CN220199635U - Gasbag formula compaction device - Google Patents

Abstract

The utility model relates to the technical field of vibration platforms, in particular to an air bag type compaction device. The airbag compaction device includes: the conveying device is suitable for conveying the material bags; a vibration unit disposed below the conveying device and having a first state in which a part of the structure is higher than the upper surface of the conveying device and a second state in which the whole structure is lower than the upper surface of the conveying device; the second steel frame is arranged below the vibration unit and is suitable for supporting the vibration unit; the air bag is arranged between the vibration unit and the second steel frame and is suitable for adjusting the compaction effect of the vibration unit through the change of the internal air pressure. According to the air bag type compaction device provided by the utility model, the vibration unit is arranged below the conveying device, the material bag is compacted through the vibration unit, and the vibration unit is supported through the air bag by the second steel frame, so that the compaction effect of the vibration unit can be changed by adjusting the air pressure in the air bag, the compaction requirements of different material characteristics are further met, and the applicability of the compaction device is improved.

Description

Gasbag formula compaction device

Technical Field

The utility model relates to the technical field of vibration platforms, in particular to an air bag type compaction device.

Background

The compaction device is mainly used for compacting the material bag to increase the density of materials in the material bag, and the existing compaction device adopts a vibrating motor as a vibration source and adopts a rubber pad or a spring as a damping device. However, in the prior art, when the characteristics of particle size, density, weight and the like of materials are changed, the compaction effect is weakened, so that the problem of poor equipment applicability is caused.

Disclosure of Invention

Therefore, the utility model aims to overcome the defects of the prior art that the compaction effect is weakened and the equipment applicability is poor after the material characteristics are changed, thereby providing the air bag type compaction device which can change the compaction effect and enhance the equipment applicability according to the compaction requirements of different material characteristics.

In order to solve the above technical problems, the present utility model provides an air bag type compaction device, comprising:

the conveying device is arranged transversely and is suitable for conveying the material bags;

a vibrating unit arranged below the conveying device, wherein the vibrating unit has a first state that part of the structure is higher than the upper surface of the conveying device and a second state that the whole structure is lower than the upper surface of the conveying device, and the vibrating unit is suitable for vibrating the material packet in the first state;

the second steel frame is arranged below the vibration unit and is suitable for supporting the vibration unit;

the air bag is arranged between the vibration unit and the second steel frame and is suitable for adjusting the compaction effect of the vibration unit through the change of the internal air pressure of the air bag.

Optionally, the vibration unit includes a first steelframe, the gasbag sets up between the first steelframe with the second steelframe, the gasbag respectively in first steelframe lower surface with second steelframe upper surface fixed connection.

Optionally, the vibration unit further includes a cross beam, the cross beam is disposed on an upper surface of the first steel frame, and the vibration unit is in the first state when the air bag is inflated, and at this time, the cross beam is higher than the upper surface of the conveying device; the vibrating unit is in the second state when the air bag is deflated, the cross beam is lower than the upper surface of the conveying device, and the cross beam is suitable for jacking the material bag when the vibrating unit is in the first state.

Optionally, the vibration unit further comprises a vibration motor, the vibration motor being arranged on the first steel frame, the vibration motor being adapted to be turned on when the vibration unit is in the first state to provide a vibration source.

Optionally, the second steel frame is provided with a pressure regulating valve, the pressure regulating valve is communicated with the air bag through an air pipe, and the pressure regulating valve is suitable for regulating the air pressure inside the air bag when the vibration unit is in the first state.

Optionally, the second steel frame is further provided with an electromagnetic valve, the electromagnetic valve is arranged between the pressure regulating valve and the air bag, and the electromagnetic valve is suitable for controlling the air bag to be inflated or deflated.

Optionally, a limiting device is further disposed between the first steel frame and the second steel frame, and the limiting device is adapted to limit displacement of the vibration unit relative to the second steel frame in the transverse direction and the longitudinal direction.

Optionally, the limiting device comprises a first connecting plate and a second connecting plate, wherein the first connecting plate is fixedly connected with the first steel frame, and the second connecting plate is fixedly connected with the second steel frame.

