A new type of cage unloading partition blocker

CN224393904UActive Publication Date: 2026-06-23SHENGXING (YUNNAN) PACKAGING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENGXING (YUNNAN) PACKAGING CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-23

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Abstract

The utility model discloses a novel cage partition board blocker, including cage frame, equipment support, device body, equipment support is arranged respectively at the left and right sides of cage frame, and device body is arranged respectively between cage frame and setting support, and device body is connected with production workshop control cabinet telecommunication, the device body still includes baffle mechanism, compensation mechanism, and the right side of equipment support of cage frame left side is provided with the baffle mechanism of preventing partition board movement, and the compensation mechanism that provides transition support for tank body between cage frame and equipment support is arranged between cage frame and equipment support, the function of the utility model is reduced the unexpected loss in production process, improved the applicability of device flexibility, reduced production cost, reduced the scratch of tank bottom, guaranteed product quality, guaranteed the reliability of device, and the resource utilization ratio was promoted.
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Description

Technical Field

[0001] This utility model belongs to the technical field of automatic cage unloading systems, and in particular relates to a novel cage unloading baffle blocker. Background Technology

[0002] In the production of aluminum cans, after the cans are sterilized at high temperature in a high-temperature sterilization autoclave, an automatic unloading system is used to separate the cans stacked together with partitions and unload them onto the aluminum can production line for subsequent filling processing.

[0003] Existing technologies, such as the fully automatic loading and unloading cage system disclosed in Chinese Patent (CN222180769U), include a loading and unloading platform, a conveying mechanism, a moving frame, a can-filling mechanism, and a can-unloading mechanism. Both the can-filling and unloading mechanisms include baffles, hydraulic rods, connecting rods, rotating shafts, connecting frames, and push plates. The can-unloading mechanism also includes mounting rods, support rods, and proximity sensors. The moving frame moves along the loading and unloading platform, driving the can-filling and unloading mechanisms to move. During loading or unloading, after moving the can-holding station onto the entire group of beverage cans, the hydraulic rod drives the rotating shaft to rotate via the connecting rod. The rotating shaft then drives the push plate down via the connecting frame, sealing the can-holding station. The moving frame then moves the entire group of beverage cans to perform loading or unloading. The can-unloading mechanism is also equipped with proximity sensors to detect whether the beverage cans in the sterilization cage have risen to the correct position, ensuring that the beverage cans are neatly unloaded onto the loading and unloading platform. Automated loading and unloading improves beverage processing efficiency and prevents beverage cans from collapsing during the loading and unloading process.

[0004] During unloading operations, when the unloading mechanism unloads the material from the partition, the partition is prone to displacement due to the movement of the unloading mechanism. Therefore, in actual use, it is necessary to install fixed clamps driven by cylinders on both sides of the partition to clamp the partition and prevent the partition from shifting.

[0005] This method has the following drawbacks: First, during use, the clamping plates may pinch the tank near the edge of the partition when holding and fixing each partition, causing dents and deformation on the tank surface. This affects the product's appearance and can lead to leakage and scrapping of the tank, resulting in accidental loss of tank parts and increased production losses. Second, there is still water on the top of the product tank and on the partition at the unloading area, which has just been sterilized. During the unloading process and the removal of the partition, this water will spill from both sides onto the cylinders that fix the clamping plates, which can easily damage or malfunction the clamping plate cylinders, increasing the maintenance of the equipment. Thirdly, due to the gap between the cage and the conveyor belt, when the unloading mechanism picks up and pushes the material onto the conveyor belt, the unloading mechanism has a small gripping force to prevent the edge tanks from being squeezed and deformed. Therefore, the tanks in the middle will slide downwards. As a result, during the unloading process, when the tanks are picked up and pushed onto the conveyor belt, some tanks will slide down when passing through the gap. After being squeezed by the edge of the conveyor belt, they will be pushed back upwards. During this process, the bottom of the tank will be rubbed and scratched, affecting the appearance of the tank.

[0006] Therefore, this utility model provides a novel cage unloading baffle blocker. Utility Model Content

[0007] To address the aforementioned technical problems, this utility model discloses a novel cage unloading baffle blocker, which reduces unexpected losses during the production process, improves the applicability and flexibility of the device, and lowers production costs; it also reduces scratches on the bottom of the tank, ensuring product quality; and it guarantees the reliability of the device and improves resource utilization.

