CN113102444A - Waste air conditioner decomposition system - Google Patents

Abstract

The invention provides a waste air conditioner decomposition system, which comprises: a first conveyor; a second conveyor provided in parallel on one side of the first conveyor; a third conveyor provided in parallel on the other side of the first conveyor; the air conditioner external unit disassembling platform is arranged between the first conveyor and the second conveyor; the air conditioner indoor unit disassembling table is arranged between the first conveyor and the third conveyor; a first processor capable of receiving a first selected component of the outdoor air conditioner transported by the first conveyor and originating from the outdoor air conditioner dismantling station, and a second selected component of the indoor air conditioner transported by the first conveyor and originating from the indoor air conditioner dismantling station; a second handler; which is capable of receiving a third selected component of the air conditioner outdoor unit conveyed by the second conveyor; a third handler capable of receiving a fourth selected constituent of the indoor unit of the air conditioner delivered by the third conveyor and originating from the indoor unit disassembly station. The waste air conditioner decomposition system is low in artificial dependence and high in treatment efficiency.

Description

Waste air conditioner decomposition system

Technical Field

The invention belongs to the technical field of waste air conditioner disassembly, and particularly relates to a waste air conditioner disassembly system.

Background

The air conditioner belongs to one of the essential household appliances in modern household life, and the installation amount of the air conditioner is very huge, so that a large amount of waste air conditioners are generated every year.

The existing waste air conditioners are generally treated uniformly, and the treatment mode needs to disassemble the waste air conditioners into piled parts and then recycle the old parts. The existing waste air conditioner decomposition system comprises an air conditioner external machine disassembling table, an air conditioner internal machine disassembling table, a conveyor which is arranged between the air conditioner internal machine disassembling table and is used for various parts, and a plurality of treatment machines (such as crushers) which are arranged close to the conveyor. During use, an operator needs to select parts from the conveyor and place the parts into a corresponding processor for processing, such as placing plastic parts into a plastic crusher. The waste air conditioner decomposition system has the problems of low treatment efficiency and high manual dependence.

Disclosure of Invention

In order to solve all or part of the problems, the invention aims to provide a waste air conditioner decomposition system, which is used for solving the problems of low treatment efficiency and high manual dependence of the waste air conditioner decomposition system.

The invention provides a waste air conditioner decomposition system, which comprises: a first conveyor; a second conveyor provided in parallel on one side of the first conveyor; a third conveyor provided in parallel on the other side of the first conveyor; the air conditioner external unit disassembling platform is arranged between the first conveyor and the second conveyor; the air conditioner indoor unit disassembling table is arranged between the first conveyor and the third conveyor; a first handler capable of receiving a first selected component of the outdoor unit transported by the first conveyor and originating from the outdoor unit dismantling station and a second selected component of the indoor unit transported by the first conveyor and originating from the indoor unit dismantling station; a second handler; a second conveyor capable of receiving a second selected component of the air conditioner external unit conveyed by the second conveyor; a third handler capable of receiving a fourth selected component of the indoor unit conveyed by the third conveyor and originating from the indoor unit disassembly station.

Further, the first processor is a plastic product crusher, the second processor is an iron product crusher, and the third processor is a plastic product crusher.

Furthermore, the waste air conditioner decomposition system also comprises a fourth conveyor and a fourth processor, wherein the fourth conveyor is at least partially arranged between the air conditioner outdoor unit disassembling platform and the first conveyor and can convey fifth selected components of the air conditioner outdoor unit into the fourth processor.

Further, the fourth conveyor is a chain plate conveyor, and the fourth processor is a compressor punching and flattening device.

The waste air conditioner decomposition system further comprises a fifth conveyor, a sixth conveyor and a fifth processor, wherein a conveying part of the fifth conveyor is arranged above a conveying part of the first conveyor and/or a conveying part of the fourth conveyor in parallel, the sixth conveyor is arranged perpendicular to the fifth conveyor, receives a sixth selected component of the air conditioner external unit conveyed by the fifth conveyor and sourced from the air conditioner external unit disassembly table and a seventh selected component of the air conditioner internal unit conveyed by the fifth conveyor and sourced from the air conditioner internal unit disassembly table, and can convey the sixth selected component and the seventh selected component into the fifth processor.