Optionally, the limiting device further comprises a screw passing through the first and second connection plates, the screw being adapted to limit displacement of the first connection plate relative to the second connection plate in a direction perpendicular to the screw axis.

Optionally, a nut is provided on the screw, the nut being adapted to limit the maximum distance of displacement between the first steel frame and the second steel frame by changing its position on the screw.

The technical scheme of the utility model has the following advantages:

1. according to the air bag type compaction device provided by the utility model, the vibration unit is arranged below the conveying device, the material bag on the conveying device is compacted through the vibration unit, and the vibration unit is supported through the air bag by the second steel frame, so that the compaction effect of the vibration unit can be changed by adjusting the air pressure in the air bag, the compaction requirements of different material characteristics are further met, and the applicability of the air bag type compaction device is improved.

2. According to the air bag type compaction device, the second steel frame supports the vibration unit through the air bag, so that noise in the running process is reduced, the pressure inside the air bag is changed through the pressure regulating valve, the compaction effect of the vibration unit is adjusted, the operation is convenient, and labor cost and equipment cost are reduced.

3. According to the airbag type compaction device, the limiting device is arranged between the first steel frame and the second steel frame, so that the relative displacement of the first steel frame relative to the second steel frame in the longitudinal direction and the transverse direction is limited, and the damage to other components in the running process is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of an air bag type tapping device of the present utility model;

FIG. 2 is a side view of the air bag type compaction device of the present utility model;

FIG. 3 is a top view of the air bag type compaction device of the present utility model;

FIG. 4 is a schematic perspective view of an air bag type compaction device according to the present utility model;

FIG. 5 is a schematic view of a compression state of the stop device of the present utility model;

fig. 6 is a schematic view illustrating a lifting state of the limiting device of the present utility model.

Reference numerals illustrate:

1-conveying device, 2-vibrating unit, 21-first steelframe, 22-vibrating motor, 23-crossbeam, 3 stop device, 31-first connecting plate, 32-second connecting plate, 33-screw rod, 34-nut, 35-first spacing ring, 36-second spacing ring, 37-third spacing ring, 38-fourth spacing ring, 4-second steelframe, 5-gasbag, 7-air-regulating valve, 8-solenoid valve, 9-gasket, 10-film, 11-glue stick, 12-cushion.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

As shown in fig. 1 to 6, the air bag type compaction device provided in this embodiment includes:

a conveyor 1 arranged in a transverse direction, said conveyor being adapted to convey a pack;

a vibrating unit 2 disposed below the conveying device 1, the vibrating unit 2 having a first state in which a part of the structure is higher than the upper surface of the conveying device 1 and a second state in which the whole structure is lower than the upper surface of the conveying device 1, the vibrating unit 2 being adapted to tap the material packet in the first state;

a second steel frame 4 disposed below the vibration unit 2, the second steel frame 4 being adapted to support the vibration unit 2;

an air bag 5 is disposed between the vibration unit 2 and the second steel frame 4, and the air bag 5 is adapted to adjust the compaction effect of the vibration unit 2 by a change in the internal air pressure thereof.

The conveying device 1 is arranged transversely, cylindrical rollers are arranged on the upper end face of the conveying device 1, are arranged transversely in parallel and equidistantly, a gap is formed between any two adjacent rollers, and the rollers are suitable for conveying the material bags through rotation of the rollers.

The vibration unit 2 is arranged below the conveying device 1, the size of the part structure of the vibration unit 2 is matched with the size of the gap between two adjacent rollers on the conveying device 1, the vibration unit 2 is in the first state that the part structure is higher than the upper surface of the conveying device 1 and in the second state that the whole structure is lower than the conveying device 1, when the vibration unit 2 is in the first state, the upper end face of the part structure passes through the gap and is higher than the upper surface of the conveying device 1, so that the part structure is used for jacking the material bag to separate the material part from the rollers, and at the moment, the vibration of the vibration unit is transmitted to the material bag through the part structure so as to tap the material in the material bag; when the vibrating unit 2 is in the second state, the entire structure of the vibrating unit 2 is lower than the upper surface of the conveying device 1, at which time the material package is in contact with the rollers, and the conveying device 1 is adapted to convey the material package.

