CN218286951U - Air bag embosser - Google Patents

Abstract

The utility model relates to an air pocket embosser, it includes supporting platform, install in the inside driving piece of supporting platform, be located a plurality of removal subassemblies of supporting platform top, and install in the mould that removes the subassembly below, drive assembly is installed to driving piece one end, drive assembly includes the curved wheel of being connected with the driving piece, the one end is connected the curved wheel and is had the transmission arm of inferior swing arm, the cam is installed to the end of inferior swing arm, connect the synchronizing shaft of relative cam, crossbeam with synchronizing shaft connection, and a plurality of bracing pieces that one end and crossbeam fixed connection and the other end are connected with the removal subassembly, it includes first removal frame to remove the subassembly, the second removes the frame, the third removes the frame, the mould is including being fixed in the last mould that removes the subassembly below, both ends and supporting platform fixed connection's bed die, the bed die is corresponding with last mould, the driving piece passes through the first removal frame of bracing piece drive, the second removes the frame, the third removes the frame and removes the synchronous vertical repetitive movement, the work efficiency of this device has been improved.

Description

Air bag embosser

Technical Field

Relate to a packing technical field, especially relate to an air pocket embosser.

Background

Along with the rapid development of domestic and foreign commercial industries and the freight flow express delivery industry, the filling of the inflatable bag in the goods can effectively prevent the goods from moving in the transportation, support the weight generated by the shaking of the goods, absorb the vibration and protect the goods from being damaged in the transportation, the inflatable bag in the mainstream at present is formed by overlapping a plurality of thin films and is pressed down by a heating template, so that the inflatable bag body is divided into a plurality of inflatable small unit bodies, one bag body is divided into a plurality of inflatable small units, and the isolation and the sealing are realized through hot pressed lines with shapes and grains between each small unit.

According to Chinese patent CN207432893U, an inflatable bag making machine is disclosed, the device drives a sealing cylinder to enable a sealing plate to move up and down to achieve the purpose of adhering a film air bag, but the working plane of the sealing plate and the sealing plate of the device is smaller and cannot meet the production of larger air bags, and secondly, the device is limited in production quantity and power because a single sealing plate is pressed downwards to form the air bag, so that the device is lower in efficiency and cannot meet more air bag requirements, and secondly, a die of the device is a complete die, but the die of the device is complex to manufacture and single in shape and cannot be changed according to requirements.

Therefore, it is necessary to develop an air bag embosser to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an air pocket embosser simple structure, efficient.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an air pocket embosser, its include supporting platform, install in supporting platform inside driving piece, be located a plurality of removal subassemblies of supporting platform top and install in remove the mould of subassembly below, drive assembly is installed to driving piece one end, drive assembly include with curved wheel, one end that the driving piece is connected curved wheel and have the drive arm of secondary swing arm cam, the connection is relative the synchronizing shaft of cam, with synchronizing shaft connected crossbeam and one end with crossbeam fixed connection and the other end with a plurality of bracing pieces that the removal subassembly is connected, it includes that first removal frame, second remove the frame, third removal frame to remove the subassembly, the mould is including being fixed in last mould, both ends and supporting platform fixed connection's bed die, the bed die with it is corresponding to go up the mould, the driving piece passes through the bracing piece drive first removal frame the second remove the frame the third removes the frame and removes the synchronous perpendicular removal of frame.

Further, one end of the synchronizing shaft close to the cam is provided with an eccentric plate, the outer end of the eccentric plate is connected with the cross beam, and the cross beam extends from one end of the supporting platform to the other end of the supporting platform.

Furthermore, the support rod penetrates through the tail end of the first moving frame and is provided with an elastic piece, and the bottom end of the elastic piece abuts against the first moving frame.

Furthermore, a plurality of guide pieces are installed at two ends of the lower die, the bottom end of each guide piece is fixed with the lower die, and the other end of each guide piece vertically extends upwards and is fixedly connected with the moving assembly.

Furthermore, a spring is arranged on the outer surface of the guide piece, one end of the spring abuts against the lower die, and the other end of the spring abuts against the moving assembly.

Furthermore, a material pulling device is further installed on one side of the moving assembly, the material pulling device comprises a first material pulling assembly, the first material pulling assembly comprises a pair of vertical plates fixedly connected with the supporting platform, a pair of rubber rollers located between the vertical plates, and an air cylinder pushing piece located at the top end of the vertical plates, the rubber rollers comprise fixed rubber rollers and movable rubber rollers located above the fixed rubber rollers, sliding blocks are arranged at two ends of the movable rubber rollers, and the sliding blocks are supported by the air cylinder pushing piece.

