Recycling apparatus for scrap panels

CN224377090UActive Publication Date: 2026-06-19LG DISPLAY HIGH-TECH (CHINA) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LG DISPLAY HIGH-TECH (CHINA) CO LTD
Filing Date
2025-06-10
Publication Date
2026-06-19

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Abstract

This utility model relates to a recycling device for discarded panels, including a cartridge, a recycling bin, a conveying device, and a first driving component. The cartridge has a hollowed-out area at its bottom. The recycling bin has a receiving cavity with a top opening. The conveying device includes several belt conveyor assemblies; some belt conveyor assemblies near the cartridge are located below the cartridge, and some belt conveyor assemblies near the recycling bin are located above the receiving cavity. The belt conveyor assemblies above the receiving cavity are divided into two groups, and the distance between the belt conveyor assemblies in one group and the belt conveyor assemblies in the other group is adjustable. The first driving component drives the cartridge to move up and down. This device facilitates continuous transport of discarded panels within the cartridge, thereby improving work efficiency. It also helps control the falling position of the discarded panels, improving the space utilization of the recycling bin.
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Description

Technical Field

[0001] This utility model relates to the field of display device manufacturing technology, and in particular to a recycling device for scrapped panels. Background Technology

[0002] During the display panel manufacturing process, some display panels need to be scrapped due to irreparable quality defects. Scrapped display panels are placed back into cassettes at various workstations, and then transported to a recycling station for centralized processing using these cassettes.

[0003] Reference Figure 1 As shown, an existing recycling device includes a cartridge 1', a forklift, and a recycling bin. The cartridge 1' is a rectangular frame structure used for temporary storage and transportation of display panels 3'. Multiple support plates 2' are installed on two opposite side walls inside the cartridge 1', spaced vertically along each side wall, with each support plate 2' corresponding to the one on each side wall. The two ends of the display panels 3' are placed on the corresponding support plates 2' on the two side walls. The forklift and recycling bin are both located at the recycling station. After the cartridge 2' is transported to the recycling station, the forklift is used to remove the discarded display panels from the cartridge 1' one by one and transfer them to the recycling bin. Once the recycling bin is full, it is transported to a recycling plant for centralized processing.

[0004] The existing recycling equipment has the following shortcomings: Since the forklift can only pick up one display panel 3' from the cassette 1' at a time, and the forklift needs to transport it back and forth between the cassette 1' and the recycling bin, the overall working efficiency of the recycling equipment is low. Furthermore, after the forklift picks up the display panel, it stops at one end of the recycling bin and places the display panel inside. During this process, the display panels falling from the forklift mainly land on the side of the recycling bin closest to the forklift, resulting in the display panels being concentrated on one side of the recycling bin, with some leaning against the side wall of the recycling bin. This situation prevents the display panels from being stacked sequentially from the bottom to the top of the recycling bin, thus preventing the recycling bin from being filled completely and resulting in low space utilization. Utility Model Content

[0005] The purpose of this invention is to propose a recycling device for scrapped panels, which has high working efficiency and high space utilization of the recycling bin.

[0006] To achieve this objective, the present invention adopts the following technical solution:

[0007] A recycling device for scrapped panels is provided, comprising:

[0008] A cartridge for loading scrapped panels, wherein the bottom of the cartridge has a cutout area;

[0009] A recycling bin having a receiving cavity with a top opening;

[0010] A conveying device is provided for transporting the scrapped panels in the cartridge to the receiving cavity. The conveying device includes a plurality of belt conveyor assemblies spaced apart along the transport direction of the scrapped panels. A portion of the belt conveyor assemblies near the cartridge are located below the cartridge, and a portion of the belt conveyor assemblies near the recycling bin are located above the receiving cavity. The belt conveyor assemblies located above the receiving cavity are divided into two groups, and the two groups of belt conveyor assemblies are spaced apart along a first direction, which is perpendicular to the transport direction of the scrapped panels. The distance between the belt conveyor assemblies in one group and the belt conveyor assemblies in the other group is adjustable.

[0011] A first driving member is connected to the cartridge and is used to drive the cartridge to move up and down so that the belt conveyor assembly located below the cartridge can pass through the hollow area and abut against the scrap panel inside the cartridge.

[0012] As a preferred embodiment of a recycling device for scrapped panels, the belt conveyor assembly includes a support frame and a belt rotatably mounted on the support frame, the belt being used to carry the scrapped panels.

