Cigarette packet anti-slip device

By installing an anti-slip device on the tobacco bale on the inclined slicer, and utilizing components such as the track unit, guide plate, and connecting rod unit, the problem of tobacco bale slippage is solved, enabling continuous operation and production stability of the slicer, and improving the quality and efficiency of tobacco processing.

CN224330334UActive Publication Date: 2026-06-09CHINA TOBACCO JIANGSU INDAL

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA TOBACCO JIANGSU INDAL
Filing Date
2025-06-25
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing tilting slicing machines are prone to slippage or packing issues during tobacco processing due to the rounded bottom of the tobacco packs, causing the slicing machine to be unable to work continuously and affecting production quality and efficiency.

Method used

An anti-slip device for tobacco packs was designed, including a track unit, a guide plate, a connecting rod unit, a piston unit, and a lower push plate. The piston rod drives the sliding crossbar and the bottom platform to slide, thereby supporting and pulling the tobacco pack, preventing slippage, and ensuring the continuous operation of the slicer.

Benefits of technology

It effectively prevents the tobacco pack from slipping, ensures the continuous production of the tilting slicer, avoids flow interruption, and improves process quality and efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of tobacco processing technology and discloses a tobacco pack anti-slip device applied to an inclined slicer. A sliding crossbar slides along a slide rail on a track frame, assembling the linkage unit and the track unit. A bottom platform slides along a guide path on a guide plate, assembling the linkage unit and the guide plate. To ensure continuous operation of the inclined slicer and prevent slippage and flow interruption, the piston rod extends and retracts, causing the sliding crossbar to slide along the slide rail. The bottom platform deforms the parallelogram structure of the linkage assembly along the guide path, driving the lower push plate to move. This provides support for a tobacco pack that is slipping behind the rear push plate on the conveyor belt. Simultaneously, because the anti-slip device is mounted on the moving frame and interlocked with the rear push plate via a top clamp, the lower push plate can provide a certain upward pulling force to the tobacco pack, solving the slippage problem on the conveyor belt of the inclined slicer and ensuring production continuity.
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Description

Technical Field

[0001] This utility model relates to the field of tobacco processing technology, and in particular to an anti-slip device for cigarette packs. Background Technology

[0002] Currently, the tobacco manufacturing industry commonly uses inclined slicing machines for tobacco processing. Inclined slicing machines are the main equipment in the slicing and rehydration process, capable of uniformly cutting prepared tobacco bales into tobacco blocks for subsequent processing.

[0003] Because the existing inclined slicer has a certain uphill angle in its two-section conveyor belt, and the bottom of some incoming tobacco packages is rounded, it is very easy for slippage or packages to stick together, causing the slicer to be unable to work continuously, resulting in production interruption, which seriously affects the product process quality and efficiency of this process. Utility Model Content

[0004] The purpose of this invention is to provide a tobacco pack anti-slip device, which can effectively solve the problem of tobacco pack slippage and ensure the continuous operation of the tilting slicer.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] A tobacco pack anti-slip device, wherein the tobacco pack anti-slip device is applied to an inclined slicer, and the tobacco pack anti-slip device comprises:

[0007] The track unit includes a top sleeve and a track frame. The top sleeve is connected to the moving frame of the inclined slicer. The top sleeve is fixed to the top of the track frame. The track frame is provided with a slide rail extending along the tobacco pack conveying direction.

[0008] A guide plate, which is fixed to one side of the track frame, has a guide path.

[0009] A linkage unit includes a linkage assembly, which includes a sliding crossbar, a bottom platform, and two parallel links. The two ends of the parallel links are rotatably connected to the sliding crossbar and the bottom platform, respectively. The two parallel links are located at the two ends of the sliding crossbar along the extension direction of the slide rail. The linkage assembly forms a parallelogram connection. The sliding crossbar is slidably disposed on the slide rail, and the bottom platform is slidably disposed on the guide path.

[0010] A piston unit is fixed on the track frame. The piston unit includes a piston rod connected to the sliding crossbar. The extension and retraction of the piston rod can drive the sliding crossbar to slide back and forth along the slide rail, and the bottom platform slides back and forth along the guide path.

[0011] The lower push plate is connected to the bottom platform and is used to selectively abut against the tobacco packs on the conveyor belt of the inclined slicer.