The waste air conditioner disassembly system further comprises a storage rack arranged between the first conveyor and the third conveyor, wherein the storage rack is used for storing an eighth selected component conveyed by the fifth conveyor and sourced from the air conditioner external unit disassembly table and a ninth selected component conveyed by the fifth conveyor and sourced from the air conditioner internal unit disassembly table.

Further, the fifth processor is a crushing and sorting machine capable of crushing and sorting the heat exchangers of the air conditioner internal unit and the air conditioner external unit.

Further, the waste air-conditioning decomposition system further comprises an air-conditioning outer machine conveyor and/or an air-conditioning inner machine conveyor, wherein an output section of the air-conditioning outer machine conveyor is overlapped with an input section of the second conveyor in a region where the air-conditioning outer machine disassembling table is located, a conveying part of the air-conditioning outer machine conveyor is lower than a conveying part of the second conveyor, an output section of the air-conditioning inner machine conveyor is overlapped with an input section of the third conveyor in a region where the air-conditioning outer machine disassembling table is located, and the conveying part of the air-conditioning inner machine conveyor is lower than the conveying part of the third conveyor.

Furthermore, the waste air conditioner decomposition system also comprises an initial conveyor and a refrigerant recovery device, wherein the output section of the initial conveyor is adjacent to the input section of the second conveyor, and the refrigerant recovery device is adjacent to the input section of the initial conveyor and can extract the refrigerant in the air conditioner indoor unit when the air conditioner indoor unit is positioned at the input section of the initial conveyor.

Further, the air conditioner external unit conveyor, the air conditioner internal unit conveyor and the initial conveyor are roller conveyors, and conveying components of the roller conveyors are rollers.

Furthermore, the waste air conditioner decomposition system further comprises a temporary storage table which is connected with the side part of the initial conveyor and used for temporarily receiving the air conditioner external unit, and the refrigerant recovery device can extract the refrigerant in the air conditioner external unit when the air conditioner external unit is positioned on the temporary storage table.

Further, old and useless air conditioner decomposition system still includes commodity circulation car and weighing device.

Further, the first conveyor, the second conveyor, the third conveyor, the fifth conveyor and the sixth conveyor are all belt conveyors, and conveying parts of the belt conveyors are belts.

According to the technical scheme, the waste air conditioner decomposition system needs an operator or an automatic disassembling device to disassemble the air conditioner external unit on the air conditioner external unit disassembling platform, then the disassembled first selected component is placed on the first conveyor and conveyed to the first processor by the first conveyor for processing, and then the disassembled third selected component is placed on the second conveyor and conveyed to the second processor by the second conveyor for processing. Similarly, the waste air conditioner decomposition system also needs an operator or an automatic disassembling device to disassemble the air conditioner indoor unit on an air conditioner indoor unit disassembling platform, then places the disassembled second selected component on the first conveyor for outputting, conveys the second selected component to the first processor by the first conveyor for processing, and places the disassembled fourth selected component on the third conveyor for outputting, and conveys the fourth selected component to the third processor by the third conveyor for processing. That is to say, because the waste air conditioner decomposition system uses at least three conveyors, and each selected component can be directly conveyed into the corresponding processor by the corresponding conveyor, the selected component is not required to be manually taken from the conveyor and put into the corresponding processor like the prior art, so that the dependence of the system on the manual work and the labor intensity of operators can be greatly reduced, and the processing efficiency of the waste air conditioner decomposition system can be improved.

Meanwhile, as the operator using the air conditioner external machine disassembling station and the operator using the air conditioner internal machine disassembling station can put selected components (such as plastic parts) needing the same treatment process on the first conveyor and uniformly treat the selected components by the first treatment machine, the common mode is beneficial to reducing the construction cost and the construction occupied area of the waste air conditioner decomposition system, and even reducing the use cost of the waste air conditioner decomposition system. In addition, the waste air conditioner decomposition system is simple in structure, easy to assemble, safe and reliable to use, and convenient to implement, popularize and apply.

Drawings

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. In the figure:

fig. 1 is a schematic structural diagram of a waste air conditioner decomposition system according to an embodiment of the present invention;

fig. 2 schematically shows a first conveyor, a second conveyor, a third conveyor, a fourth conveyor, a fifth conveyor, an air conditioner external unit conveyor, an air conditioner internal unit conveyor, an air conditioner external unit disassembling table and an air conditioner internal unit disassembling table of the waste air conditioner decomposition system shown in fig. 1.