The second steel frame 4 is arranged below the vibration unit 2, the distance between the second steel frame 4 and the conveying device 1 is unchanged, and the second steel frame 4 is suitable for supporting the vibration unit 2 to relatively displace with the upper end face of the conveying device 1 along the longitudinal direction so as to enable the vibration unit 2 to switch between the first state and the second state.

The air bag 5 is arranged between the vibration unit 2 and the second steel frame 4, the second steel frame 4 is suitable for supporting the vibration unit 2 through the air bag 5, and when the air bag 5 is inflated, the vibration unit 2 is in the first state, and the upper end face of the part of the structure passes through the gap and is higher than the upper surface of the conveying device 1; when the balloon 5 is deflated, the vibration unit 2 is in the second state, in which the entire structure of the vibration unit 2 is lower than the upper surface of the conveying device 1. When the vibration unit 2 is in the first state, the compaction effect of the vibration unit 2 can be adjusted by changing the air pressure inside the air bag 5.

The gasbag formula compaction device that this embodiment provided be provided with vibrating unit 2, through vibrating unit 2 compaction material package on the conveyor 1, and through the 4 framves of second steelframe are via gasbag 5 supports vibrating unit 2, thereby can be through the adjustment the inside atmospheric pressure of gasbag 5 changes vibrating unit 2's compaction effect, and then satisfy the compaction demand of different material characteristics, improvement gasbag formula compaction device's suitability.

Specifically, the vibration unit 2 includes a first steel frame 21, the air bag 5 is disposed between the first steel frame 21 and the second steel frame 4, and the air bag 5 is fixedly connected to the lower surface of the first steel frame 21 and the upper surface of the second steel frame 4 respectively.

The vibration unit 2 comprises a first steel frame 21, the first steel frame 21 is connected with a second steel frame 4 through the air bag 5, the lower surface of the first steel frame 21 is fixedly connected with the upper end of the air bag 5, the upper surface of the second steel frame 4 is fixedly connected with the lower end of the air bag 5, and the fixed connection mode comprises bolt connection and bonding. The number of the air bags 5 at least comprises one, and preferably, the number of the air bags 5 is four, and the four air bags are arranged at four corners of the same rectangle. Connecting the first steel frame 21 and the second steel frame 4 by the air bags 5 can reduce noise in the running process of the device.

Specifically, the vibration unit further includes a cross beam 23, the cross beam 23 is disposed on the upper surface of the first steel frame 21, and the vibration unit 2 is in the first state when the air bag 5 is inflated, where the cross beam 23 is higher than the upper surface of the conveying device 1; the vibrating unit 2 is in the second state when the balloon 5 is deflated, the cross beam 23 is now below the upper surface of the conveyor 1, and the cross beam 23 is adapted to lift the bale when the vibrating unit 2 is in the first state.

The vibration unit 2 further comprises cross beams 23, the number of the cross beams 23 is larger than one, the cross beams are arranged at positions, corresponding to gaps between the rollers, on the upper surface of the first steel frame 21, the size of each cross beam 23 is matched with the size of each gap, and a plurality of cross beams 23 are distributed in parallel and equidistantly. The cross beams 23 are fixedly connected with the first steel frame 21, the fixed connection mode comprises welding, bolting and pin connection, and the number of the cross beams 23 can be selected according to the actual needs of the tap material bags. When the airbag 5 is inflated, the vibration unit 2 is in the first state, in which the upper end surface of the cross member 23 is higher than the upper surface of the conveying device 1; when the airbag 5 is deflated, the vibration unit 2 is in the second state, in which the upper end surface of the cross member 23 is lower than the upper surface of the conveyor 1. The upper end face of the cross beam 23 is also provided with a rubber cushion 12, the rubber cushion 12 is fixedly connected with the cross beam 23, and the fixed connection mode comprises bolt connection and bonding. When the vibration unit 2 is in the first state, the cross beam 23 is adapted to lift the material package so as to separate the material package from the roller, and the rubber pad 12 is in contact with the material package.