[0008] To achieve the above-mentioned technical effects, this utility model provides a novel unloading cage baffle blocker, including a cage frame, an equipment support, and a device body. The equipment support is respectively arranged on the left and right sides of the cage frame, and the device body is respectively arranged between the cage frame and the equipment support. The device body is electrically connected to the control cabinet of the production workshop. The device body also includes a baffle mechanism and a compensation mechanism. A baffle mechanism to prevent the baffle from moving is arranged on the right side of the equipment support on the left side of the cage frame, and a compensation mechanism to provide transition support for the tank between the cage frame and the equipment support is arranged.

[0009] Preferably, the baffle mechanism further includes a baffle groove, a stainless steel baffle, an anti-scratch strip, and a lifting mechanism. The lifting mechanism is respectively located on the front and rear sides of the right end of the equipment bracket on the left side of the cage frame. The baffle groove is located on the right side of the lifting mechanism. The stainless steel baffle is slidably located above the baffle groove. The baffle groove and the stainless steel baffle are magnetically attracted by a magnet. The magnet is respectively embedded on the outer side of the baffle groove and the stainless steel baffle. The anti-scratch strip made of flexible material is located above the stainless steel baffle.

[0010] Preferably, a calibration card is rotatably mounted on the side of the stainless steel baffle.

[0011] Preferably, the bottom of the stainless steel baffle is provided with a toothed rack a, and the toothed rack a is embedded in the groove at the bottom of the inner side of the baffle groove.

[0012] Preferably, the lifting mechanism further includes a slider, rack b, a housing, a transmission wheel, a rotary damper, a transmission belt, a flexible rack, and an adjustment knob. The slider is located on the left side of the baffle groove and is slidably connected to the equipment support. Rack b is located on the left side of the slider. The housing is located on the left side of the slider. The transmission wheels are rotatably located on the upper and lower sides of the equipment support inside the housing. The transmission wheels are connected to the equipment through a rotary damper. The transmission belt is located on the outside of the transmission wheels. The flexible rack is located on the outside of the transmission belt and meshes with rack b.

[0013] Preferably, the compensation mechanism further includes a fixed bracket, a condensate collection tank, a drain hose, and a transition roller. The fixed bracket is respectively installed on the equipment brackets on both sides of the cage frame, the condensate collection tank is installed at the end of the fixed bracket located on the left side of the cage frame, the drain hose is installed in front of the condensate collection tank, and the transition roller is installed above the condensate collection tank.

[0014] Preferably, the fixed bracket further includes guide rails, mounting rod a, telescopic electric cylinder, mounting rod b, connecting rod a, fixed platform, rubber pad, and connecting rod b. The guide rails are respectively arranged on the front and rear sides of the right side of the equipment bracket. Mounting rod a is arranged between the guide rails. Mounting rod b is slidably arranged on the inner side of the guide rails. The telescopic electric cylinder is arranged between mounting rod a and mounting rod b, and both ends of the telescopic electric cylinder are hinged to mounting rod a and mounting rod b respectively. Fixed platforms are respectively arranged on the side of mounting rod b. Fixed platforms are connected to each other through connecting rod b. Connecting rod b and mounting rod b are connected through connecting rod a. The rubber pad is arranged between the fixed platform and the cage frame.

[0015] Preferably, the transition roller further includes a mounting frame and a transition roller. The mounting frame is rotatably disposed on the front and rear sides of the condensate collection tank by means of a torsion spring, and the transition roller, whose surface is covered with a flexible material, is rotatably disposed between the mounting frames.

[0016] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0017] The device incorporates a baffle mechanism that, while ensuring the restraint function of the baffles, prevents the tank from being deformed due to pressure when the clamps are fixing the baffles, thus reducing accidental losses during production. The position of the stainless steel baffles can be adjusted according to different specifications of material cages. These stainless steel baffles can be made from scrap stainless steel sheets on-site, improving the device's flexibility and reducing production costs. A compensation mechanism is also included. During the unloading process, as the material is unloaded from the baffles onto the conveyor belt, the material, after leaving the baffles, is supported by transition rollers, preventing the tank from falling during transfer. This allows the tank to be pushed onto the conveyor belt more smoothly, reducing scratches on the tank bottom and ensuring product quality. Simultaneously, spilled condensate can be collected, preventing condensate from splashing onto the device and causing malfunctions or shortening its lifespan. The condensate can also be recycled, ensuring the device's reliability and improving resource utilization. Attached Figure Description

[0018] Figure 1 This is an isometric view of the present invention;

[0019] Figure 2 This is a front view of the present invention;

[0020] Figure 3 This is a left view of the present invention;

[0021] Figure 4 yes Figure 3 A sectional view of section a.