[0013] As a preferred embodiment of the recycling equipment for scrapped panels, the bracket is equipped with a sensor for detecting the distance between the belt and the scrapped panel.

[0014] As a preferred embodiment of the recycling equipment for scrapped panels, the conveying device includes a first conveying device and a second conveying device. The first conveying device includes two first support beams spaced apart along the first direction, and a plurality of belt conveyor components are disposed on the first support beams. Some of the belt conveyor components on the first support beams are located below the cassette. The second conveying device includes two second support beams spaced apart along the first direction, and a plurality of belt conveyor components are disposed on the second support beams. The second support beams are located above the receiving cavity.

[0015] As a preferred embodiment of waste panel recycling equipment, the spacing between the two second support beams is adjustable.

[0016] As a preferred embodiment of the recycling equipment for scrapped panels, the distance between the two first support beams is L1, the minimum distance between the two second support beams is L2, and L2 > L1.

[0017] As a preferred embodiment of the recycling equipment for scrapped panels, the second support beam is rotatably configured so that it can rotate about its own axis.

[0018] As a preferred embodiment of the waste panel recycling equipment, a baffle is also included, which is movably disposed between the first conveying device and the second conveying device, and the baffle is used to selectively block the waste panel.

[0019] As a preferred embodiment of a recycling device for scrapped panels, the cartridge includes a main frame and reinforcing ribs disposed on the main frame, with the main frame and the reinforcing ribs forming the hollow area.

[0020] As a preferred embodiment of a recycling device for scrapped panels, the main frame and / or the reinforcing ribs are provided with support plates for supporting the scrapped panels.

[0021] The advantages of this utility model compared to the prior art are:

[0022] This utility model discloses a waste panel recycling device. By installing a conveyor between the cassette and the recycling bin, the device directly transports the waste panels from the cassette to the recycling bin. Compared to the forklift transportation method used in existing technologies, this method facilitates continuous transport of waste panels from the cassette, thereby improving work efficiency. By placing a portion of the belt conveyor assembly below the cassette, the cassette descends, allowing the belt conveyor assembly to enter the cassette and automatically transfer the waste panels onto it, eliminating the need for manual transfer or separate handling equipment. Furthermore, by adjusting the spacing between the two sets of belt conveyor assemblies above the recycling bin, when the waste panel moves directly above the receiving cavity, the two sets of belt conveyor assemblies can be moved away from each other, allowing the waste panel to fall freely into the receiving cavity. This method helps control the falling position of the waste panel, ensuring it falls to the center of the receiving cavity and preventing one end of the waste panel from resting against the side wall of the recycling bin, thus improving the space utilization of the recycling bin. Attached Figure Description

[0023] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments.

[0024] Figure 1 This is a schematic diagram of a recycling device in the prior art.

[0025] Figure 2 This is a schematic diagram of the cartridge and conveying device according to an embodiment of the present invention.

[0026] Figure 3 This is a schematic diagram of the recycling bin and conveying device according to an embodiment of the present utility model.

[0027] Figure 4 This is a schematic diagram of a belt conveyor assembly according to an embodiment of the present invention.

[0028] Figure 5 This is a schematic diagram of a recycling bin and a second conveying device according to another embodiment of the present invention.

[0029] Figure 1 middle:

[0030] 1′, cartridge; 2′, support plate; 3′, display panel.

[0031] Figures 2 to 5 middle:

[0032] 1. Card holder; 11. Main frame; 12. Reinforcing rib; 13. Hollowed-out area; 14. Support plate; 2. Recycling bin; 21. Receiving cavity; 3. Conveying device; 31. First conveying device; 311. First support beam; 32. Second conveying device; 321. Second support beam; 33. Belt conveyor assembly; 331. Bracket; 332. Drive wheel; 333. Driven wheel; 334. Belt; 335. Sensor; 4. Baffle; 5. First driving component; 6. Scrap panel. Detailed Implementation

[0033] The advantages and features of this invention, as well as methods of implementing them, will become apparent from the following detailed description of the embodiments in conjunction with the accompanying drawings. However, this invention is not limited to the embodiments disclosed below, but can be implemented in various different forms. These embodiments are provided merely to complete the disclosure of this invention and to enable those skilled in the art to fully understand its scope, which is defined only by the scope of the claims. The same reference numerals denote the same constituent elements throughout the specification.

[0034] The present invention will now be described in detail with reference to the accompanying drawings.

