A disc-type bottle unscrambler for aerosol cans

By introducing a limiting rod and hinged seat structure into the disc-type aerosol can unscrambler, the problem of aerosol cans tipping over during the feeding process is solved, achieving stable support and orderly conveying of aerosol cans and improving feeding efficiency.

CN224449251UActive Publication Date: 2026-07-03ZHUHAI JULI BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHUHAI JULI BIOTECHNOLOGY CO LTD
Filing Date
2025-09-04
Publication Date
2026-07-03

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Abstract

This utility model discloses a disc-type aerosol can unscrambler, relating to the field of aerosol can processing technology. It includes a frame, a linear conveyor, a feeding platform, a limiting rod, and a hinged seat. The frame is equipped with a disc-type unscrambler for arranging aerosol cans in an orderly manner. The feeding platform is mounted on the frame and supports the aerosol cans; the feeding platform corresponds to the inlet of the disc-type unscrambler. A limiting rod and a hinged seat are included; the hinged seat is rotatably connected to the frame, and one end of the limiting rod is hinged to the hinged seat, ensuring that the limiting rod abuts against the portion of the aerosol cans on the feeding platform away from the pushing side, thus preventing the latter from tipping over. The limiting rod in this disc-type aerosol can unscrambler maintains contact with the portion of the aerosol cans away from the pushing side during the can-pushing process, preventing tipping and reducing the tediousness of manual can loading for workers.
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Description

Technical Field

[0001] This utility model relates to the field of aerosol can processing technology, and in particular to an aerosol can disc-type bottle unscrambler. Background Technology

[0002] A disc-type aerosol can unscrambler is a piece of equipment used for the automated production of aerosol cans. Its core component is a disc, which, through rotation and a special track design, arranges and transports disordered piles of aerosol cans to the next processing equipment. In existing technology, the unscrambler is often manually loaded. Workers first move the pile of aerosol cans to the unscrambler's feeding platform, then push the pile of cans on the platform, gradually moving them onto the disc to complete the loading process. Because aerosol cans are long and slender, their center of gravity is relatively high. Therefore, during the worker's pushing process, cans further away from the pushing side are prone to tipping over due to lack of support. This forces workers to frequently stop pushing to right the tipped-over cans, increasing the tediousness of the unloading process. Utility Model Content

[0003] This invention aims to solve at least one of the technical problems existing in the prior art. To this end, this invention proposes a disc-type aerosol can unscrambler, which can prevent aerosol cans from tipping over during the pushing process, thus reducing the tediousness of loading aerosol cans for workers.

[0004] According to an embodiment of the present invention, an aerosol can disc-type bottle unscrambler includes a frame, a linear conveyor, a feeding platform, a limiting rod, and a hinged seat.

[0005] The frame is equipped with a disc bottle unscrambler for arranging aerosol cans in an orderly manner. A linear conveyor is mounted on the frame, with its starting end corresponding to the outlet of the disc bottle unscrambler, allowing the aerosol cans on the disc bottle unscrambler to be moved onto the linear conveyor. The linear conveyor is used to transport the aerosol cans. A feeding platform is mounted on the frame to hold the aerosol cans, and its feeding platform corresponds to the inlet of the disc bottle unscrambler, allowing the aerosol cans to be moved onto the linear conveyor. The aerosol cans on the feeding platform can be pushed into the disc bottle unscrambler; the hinge seat is rotatably connected to the frame, one end of the limiting rod is hinged to the hinge seat, the limiting rod can rotate horizontally through the hinge seat, the limiting rod can rotate to the inlet of the disc bottle unscrambler, so that the limiting rod can keep against the portion of the aerosol cans on the feeding platform away from the pushing side, and prevent the portion of the aerosol cans away from the pushing side from tipping over, the limiting rod can swing upward, so that the limiting rod moves away from the disc bottle unscrambler.