Further, the moving assembly comprises a first moving assembly, a second moving assembly and a third moving assembly, and the first moving assembly, the second moving assembly and the third moving assembly are fixed above the lower dies through the guide pieces.

Furthermore, the material pulling device further comprises a second material pulling assembly, the structure of the second material pulling assembly is the same as that of the first material pulling assembly, and the second material pulling assembly is located between the second moving assembly and the third moving assembly.

The utility model relates to an air pocket embosser has simple structure, efficient characteristics, through first removal subassembly, the second removes the subassembly, the third removes the synchronous of subassembly and pushes down and make the film bonding make the air pocket, because this device is three impressed watermark subassembly simultaneous movement, cost when having saved the drive, efficiency when having improved production, secondly the three impressed watermark subassembly of this device is different moulds, different, the three impressed watermark mould of adjustable change can adopt the distance between adjustment mould and the mould according to the demand, modes such as change mould, produce the air pocket of more kinds of types in order to satisfy the demand.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural view of an air bag embosser of the present invention;

FIG. 2 is a side view of the air bag embosser of FIG. 1;

FIG. 3 is a schematic view of the driving member of the air bag embosser of FIG. 1;

FIG. 4 is an enlarged view of a portion of the air bag embosser shown in FIG. 1;

FIG. 5 is a block diagram of a first moving assembly of the air bag embosser of FIG. 1;

FIG. 6 is a block diagram of a third moving assembly of the air bag embosser of FIG. 1;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention relates to an air bag embosser, which comprises a supporting platform 1, a driving member 2 installed inside the supporting platform 1, a pulling device 3 located at the top end of the supporting platform 1, a moving device 4 located at one side of the pulling assembly 3, and a mold 5 connected to the moving device 4.

Referring to fig. 1 to 2, the supporting platform 1 is a pair of rectangular bodies and is formed by opposing, the pair of supporting platforms 1 is fixedly connected through a plurality of supporting columns 11, the plurality of supporting columns 11 are respectively located at the bottom of the supporting platform 1 and the top of the supporting platform 1, a receiving plate 12 is fixedly installed on the supporting column 11 located at the top of the supporting platform 1, the length of the receiving plate 12 is equal to that of the supporting platform 1, and two ends of the receiving plate are fixed on the upper surfaces of the supporting columns 11.

Referring to fig. 1 to 3, the driving member 2 includes a first motor 21 and a second motor 22 having a driving shaft 221, the first motor 21 is a motor, a bottom end of the first motor is fixed on a surface of the supporting column 11 at a bottom of the supporting platform 1 by bolts or screws, one end of the first motor 21 close to the supporting platform 1 is provided with a crank wheel 23, the crank wheel 23 is a cylinder, a driving arm 24 is installed at an edge of the crank wheel, a cam 25 is provided above the driving arm 24, the ten cams 25 are oppositely arranged and distributed at an inner side of the supporting platform 1, a secondary moving arm 26 is installed at an outer side of the cam 25 above the driving arm 24, a bottom end of the secondary moving arm 26 is connected with a tail end of the driving arm 24, a synchronizing shaft 27 is installed at an inner side of the cam 25, the opposite cam 25 is connected by the synchronizing shaft 27, one end of the synchronizing shaft 27 close to the cam 25 is provided with an eccentric plate 271, one end of the eccentric plate 271 is connected with a cross beam 28, the cross beam 28 is a rectangular plate body and extends from one end of the supporting platform 1 to the other end, the second motor 22 is a motor, one end of the motor is fixed at an inner side of the supporting platform 1, and the driving shaft 221 passes through the supporting platform 1 and is connected with the belt 3.

