the second screen holes. Further, the second cylindrical screen 220 is disposed in the second housing 210 in an inclined manner, that is, the second cylindrical screen 220 is disposed in an inclined manner from a high side to a low side from an end close to the feeding hopper 230 to an end far from the feeding hopper 230. Therefore, the coarse aggregate finally falls out of the second cylindrical screen 220 above the third discharge port 212, falls out of the third discharge port 212 onto the third conveyor belt 630, and is conveyed along the third conveyor belt 630, and the fine aggregate falls out of the fourth discharge port 213 of the second casing 210 onto the fourth conveyor belt 730, and is then conveyed along the fourth conveyor belt 730. Fine aggregate from the fourth conveyor 730 falls onto the seventh conveyor 1030. It is worth mentioning that a baffle is further arranged on the seventh conveyor belt 1000, and the baffle is movably abutted to the seventh conveyor belt 1030, that is, because one end of the seventh conveyor belt 1000 far away from the fourth conveyor belt 700 needs to be raised, the fine aggregate is convenient to collect after being spread out, and therefore, the baffle is arranged at one end close to the fourth conveyor belt 700 and arranged on the seventh support frame 1010, so that the fine aggregate falling onto the seventh conveyor belt 1030 can be well blocked, and the fine aggregate can be conveyed upwards along the seventh conveyor belt 1030.

Further, after the coarse aggregate is conveyed along the third conveyor belt 630, the coarse aggregate falls into the third casing 310 from the second inlet 311, and at this time, due to the blowing action of the blower 320, impurities, such as film bags, paper scraps, or other light impurities, which are included in the coarse aggregate, are blown to the fifth outlet 312 by the blower 320, and finally fall onto the fifth conveyor belt 800 and are conveyed out through the fifth conveyor belt 800, it is worth mentioning that the impurities classified in the first classification mechanism 100 also fall into the second inlet 311 by the conveyance of the second conveyor belt 500, and then are blown to the fifth outlet 312 by the blower 320, and finally are conveyed out from the fifth conveyor belt 800. The coarse aggregate is further removed from impurities by the blowing of the blower 320, that is, the coarse aggregate cannot be blown by the blower 320, and thus the coarse aggregate directly falls onto the sixth conveyor 900 through the sixth discharge port 313 and finally is transferred out of the sixth conveyor 900.

That is to say, the decoration rubbish will finally be divided into fine aggregate, coarse aggregate and other impurity, consequently, through this decoration rubbish classification system, can carry out fine classification to the decoration rubbish, and the staff only need collect fine aggregate respectively at last, coarse aggregate is collected and is collected other impurity can.

In summary, the above embodiments are not intended to be limiting embodiments of the present invention, and modifications and equivalent variations made by those skilled in the art based on the spirit of the present invention are within the technical scope of the present invention.

Claims

1. A decoration garbage classification processing system is characterized by comprising: the conveying device comprises a first sorting mechanism, a second sorting mechanism, a third sorting mechanism, a first conveying belt, a second conveying belt, a third conveying belt, a fourth conveying belt, a fifth conveying belt, a sixth conveying belt and a seventh conveying belt;

the first sorting mechanism is connected with the first conveying belt and the second conveying belt respectively, the second sorting mechanism is arranged below one end, away from the first sorting mechanism, of the first conveying belt, the third conveying belt is located below one end of the second sorting mechanism, the fourth conveying belt is located below the other end of the second sorting mechanism, one end, away from the first sorting mechanism, of the second conveying belt is located above the third sorting mechanism, one end, away from the second sorting mechanism, of the third conveying belt is located above the third sorting mechanism, the fifth conveying belt and the sixth conveying belt are located below the third sorting mechanism, and the seventh conveying belt is located below the fourth conveying belt.