[0035] like Figure 2 and Figure 3As shown, a recycling device for scrapped panels (hereinafter referred to as the recycling device) is provided for the centralized collection of scrapped panels 6 transferred to the recycling station. The recycling device includes a cartridge 1, a recycling bin 2, a conveying device 3, and a first driving component 5. The cartridge 1 is used to load the scrapped panels 6. During the production process, when a display panel is scrapped due to quality issues, the scrapped display panel (i.e., the scrapped panel 6) is placed in the cartridge 1, and the cartridge 1 is used to transport the scrapped panel 6 to the recycling station. The recycling bin 2 is installed at the recycling station and is used to centrally collect the scrapped panels 6 from the cartridge 1, and then transport the scrapped panels 6 to a recycling plant via the recycling bin 2. The conveying device 3 is installed between the cartridge 1 and the recycling bin 2, and is used to transport the scrapped panels 6, i.e., the scrapped panels 6 in the cartridge 1 can be transported to the recycling bin 2 via the conveying device 3. The first driving component 5 is connected to the cartridge 1 and is used to drive the cartridge 1 to rise and fall, so that the scrapped panel 6 to be transported can be placed on the conveying device 3.

[0036] The cartridge 1 has a rectangular frame structure. The length of the cartridge 1 is defined as the X direction, the width as the Y direction, and the height as the Z direction. The interior of the cartridge 1 forms a cavity for accommodating the discarded panel 6. A perforated area 13 is provided at the bottom of the cartridge 1, through which the interior and exterior of the cartridge 1 are connected. An opening is formed on the side of the cartridge 1 near the recycling bin 2 for the discarded panel 6 to pass through.

[0037] The recycling bin 2 has a rectangular box structure and a top-opening receiving cavity 21 for accommodating the waste panel 6. The shape of the receiving cavity 21 matches the shape of the waste panel 6. To facilitate the insertion of the waste panel 6 into the receiving cavity 21, the length and width dimensions of the receiving cavity 21 are both larger than the length and width dimensions of the waste panel 6.

[0038] The conveying device 3 is used to transport the scrapped panels 6 from the cartridge 1 to the receiving cavity 21. The conveying device 3 includes several belt conveyor assemblies 33, which are spaced apart along the transport direction of the scrapped panels 6 (X direction in the figure). All belt conveyor assemblies 33 are located on the same horizontal plane, and the scrapped panels 6 are placed on top of the belt conveyor assemblies 33. During the transport of the scrapped panels 6, the scrapped panels 6 are in a horizontal state and move in the horizontal direction. Some of the belt conveyor assemblies 33 near the cartridge 1 are located below the cartridge 1. The number and position of the belt conveyor assemblies 33 located below the cartridge 1 correspond one-to-one with the cutout areas 13 at the bottom of the cartridge 1. In the vertical direction, the belt conveyor assemblies 33 are located below the corresponding cutout areas 13. When the first driving member 5 drives the cartridge 1 to descend, the belt conveyor assemblies 33 can pass through the corresponding cutout areas 13 and enter the interior of the cartridge 1, and the belt conveyor assemblies 33 abut against the scrapped panels 6 inside the cartridge 1. After the scrap panel 6 is placed on the belt conveyor assembly 33, it moves towards the recycling bin 2 along the extension direction of the conveyor 3 under the driving action of the belt conveyor assembly 33. The portion of the belt conveyor assembly 33 near the recycling bin 2 is located above the receiving cavity 21, allowing the scrap panel 6 to move along the extension direction of the conveyor 3 to the top of the receiving cavity 21. The belt conveyor assemblies 33 above the receiving cavity 21 are divided into two groups, spaced apart along a first direction (Y direction in the diagram), which is perpendicular to the transport direction of the scrap panel 6. The distance between the belt conveyor assemblies 33 in one group and the belt conveyor assemblies 33 in the other group is adjustable. That is, the two groups of belt conveyor assemblies 33 can move closer or further apart along the Y direction in the diagram. When the scrap panel 6 moves onto the belt conveyor assembly 33 above the recycling bin 2, the two groups of belt conveyor assemblies 33 move further apart, allowing the scrap panel 6 to fall freely through the gap between them and into the receiving cavity 21.