Referring to fig. 1 to 4, the material pulling device 3 includes a first material pulling assembly 31 and a second material pulling assembly 32, the first material pulling assembly 31 includes a pair of vertical plates 33 fixedly connected to the supporting platform 1, a pair of rubber rollers 34 located between the vertical plates 33, and an air cylinder pushing member 35 located at the top end of the vertical plate 33, the bottom end of the vertical plate 33 is fixed to the top end of the supporting platform 1, the pair of vertical plates 33 are arranged opposite to each other, the pair of rubber rollers 34 includes a fixed rubber roller 341 and a movable rubber roller 342 located above the fixed rubber roller 341, two ends of the fixed rubber roller 341 are fixed to the bottom of the vertical plate 33, two ends of the movable rubber roller 342 are fixed to the top end of the vertical plate 33, the shape and size of the fixed rubber roller 341 are the same as those of the movable rubber roller 342, two ends of the movable rubber roller 342 have sliding blocks, the air cylinder pushing member 35 is installed at the upper ends of the sliding blocks, the air cylinder pushing member 35 pushes the sliding blocks to move downwards through a pushing rod, and the second material pulling assembly 32 has the same structure as the first material pulling assembly 31.

Referring to fig. 5 to 6, the moving device 4 includes a first moving assembly 41 located at one side of the first drawing assembly 31, a second moving assembly 42 located at one side of the first moving assembly 41, and a third moving assembly 43 located at one side of the second moving assembly 42, a first lower mold 411 is installed below the first moving assembly 41, the first moving assembly 41 includes a plurality of first guiding members 412 located at two ends of the first lower mold 411, the first lower mold 411 is a rectangular plane, two ends of the first lower mold are vertically and fixedly connected with the supporting platform 1, the number of the first guiding members 412 is four-bar, a first moving frame 413 is installed at a top end of the first guiding member 412, the first moving frame 413 is a rectangular frame, four angular positions of the first moving frame 413 are fixed at a top end of the first guiding member 412, a spring 414 is installed at an outer side of the first guiding member 412, a bottom end of the spring 414 abuts against an upper surface of the first lower mold 411, the top end of the first moving frame 413 is abutted against the first moving frame 413, a pair of first connecting rods 415 and a plurality of first fixing plates 416 are arranged inside the first moving frame 413, two ends of the first fixing plates 416 are fixedly connected with two sides of the first moving frame 413, the first fixing plates 416 are distributed at intervals, the first connecting rods 415 penetrate through the first fixing plates 416, two ends of the first connecting rods 415 are fixed on the inner sides of two ends of the first moving frame 413, a mold 5 is arranged below the first fixing plates 416, a heating device 417 is arranged at the top end of the first moving frame 413, a heating pipeline (not shown) is arranged on one side of the heating device 417 and communicated with the mold 5, a supporting rod 418 is arranged on the inner side of the first guiding rod 412, the bottom end of the supporting rod 418 penetrates through a first lower mold 411 to be connected with the cross beam 28 in a clamping manner, the other end of the supporting rod 418 penetrates through the first moving frame 413, and the tail end of the supporting rod is provided with an elastic piece.

The structure of the second moving assembly 42 is the same as that of the first moving assembly 41, and the detailed structure thereof is as described above, specifically, the width of the second lower mold 421 below the second moving assembly 42 is greater than that of the first lower mold 411.

Referring to fig. 5 to 6, a third lower mold 431 is installed below the third moving assembly 43, the third moving assembly 43 includes second guide members 432 located at two ends of the third lower mold 431, the size of the third lower mold 431 is equal to that of the first lower mold 411, two ends of the third lower mold 431 are fixed to the top end of the supporting platform 1, a second moving frame 433 is installed at the top end of the second guide members 432, the second moving frame 433 is a rectangular frame, the bottom end of the second guide members 432 is fixedly connected to the third embossing plane 431, a spring 414 is installed on the outer surface of the second guide members 432, a screw 434 is installed inside the second moving frame 433, a second fixing member 435 is installed on the surface of the screw 434, the second fixing member 435 is a rectangular block and is fixedly sleeved on the surface of the screw 434, a mold 5 is installed below the second fixing member 435, and further, the second pulling member 32 is located between the second moving assembly 42 and the third moving assembly 43.

Referring to fig. 5 to 6, the mold 5 includes a first upper mold 51 fixed below the first moving assembly 41, a second upper mold 51 fixed below the second moving assembly 42, and a first upper mold 53 fixed below the third moving assembly 43, the first upper mold 51 is located above and corresponds to the first lower mold 411, the second upper mold 52 is located above and corresponds to the second lower mold 421, and the third upper mold 53 is located above and corresponds to the third lower mold 431, further, the plurality of upper molds are male molds, the plurality of lower molds are flat molds, and the bottom texture of the plurality of upper molds 5 is changed as required.