In the drawings, like parts are designated with like reference numerals. The figures are not drawn to scale.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1 and 2, an embodiment of the present invention provides a waste air conditioner decomposition system 100. The waste air conditioner decomposition system 100 comprises a first conveyor 1, a second conveyor 2, a third conveyor 3, an air conditioner external unit disassembling table 4, an air conditioner internal unit disassembling table 5, a first processor 6, a second processor 7 and a third processor 8. Wherein the second conveyor 2 is arranged in parallel on one side of the first conveyor 1 and the third conveyor 3 is arranged in parallel on the other side of the first conveyor 1. The air conditioner external unit disassembling platform 4 is arranged between the first conveyor 1 and the second conveyor 2. The number of the outdoor unit disassembling tables 4 of the air conditioner is not limited, and the outdoor unit disassembling tables can be increased or decreased according to actual conditions. An air conditioner indoor unit dismantling table 5 is arranged between the first conveyor 1 and the third conveyor 3. The number of the indoor air conditioner disassembly platforms 5 is not limited, and the indoor air conditioner disassembly platforms can be increased or decreased according to actual conditions. The first processor 6 is capable of receiving a first selected component of the outdoor air conditioner transported by the first conveyor 1 and originating from the outdoor air conditioner dismantling station 4, and a second selected component of the indoor air conditioner transported by the first conveyor 1 and originating from the indoor air conditioner dismantling station 5. The second processor 7 is capable of receiving a third selected component of the outdoor unit of air conditioners delivered by the second conveyor 2. The third handler 8 is capable of receiving a fourth selected component of the indoor air conditioner delivered by the third conveyor 3 and originating from the indoor air conditioner indoor unit dismantling station 5.

The waste air conditioner decomposition system 100 of the present invention requires an operator or an automatic disassembling device to disassemble an air conditioner external unit on an air conditioner external unit disassembling platform 5, then puts the disassembled first selected component on a first conveyor 1 and conveys it to a first processor 6 for processing by the first conveyor 1, and then puts the disassembled third selected component on a second conveyor 2 and conveys it to a second processor 7 for processing by the second conveyor 2. Similarly, the waste air conditioner decomposition system 100 also needs an operator or an automatic disassembling device to disassemble the air conditioner indoor unit on the air conditioner indoor unit disassembling table 5, then puts the disassembled second selected component on the first conveyor 1 and conveys the second selected component to the first processor 6 for processing by the first conveyor 1, and then puts the disassembled fourth selected component on the third conveyor 3 and conveys the fourth selected component to the third processor 8 for processing by the third conveyor 3. That is, since the waste air-conditioning decomposition system 100 uses at least three conveyors and each selected component can be directly fed into the corresponding processor by the corresponding conveyor, it is no longer necessary to manually take the selected component from the conveyor and put it into the corresponding processor as in the prior art, which can greatly reduce the labor intensity of the operator and improve the processing efficiency of the waste air-conditioning decomposition system 100. In addition, since the operator using the outdoor air conditioner dismantling station 4 and the operator using the indoor air conditioner dismantling station 5 can place selected components (e.g., plastic parts) requiring the same treatment process on the first conveyor 1 and uniformly treat the selected components by the first treatment machine 6, such a common manner contributes to reducing the construction cost and the construction floor space of the waste air conditioner decomposing system 100, and even the use cost of the waste air conditioner decomposing system 100.

In this embodiment, each processor is preferably selected as a corresponding crusher according to the material of the parts to be processed. For example, the first processor 6 is a plastic product crusher, the second processor 7 is an iron product crusher, and the third processor 8 is a plastic product crusher. When the first processor 6 is selected as a plastic product crusher, the first processor can be used for crushing common plastic products such as plastic shells, plastic panels and the like of the air conditioner internal and external units. When the second disposer 7 is an ironwork crusher, it can be used to crush ironworks such as an outdoor unit side plate, a bottom cover plate, and a compressor bottom plate. When the third processor 8 is a plastic product crusher, it can be used for crushing special plastic products such as cross-flow fan blades. The plastic product crusher can be a claw knife crusher, a blade knife crusher or a flat knife crusher. The flat knife crusher is convenient to operate, convenient and quick to change the knife, and preferably a flat knife crusher. The ironwork crusher can crush waste ironwork so as to recycle iron fragments.