[0039] It is understandable that by setting up a conveyor device 3 between the cartridge 1 and the recycling bin 2, the scrapped panels 6 in the cartridge 1 can be directly transported to the recycling bin 2 using the conveyor device 3. Compared with the forklift transportation method in the prior art, this method is more conducive to the continuous transportation of the scrapped panels 6 in the cartridge 1, thereby improving work efficiency. By arranging part of the belt conveyor assembly 33 below the cartridge 1, the belt conveyor assembly 33 enters the interior of the cartridge 1 as the cartridge 1 descends, so that the scrapped panels 6 in the cartridge 1 are automatically transferred to the belt conveyor assembly 33, without the need for manual transfer or a separate handling machine. Furthermore, by adjusting the distance between the two sets of belt conveyor assemblies 33 above the recycling bin 2, when the scrapped panels 6 move to the top of the receiving cavity 21, the two sets of belt conveyor assemblies 33 can be moved away from each other, allowing the scrapped panels 6 to fall freely into the receiving cavity 21. This method helps control the falling position of the scrapped panel 6, allowing it to fall into the middle of the receiving cavity 21, preventing one end of the scrapped panel 6 from resting against the side wall of the recycling bin 2, thereby improving the space utilization of the recycling bin 2.

[0040] Specifically, refer to Figure 2 As shown, the cartridge 1 includes a main frame 11 and several reinforcing ribs 12 disposed on the main frame 11. The main frame 11 is a cuboid structure formed by eight square columns, and an opening is formed on one side of the main frame 11 along its length for the passage of the scrap panel 6. Reinforcing ribs 12 are provided on the five sides of the main frame 11, except for the side corresponding to the opening, to improve the overall mechanical strength of the cartridge 1. A hollow area 13 is formed between the main frame 11 and the reinforcing ribs 12, and the function of the hollow area 13 is to allow the belt conveyor assembly 33 to enter the interior of the cartridge 1.

[0041] Support plates 14 for supporting the scrapped panel 6 are provided on the main frame 11 and / or reinforcing ribs 12. It is understood that the scrapped panel 6 inside the cartridge 1 is supported by the support plates 14. Multiple support plates 14 are provided on opposite sides of the cartridge 1 along its width direction. The support plates 14 can be installed on the main frame 11, or on the reinforcing ribs 12, or simultaneously on both the main frame 11 and the reinforcing ribs 12. In this embodiment, the multiple support plates 14 located on the same side of the cartridge 1 are installed in four groups, with two groups installed on the main frame 11 and the other two groups installed on the reinforcing ribs 12. The multiple support plates 14 in each group are spaced apart along the height direction of the cartridge 1. The number and position of the support plates 14 on the two sides of the cartridge 1 correspond one-to-one, so that the two ends of the scrapped panel 6 in the width direction can be placed on the support plates 14 located on both sides of the cartridge 1. This structure allows multiple discarded panels 6 to be placed in the cartridge 1, with the panels 6 spaced apart along the height of the cartridge 1. When transporting the discarded panels 6, the bottommost panel 6 is first transported to the recycling bin 2 by the conveyor 3. As the cartridge 1 descends, the multiple discarded panels 6 are transported to the recycling bin 2 sequentially from bottom to top by the conveyor 3.

[0042] The first driving component 5 is existing technology and is used to drive the lifting and lowering movement of the cartridge 1. In this embodiment, the first driving component 5 can be a telescopic device such as a cylinder or hydraulic cylinder. The first driving component 5 is installed below the cartridge 1 and located at the four corners of the cartridge 1. The lifting and lowering movement of the cartridge 1 is driven by the extension and retraction of the first driving component 5. Of course, in other embodiments, the first driving component 5 can also be a scissor lift, with two first driving components 5 respectively installed at both ends of the width direction of the cartridge 1, and the first driving components 5 located below the cartridge 1.

[0043] Specifically, refer to Figure 4As shown, the belt conveyor assembly 33 includes a bracket 331 and a belt 334 rotatably mounted on the bracket 331. A drive pulley 332 and a driven pulley 333 are horizontally spaced on the bracket 331, with the drive pulley 332 driven by a motor. The belt 334 is fitted onto the drive pulley 332 and the driven pulley 333, so that the drive pulley 332 drives the belt 334 to rotate. The belt 334 carries the scrapped panel 6. The scrapped panel 6 is placed on the belt 334, and the friction between the scrapped panel 6 and the belt 334 allows the scrapped panel 6 to move synchronously with the belt 334. A sensor 335 is mounted on the bracket 331 to detect the distance between the belt 334 and the scrapped panel 6. The sensor 335 is prior art, and its function is to detect whether the scrapped panel 6 is placed on the belt 334. In practical applications, belt 334 is stationary. Only after the scrapped panel 6 is placed on belt 334 will belt 334 start to rotate, thus beginning the transportation of the scrapped panel 6. Of course, to avoid friction between the scrapped panel 6 and the support plate 14, the belt conveyor assembly 33 can be brought into contact with the scrapped panel 6 before the cassette 1 is lowered a certain distance to disengage the scrapped panel 6 from the support plate 14.