[0006] It has at least the following beneficial effects:

[0007] When aerosol cans need to be loaded, the worker first moves the pile of aerosol cans onto the feeding platform, ensuring the platform can hold a sufficient number of cans. At this point, the limit rod is in its initial state, either hanging naturally or positioned away from the inlet of the disc bottle unloader, meaning it won't interfere with the placement of the aerosol cans. Next, the worker adjusts the limit rod to its working position. Since one end of the limit rod is hinged to a hinge seat, and the hinge seat is rotatably connected to the frame, the worker holds the end of the limit rod away from the hinge seat and first lifts the limit rod upwards, causing it to swing upwards around the hinge point at a certain angle to prevent collisions with the aerosol cans on the feeding platform during horizontal rotation. Then, the worker swings the limit rod, allowing it to rotate horizontally on the frame via the hinge seat until it reaches the inlet of the disc bottle unloader. Afterwards, the worker lowers the limit rod, causing it to swing downwards around the hinge point until it abuts against the portion of the aerosol cans on the feeding platform away from the pushing side, thus providing support for these cans and preventing them from tipping over during the pushing process. Then the worker begins pushing the aerosol cans on the feeding platform. With one hand, the worker applies a pushing force to the pile of aerosol cans, while with the other hand, they hold the limit rod at the end furthest from the hinge, keeping the limit rod in contact with the portion of the aerosol cans furthest from the pushing side. Under the pushing force, the pile of aerosol cans moves onto the disc of the disc bottle unloader, completing the aerosol can loading process.

[0008] During the can-pushing process, the worker holding the limiting rod can fine-tune its angle and position according to the movement of the aerosol can, ensuring continuous stable support for the aerosol cans away from the pushing side and preventing them from tipping over. After the aerosol can is pushed onto the disc bottle unscrambler, the disc unscrambler moves and arranges the aerosol cans on it in an orderly manner, allowing them to move to the beginning of the linear conveyor, which then transports them to the next processing equipment. To prevent the limiting rod from interfering with the moving aerosol cans on the disc unscrambler, the worker needs to adjust the position of the limiting rod in a timely manner, so that the limiting rod rotates back to its initial state, i.e., away from the disc unscrambler. The limiting rod in this disc-type aerosol can unscrambler always maintains contact with the aerosol cans away from the pushing side during the can-pushing process, preventing these cans from tipping over, eliminating the need for frequent can straightening, reducing the tediousness of can loading for workers, and improving the efficiency of can loading.

[0009] The aerosol can disc-type bottle unscrambler according to an embodiment of the present invention further includes a first handle, which is rotatably connected to the other end of the limiting rod.

[0010] According to the aerosol can disc-type bottle unscrambler of this utility model embodiment, the limiting rod is provided with a rubber strip, and the limiting rod abuts against the aerosol can through the rubber strip.

[0011] According to the embodiment of the aerosol can disc-type bottle unscrambler of the present utility model, the length of the limiting rod is greater than the width of the inlet of the disc bottle unscrambler.

[0012] According to an embodiment of the present invention, the disc-type bottle unscrambler for aerosol cans further includes a sliding plate, which is disposed in the feeding platform. A push plate is provided on one end of the sliding plate facing the inlet of the disc bottle unscrambler. The sliding plate can slide within the feeding platform so that the push plate can push the aerosol cans toward the inlet of the disc bottle unscrambler.

[0013] According to an embodiment of the present invention, the disc-type bottle unscrambler for aerosol cans has a second handle on the slide plate.

[0014] According to the aerosol can disc-type bottle unscrambler of this utility model embodiment, the height of the push plate is greater than one-half the height of the aerosol can.

[0015] According to an embodiment of the present invention, an aerosol can disc-type bottle unscrambler includes a disc, a first guide plate, and a second guide plate. A receiving groove is provided on the frame for receiving aerosol cans. The inner wall of the receiving groove has a notch corresponding to the feeding platform. The disc is disposed within the receiving groove and is rotatably connected to the inner bottom wall of the receiving groove. The disc supports the aerosol cans and drives them to rotate around the axis of the disc. The upper surface of the disc is flush with the upper surface of the feeding platform. The first guide plate is disposed on the frame. On the frame, a first guide plate, the upper surface of the disc, and the inner wall of the receiving groove enclose a first track. The first track is used for the movement of the aerosol can so that after the aerosol can passes through the first track, it can remain abutted against the inner wall of the receiving groove. A second guide plate is disposed on the frame. The second guide plate, the upper surface of the disc, and the inner wall of the receiving groove enclose a second track. The second track is used for the aerosol can that is abutting against the inner wall of the receiving groove to enter so that after the aerosol can passes through the second track, it can move onto the linear conveying device.

[0016] According to the aerosol can disc-type bottle unscrambler of this utility model embodiment, the first guide plate can move radially along the disc so that the distance between the first guide plate and the inner sidewall of the receiving groove is adjustable.

[0017] According to the aerosol can disc-type bottle unscrambler of this utility model embodiment, the second guide plate can move radially along the disc so that the distance between the second guide plate and the inner sidewall of the receiving groove is adjustable.