[0012] As an optional technical solution for the anti-slip device of the cigarette pack, the top sleeve is detachably connected to the motion frame of the inclined slicer.

[0013] As an optional technical solution for the anti-slip device of cigarette packs, the track frame includes a front baffle and a rear baffle, the front baffle and the rear baffle respectively block both ends of the slide rail, and the piston unit is connected to the front baffle.

[0014] As an optional technical solution for the anti-slip device of cigarette packs, the track frame includes a symmetrically arranged left track and a right track, and the left track and the right track are respectively provided with the corresponding slide rails; the linkage unit also includes a middle support rod, the linkage assembly is provided in two sets, the two bottom platforms are integrally set, the linkage assembly is corresponding to the slide rails one by one, and the two ends of the middle support rod are respectively connected to the two sliding crossbars.

[0015] As an optional technical solution for the anti-slip device of cigarette pack, the piston unit also includes a connecting rod block, which is connected to the piston rod. The connecting rod block has an installation hole, and the intermediate support rod passes through the installation hole and is connected to the connecting rod block.

[0016] As an optional technical solution for the anti-slip device of the cigarette pack, the linkage unit also includes an auxiliary support rod, the two ends of which are respectively connected to the two sliding crossbars, and the auxiliary support rod is arranged parallel to the intermediate support rod.

[0017] As an optional technical solution for the anti-slip device of the cigarette pack, the parallel connecting rod is connected to the bottom platform through a bearing. The connecting rod unit also includes a limiting member, which protrudes from the outside of the rotating shaft of the bearing and slides along the guide path.

[0018] As an optional technical solution for the anti-slip device of cigarette packs, the guide path includes a parallel section and a sinking section. The parallel section is arranged parallel to the slide rail and is connected to the sinking section. The parallel section and the sinking section have a preset angle between them.

[0019] As an optional technical solution for the anti-slip device of cigarette packs, the guide path is set in an L-shape, and the preset included angle between the parallel section and the sinking section is greater than or equal to 90°.

[0020] As an optional technical solution for the anti-slip device for cigarette packs, the anti-slip device for cigarette packs also includes a detection unit. The detection unit is used to detect whether there are cigarette packs behind the push plate of the inclined slicer. The detection unit is communicatively connected to the piston unit.

[0021] The beneficial effects of this utility model are:

[0022] The anti-slip device for cigarette packs provided by this utility model includes a track unit, a guide plate, a connecting rod unit, a piston unit, and a lower push plate. The anti-slip device is applied to an inclined slicer. The track unit includes a top sleeve and a track frame. The top sleeve is fixed to the top of the track frame, and the anti-slip device is connected and fixed to the moving frame of the inclined slicer through the top sleeve. The rear push plate of the inclined vertical slicer is also installed on the moving frame, and the anti-slip device operates interlocked with the rear push plate. The track frame is equipped with a slide rail extending along the direction of cigarette pack conveying; the guide plate is fixed to one side of the track frame, and the guide plate has a guide path; the linkage unit includes a linkage assembly, which includes a sliding crossbar, a bottom platform, and two parallel connecting rods. The two ends of the parallel connecting rods are rotatably connected to the sliding crossbar and the bottom platform, respectively. The two parallel connecting rods are located at the two ends of the sliding crossbar along the extension direction of the slide rail. The linkage assembly forms a parallelogram connection. The sliding crossbar is slidably set on the slide rail to complete the assembly connection between the linkage unit and the track unit; the bottom platform is slidably set on the guide path to complete the assembly connection between the linkage unit and the guide plate.

[0023] The piston unit is fixed to the track frame and includes a piston rod connected to a sliding crossbar. The extension and retraction of the piston rod drives the sliding crossbar to slide reciprocally along the slide rail, and the bottom platform slides reciprocally along the guide path, causing deformation of the parallelogram structure of the connecting rod assembly. The lower push plate is connected to the bottom platform and selectively abuts against cigarette packs on the conveyor belt of the inclined slicer. To ensure continuous operation of the inclined slicer and prevent flow interruption due to slippage, the piston unit's extension and retraction, guided by a specific curve on the guide path, drives the lower push plate to perform translational and descent movements. This supports a cigarette pack slipping behind the rear push plate on the conveyor belt. Simultaneously, because the anti-slip device for the cigarette pack and the rear push plate are both mounted on the moving frame and interlocked, the lower push plate provides a certain upward pulling force to the cigarette pack, thus resolving the slippage problem on the conveyor belt of the inclined slicer, ensuring continuous production, preventing flow interruption, and avoiding reduced process quality. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the working position of the limiting component of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model, located in the parallel section.