2. The finishing waste sorting system of claim 1, wherein: the first classification mechanism comprises a first shell, a first cylindrical screen and a first motor, a first feed inlet, a first discharge outlet and a second discharge outlet are formed in the first shell, the first feed inlet is formed in one side of the first shell, the first discharge outlet and the second discharge outlet are formed in the other side of the first shell, the first motor is arranged on the first shell, the first cylindrical screen is rotatably arranged in the first shell, an output shaft of the first motor penetrates through the first shell and then drives the first cylindrical screen, a first conveying belt is arranged on one side of the first discharge outlet, and a second conveying belt is arranged on one side of the second discharge outlet.

3. The finishing waste sorting system of claim 2, wherein: the first conveyor belt comprises a first support frame, a first fixing frame, a first conveyor belt and a first transmission motor, the first support frame is arranged on the first fixing frame, the first conveyor belt rotates to be arranged on the first support frame, the first transmission motor is used for transmitting the first conveyor belt, and the first conveyor belt rotates to be located in the first discharge port.

4. The finishing waste sorting system of claim 3, wherein: the second conveyer belt includes second support frame, second mount, second conveyer belt and second drive motor, the second support frame set up in on the second mount, second conveyer belt rotate set up in on the second support frame, second drive motor set up in on the second support frame, just second drive motor is used for the transmission second conveyer belt, second conveyer belt's rotation is located in the second discharge gate.

5. The finishing waste sorting system of claim 4, wherein: the third conveyer belt includes third support frame, third mount, third conveyer belt and third driving motor, the third support frame set up in on the third mount, third conveyer belt rotate set up in on the third support frame, third driving motor set up in on the third support frame, just third driving motor is used for the transmission third conveyer belt.

6. The finishing waste sorting system of claim 5, wherein: the fourth conveyor belt comprises a fourth supporting frame, a fourth fixing frame, a fourth conveyor belt and a fourth transmission motor, the fourth supporting frame is arranged on the fourth fixing frame, the fourth conveyor belt rotates and is arranged on the fourth supporting frame, the fourth transmission motor is arranged on the fourth supporting frame, and the fourth transmission motor is used for transmitting the fourth conveyor belt.

7. The finishing waste sorting system of claim 6, wherein: the fifth conveyor belt comprises a fifth support frame, a fifth fixing frame, a fifth conveyor belt and a fifth transmission motor, the fifth support frame is arranged on the fifth fixing frame, the fifth conveyor belt rotates and is arranged on the fifth support frame, the fifth transmission motor is arranged on the fifth support frame, and the fifth transmission motor is used for transmitting the fifth conveyor belt.

8. The finishing waste sorting system of claim 7, wherein: the second classification mechanism comprises a second shell, a second cylinder screen and a second motor, wherein a feeding funnel, a third discharge hole and a fourth discharge hole are arranged on the second shell, the feeding funnel is located below the first conveying belt, the second shell and the second motor are arranged on the fourth supporting frame, an output shaft of the second motor penetrates through the second shell to drive the second cylinder screen, the third discharge hole is located above the third conveying belt, and the fourth discharge hole is located above the fourth conveying belt.

9. The finishing waste sorting system of claim 8, wherein: the third sorting mechanism comprises a third shell and an air blower, a second feeding hole, a fifth discharging hole and a sixth discharging hole are formed in the third shell, the second feeding hole is located in the second conveying belt and below the third conveying belt, the fifth discharging hole is located above the fifth conveying belt, and the sixth discharging hole is located above the sixth conveying belt.

10. The finishing waste sorting system of claim 9, wherein: the sixth conveying belt comprises a sixth supporting frame, a sixth fixing frame, a sixth conveying belt and a sixth transmission motor, the sixth supporting frame is arranged on the sixth fixing frame, the sixth conveying belt rotates and is arranged on the sixth supporting frame, the sixth transmission motor is arranged on the sixth supporting frame and is used for transmitting the sixth conveying belt, the seventh conveying belt comprises a seventh supporting frame, a seventh fixing frame, a seventh conveying belt and a seventh transmission motor, the seventh supporting frame is arranged on the seventh fixing frame, the seventh conveying belt rotates and is arranged on the seventh supporting frame, the seventh transmission motor is arranged on the seventh supporting frame, and the seventh transmission motor is used for transmitting the seventh conveying belt.