CN217414928U - Aerify high design layer of product and laminate upper and lower cloth layer device in succession - Google Patents

Abstract

The utility model discloses an inflatable product height shaping layer continuous laminating upper and lower cloth layer device, which comprises a surface cloth sending mechanism, a warp knitting cloth sending mechanism, a base cloth sending mechanism, a continuous welding mechanism and a finished product winding mechanism; the continuous welding mechanism comprises a rack, a plurality of upper welding units are arranged at the upper part of the rack, a plurality of lower welding units are arranged at the lower part of the rack, and the upper welding units and the lower welding units are sequentially and alternately arranged along the direction of an assembly line in a staggered manner; after the surface cloth, the warp knitted cloth and the base cloth enter the continuous welding mechanism, each upper welding unit and each lower welding unit work synchronously, so that the warp knitted cloth is welded and fixed with the surface cloth and the base cloth in sequence and alternately staggered along the direction of a production line, and the warp knitted cloth forms a zigzag shape between the surface cloth and the base cloth. The utility model discloses realize pipelined production, improved production efficiency greatly, reduce hand labor power, can guarantee production quality simultaneously.

Description

Aerify high design layer of product and laminate upper and lower cloth layer device in succession

Technical Field

The utility model relates to an aerify the product field, especially relate to a cloth layer device about aerifing continuous laminating of high design layer of product.

Background

The inflatable product has the characteristics of light weight, easy collection and easy carrying, is applied to outdoor articles or toys, and is now applied to household products such as common inflatable beds, inflatable sofas and the like. The inflatable product, if it is to be provided in a predetermined shape, must be realized by means of the structure inside it. The existing inflatable product is mainly a drawstring inflatable product, such as the structure of the prior patent CN202536548U, the interior of the inflatable product is connected inside an inflatable cavity through a plurality of groups of drawstring components, wherein a line body in each drawstring component is composed of single warps, so that the inflatable product can only bear force in one direction and has poor stability, and each group of drawstring components is welded with the inflatable cavity after being produced independently, so that the processing technology is complex, the consumed time is long, and the labor force is also consumed. In order to solve the above disadvantages, those skilled in the art have studied to design an inflatable product using a warp knitted fabric instead of the drawtape assembly, but how to attach the warp knitted fabric to a cover fabric and a base fabric with high efficiency and high quality is a troublesome problem.

Disclosure of Invention

For overcoming the deficiency among the prior art, the utility model aims to provide a cloth layer device about high stereotyped layer is laminated in succession to high-efficient, high-quality product of aerifing of production.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product comprises a surface cloth sending mechanism, a warp knitting cloth sending mechanism, a base cloth sending mechanism, a continuous welding mechanism and a finished product winding mechanism;

the surface cloth sending mechanism, the warp knitting cloth sending mechanism and the base cloth sending mechanism respectively convey the surface cloth, the warp knitting cloth and the base cloth to the input end of the continuous welding mechanism, and the surface cloth, the warp knitting cloth and the base cloth are welded into a whole in the continuous welding mechanism and then are wound in the finished product winding mechanism;

the continuous welding mechanism comprises a rack, a plurality of upper welding units are arranged at the upper part of the rack, a plurality of lower welding units are arranged at the lower part of the rack, and the upper welding units and the lower welding units are sequentially and alternately arranged along the direction of an assembly line in a staggered manner;

after the surface cloth, the warp knitted cloth and the base cloth enter the continuous welding mechanism, each upper welding unit and each lower welding unit work synchronously, so that the warp knitted cloth is welded and fixed with the surface cloth and the base cloth in sequence and alternately staggered along the direction of a production line, and the warp knitted cloth forms a zigzag shape between the surface cloth and the base cloth.

Further, the upper welding unit comprises an upper lifting platform, an upper bracket, a first welding upper conductor and a first welding lower conductor; the upper lifting platform is driven to lift by an upper platform lifting cylinder, the upper bracket is arranged beside the upper lifting platform, an upper bracket with an opening facing the upper lifting platform is arranged on the upper bracket, an upper travel switch is arranged on the rear wall of the inner side of the upper bracket, and the upper bracket is driven to lift by the upper bracket cylinder; an upper expansion piece is fixed on the upper lifting platform, the output end of the upper expansion piece is fixedly connected with one end of a first welding lower conductor, the upper expansion piece drives the first welding lower conductor to horizontally move in the direction close to or far away from the upper bracket, the first welding upper conductor is positioned beside the upper lifting platform, and the first welding upper conductor is driven to lift by a first welding driving cylinder;