[0025] Figure 2 This is a schematic diagram of the working position of the limiting component of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model, located in the sinking section.

[0026] Figure 3 This is a schematic diagram of the connecting rod unit, bearing, and bearing seat of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model;

[0027] Figure 4 This is a schematic diagram of the top sleeve of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model;

[0028] Figure 5 This is a schematic diagram of the structure of the guide plate of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model;

[0029] Figure 6 This is a schematic diagram of the connecting rod block of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model;

[0030] Figure 7 This is a schematic diagram of the lower push plate of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model;

[0031] Figure 8 This is a schematic diagram of the anti-slip device for cigarette packs provided in a specific embodiment of this utility model on an inclined vertical slicer.

[0032] In the picture:

[0033] 100. Track unit; 110. Top clamping sleeve; 120. Track frame; 1201. Slide rail; 121. Front baffle; 122. Rear baffle; 123. Left track; 124. Right track;

[0034] 200. Guide plate; 201. Guide path; 2011. Parallel section; 2012. Sinking section;

[0035] 300. Linkage unit; 310. Sliding crossbar; 320. Bottom platform; 330. Parallel link; 340. Intermediate support rod; 350. Auxiliary support rod; 360. Limiting component;

[0036] 400 Piston unit; 410 Piston rod; 420 Connecting rod block; 421 Mounting hole;

[0037] 500, Lower push plate; 600, Bearing housing; 700, Bearing;

[0038] 10. Motion frame; 20. Rear push plate; 30. Conveyor belt; 40. Cutter; 50. Anti-slip device for cigarette packs; 60. Cigarette pack. Detailed Implementation

[0039] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, the accompanying drawings show only the parts relevant to the present invention, not the entire structure.

[0040] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "connected," "linked," and "fixed" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0041] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0042] In the description of this embodiment, the terms "upper," "lower," "right," and "left," etc., refer to the orientation or positional relationship shown in the accompanying drawings. They are used only for ease of description and simplification of operation, 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. In addition, the terms "first" and "second" are only used for distinction in description and have no special meaning.

[0043] like Figures 1 to 8 As shown, this utility model discloses a cigarette pack anti-slip device 50, including a track unit 100, a guide plate 200, a connecting rod unit 300, a piston unit 400, and a lower push plate 500. The cigarette pack anti-slip device 50 is applied to an inclined slicer. The track unit 100 includes a top retainer 110 and a track frame 120. The top retainer 110 is fixed to the top of the track frame 120. The cigarette pack anti-slip device 50 is connected and fixed to the motion frame 10 of the inclined slicer through the top retainer 110. The rear push plate 20 of the inclined vertical slicer is also installed on the motion frame 10. The cigarette pack anti-slip device 50 and the rear push plate 20 operate in an interlocked manner.

[0044] In this embodiment, the top retaining sleeve 110 is detachably connected to the motion frame 10 of the inclined slicer. When assembling the anti-slip device 50 for the tobacco pack, the top retaining sleeve 110 can be left unfixed initially and fixed after the overall structure is assembled. If the anti-slip device 50 malfunctions during operation, the top retaining sleeve 110 can be removed, and the entire anti-slip device 50 can be taken off the inclined slicer for inspection and maintenance.

[0045] Specifically, the track frame 120 is provided with a slide rail 1201 extending along the conveying direction of the cigarette pack 60; the guide plate 200 is fixed to one side of the track frame 120, and the guide plate 200 has a guide path 201; the linkage unit 300 includes a linkage assembly, which includes a sliding crossbar 310, a bottom platform 320 and two parallel connecting rods 330. The two ends of the parallel connecting rods 330 are rotatably connected to the sliding crossbar 310 and the bottom platform 320, respectively. The two parallel connecting rods 330 are located at the two ends of the sliding crossbar 310 along the extension direction of the slide rail 1201. The linkage assembly forms a parallelogram connection. The sliding crossbar 310 is slidably disposed on the slide rail 1201 to complete the assembly connection between the linkage unit 300 and the track unit 100; the bottom platform 320 is slidably disposed on the guide path 201 to complete the assembly connection between the linkage unit 300 and the guide plate 200.