When the utility model relates to an air pocket embosser starts, at first put into this device raw materials air pocket film, the one end of raw materials air pocket film is by first drawing fixed rubber roll 341 in the material subassembly 31 and be located the activity rubber roll 342 centre gripping of fixed rubber roll 341 top, its other end passes through between third impressed watermark platform 431 and the third template 53 in proper order, between second impressed watermark platform 421 and the second template 52, it is fixed with other processing equipment after between first impressed watermark platform 411 and the first template 51, start driving piece 2, driving piece 2 drive first drawing material subassembly 31 and second draw material subassembly 32 to this device inside removal, meanwhile, heating device 417 makes the mould 5 heat up through the heating tube, driving piece 2 makes bracing piece 418 and spring 414 order about mobile device 4 through conveying subassembly 20 and reciprocate, a plurality of steps that have the uniform temperature push down in proper order, make raw materials air pocket film and the partial bonding of a plurality of step contacts, form the air pocket that has the leakproofness and hold gas.

The utility model relates to an air pocket embosser has simple structure, efficient characteristics, through first removal subassembly, the second removes the subassembly, the third removes the synchronous of subassembly and pushes down and make the film bonding make the air pocket, because this device is three impressed watermark subassembly simultaneous movement, cost when having saved the drive, efficiency when having improved production, secondly the three impressed watermark subassembly of this device is different moulds, different, the three impressed watermark mould of adjustable change can adopt the distance between adjustment mould and the mould according to the demand, modes such as change mould, produce the air pocket of more kinds of types in order to satisfy the demand.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (8)

1. An air bag embosser characterized in that: it includes supporting platform, install in inside driving piece of supporting platform, be located a plurality of removal subassemblies of supporting platform top and install in remove the mould under the subassembly, drive assembly is installed to driving piece one end, drive assembly include with curved wheel, the one end connection that the driving piece is connected curved wheel and have the drive arm of inferior swing arm cam, the cam is installed to the end of inferior swing arm, the connection is relative the synchronizing shaft of cam, with synchronizing shaft connected crossbeam and one end with crossbeam fixed connection and the other end with a plurality of bracing pieces that the removal subassembly is connected, it includes that first removal frame, second remove the frame, third remove the frame to remove the subassembly, the mould is including being fixed in last mould, both ends of removal subassembly with supporting platform fixed connection's bed die, the bed die with it is corresponding to go up the mould, the driving piece passes through the bracing piece drive first removal frame the second remove the frame the third removes the frame and removes the synchronous perpendicular removal repeatedly.

2. The air bag embosser of claim 1 wherein: one end of the synchronizing shaft close to the cam is provided with an eccentric plate, the outer end of the eccentric plate is connected with the cross beam, and the cross beam extends from one end of the supporting platform to the other end.

3. The air bag embosser of claim 1 wherein: the support rod penetrates through the tail end of the first moving frame and is provided with an elastic piece, and the bottom end of the elastic piece abuts against the first moving frame.

4. The air bag embosser of claim 1, wherein: and the guide pieces are arranged at two ends of the lower die, the bottom ends of the guide pieces are fixed with the lower die, and the other ends of the guide pieces vertically extend upwards and are fixedly connected with the moving assembly.

5. The air bag embosser of claim 4 wherein: and a spring is arranged on the outer surface of the guide piece, one end of the spring abuts against the lower die, and the other end of the spring abuts against the moving assembly.

6. The air bag embosser of claim 4, wherein: the rubber covered roller device is characterized in that a material pulling device is further installed on one side of the moving assembly and comprises a first material pulling assembly, the first material pulling assembly comprises a pair of vertical plates fixedly connected with the supporting platform, a pair of rubber covered rollers located between the vertical plates and an air cylinder pushing piece located at the top ends of the vertical plates, the rubber covered rollers comprise fixed rubber covered rollers and movable rubber covered rollers located above the fixed rubber covered rollers, sliding blocks are arranged at two ends of the movable rubber covered rollers, and the air cylinder pushing piece supports against the sliding blocks.

7. The air bag embosser of claim 6 wherein: the moving assemblies comprise a first moving assembly, a second moving assembly and a third moving assembly, and the first moving assembly, the second moving assembly and the third moving assembly are fixed above the lower dies through the guide pieces.

8. The air bag embosser of claim 7 wherein: the material pulling device further comprises a second material pulling assembly, the structure of the second material pulling assembly is the same as that of the first material pulling assembly, and the second material pulling assembly is located between the second moving assembly and the third moving assembly.

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