[0022] Figure 5 yes Figure 4 A partial schematic diagram of b in the middle;

[0023] The attached diagram lists the components represented by each number as follows:

[0024] 1. Cage frame; 2. Equipment support; 3. Baffle mechanism; 4. Compensation mechanism; 5. Baffle groove; 6. Stainless steel baffle; 7. Anti-scratch strip; 8. Calibration card; 9. Rack a; 10. Slider; 11. Rack b; 12. Housing; 13. Transmission wheel; 14. Rotary damper; 15. Transmission belt; 16. Flexible rack; 17. Adjustment knob; 18. Condensate collection tank; 19. Drain hose; 20. Guide rail; 21. Mounting rod a; 22. Telescopic electric cylinder; 23. Mounting rod b; 24. Connecting rod a; 25. Fixed platform; 26. Connecting rod b; 27. Mounting bracket; 28. Transition roller. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0026] The prior art in this embodiment has the following problems: The inventors have discovered the following defects in the prior art: First, during use, when the clamping plates hold and fix each partition, they easily clamp the tank near the edge of the partition, causing dents and deformation on the surface of the tank. This affects the appearance of the product and can also lead to leakage and scrapping of the tank, resulting in accidental loss of the tank parts and increased production losses. Second, at the same time, there is still water on the top of the product tank and the partition at the unloading cage. During the unloading and removal of the partition, this water will fall from both sides onto the cylinder that fixes the clamping plates, which can easily damage the clamping plate cylinder. Malfunctions increase the maintenance cost of the equipment; third, because there is a gap between the cage and the conveyor belt for the cage to move, when the unloading mechanism picks up and pushes the material onto the conveyor belt, the unloading mechanism has a small clamping force to prevent the edge of the can from being squeezed and deformed. Therefore, the cans in the middle will slide downwards. As a result, when the cans are picked up and pushed onto the conveyor belt during the unloading process, some cans will slide down when passing through the gap. After being squeezed by the edge of the conveyor belt, they will be pushed back upwards. During this process, the bottom of the can will be rubbed and scratched, affecting the appearance of the can. Example 1

[0027] like Figures 1 to 5 As shown:

[0028] Therefore, the inventor provides a novel unloading cage baffle blocker, including a cage frame 1, an equipment support 2, and a device body. The equipment support 2 is respectively arranged on the left and right sides of the cage frame 1, and the device body is respectively arranged between the cage frame 1 and the equipment support. The device body is electrically connected to the production workshop control cabinet (not shown in the figure). The device body also includes a baffle mechanism 3 and a compensation mechanism 4. A baffle mechanism 3 is arranged on the right side of the equipment support 2 on the left side of the cage frame 1 to prevent the baffle from moving. A compensation mechanism 4 is arranged between the cage frame 1 and the equipment support 2 to provide transition support for the tank.

[0029] Using the above scheme, the equipment support 2 located on the left side of the cage frame 1 is connected to the conveyor belt device of the tank (not shown in the figure), and the equipment support 2 located on the right side of the cage frame 1 is connected to the partition recycling device (not shown in the figure). The feeding mechanism (not shown in the figure) below the cage frame 1 continuously supplies the material in the cage frame 1 upwards. The unloading mechanism (not shown in the figure) picks up the sterilized material to the left and places it on the conveyor belt device and transports it out. At the same time, during the process of the unloading mechanism resetting to the right, the sponge suction cup clamps the partition below the material and places it on the partition recycling device to the right.

[0030] During the unloading operation, when the unloading mechanism clamps and pushes the material to the left, the baffle mechanism 3 between the cage frame 1 and the equipment support 2, at the adjusted height, blocks the partition that may be pulled to the left by the unloading mechanism, preventing the partition from being pulled to the left when the unloading mechanism clamps the material. At the same time, during the unloading process, the compensation mechanism 4 fixes the cage frame 1 from the left and right sides of the cage frame 1, and fills the gap between the equipment support 2 and the cage frame 1 when the tank is pushed to the left onto the conveyor belt device. At the same time, it collects and recovers the condensate brought out from the partition and the top of the tank when pushing the material. Example 2

[0031] like Figures 1 to 5 As shown:

[0032] Furthermore, the baffle mechanism 3 also includes a baffle groove 5, a stainless steel baffle 6, an anti-scratch strip 7, and a lifting mechanism. The lifting mechanism is respectively set on the front and rear sides of the right end of the equipment bracket 2 located on the left side of the cage frame 1. The baffle groove 5 is set on the right side of the lifting mechanism. The stainless steel baffle 6 is slidably set above the baffle groove 5. The baffle groove 5 and the stainless steel baffle 6 are magnetically attracted by a magnet. The magnet (not shown in the figure) is respectively embedded on the outside of the baffle groove 5 and the stainless steel baffle 6. The anti-scratch strip 7 made of flexible material is set above the stainless steel baffle 6.