[0044] Specifically, continue to refer to Figure 2 and Figure 3 As shown, the conveying device 3 includes a first conveying device 31 and a second conveying device 32. The first conveying device 31 is located near the cartridge 1, and the second conveying device 32 is located near the recycling bin 2. The discarded panels 6 in the cartridge 1 are transported sequentially to the recycling bin 2 via the first conveying device 31 and the second conveying device 32. The first conveying device 31 includes two first support beams 311 spaced apart along a first direction, and each first support beam 311 has multiple belt conveyor assemblies 33 spaced apart. Some of the belt conveyor assemblies 33 on the first support beams 311 are located below the cartridge 1, meaning that one end of the first conveying device 31 can extend into the cartridge 1 and transport the discarded panels 6 outward from the cartridge 1. The second conveying device 32 is located above the recycling bin 2. The second conveying device 32 includes two second support beams 321 spaced apart along the first direction, and each second support beam 321 has multiple belt conveyor assemblies 33 spaced apart. This structure allows the two ends of the discarded panels 6 in the width direction to be supported by the belt conveyor assemblies 33 when transporting the discarded panels 6, improving the stability of the discarded panels 6 during transportation.

[0045] To achieve adjustable spacing between the two sets of belt conveyor assemblies 33 above the recycling bin 2, the second conveying device 32 also includes a second driving component (not shown in the figure). The second driving component can be a telescopic device such as a cylinder or hydraulic cylinder. The second driving component is connected to the second support beam 321 to drive the two second support beams 321 to move closer or further apart in the horizontal direction. This structure is used to achieve adjustable spacing between the two second support beams 321. By adjusting the spacing between the two second support beams 321, the spacing between the two sets of belt conveyor assemblies 33 can be adjusted. In this embodiment, the spacing between the two first support beams 311 is L1, and the minimum spacing between the two second support beams 321 is L2, where L2 > L1. It can be understood that when the spacing between the two second support beams 321 is at its minimum value, the spacing between the two sets of belt conveyor assemblies 33 is less than the width of the scrap panel 6, so that the scrap panel 6 can be supported by the second conveying device 32. At this time, the scrap panel 6 can move from the first conveying device 31 to the second conveying device 32. Since L2 > L1, after the scrapped panel 6 moves from the first conveyor 31 to the second conveyor 32, the contact position between the scrapped panel 6 and the belt conveyor assembly 33 moves outward, so that the two sets of belt conveyor assemblies 33 are closer to the edge of the scrapped panel 6, reducing the movement stroke of the two second support beams 321 during the adjustment of the spacing, making it easier for the scrapped panel 6 to fall.

[0046] In this embodiment, since the cartridge 1 can move up and down, in order to avoid interference between the cartridge 1 and the first support beam 311, the first support beam 311 is segmented, with adjacent segments of the first support beam 311 spaced apart, so as to avoid the up and down movement of the cartridge 1.

[0047] The recycling equipment also includes a baffle 4 and a third driving component. The baffle 4 is movably disposed between the first conveying device 31 and the second conveying device 32. The third driving component can be a telescopic device such as a cylinder or hydraulic cylinder. The third driving component is connected to the baffle 4 to drive the baffle 4 to move along the Y direction or the Z direction shown in the figure. By setting the baffle 4, the baffle 4 can selectively block the waste panel 6, so as to prevent the second waste panel 6 from moving towards the second conveying device 32 before the previous waste panel 6 has fallen into the receiving cavity 21 smoothly, thereby preventing the waste panel 6 from falling accidentally.

[0048] Specifically, refer to Figure 5As shown, the second support beam 321 is rotatably configured so that it can rotate around its own axis. By rotating the second support beam 321, after the scrapped panel 6 is moved to a suitable position on the second conveyor 32, the two second support beams 321 rotate, causing their top ends to move away from each other. At this time, the contact between the scrapped panel 6 and the belt 334 changes from surface contact to line contact, reducing the friction between the belt 334 and the scrapped panel 6. This prevents the scrapped panel 6 from moving to one side of the recycling bin 2 due to uneven friction as the two sets of belt conveyor assemblies 33 move away from each other. Therefore, by rotating the second support beam 321, the scrapped panel 6 can fall smoothly into the middle of the receiving cavity 21, improving the space utilization of the recycling bin 2.