In this embodiment, the waste air conditioner decomposition system 100 further includes a fourth conveyor 9 and a fourth processor 10, where the fourth conveyor 9 is at least partially disposed between the outdoor unit disassembly station 4 and the first conveyor 1, and is capable of conveying a fifth selected component of the outdoor unit to the fourth processor 10. The fourth conveyor 9 is partially disposed between the outdoor air conditioner dismantling station 4 and the first conveyor 1, so that a fifth selected component (such as a compressor) is dismantled from the dismantling station and then moved onto the fourth conveyor 9. Wherein the fourth conveyor 9 is preferably a chain slat conveyor and the fourth processor 10 is preferably a compressor punch press. Disassemble the compressor in the outer machine of air conditioner on platform 4 is disassembled to the outer machine of air conditioner, then remove the compressor to fourth conveyer 9 to in carrying to compressor flattening device that punches through fourth conveyer 9, punch the flattening device and can punch and flatten the compressor by the compressor, reach the recovery purpose and in order to prepare to recycle. Since the compressor comprises sharp edges, in order to prevent the edges of the compressor from scratching the conveyor belt, it is recommended to choose a scratch-resistant plate chain conveyor as the fourth conveyor 9. The compressor punching and flattening device belongs to the existing product, and therefore is not described in detail herein.

In this embodiment, the old air conditioner decomposition system 100 further includes a fifth conveyor 18, a sixth conveyor 12 and a fifth processor 11, and a conveying part of the fifth conveyor 18 is arranged above a conveying part of the first conveyor 1 and/or a conveying part of the third conveyor 3 in parallel. The sixth conveyor 12 is arranged perpendicular to the fifth conveyor 18, and receives the sixth selected component of the outdoor air conditioner transported by the fifth conveyor 18 and originating from the outdoor air conditioner dismantling station 4, and the seventh selected component of the indoor air conditioner transported by the fifth conveyor 18 and originating from the indoor air conditioner dismantling station 5. The sixth conveyor 12 is also capable of conveying the sixth selected component and the seventh selected component into the fifth processor 11 so that it can process the sixth selected component and the seventh selected component.

In the present embodiment, the fifth processor 11 is preferably a crushing and sorting machine capable of crushing and sorting the heat exchanger of the air conditioner indoor unit and the heat exchanger of the air conditioner outdoor unit. The heat exchangers of the air conditioner indoor unit and the air conditioner outdoor unit disassembled on the air conditioner indoor unit disassembling table 5 and the air conditioner outdoor unit disassembling table 4 need to flow into the sixth conveyor 12 through the fifth conveyor 18, then flow into the crushing and sorting machine through the sixth conveyor 12, and then are crushed and sorted by the crushing and sorting machine, and preferably, sorted materials are classified and recycled to be reused.

In this embodiment, the old and useless air conditioner decomposition system 100 further includes a storage rack disposed between the first conveyor 1 and the third conveyor 3, and the storage rack is used for storing the eighth selected component of the outdoor unit of the air conditioner transported by the fifth conveyor 18 and sourced from the outdoor unit dismantling station 4, and the ninth selected component of the indoor unit of the air conditioner transported by the fifth conveyor 18 and sourced from the indoor unit dismantling station 5. The eighth selected component is preferably a circuit board, an electronic component, a liquid crystal screen and other parts which are not suitable for direct crushing and recycling and are disassembled by the air conditioner external unit disassembling table 4. The ninth selected component is preferably a circuit board, an electronic element, a liquid crystal screen and other parts which are not suitable for direct crushing and recycling and are disassembled by the air conditioner indoor unit disassembling table 5.