[0033] Furthermore, a calibration card 8 is rotatably mounted on the side of the stainless steel baffle 6;

[0034] Furthermore, the bottom of the stainless steel baffle 6 is provided with a toothed rack a9, and the toothed rack a9 is embedded in the groove at the bottom of the inner side of the baffle groove 5;

[0035] Furthermore, the lifting mechanism also includes a slider 10, a rack b11, a housing 12, a transmission wheel 13, a rotary damper 14, a transmission belt 15, a flexible rack 16, and an adjustment knob 17. The slider 10 is located on the left side of the baffle groove 5 and is slidably connected to the equipment support 2. The rack b11 is located on the left side of the slider 10. The housing 12 is located on the left side of the slider 10. The transmission wheel 13 is rotatably located on the upper and lower sides of the equipment support 2 inside the housing 12. The transmission wheel 13 is connected to the equipment through the rotary damper 14. The transmission belt 15 is located on the outside of the transmission wheel 13. The flexible rack 16 is located on the outside of the transmission belt 15 and meshes with the rack b11.

[0036] Before the unloading system starts working, the operator first inserts the stainless steel baffle 6 into the baffle groove 5. After the stainless steel baffle 6 is inserted, the baffle groove 5 and the magnet on the side of the stainless steel baffle 6 automatically attract each other to prevent the stainless steel baffle 6 from being pushed and displaced by the baffle when restricting the movement of the baffle. At the same time, the toothed rack below the stainless steel baffle 6 is embedded in the groove of the baffle groove 5. The spacing of the limiting stainless steel baffle 6 can be adjusted by moving the stainless steel baffle 6 back and forth.

[0037] Then, rotating the adjustment knob 17 causes the transmission wheel 13 to rotate on the rotary damper 14. The rotary damper 14 increases the resistance when the transmission wheel 13 rotates, preventing it from automatically falling back after adjustment. The transmission wheel 13 drives the rack on the transmission belt 15 to move, which in turn drives the slider 10 to move up and down on the equipment support 2 through the rack b11, thereby adjusting the height of the top of the stainless steel baffle 6. The calibration card 8 is then moved to the right to align with the top of the partition. After alignment, it is pulled back. In this way, by eliminating the telescopic cylinders and clamps on both sides of the cage frame 1, a stainless steel baffle 6 is installed on the front side of the cage frame 1 to block the... The partition that shifts during unloading allows the unloading mechanism to push the material above the partition onto the conveyor belt. The anti-scratching strip 7 above the stainless steel baffle 6 prevents the stainless steel baffle 6 from scraping against the bottom of the tank. This method ensures the restriction function of the partition while preventing the tank from being deformed due to pressure when the baffle is fixed, thus reducing accidental losses during production. The position of the stainless steel baffle 6 can also be adjusted according to the material cage 1 of different specifications. The stainless steel baffle 6 can be made from stainless steel scrap on the production site, which improves the applicability and flexibility of the device and reduces production costs. Example 3

[0038] like Figures 1 to 5 As shown:

[0039] Furthermore, the compensation mechanism 4 also includes a fixed bracket, a condensate collection tank 18, a drain hose 19, and a transition roller 28. The fixed bracket is respectively installed on the equipment brackets 2 on both sides of the cage frame 1. The condensate collection tank 18 is installed at the end of the fixed bracket located on the left side of the cage frame 1. The drain hose 19 is installed in front of the condensate collection tank 18. The transition roller 28 is installed above the condensate collection tank 18.