[0046] Understandably, the piston unit 400 is fixed on the track frame 120. The piston unit 400 includes a piston rod 410, which is connected to the sliding crossbar 310. The extension and retraction of the piston rod 410 can drive the sliding crossbar 310 to slide back and forth along the slide rail 1201, and the bottom platform 320 to slide back and forth along the guide path 201, causing the parallelogram structure of the connecting rod assembly to deform. The lower push plate 500 is connected to the bottom platform 320. The lower push plate 500 is used to selectively abut against the tobacco pack 60 on the conveyor belt 30 of the inclined slicer. The extension and retraction of the piston rod 410 drives the connecting rod unit 300 to move, thereby driving the lower push plate 500 to move. The connecting rod unit 300 is the main component for the movement of the tobacco pack anti-slip device 50. It is used to connect the track unit 100 and the lower push plate 500, and can complete the translation and descent of the lower push plate 500 under the action of the guide plate 200.

[0047] Because the conveyor belt 30 has a certain uphill angle, in order to ensure that the cutter 40 can slice stably, the rear push plate 20 abuts against the first cigarette pack 60 that is about to be sliced. This can prevent the cigarette pack 60 from shifting or slipping due to the force between the cutter 40 and the cigarette pack 60. In order to meet the continuous operation of the inclined slicer and avoid flow interruption due to slippage, under the extension and retraction of the piston unit 400, the lower push plate 500 can be driven to complete the translation and descent through the specific curve of the guide path 201 on the guide plate 200. This provides support for a cigarette pack 60 that is slipping behind the rear push plate 20 on the conveyor belt 30. At the same time, because the anti-slip device 50 and the rear push plate 20 are both installed on the moving frame 10 and operate in an interlocked manner, the lower push plate 500 can provide a certain upward pulling force to the cigarette pack 60, thereby solving the problem of cigarette pack 60 slipping on the conveyor belt 30 of the inclined slicer, ensuring the production continuity of the inclined slicer, preventing flow interruption of the inclined slicer, and avoiding a reduction in process quality.

[0048] Specifically, the guide path 201 is divided into a parallel section 2011 and a sinking section 2012. The parallel section 2011 is set parallel to the slide rail 1201. The bottom platform 320 can slide in the parallel section 2011 to change the relative position of the lower push plate 500 and the cigarette pack 60 located behind the rear push plate 20 in the conveying direction. The parallel section 2011 is connected to the sinking section 2012. The parallel section 2011 and the sinking section 2012 have a preset angle, which can make the bottom platform 320 slide along the sinking section 2012 while driving the lower push plate 500 to descend and increasing the contact area with the corresponding cigarette pack 60, so as to stably push the cigarette pack 60.

[0049] Furthermore, the guide path 201 is set in an L-shape, with a preset angle between the parallel section 2011 and the sinking section 2012 greater than or equal to 90°. This setting can effectively shorten the space occupied by the guide path 201 on the guide plate 200 and improve the efficiency and simplicity of the movement of the lower push plate 500.

[0050] In this embodiment, the anti-slip device 50 for the cigarette pack has two states of motion. When the piston rod 410 extends, the lower push plate 500 also reaches its lowest position, providing a pulling force to the slipping cigarette pack 60. When the piston rod 410 retracts, the lower push plate 500 also retracts and no longer contacts the cigarette pack 60. For example, the piston unit 400 can be a power cylinder.

[0051] Optionally, the anti-slip device 50 for the tobacco pack also includes a detection unit. This detection unit detects whether a tobacco pack 60 exists behind the rear push plate 20 of the inclined slicer. The detection unit is communicatively connected to the piston unit 400. After the remaining components of the anti-slip device 50 are fully assembled, the top clamp 110 is used to install the anti-slip device 50 onto the inclined slicer. Next, the power cylinder should be ventilated and adjusted. By opening and closing the solenoid valve, the piston rod 410 of the power cylinder extends and retracts, driving the connecting rod unit 300 to move, thereby driving the lower push plate 500 to move, providing a certain pulling force to the slipping tobacco pack 60.