In this embodiment, the waste air conditioner decomposition system 100 further includes an air conditioner external unit conveyor 16 and/or an air conditioner internal unit conveyor 17, an output section of the air conditioner external unit conveyor 16 overlaps with an input section of the second conveyor 2 in a region where the air conditioner external unit disassembly station 4 is located, a conveying part of the air conditioner external unit conveyor 16 is lower than a conveying part of the second conveyor 2, an output section of the air conditioner internal unit conveyor 17 overlaps with an input section of the third conveyor 3 in a region where the air conditioner external unit disassembly station 4 is located, and a conveying part of the air conditioner internal unit conveyor 17 is lower than a conveying part of the third conveyor 3. The output section of the air conditioner external unit conveyor 16 and the input section of the second conveyor 2 are overlapped in the area where the air conditioner external unit disassembling platform 4 is located, and the conveying part of the external unit conveyor is lower than that of the second conveyor 2, so that conveying space can be effectively saved, and meanwhile, the heavier air conditioner external unit is placed at a lower position, and the workload of an operator can be reduced. The output section of the air conditioner inner machine conveyor 17 and the input section of the third conveyor 3 are overlapped in the area where the air conditioner outer machine disassembling table 4 is located, the conveying part of the air conditioner inner machine conveyor 17 is lower than that of the third conveyor 3, conveying space can be effectively saved through the arrangement, and meanwhile, the heavier air conditioner inner machine is placed at a lower position to be beneficial to reducing the workload of an operator.

In this embodiment, the waste air conditioner decomposition system 100 further includes an initial conveyor 13 and a refrigerant recovery device 14, an output section of the initial conveyor 13 is adjacent to an input section of the second conveyor 2, and the refrigerant recovery device 14 is adjacent to the input section of the initial conveyor 13 and is capable of extracting a refrigerant therein when an air conditioner indoor unit is at the input section of the initial conveyor 13. The refrigerant recovery device 14 is conventional and will not be described herein.

In the present embodiment, the air conditioner external unit conveyor 16, the air conditioner internal unit conveyor 17, and the initial conveyor 13 are all roller conveyors, and the conveying members of the roller conveyors are rollers. Because of the advantages of the roller conveyors being able to convey material in single pieces of great weight and being subjected to great impact loads, the outer air conditioner conveyor 16, the inner air conditioner conveyor 17 and the initial conveyor 13 are preferably conveyed by roller conveyors.

In this embodiment, the waste air conditioner indoor unit decomposition system 100 further includes a temporary storage platform 15 connected to a side of the initial conveyor 13 and configured to temporarily receive an outdoor unit of an air conditioner, and the refrigerant recovery device 14 is capable of extracting a refrigerant from the outdoor unit of the air conditioner when the outdoor unit of the air conditioner is in the temporary storage platform 15. Since the number of the refrigerants remaining in different waste air conditioners is different, the time required for recovering the refrigerants by using the refrigerant recovery device 14 is different. Therefore, the time-consuming outdoor unit of the air conditioner can be selectively placed on the temporary storage table 15 for refrigerant recovery, so as to avoid delaying the treatment efficiency of the waste air conditioner decomposition system 100.

In this embodiment, the waste air conditioner decomposition system 100 further includes a logistics vehicle and a weighing device. The logistics vehicle is preferably an automatic logistics vehicle which is capable of automatically handling and weighing processed materials. And after the processed materials are weighed by the automatic logistics vehicle, the materials are transported to a warehouse.

In the present embodiment, the first conveyor 1, the second conveyor 2, the third conveyor 3, the fifth conveyor 18, and the sixth conveyor 12 are all belt conveyors, and conveying members of the belt conveyors are belts. The first conveyor 1, the second conveyor 2, the third conveyor 3, the fifth conveyor 18 and the sixth conveyor 12 are preferably belt conveyors because the belt conveyors have a wide range of applications and are suitable for conveying work at a large slope.

In summary, the waste air conditioner dismantling system 100 according to the embodiment of the present invention can reduce the dependence on workers and the labor intensity of operators, and improve the treatment efficiency of the waste air conditioner dismantling system 100.

Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily make changes or variations within the technical scope of the present invention disclosed, and such changes or variations should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims. The technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. It is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (13)

1. A waste air conditioner decomposition system is characterized by comprising:

a first conveyor;

a second conveyor provided in parallel on one side of the first conveyor;

a third conveyor provided in parallel on the other side of the first conveyor;

the air conditioner external unit disassembling platform is arranged between the first conveyor and the second conveyor;

the air conditioner indoor unit disassembling table is arranged between the first conveyor and the third conveyor;

a first handler capable of receiving a first selected component of the outdoor unit transported by the first conveyor and originating from the outdoor unit dismantling station and a second selected component of the indoor unit transported by the first conveyor and originating from the indoor unit dismantling station;

a second handler; a second conveyor capable of receiving a second selected component of the air conditioner external unit conveyed by the second conveyor;

a third handler capable of receiving a fourth selected component of the indoor unit conveyed by the third conveyor and originating from the indoor unit disassembly station.