[0040] Furthermore, the fixed bracket also includes guide rail 20, mounting rod a21, telescopic electric cylinder 22, mounting rod b23, connecting rod a24, fixed platform 25, rubber pad, and connecting rod b26. The guide rail 20 is respectively set on the front and rear sides of the right side of the equipment bracket 2. The mounting rod a21 is set between the guide rails 20. The mounting rod b23 is slidably set on the inner side of the guide rail 20. The telescopic electric cylinder 22 is set between the mounting rod a21 and the mounting rod b23, and both ends of the telescopic electric cylinder 22 are hinged to the mounting rod a21 and the mounting rod b23 respectively. The fixed platform 25 is respectively set on the side of the mounting rod b23. The fixed platforms 25 are connected to each other by the connecting rod b26. The connecting rod b26 is connected to the mounting rod b23 by the connecting rod a24. The rubber pad is set between the fixed platform 25 and the cage frame 1.

[0041] Furthermore, the transition roller 28 also includes a mounting frame 27 and a transition roller 28. The mounting frame 27 is rotatably mounted on the front and rear sides of the condensate collection tank 18 by means of a torsion spring, and the transition roller 28, whose surface is covered with a flexible material, is rotatably mounted between the mounting frames 27.

[0042] When the feeding mechanism below the cage frame 1 transports the cage frame 1 to the unloading station, the telescopic electric cylinder 22 is in the retracted state. After the cage frame 1 is in place, the control cabinet receives a control signal and controls the telescopic electric cylinder 22 in conjunction with the feeding mechanism, activating the telescopic electric cylinder 22. The telescopic electric cylinder 22 extends and pushes the mounting rod b23 to slide on the guide rail 20, causing the fixing platform 25, which is connected to the connecting rod a24 on the side of the mounting rod b23, to rotate 90 degrees along the arc on the guide rail 20 and rise straight up along the track to the top of the guide rail 20. This causes the rubber pad on the side of the fixing platform 25 to adhere to the outside of the cage frame 1. At the same time, condensate is collected and rotated to the bottom edge of the top of the cage frame 1, and the mounting frame... The transition roller 28 on 27 is also driven to the level position between the cage frame 1 and the equipment support 2. During the process, the torsion spring in the mounting frame 27 drives the mounting frame 27 to rotate above the condensate tank, reducing the scraping of the cage frame 1 during the positioning of the transition roller 28. After the transition roller 28 is in place, the torsion spring drives the mounting frame 27 to automatically reset. In this way, during the process of the unloading mechanism unloading the material on the partition to the conveyor belt device, the material that is clamped is supported by the transition roller 28 after leaving the partition, preventing the tank from falling during the transfer, so that the tank can be pushed onto the conveyor belt device more smoothly, reducing the scratches generated on the bottom of the tank and ensuring product quality.

[0043] During the process of unloading the material to the left by the unloading mechanism, the water above the baffle and the tank is pushed to the left side of the cage frame 1 and falls into the condensate collection tank 18. It is then collected through the drain hose 19. In this way, the control mechanism is set at the front end of the cage frame 1 and the spilled condensate is collected. This prevents the condensate from spilling onto the device and causing malfunctions and reducing the life of the device. At the same time, the condensate can be recycled and treated, ensuring the reliability of the device and improving the resource utilization rate.

[0044] When replacing the cage frame 1, the telescopic electric cylinder 22 retracts, first driving the mounting rod b23 to descend on the guide rail 20, and then driving the mounting rod b23 to rotate 90 degrees, causing the condensate collection tank 18 to retract downwards, preventing the condensate collection tank 18 from affecting the positioning of the cage frame 1. During the process, the two ends of the telescopic electric cylinder 22 rotate on the mounting rod a21 and the mounting rod b23 to ensure the normal operation of the device.

[0045] In summary, the device incorporates a baffle mechanism 3, which, while ensuring the restriction function of the baffle, prevents the tank from being squeezed and deformed when the clamping plate fixes the baffle, thus reducing accidental losses during production. The position of the stainless steel baffle 6 can also be adjusted according to different specifications of material cages 1. The stainless steel baffle 6 can be made from stainless steel scrap on-site, improving the device's applicability and reducing production costs. The compensation mechanism 4, during the unloading process where the material on the baffle is unloaded onto the conveyor belt, provides support from the transition rollers 28 after the clamped material leaves the baffle, preventing the tank from falling during transfer and allowing it to be pushed onto the conveyor belt more smoothly, reducing scratches on the tank bottom and ensuring product quality. Simultaneously, it can recover spilled condensate, preventing condensate from splashing onto the device and causing malfunctions or reducing its lifespan. The condensate can also be recycled, ensuring the device's reliability and improving resource utilization.