the lower welding unit comprises a lower lifting platform, a lower bracket, a second welding upper conductor and a second welding lower conductor; the lower lifting platform is driven to lift by a lower platform lifting cylinder, the lower bracket is arranged beside the lower lifting platform, a lower bracket with an opening facing the lower lifting platform is arranged on the lower bracket, a lower travel switch is arranged on the inner rear wall of the lower bracket, and the lower bracket is driven to lift by the lower bracket cylinder; the lower lifting platform is fixedly provided with a lower telescopic device, the output end of the lower telescopic device is fixedly connected with one end of a second welding upper conductor, the lower telescopic device drives the second welding upper conductor to horizontally move along the direction close to or far away from the lower bracket, the second welding lower conductor is positioned beside the lower lifting platform, and the second welding lower conductor is driven by a second welding driving cylinder to drive the lifting.

Furthermore, an upper needle plate transmission chain for driving the shell fabric to advance is arranged at the upper part of the rack, a needle head on the upper needle plate transmission chain is arranged downwards, a plurality of upper compression rollers are arranged on the upper needle plate transmission chain at intervals along the water flow direction, and an upper needle removal top knife for separating the shell fabric from the upper needle plate transmission chain is arranged at the output end of the upper needle plate transmission chain;

the lower part of the rack is provided with a lower needle plate transmission chain for driving the base cloth to advance, the needle heads on the lower needle plate transmission chain are arranged upwards, a plurality of lower compression rollers are arranged on the lower needle plate transmission chain at intervals along the water flowing direction, and the output end of the lower needle plate transmission chain is provided with a lower needle-off top knife for separating the base cloth from the upper needle plate transmission chain. After the welding is finished, the upper needle plate transmission chain and the lower needle plate transmission chain respectively drive the surface cloth and the base cloth to move forward for a preset distance, under the action of the upper needle-off jacking knife and the lower needle-off jacking knife, the surface cloth and the base cloth are respectively separated from the upper needle plate transmission chain and the lower needle plate transmission chain, and finally the woven cloth integrated with the welding is wound on a finished product winding mechanism.

Further, the shell fabric sending mechanism sequentially comprises a shell fabric sending roller and a shell fabric receiving frame along the water flow direction; the warp knitting cloth sending mechanism sequentially comprises a warp knitting cloth sending roller and a warp knitting cloth receiving frame along the water flow direction; the base fabric sending mechanism sequentially comprises a base fabric sending roller and a base fabric storage rack along the water flow direction; the finished product winding mechanism sequentially comprises a finished product storage rack and a finished product winding roller along the water flowing direction.

Further, an edge cutting mechanism is arranged between the finished product winding mechanism and the finished product winding roller.

Furthermore, be equipped with connecting plate welding mechanism between the output of warp knitting cloth sending mechanism and the input of continuous welding mechanism, this connecting plate welding mechanism includes base and lift seat, the interval is equipped with conductor under a plurality of third welding on the base, the lift seat is located the base top and drives actuating cylinder by the lift and drive and go up and down, and the lift seat bottom corresponds respectively down fixed welding conductor and is fixed with the third and weld the conductor respectively, and each connecting plate is sent into respectively from the side and is gone up between conductor and the third welding under the corresponding third welding.

Furthermore, connecting plate welding mechanism and continuous welding mechanism's input and output all are equipped with and are used for cloth arrestment mechanism, cloth arrestment mechanism includes lift roller and bottom roll, and the lift roller setting is driven by brake cylinder directly over the bottom roll and goes up and down.

The utility model adopts the above technical scheme, following beneficial technological effect has:

1. the continuous welding mechanism is provided with a plurality of upper welding units and lower welding units which are sequentially and alternately staggered along the direction of a production line, when welding is carried out, the upper welding units and the lower welding units synchronously act to realize that the knitted fabric is sequentially and alternately staggered and is welded and fixed with the surface fabric and the base fabric, finally the warp knitted fabric forms a zigzag shape between the surface fabric and the base fabric, after the welding is finished, the welding finished part is conveyed forward for a preset distance, and the warp knitted fabric, the surface fabric and the base fabric which are not welded enter the continuous welding mechanism to be welded in a medium mode, so that the production line type production is realized in the process, the production efficiency is greatly improved, the manual labor force is reduced, and the production quality can be ensured;

2. the connecting plates are welded and fixed on the top surface and the bottom surface of the warp knitting cloth at intervals, and then the connecting plates which are staggered up and down are welded and fixed with the corresponding shell fabric and the base fabric, so that the connecting strength of the warp knitting cloth, the shell fabric and the base fabric is effectively improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments;

fig. 1 is a front view of the present invention;

FIG. 2 is a schematic view of a continuous welding mechanism;

FIG. 3 is a schematic view of a web welding mechanism;

FIG. 4 is a schematic view of an upper welding unit;

fig. 5 is a schematic view of the lower welding unit.