[0052] like Figure 1 , Figure 2 and Figure 8 As shown, the anti-slip device 50 for the tobacco packs is fixedly mounted on the motion frame 10 of the inclined slicer. During production, the rear push plate 20 of the inclined slicer pushes the preceding tobacco pack 60 forward, and another tobacco pack 60 follows behind the rear push plate 20 to ensure the continuity of slicing. When the first tobacco pack 60 is being pushed forward by the rear push plate 20, the next tobacco pack 60 should also be positioned behind the rear push plate 20. At this time, a detection unit, such as a photocell, can detect the presence of the next tobacco pack 60. The solenoid valve of the power cylinder connected to the anti-slip device 50 then activates, the power cylinder is vented, the piston rod 410 extends, and the connecting rod unit 300 and the lower push plate 500 move to their final and lowest positions, which are precisely behind the next tobacco pack 60. When the cigarette pack 60 slips, a certain tension is applied to the cigarette pack 60 in the running direction of the conveyor belt 30, thereby resolving the slippage fault of the cigarette pack 60 on the inclined slicer. When the next cigarette pack 60 moves to the position of the previous cigarette pack 60, the solenoid valve of the power cylinder connected to the cigarette pack anti-slip device 50 closes, the power cylinder exhausts, the piston rod 410 retracts, the lower push plate 500 moves back to the upper position, and the rear push plate 20 moves backward as a whole. At this time, the next cigarette pack 60 takes on the working state and position of the previous cigarette pack 60. This realizes the reciprocating feeding and slicing of the inclined slicer. The cigarette pack anti-slip device 50 can be installed and assembled as a whole, which is convenient for maintenance and disassembly.

[0053] Specifically, the track frame 120 includes a front baffle 121 and a rear baffle 122, which respectively block both ends of the slide rail 1201 to prevent the sliding crossbar 310 from disengaging from the slide rail 1201. The piston unit 400 is connected to the front baffle 121. The track frame 120 also includes a symmetrically arranged left track 123 and a right track 124, each with a corresponding slide rail 1201. The left track 123, right track 124, front baffle 121, and rear baffle 122 are assembled together by bolts and screws to form the track frame 120 for mounting the connecting rod unit 300.

[0054] Furthermore, the linkage unit 300 also includes an intermediate support rod 340. Two sets of linkage assemblies are provided, with two bottom platforms 320 integrally formed. The linkage assemblies correspond one-to-one with the slide rails 1201. The sliding crossbars 310 are slidably mounted within the slide rails 1201 via bearings 700. The two ends of the intermediate support rod 340 are respectively connected to the two sliding crossbars 310, allowing the linkage unit 300 to be integrally formed. The piston unit 400 also includes a connecting rod block 420, which is connected to the piston rod 410. The connecting rod block 420 has a mounting hole 421, through which the intermediate support rod 340 passes and connects to the connecting rod block 420. Through the assembly structure of one connecting rod block 420 and the intermediate support rod 340, the piston unit 400 can directly control two sets of linkage assemblies. The linkage unit 300 with two sets of linkage assemblies has a more stable motion structure and a significantly extended service life.

[0055] In this embodiment, the linkage unit 300 further includes an auxiliary support rod 350, the two ends of which are respectively connected to two sliding crossbars 310. The auxiliary support rod 350 is arranged parallel to the intermediate support rod 340, which further improves the overall structural stability of the linkage unit 300.

[0056] For example, bearing seats 600 are respectively provided at the four corners of the bottom platform 320, and four parallel connecting rods 330 are supplied to the bearing seats 600 on the bottom platform 320 through bearings 700, corresponding to the two sets of connecting rod assemblies. The connecting rod unit 300 also includes a limiting member 360, which protrudes from the outside of the rotating shaft of one of the bearings 700 in the set of connecting rod assemblies. The limiting member 360 is slidably placed on the guide path 201, and at the rotational connection between the parallel connecting rod 330 and the bottom platform 320, the sliding action with the guide path 201 is handled simultaneously, which can effectively reduce the movement resistance of the connecting rod unit 300 relative to the guide plate 200 and improve the smoothness of the movement of the cigarette pack anti-slip device 50.

[0057] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating the present utility model, and are not intended to limit the implementation of the present utility model. Those skilled in the art can make various obvious changes, readjustments, and substitutions without departing from the protection scope of this utility model. It is neither necessary nor possible to exhaustively describe all embodiments here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of the claims of this utility model.