[0018] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments, wherein:

[0020] Figure 1 This is a structural diagram of an aerosol can;

[0021] Figure 2 This is a schematic diagram of an aerosol can disc-type bottle unscrambler in the can-pushing process;

[0022] Figure 3 yes Figure 2 A magnified view of a section at point A in the middle;

[0023] Figure 4 yes Figure 2 A magnified view of a section at point B in the middle;

[0024] Figure 5 This is a schematic diagram of an aerosol can disc-type bottle unscrambler during the bottle unscrambling process;

[0025] Figure 6 This is a partial structural diagram of an aerosol can disc-type bottle unscrambler;

[0026] Icon labels:

[0027] Frame 100; receiving slot 110; notch 111; feeding table 120; hinge seat 130; limit rod 140; first handle part 141; slide plate 150; second handle part 151; push plate 160;

[0028] Disc-shaped bottle unscrambler 200; first guide plate 210; second guide plate 220; disc 230;

[0029] Linear conveyor device 300. Detailed Implementation

[0030] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0031] In the description of this utility model, the use of "first" and "second" is only for the purpose of distinguishing technical features and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features or the order of the technical features.

[0032] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.

[0033] refer to Figures 1 to 3 and Figure 5 This utility model discloses an aerosol can disc-type bottle unscrambler, including a frame 100, a linear conveyor 300, a feeding platform 120, a limiting rod 140, and a hinge seat 130.

[0034] The frame 100 is equipped with a disc bottle unscrambler 200, which is used to arrange aerosol cans in an orderly manner. A linear conveyor 300 is mounted on the frame 100, with its starting end corresponding to the outlet of the disc bottle unscrambler 200, so that the aerosol cans on the disc bottle unscrambler 200 can be moved onto the linear conveyor 300. The linear conveyor 300 is used to transport the aerosol cans. A feeding platform 120 is mounted on the frame 100, which is used to hold the aerosol cans. The feeding platform 120 is corresponding to the inlet of the disc bottle unscrambler 200, so that the feeding platform can be arranged in an orderly manner. The aerosol cans on the platform 120 can be pushed into the disc bottle unloader 200; the hinge seat 130 is rotatably connected to the frame 100, and one end of the limiting rod 140 is hinged to the hinge seat 130. The limiting rod 140 can rotate horizontally through the hinge seat 130 and can rotate to the inlet of the disc bottle unloader 200 so that the limiting rod 140 can keep against the portion of the aerosol cans on the feeding platform 120 that is away from the pushing side, and prevent the portion of the aerosol cans away from the pushing side from tipping over. The limiting rod 140 can swing upward so that the limiting rod 140 moves away from the disc bottle unloader 200.

[0035] In this embodiment of the utility model, the linear conveyor 300 can be a common belt conveyor or a crawler conveyor, which will not be described further here.

[0036] Understandably, when aerosol cans need to be loaded, workers first move the pile of aerosol cans onto the feeding platform 120, ensuring the platform can hold a sufficient number of cans. At this time, the limiting rod 140 is in its initial state, either hanging naturally or positioned away from the inlet of the disc bottle unloader 200, meaning it will not interfere with the placement of the aerosol cans. Next, the worker adjusts the limiting rod 140 to its working position. Since one end of the limiting rod 140 is hinged to the hinge seat 130, and the hinge seat 130 is rotatably connected to the frame 100, the worker holds the end of the limiting rod 140 away from the hinge seat 130 and lifts it upwards, causing it to swing upwards at a certain angle around the hinge point, preventing the limiting rod 140 from colliding with the aerosol cans on the feeding platform 120 during horizontal rotation. The limiting rod 140 is then swung, allowing it to rotate horizontally on the frame 100 via the hinge seat 130 until it reaches the inlet of the disc bottle unloader 200. The worker then lowers the limiting rod 140, causing it to swing downwards around the hinge point until it abuts against the portion of the aerosol cans on the feeding platform 120 away from the pushing side, thus providing support for these cans and preventing them from tipping over during the feeding process. The worker then begins pushing the aerosol cans on the feeding platform 120. With one hand, the worker applies a pushing force to the pile of aerosol cans, while with the other hand, they hold the other end of the limiting rod 140 away from the hinge seat 130, keeping the limiting rod 140 abutting against the portion of the aerosol cans away from the pushing side. Under the pushing force, the pile of aerosol cans moves onto the disc 230 of the disc bottle unloader 200, completing the aerosol can loading process.