Specifically, the vibration unit 2 further includes a vibration motor 22, the vibration motor 22 is disposed on the first steel frame 21, and the vibration motor 22 is adapted to be turned on to provide a vibration source when the vibration unit 2 is in the first state.

The vibration unit 2 further comprises a vibration motor 22, the vibration motor 22 is arranged on the first steel frame 21 and can be fixedly connected with the side face of the first steel frame 21 or the lower surface of the first steel frame, the fixed connection mode comprises bolt connection and pin connection, the vibration motor 22 is not contacted with other parts of the air bag type compaction device when the vibration unit 2 is in the first state and the second state, and the vibration motor 22 is suitable for being started in the first state to provide a vibration source when the vibration unit 2 is in the first state.

Specifically, the second steel frame 4 is provided with a pressure regulating valve 7, the pressure regulating valve 7 is communicated with the air bag 5 via an air pipe, and the pressure regulating valve 7 is suitable for regulating the air pressure inside the air bag 5 when the vibration unit 2 is in the first state.

Be provided with on the second steelframe 4 the air-vent valve 7, the air-vent valve 7 with gasbag 5 is through the trachea intercommunication, when gasbag 5 is inflated, vibration unit 2 is in first state with the tap the material package, can at this moment adjust through air-vent valve 7 its inside pressure when gasbag 5 is inflated, the lower the inside atmospheric pressure of gasbag 5, the rigidity of gasbag 5 is less, the stronger the compaction effect of vibration unit 2, the higher the inside atmospheric pressure of gasbag 5, the rigidity of gasbag 5 is greater, the weaker the compaction effect of vibration unit 2. The operator can adjust the compaction effect of the vibration unit 2 through the pressure regulating valve 7 according to the compaction requirements required by different material characteristics.

The gasbag formula compaction device that this embodiment provided, second steelframe 4 passes through gasbag 5 supports vibration unit 2 to reduce the noise of operation in-process, and through pressure regulating valve 7 changes the inside pressure of gasbag 5 and then adjustment vibration unit 2's compaction effect, convenient operation reduces cost of labor and equipment cost.

Specifically, the second steel frame 4 is further provided with an electromagnetic valve 8, the electromagnetic valve 8 is arranged between the pressure regulating valve 7 and the air bag 5, and the electromagnetic valve 8 is suitable for controlling the air bag 5 to be inflated or deflated.

The second steel frame 4 is further provided with the electromagnetic valve 8, the electromagnetic valve 8 is arranged between the pressure regulating valve 7 and the air bag 5, the pressure regulating valve 7 is communicated with the electromagnetic valve 8 through an air pipe, the electromagnetic valve 8 is communicated with the air bag 5 through the air pipe, and the electromagnetic valve 8 is suitable for controlling the air bag 5 to be inflated or deflated. Preferably, the electromagnetic valve 8 communicates with the air bag 5 in a diagonal manner, that is, the electromagnetic valve 8 simultaneously controls the air bag 5 positioned on the diagonal line so as to reduce the swinging tendency of the first steel frame 21 during the rising or falling process. As an additional implementation form, each air bag 5 is individually controlled by one electromagnetic valve 8, and the electromagnetic valves 8 are controlled simultaneously to enable a plurality of air bags 5 to be inflated or deflated simultaneously, so that the stability of the first steel frame 21 during the lifting or descending process is ensured.

Specifically, a limiting device 3 is further disposed between the first steel frame 21 and the second steel frame 4, and the limiting device 3 is adapted to limit the displacement of the vibration unit 2 relative to the second steel frame 4 in the lateral direction and the longitudinal direction.

The limiting device 3 is further disposed between the first steel frame 21 and the second steel frame 4, and preferably, the number of the limiting devices 3 includes at least one. As a possible implementation, the number of limiting devices 3 is four and distributed over the four corners of the rectangle. The limiting device 3 is suitable for limiting the relative displacement of the first steel frame 21 and the second steel frame 4 in the transverse direction; and limiting the maximum spacing between the first steel frame 21 and the second steel frame 4 when the vibration unit 2 is in the first state, and limiting the minimum spacing between the first steel frame and the second steel frame 4 when the vibration unit 2 is in the second state, so as to avoid damaging other components of the air bag type tapping device.