Claims

1. An anti-slip device for cigarette packs, characterized in that, The anti-slip device for the tobacco pack is applied to an inclined slicer, and the anti-slip device for the tobacco pack includes: The track unit (100) includes a top sleeve (110) and a track frame (120). The top sleeve (110) is connected to the motion frame (10) of the inclined slicer. The top sleeve (110) is fixed to the top of the track frame (120). The track frame (120) is provided with a slide rail (1201) extending along the conveying direction of the tobacco pack (60). A guide plate (200) is fixed to one side of the track frame (120), and the guide plate (200) has a guide path (201). A linkage unit (300) includes a linkage assembly, which includes a sliding crossbar (310), a bottom platform (320), and two parallel links (330). The two ends of the parallel links (330) are rotatably connected to the sliding crossbar (310) and the bottom platform (320), respectively. The two parallel links (330) are located at the two ends of the sliding crossbar (310) along the extension direction of the slide rail (1201). The linkage assembly forms a parallelogram connection. The sliding crossbar (310) is slidably disposed on the slide rail (1201), and the bottom platform (320) is slidably disposed on the guide path (201). A piston unit (400) is fixed on the track frame (120). The piston unit (400) includes a piston rod (410) connected to the sliding crossbar (310). The extension and retraction of the piston rod (410) can drive the sliding crossbar (310) to slide back and forth along the slide rail (1201), and the bottom platform (320) slides back and forth along the guide path (201). A lower push plate (500) is connected to the bottom platform (320) and is used to selectively abut against the tobacco packs (60) on the conveyor belt (30) of the inclined slicer.

2. The anti-slip device for cigarette packs according to claim 1, characterized in that, The top ferrule (110) is detachably connected to the motion frame (10) of the tilting slicer.

3. The anti-slip device for cigarette packs according to claim 1, characterized in that, The track frame (120) includes a front baffle (121) and a rear baffle (122), the front baffle (121) and the rear baffle (122) respectively blocking both ends of the slide rail (1201), and the piston unit (400) is connected to the front baffle (121).

4. The anti-slip device for cigarette packs according to claim 1, characterized in that, The track frame (120) includes a symmetrically arranged left track (123) and right track (124), and the left track (123) and the right track (124) are respectively provided with opposite slide rails (1201); the linkage unit (300) also includes a middle support rod (340), the linkage assembly is provided in two sets, the two bottom platforms (320) are integrally set, the linkage assembly is corresponding to the slide rail (1201) one by one, and the two ends of the middle support rod (340) are respectively connected to the two sliding crossbars (310).

5. The anti-slip device for cigarette packs according to claim 4, characterized in that, The piston unit (400) further includes a connecting rod block (420), which is connected to the piston rod (410). The connecting rod block (420) has a mounting hole (421), and the intermediate support rod (340) passes through the mounting hole (421) and is connected to the connecting rod block (420).

6. The anti-slip device for cigarette packs according to claim 4, characterized in that, The linkage unit (300) further includes an auxiliary support rod (350), the two ends of which are respectively connected to the two sliding crossbars (310), and the auxiliary support rod (350) is arranged parallel to the intermediate support rod (340).

7. The anti-slip device for cigarette packs according to claim 1, characterized in that, The parallel link (330) is connected to the bottom platform (320) via a bearing (700). The link unit (300) also includes a limiting member (360), which protrudes from the outside of the rotating shaft of the bearing (700) and slides on the guide path (201).

8. The anti-slip device for cigarette packs according to claim 1, characterized in that, The guide path (201) includes a parallel section (2011) and a sunken section (2012). The parallel section (2011) is arranged parallel to the slide rail (1201). The parallel section (2011) and the sunken section (2012) are connected. The parallel section (2011) and the sunken section (2012) have a preset angle between them.

9. The anti-slip device for cigarette packs according to claim 8, characterized in that, The guide path (201) is set in an L-shape, and the preset angle between the parallel segment (2011) and the sunken segment (2012) is greater than or equal to 90°.

10. The anti-slip device for cigarette packs according to any one of claims 1-9, characterized in that, The anti-slip device for the cigarette pack also includes a detection unit, which is used to detect whether there is a cigarette pack (60) behind the rear push plate (20) of the inclined slicer. The detection unit is communicatively connected to the piston unit (400).