[0037] During the can-pushing process, the worker holding the limiting rod 140 can fine-tune its angle and position according to the movement of the aerosol can, ensuring it continuously provides stable support for the aerosol can moving away from the pushing side and preventing it from tipping over. After the aerosol can is pushed onto the disc bottle unloader 200, the disc bottle unloader 200 can move and arrange the aerosol cans on it in an orderly manner, allowing the aerosol cans to move to the beginning of the linear conveyor 300, which can then transport the aerosol cans to the next processing equipment. To prevent the limiting rod 140 from interfering with the moving aerosol cans on the disc bottle unloader 200, the worker needs to adjust the position of the limiting rod 140 in a timely manner, so that the limiting rod 140 rotates back to its initial state, i.e., away from the disc bottle unloader 200. The limiting rod 140 in this disc-type aerosol can unscrambler can always keep in contact with the aerosol cans that are far away from the pushing side during the pushing process, thus preventing these aerosol cans from tipping over. This eliminates the need for frequent uprighting of the aerosol cans, reduces the tediousness of feeding aerosol cans by workers, and improves the efficiency of feeding aerosol cans.

[0038] In this embodiment of the invention, the length of the limiting rod 140 is greater than the width of the inlet of the disc bottle unloader 200, allowing the limiting rod 140 to completely cover the aerosol cans at the inlet, providing more adequate support for the aerosol cans away from the pushing side. Simultaneously, it can accommodate aerosol cans of different stacking widths, ensuring that tipping of the aerosol cans is effectively limited during the pushing process.

[0039] refer to Figure 5 The aerosol can disc-type bottle unscrambler also includes a first handle 141, which is rotatably connected to the other end of the limiting rod 140. Understandably, the other end of the limiting rod 140 is provided with the first handle 141 for the worker to grip. The first handle 141 provides a dedicated force application point for the worker to grip the limiting rod 140, avoiding slippage or hand discomfort that may occur when directly gripping the other end of the limiting rod 140, thus improving grip stability. The rotatable connection of the first handle 141 to the other end of the limiting rod 140 allows the first handle 141 to rotate flexibly with hand movements, reducing relative friction and torsional force between the hand and the first handle 141, further enhancing the worker's grip comfort.

[0040] In one embodiment of this utility model, the limiting rod 140 is provided with an adhesive strip, which abuts against the aerosol can. It is understood that, due to the elasticity and flexibility of the adhesive strip, the abutment between the limiting rod 140 and the aerosol can avoids direct rigid contact, reducing scratches or impacts to the surface of the aerosol can. Simultaneously, the adhesive strip increases the friction between the limiting rod and the aerosol can, making the support of the limiting rod 140 for the aerosol can more stable, further reducing the risk of the aerosol can tipping over.

[0041] refer to Figure 2 and Figure 6The aerosol can disc-type bottle unscrambler also includes a slide plate 150, which is located inside the feeding platform 120. A push plate 160 is provided on the end of the slide plate 150 facing the inlet of the disc bottle unscrambler 200. The slide plate 150 can slide within the feeding platform 120, allowing the push plate 160 to push the aerosol can closer to the inlet of the disc bottle unscrambler 200. A second handle 151 is provided on the slide plate 150. Understandably, the worker can hold the second handle 151 with one hand to push the slide plate 150, using the sliding of the slide plate 150 to drive the push plate 160 to smoothly push the aerosol can. Simultaneously, the other hand can hold the limiting rod 140 to control its position. This allows for effortless and even application of force to the aerosol can through the push plate 160, while the limiting rod 140 keeps the aerosol can stable and away from the pushing side, preventing the aerosol can from tipping over due to uneven force, making the pushing operation more coordinated and efficient. In this embodiment of the utility model, the height of the push plate 160 is greater than half the height of the aerosol can. When a worker pushes the push plate 160 with one hand, the contact area between the push plate 160 and the aerosol can is larger, so that the push plate 160 can act on the upper middle part of the aerosol can, further improving the stability of the pushing process and effectively preventing the aerosol can from tipping over.