Specifically, the limiting device 3 includes a first connecting plate 31 and a second connecting plate 32, the first connecting plate 31 is fixedly connected with the first steel frame 21, and the second connecting plate 32 is fixedly connected with the second steel frame 4.

The limiting device 3 comprises a first connecting plate 31 and a second connecting plate 32, the first connecting plate 31 is fixedly connected with the lower surface of the first steel frame 21, and the second connecting plate 32 is fixedly connected with the upper surface of the second steel frame 4.

Specifically, the limiting device 3 further includes a screw 33, the screw 33 passes through the first connection plate 31 and the second connection plate 32, and the screw 33 is adapted to limit displacement of the first connection plate 31 relative to the second connection plate 32 in a direction perpendicular to an axis of the screw 33.

A first through hole is provided on the first connecting plate 31, a second through hole is provided on the second connecting plate 32, a projection of the first through hole in a longitudinal direction coincides with the second through hole, the first through hole and the second through hole are suitable for the screw 33 to pass through, and the relative displacement of the first steel frame 21 and the second steel frame 4 in a transverse direction is limited by matching the first through hole and the second through hole with the screw 33. A first limiting ring 35 is fixedly connected to one side of the first connecting plate 31 far away from the second connecting plate 32, a third limiting ring 37 is fixedly connected to one side of the first connecting plate 31 near the second connecting plate 32, the projection of the first limiting ring 35 along the longitudinal direction coincides with the third limiting ring 37, and the first limiting ring 35 and the second limiting ring 36 are coaxially arranged outside the screw 33; the second limiting ring 36 is fixedly connected to one side of the second connecting plate 32 far away from the first connecting plate, a fourth limiting ring 38 is arranged on one side of the second connecting plate 32 close to the first connecting plate 31, the projection of the fourth limiting ring 38 and the projection of the second limiting ring 36 in the longitudinal direction coincide, and the second limiting ring 36 and the fourth limiting ring 38 are coaxially arranged on the outer side of the screw 33.

The first limiting ring 35 and the second limiting ring 36 are both coaxially provided with a metal gasket 9 and a film 10, the two films 10 are respectively contacted with the upper surface of the first connecting plate 31 and the lower surface of the second connecting plate 32, the two metal gaskets 9 are respectively arranged on one side of the film 10 away from the first connecting plate 31 and the second connecting plate 32, through holes are formed in the centers of the metal gaskets 9 and the films 10, and the through holes are matched with the screw 33 in size so as to be suitable for the screw 33 to pass through.

The glue stick 11 is arranged inside the fourth limiting ring 38, the outer diameter of the glue stick 11 is matched with the inner diameter of the fourth limiting ring 38, a through hole is formed in the center of the glue stick 11, the through hole is matched with the screw 33, the screw 33 is suitable for penetrating through the glue stick 11 through the through hole, and the axis of the glue stick 11 coincides with the axis of the screw 33. When the limiting device 3 is in a compressed state, the rubber rod 11 extends into the third limiting ring 37, the outer diameter of the rubber rod 11 is matched with the inner diameter of the third limiting ring 37, the upper end surface of the rubber rod 11 is abutted against the lower surface of the first connecting plate 31, the lower end surface of the rubber rod 11 is abutted against the upper surface of the second connecting plate 32, and the rubber rod 11 is suitable for limiting the minimum distance between the first steel frame 21 and the second steel frame 4 after the air bag 5 is deflated when the vibration unit 2 is in the second state, so that the air bag 5 is prevented from being damaged by extrusion.

Specifically, the screw 33 is provided with a nut 34, and the nut 34 is adapted to limit the maximum distance between the displacements of the first steel frame 21 and the second steel frame 4 by changing the position thereof on the screw 33.

A nut 34 is disposed at one end of the screw 33 far away from the screw head, as a possible implementation manner, the screw head is disposed at one side of the first connecting plate 31 far away from the second connecting plate 32, the nut 34 is disposed at one side of the second connecting plate 32 far away from the first connecting plate 31, and when the vibration unit 2 is in the first state, the position of the nut 34 on the screw 33 is adjusted, so that the maximum distance between the first steel frame 21 and the second steel frame 4 is limited, thereby preventing the first steel frame 21 from colliding with the conveying device 1.