[0049] In this embodiment, the method of using the recycling device is as follows:

[0050] In step S1, after collecting the scrapped panels 6 from the production process, the cartridge 1 is transferred to the recycling station. At this time, the cartridge 1 is located above part of the belt conveyor assembly 33 in the first conveyor device 31. The cartridge 1 is connected to the first drive unit 5.

[0051] In step S2, the first driving component 5 drives the cartridge 1 to descend, so that the lowest scrap panel 6 inside the cartridge 1 comes into contact with the belt conveyor assembly 33 and disengages from the support plate 14. Under the driving action of the belt conveyor assembly 33, the scrap panel 6 moves sequentially along the first conveyor device 31 and the second conveyor device 32 to the top of the recycling bin 2.

[0052] Step S3: When the scrapped panel 6 moves to the top of the receiving cavity 21 and aligns with the center of the receiving cavity 21, the two second support beams 321 rotate and move away from each other, so that the scrapped panel 6 loses the support of the belt conveyor assembly 33 and falls into the receiving cavity 21.

[0053] Step S4: Repeat the above steps to transport all the scrapped panels 6 in the cartridge 1 to the recycling bin 2.

[0054] Although embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but can be made in various forms, and those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention. Therefore, it should be understood that the above embodiments are exemplary in all respects and not restrictive.

Claims

1. A recycling apparatus of a scrap panel characterized by, include: A cartridge for loading scrapped panels, wherein the bottom of the cartridge has a cutout area; A recycling bin having a receiving cavity with a top opening; A conveying device is provided for transporting the scrapped panels in the cartridge to the receiving cavity. The conveying device includes a plurality of belt conveyor assemblies spaced apart along the transport direction of the scrapped panels. A portion of the belt conveyor assemblies near the cartridge are located below the cartridge, and a portion of the belt conveyor assemblies near the recycling bin are located above the receiving cavity. The belt conveyor assemblies located above the receiving cavity are divided into two groups, and the two groups of belt conveyor assemblies are spaced apart along a first direction, which is perpendicular to the transport direction of the scrapped panels. The distance between the belt conveyor assemblies in one group and the belt conveyor assemblies in the other group is adjustable. A first driving member is connected to the cartridge and is used to drive the cartridge to move up and down so that the belt conveyor assembly located below the cartridge can pass through the hollow area and abut against the scrap panel inside the cartridge.

2. The scrap panel recycling apparatus according to claim 1, characterized by, The belt conveyor assembly includes a support frame and a belt rotatably mounted on the support frame, the belt being used to carry the scrapped panel.

3. The scrap panel recycling apparatus of claim 2, wherein, The bracket is equipped with a sensor, which is used to detect the distance between the belt and the scrap panel.

4. The waste panel recycling equipment according to claim 1, characterized in that, The conveying device includes a first conveying device and a second conveying device. The first conveying device includes two first support beams spaced apart along the first direction. A plurality of belt conveying components are disposed on the first support beams. Some of the belt conveying components on the first support beams are located below the cassette. The second conveying device includes two second support beams spaced apart along the first direction. A plurality of belt conveying components are disposed on the second support beams. The second support beams are located above the receiving cavity.

5. The waste panel recycling equipment according to claim 4, characterized in that, The spacing between the two second support beams is adjustable.

6. The waste panel recycling equipment according to claim 5, characterized in that, The distance between the two first support beams is L1, and the minimum distance between the two second support beams is L2, where L2 > L1.

7. The waste panel recycling equipment according to claim 5, characterized in that, The second support beam is rotatably configured so that it can rotate about its own axis.

8. The waste panel recycling equipment according to claim 4, characterized in that, It also includes a baffle, which is movably disposed between the first conveying device and the second conveying device, and the baffle is used to selectively block the scrap panel.

9. The recycling equipment for scrapped panels according to any one of claims 1 to 8, characterized in that, The cartridge includes a main frame and reinforcing ribs disposed on the main frame, with the main frame and the reinforcing ribs forming the hollow area.

10. The waste panel recycling equipment according to claim 9, characterized in that, The main frame and / or the reinforcing ribs are provided with support plates for supporting the scrapped panels.