[0046] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0047] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A new type of unloading cage partition stopper, comprising a cage frame (1), a device support (2), and a device body, the device support (2) is respectively arranged on the left and right sides of the cage frame (1), and the device body is respectively arranged between the cage frame (1) and the support, and the device body is in electrical connection with the control cabinet of the production workshop, characterized in that: The device body also includes a baffle mechanism (3) and a compensation mechanism (4). A baffle mechanism (3) to prevent the partition from moving is provided on the right side of the equipment support (2) on the left side of the cage frame (1). A compensation mechanism (4) to provide transition support for the tank between the cage frame (1) and the equipment support (2) is provided between the cage frame (1) and the equipment support (2). ​ 2. A new type of unloading cage partition barrier according to claim 1, characterized in that: The baffle mechanism (3) further includes a baffle groove (5), a stainless steel baffle (6), an anti-scratch strip (7), and a lifting mechanism. The lifting mechanism is respectively set on the front and rear sides of the right end of the equipment bracket (2) located on the left side of the cage frame (1). The baffle groove (5) is set on the right side of the lifting mechanism. The stainless steel baffle (6) is slidably set above the baffle groove (5). The baffle groove (5) and the stainless steel baffle (6) are magnetically attracted by a magnet. The magnet is respectively embedded on the outside of the baffle groove (5) and the stainless steel baffle (6). The anti-scratch strip (7) made of flexible material is set above the stainless steel baffle (6).

3. A novel cage unloading baffle blocker according to claim 2, characterized in that: The stainless steel baffle is rotatably mounted with a calibration card (8).

4. A novel cage unloading baffle blocker according to claim 2, characterized in that: The bottom of the stainless steel baffle (6) is provided with a toothed rack a (9) and the toothed rack a (9) is embedded in the groove at the bottom of the inner side of the baffle groove (5).

5. A novel cage unloading baffle blocker according to claim 2, characterized in that: The lifting mechanism further includes a slider (10), a rack b (11), a housing (12), a transmission wheel (13), a rotary damper (14), a transmission belt (15), a flexible rack (16), and an adjustment knob (17). The slider (10) is located on the left side of the baffle groove (5) and is slidably connected to the equipment bracket (2). The rack b (11) is located on the left side of the slider (10). The housing (12) is located on the left side of the slider (10). The transmission wheel (13) is rotatably located on the upper and lower sides of the equipment bracket (2) inside the housing (12). The transmission wheel (13) is connected to the equipment through the rotary damper (14). The transmission belt (15) is located on the outside of the transmission wheel (13). The flexible rack (16) is located on the outside of the transmission belt (15) and meshes with the rack b (11).

6. A novel cage unloading baffle blocker according to claim 5, characterized in that: The compensation mechanism (4) further includes a fixed bracket, a condensate collection tank (18), a drain hose (19), and a transition roller (28). The fixed bracket is respectively set on the equipment bracket (2) on both sides of the cage frame (1). The condensate collection tank (18) is set at the end of the fixed bracket located on the left side of the cage frame (1). The drain hose (19) is set on the front side of the condensate collection tank (18). The transition roller (28) is set above the condensate collection tank (18).

7. A novel cage unloading baffle blocker according to claim 6, characterized in that: The fixed bracket also includes a guide rail (20), mounting rod a (21), telescopic electric cylinder (22), mounting rod b (23), connecting rod a (24), fixed platform (25), rubber pad, and connecting rod b (26). The guide rail (20) is respectively set on the front and rear sides of the right side of the equipment bracket (2). The mounting rod a (21) is set between the guide rails (20). The mounting rod b (23) is slidably set on the inner side of the guide rail (20). The telescopic electric cylinder (22) is set between the mounting rod a (21) and the mounting rod b (23), and the two ends of the telescopic electric cylinder (22) are hinged to the mounting rod a (21) and the mounting rod b (23) respectively. The fixed platform (25) is respectively set on the side of the mounting rod b (23). The fixed platforms (25) are connected to each other by the connecting rod b (26). The connecting rod b (26) is connected to the mounting rod b (23) by the connecting rod a (24). The rubber pad is set between the fixed platform (25) and the cage frame (1).

8. A novel cage unloading baffle blocker according to claim 6, characterized in that: The transition roller (28) also includes a mounting frame (27) and a transition roller (28). The mounting frame (27) is rotatably mounted on the front and rear sides of the condensate collection tank (18) by means of a torsion spring. The transition roller (28) with a surface covered by a flexible material is rotatably mounted between the mounting frames (27).