[0042] refer to Figure 5 and Figure 6 The disc bottle unscrambler 200 includes a disc 230, a first guide plate 210, and a second guide plate 220. A receiving groove 110 is provided on the frame 100 to receive aerosol cans. The inner wall of the receiving groove 110 has a notch 111 corresponding to the feeding platform 120. The disc 230 is disposed within the receiving groove 110 and rotatably connected to the inner bottom wall of the receiving groove 110. The disc 230 supports the aerosol cans and drives them to rotate around the axis of the disc 230. The upper surface of the disc 230 is flush with the upper surface of the feeding platform 120. The first guide plate 210 is provided on... On the frame 100, a first track is formed by the upper surface of the first guide plate 210, the disc 230, and the inner wall of the receiving groove 110. The first track is used for the movement of aerosol cans so that after passing through the first track, the aerosol cans can remain abutted against the inner wall of the receiving groove 110. A second guide plate 220 is provided on the frame 100. The upper surface of the second guide plate 220, the disc 230, and the inner wall of the receiving groove 110 form a second track. The second track is used for the aerosol cans that are abutted against the inner wall of the receiving groove 110 to enter, so that after passing through the second track, the aerosol cans can move onto the linear conveyor 300. It should be explained that the notch 111 on the inner wall of the receiving groove 110 is the inlet of the disc bottle unscrambler 200, and the beginning of the second track is the outlet of the disc bottle unscrambler 200.

[0043] Understandably, when the aerosol cans on the feeding platform 120 are pushed into the inlet of the disc bottle unscrambler 200, they fall onto the disc 230 within the receiving groove 110. Since the upper surface of the disc 230 is flush with the upper surface of the feeding platform 120, the aerosol cans can smoothly transition onto the disc 230. As the disc 230 rotates around its own axis, it supports and drives the aerosol cans that have fallen onto it to rotate along with it. During the rotation of the disc 230, the aerosol cans enter the first track enclosed by the first guide plate 210, the upper surface of the disc 230, and the inner wall of the receiving groove 110. Under the constraint and guidance of the first track, the originally disordered aerosol cans gradually adjust their posture and move along the track. Finally, after passing through the first track, the aerosol cans will remain in contact with the inner wall of the receiving groove 110, achieving initial ordering. The aerosol cans, abutting against the inner wall of the receiving tank 110, continue to rotate with the disc 230 and enter the second track enclosed by the second guide plate 220, the upper surface of the disc 230, and the inner wall of the receiving tank 110. Further guided by the second track, the aerosol cans maintain their abutting posture against the inner wall and move along the track. Finally, after passing through the second track, they smoothly move to the linear conveyor 300 corresponding to the discharge port of the disc bottle unscrambler 200, allowing the linear conveyor 300 to transport the aerosol cans to the next processing equipment, completing the entire bottle unscrambler process. The disc bottle unscrambler 200 is a common disc 230 type bottle unscrambler, and its unscrambler principle will not be further elaborated here. The disc bottle unscrambler 200 also includes a motor connected to the frame 100, with its output end connected to the disc 230. The motor drives the disc 230 to rotate. It should be explained that the motor can drive the disc 230 to rotate slowly to prevent the aerosol cans on the disc 230 from tipping over.

[0044] refer to Figure 2 , Figure 4 and Figure 5The first guide plate 210 can move radially along the disc 230, making the distance between the first guide plate 210 and the inner wall of the receiving groove 110 adjustable. The second guide plate 220 can also move radially along the disc 230, making the distance between the second guide plate 220 and the inner wall of the receiving groove 110 adjustable. It is understood that the first guide plate 210 and the second guide plate 220 can move radially along the disc 230 to flexibly adjust the distance between the first guide plate 210, the second guide plate 220 and the inner wall of the receiving groove 110. This allows the width of the first and second tracks to be adapted to aerosol cans of different diameters, expanding the applicability of the disc bottle unscrambler 200. It eliminates the need to replace guide plates due to changes in aerosol can specifications, improving the versatility and ease of use of the disc-type aerosol can unscrambler. In this embodiment of the invention, both the first guide plate 210 and the second guide plate 220 are slidably connected to the frame 100 via a connection method using oblong holes and bolts. The disc bottle unscrambler 200 also includes a first bolt and a second bolt. The frame 100 is provided with a first oblong hole and a second oblong hole, both parallel to the radial direction of the disc 230. The first bolt and the second bolt pass through the first oblong hole and the second oblong hole, respectively, and are threadedly connected to the first guide plate 210 and the second guide plate 220, respectively. When it is necessary to adjust the position of the first guide plate 210 and the second guide plate 220, the first bolt and the second bolt are loosened; after the position adjustment of the first guide plate 210 and the second guide plate 220 is completed, the first bolt and the second bolt are tightened. The oblong hole bolt connection method is a common position-adjustable connection method, and will not be further described here.