2. The waste air conditioner decomposition system of claim 1, wherein the first processor is a plastic crusher, the second processor is an iron crusher, and the third processor is a plastic crusher.

3. The waste air conditioner decomposition system of claim 1 or 2, further comprising a fourth conveyor and a fourth processor, wherein the fourth conveyor is at least partially disposed between the outdoor unit dismantling station and the first conveyor, and is capable of conveying a fifth selected component of the outdoor unit to the fourth processor.

4. The waste air conditioner decomposition system of claim 3, wherein the fourth conveyor is a chain slat conveyor and the fourth processor is a compressor punch press.

5. The waste air conditioner decomposition system according to claim 3, further comprising a fifth conveyor, a sixth conveyor and a fifth processor, wherein a conveying part of the fifth conveyor is provided in parallel above a conveying part of the first conveyor and/or a conveying part of a fourth conveyor, and the sixth conveyor is arranged perpendicular to the fifth conveyor, and receives a sixth selected component of the outdoor air conditioner unit conveyed by the fifth conveyor and originating from the outdoor air conditioner disassembly station and a seventh selected component of the indoor air conditioner conveyed by the fifth conveyor and originating from the indoor air conditioner disassembly station, and is capable of conveying the sixth selected component and the seventh selected component into the fifth processor.

6. The waste air conditioner indoor decomposition system according to claim 5, further comprising a storage rack disposed between the first conveyor and the third conveyor, the storage rack being configured to store an eighth selected component of the outdoor air conditioner unit conveyed by the fifth conveyor and sourced from the outdoor air conditioner dismantling station, and a ninth selected component of the indoor air conditioner unit conveyed by the fifth conveyor and sourced from the indoor air conditioner dismantling station.

7. The waste air conditioner decomposition system according to claim 5, wherein the fifth processor is a crushing and sorting machine capable of crushing and sorting the heat exchangers of the indoor air conditioner and the outdoor air conditioner.

8. The waste air conditioner decomposition system according to claim 1 or 2, further comprising an air conditioner external machine conveyor and/or an air conditioner internal machine conveyor, wherein an output section of the air conditioner external machine conveyor is overlapped with an input section of the second conveyor in a region where the air conditioner external machine disassembly station is located, a conveying part of the air conditioner external machine conveyor is lower than a conveying part of the second conveyor, an output section of the air conditioner internal machine conveyor is overlapped with an input section of the third conveyor in a region where the air conditioner external machine disassembly station is located, and a conveying part of the air conditioner internal machine conveyor is lower than a conveying part of the third conveyor.

9. The waste air conditioner decomposition system according to claim 8, further comprising an initial conveyor and a refrigerant recovery device, wherein an output section of the initial conveyor is adjacent to an input section of the second conveyor, and the refrigerant recovery device is adjacent to the input section of the initial conveyor and is capable of extracting the refrigerant in the air conditioner indoor unit when the air conditioner indoor unit is at the input section of the initial conveyor.

10. The waste air conditioner decomposition system according to claim 9, wherein the outdoor air conditioner conveyor, the indoor air conditioner conveyor and the initial conveyor are roller conveyors, and the conveying components of the roller conveyors are rollers.

11. The waste air conditioner decomposition system according to claim 9, further comprising a temporary storage table connected to a side of the initial conveyor and configured to temporarily receive the outdoor unit, wherein the refrigerant recovery device is capable of extracting the refrigerant from the outdoor unit when the outdoor unit is at the temporary storage table.

12. The waste air conditioner decomposition system according to claim 1 or 2, further comprising a logistics vehicle and a weighing device.

13. The waste air conditioner decomposition system according to claim 5, wherein the first conveyor, the second conveyor, the third conveyor, the fifth conveyor and the sixth conveyor are all belt conveyors, and conveying members of the belt conveyors are belts.

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