According to the airbag type compaction device provided by the embodiment, the limiting device 3 is arranged between the first steel frame 21 and the second steel frame 4, so that the relative displacement of the first steel frame 21 relative to the second steel frame 4 in the longitudinal direction and the transverse direction is limited, and the damage to other components in the running process is reduced.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. An air bag type compaction device, comprising:

a conveying device (1) arranged transversely, said conveying device being adapted to convey a material package;

a vibrating unit (2) arranged below the conveying device (1), wherein the vibrating unit (2) has a first state that part of the structure is higher than the upper surface of the conveying device (1) and a second state that the whole structure is lower than the upper surface of the conveying device (1), and the vibrating unit (2) is suitable for vibrating the material bag in the first state;

the second steel frame (4) is arranged below the vibration unit (2), and the second steel frame (4) is suitable for supporting the vibration unit (2);

and the air bag (5) is arranged between the vibration unit (2) and the second steel frame (4), and the air bag (5) is suitable for adjusting the compaction effect of the vibration unit (2) through the change of the internal air pressure of the air bag.

2. The airbag-type compaction device according to claim 1, wherein the vibration unit (2) comprises a first steel frame (21), the airbag (5) is arranged between the first steel frame (21) and the second steel frame (4), and the airbag (5) is fixedly connected with the lower surface of the first steel frame (21) and the upper surface of the second steel frame (4) respectively.

3. The airbag compaction device according to claim 2, characterized in that the vibration unit further comprises a cross beam (23), the cross beam (23) is arranged on the upper surface of the first steel frame (21), the vibration unit (2) is in the first state when the airbag (5) is inflated, and the cross beam (23) is higher than the upper surface of the conveying device (1); the vibrating unit (2) is in the second state when the air bag (5) is deflated, the cross beam (23) is lower than the upper surface of the conveying device (1), and the cross beam (23) is suitable for lifting the material bag when the vibrating unit (2) is in the first state.

4. A balloon compaction device according to claim 3, wherein the vibration unit (2) further comprises a vibration motor (22), the vibration motor (22) being arranged on the first steel frame (21), the vibration motor (22) being adapted to be turned on when the vibration unit (2) is in the first state to provide a vibration source.

5. The airbag tapping device according to claim 4, characterized in that the second steel frame (4) is provided with a pressure regulating valve (7), the pressure regulating valve (7) is in communication with the airbag (5) via an air pipe, the pressure regulating valve (7) is adapted to regulate the air pressure inside the airbag (5) when the vibration unit (2) is in the first state.

6. The airbag compaction device according to claim 5, characterized in that the second steel frame (4) is further provided with a solenoid valve (8), the solenoid valve (8) being arranged between the pressure regulating valve (7) and the airbag (5), the solenoid valve (8) being adapted to control the inflation or deflation of the airbag (5).

7. The airbag tapping device according to claim 6, characterized in that a limiting device (3) is further arranged between the first steel frame (21) and the second steel frame (4), the limiting device (3) being adapted to limit the displacement of the vibrating unit (2) in the transverse and longitudinal direction relative to the second steel frame (4).

8. The airbag compaction device according to claim 7, wherein the limiting device (3) comprises a first connecting plate (31) and a second connecting plate (32), the first connecting plate (31) is fixedly connected with the first steel frame (21), and the second connecting plate (32) is fixedly connected with the second steel frame (4).

9. The balloon compaction device according to claim 8, wherein the limiting device (3) further comprises a screw (33), the screw (33) passing through the first connection plate (31) and the second connection plate (32), the screw (33) being adapted to limit the displacement of the first connection plate (31) relative to the second connection plate (32) in a direction perpendicular to the axis of the screw (33).

10. The balloon compaction device according to claim 9, characterized in that a nut (34) is provided on the screw (33), the nut (34) being adapted to limit the maximum distance of displacement between the first steel frame (21) and the second steel frame (4) by changing its position on the screw (33).