[0045] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0046] Of course, this utility model is not limited to the above-described embodiments. Those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of this utility model. All such equivalent modifications or substitutions are included within the scope defined by the claims of this application.

Claims

1. A disc-type aerosol can unscrambler, characterized in that, include: The frame (100) is equipped with a disc bottle sorting device (200), which is used to arrange the aerosol cans in an orderly manner; A linear conveyor (300) is provided on the frame (100). The starting end of the linear conveyor (300) is correspondingly set with the discharge port of the disc bottle unscrambler (200) so that the aerosol cans on the disc bottle unscrambler (200) can be moved to the linear conveyor (300). The linear conveyor (300) is used to convey the aerosol cans. A feeding platform (120) is provided on the frame (100). The feeding platform (120) is used to carry aerosol cans. The feeding platform (120) is correspondingly provided with the inlet of the disc bottle unscrambler (200) so that the aerosol cans on the feeding platform (120) can be pushed into the disc bottle unscrambler (200). A limiting rod (140) and a hinge seat (130) are provided. The hinge seat (130) is rotatably connected to the frame (100). One end of the limiting rod (140) is hinged to the hinge seat (130). The limiting rod (140) can rotate horizontally through the hinge seat (130). The limiting rod (140) can rotate to the inlet of the disc bottle unloader (200) so that the limiting rod (140) can keep against the portion of the aerosol cans away from the pushing side on the feeding platform (120) and prevent the portion of the aerosol cans away from the pushing side from tipping over. The limiting rod (140) can swing upward so that the limiting rod (140) moves away from the disc bottle unloader (200).

2. The aerosol can disc-type bottle unscrambler according to claim 1, characterized in that: It also includes a first handle (141), which is rotatably connected to the other end of the limiting rod (140).

3. The aerosol can disc-type bottle unscrambler according to claim 1, characterized in that: The limiting rod (140) is provided with an adhesive strip, and the limiting rod (140) abuts against the aerosol can through the adhesive strip.

4. The aerosol can disc-type bottle unscrambler according to claim 1, characterized in that: The length of the limiting rod (140) is greater than the width of the inlet of the disc bottle unscrambler (200).

5. The aerosol can disc-type bottle unscrambler according to claim 1, characterized in that: It also includes a slide plate (150), which is disposed inside the feeding platform (120). A push plate (160) is provided on one end of the slide plate (150) facing the inlet of the disc bottle unloader (200). The slide plate (150) can slide inside the feeding platform (120) so that the push plate (160) can push the aerosol can closer to the inlet of the disc bottle unloader (200).

6. The aerosol can disc-type bottle unscrambler according to claim 5, characterized in that: The skateboard (150) is provided with a second handle (151).

7. The aerosol can disc-type bottle unscrambler according to claim 5, characterized in that: The height of the push plate (160) is greater than half the height of the aerosol can.

8. The aerosol can disc-type bottle unscrambler according to claim 1, characterized in that: The disc bottle unscrambler (200) includes a disc (230), a first guide plate (210), and a second guide plate (220). The frame (100) has a receiving groove (110) for receiving aerosol cans. The inner wall of the receiving groove (110) has a notch (111) corresponding to the feeding platform (120). The disc (230) is located within the receiving groove (110) and is rotatably connected to the inner bottom wall of the receiving groove (110). The disc (230) supports the aerosol cans and drives them to rotate around the axis of the disc (230). The upper surface of the disc (230) is flush with the upper surface of the feeding platform (120). The first guide plate (210)... 0) A first track is formed by the first guide plate (210), the upper surface of the disk (230) and the inner wall of the receiving groove (110) on the frame (100). The first track is used for the movement of the aerosol can so that the aerosol can can abut against the inner wall of the receiving groove (110) after passing through the first track. A second guide plate (220) is formed by the second guide plate (220), the upper surface of the disk (230) and the inner wall of the receiving groove (110) on the frame (100). The second track is used for the aerosol can that abuts against the inner wall of the receiving groove (110) to enter so that the aerosol can can move to the linear conveying device (300) after passing through the second track.

9. The aerosol can disc-type bottle unscrambler according to claim 8, characterized in that: The first guide plate (210) is capable of moving radially along the disk (230) so that the distance between the first guide plate (210) and the inner wall of the receiving groove (110) is adjustable.

10. The aerosol can disc-type bottle unscrambler according to claim 8, characterized in that: The second guide plate (220) is capable of moving radially along the disk (230) so that the distance between the second guide plate (220) and the inner wall of the receiving groove (110) is adjustable.