Detailed Description

Referring to fig. 1-5, the utility model relates to a device for continuously attaching an upper cloth layer and a lower cloth layer to a height-setting layer of an inflatable product, which comprises a surface cloth sending mechanism 1, a warp knitting cloth sending mechanism 2, a base cloth sending mechanism 3, a continuous welding mechanism 4 and a finished product winding mechanism 5;

the surface cloth sending mechanism 1, the warp knitting cloth sending mechanism 2 and the base cloth sending mechanism 3 respectively convey the surface cloth, the warp knitting cloth and the base cloth to the input end of the continuous welding mechanism 4, and the surface cloth, the warp knitting cloth and the base cloth are welded into a whole in the continuous welding mechanism 4 and then are wound in the finished product winding mechanism 5;

the surface cloth sending mechanism 1 comprises a surface cloth sending roller 11 and a surface cloth receiving frame 12 in sequence along the water flow direction; the warp knitting cloth sending mechanism 2 comprises a warp knitting cloth sending roller 21 and a warp knitting cloth receiving frame 22 in sequence along the water flow direction; the base fabric sending mechanism 3 sequentially comprises a base fabric sending roller 31 and a base fabric receiving frame 32 along the water flow direction; the finished product winding mechanism 5 sequentially comprises a finished product receiving rack 51 and a finished product winding roller 52 along the water flow direction. Further, a first tension adjusting mechanism 23 for adjusting the tension of the warp knitting fabric may be provided at the output end of the warp knitting fabric storage rack 22, and a second tension adjusting mechanism 53 for adjusting the tension of the finished product may be provided between the finished product storage rack 51 and the finished product wind-up roll 52. The first tension adjusting mechanism 23 and the second tension adjusting mechanism 53 both adopt a swingable cylinder to adjust the tension, which belongs to the prior art, and the specific structure and working principle are not described in detail.

The continuous welding mechanism 4 comprises a frame 41, wherein a plurality of upper welding units 42 are arranged at the upper part of the frame 41, a plurality of lower welding units 43 are arranged at the lower part of the frame 41, and the upper welding units 42 and the lower welding units 43 are sequentially and alternately arranged along the direction of a production line in a staggered manner; after the surface cloth, the warp knitted cloth and the base cloth enter the continuous welding mechanism 4, the upper welding units 42 and the lower welding units 43 work synchronously so as to lead the warp knitted cloth to be alternately staggered in sequence along the direction of a production line and welded and fixed with the surface cloth and the base cloth, thus leading the warp knitted cloth to form a sawtooth shape between the surface cloth and the base cloth.

Upper welding unit 42 includes upper landing 421, upper bracket 422, first welded upper conductor 423, and first welded lower conductor 424; the upper lifting platform 421 is driven to lift by an upper platform lifting cylinder 425, the upper bracket 422 is arranged beside the upper lifting platform 421, an upper bracket with an opening facing the upper lifting platform 421 is arranged on the upper bracket 422, an upper travel switch 426 is arranged on the inner rear wall of the upper bracket, and the upper bracket 422 is driven to lift by an upper bracket cylinder 427; an upper expansion piece 428 is fixed on the upper lifting platform 421, an output end of the upper expansion piece 428 is fixedly connected with one end of the first welding lower conductor 424, the upper expansion piece 428 drives the first welding lower conductor 424 to horizontally move in a direction close to or far away from the upper bracket 422, the first welding upper conductor 423 is located on the side of the upper lifting platform 421, and the first welding upper conductor 423 is driven to lift by a first welding driving cylinder 429;

the lower welding unit 43 includes a lower lifting platform 431, a lower bracket 432, a second welded upper conductor 433, and a second welded lower conductor 434; the lower lifting platform 431 is driven to lift by a lower platform lifting cylinder 435, the lower bracket 432 is arranged beside the lower lifting platform 431, a lower bracket with an opening facing the lower lifting platform 431 is arranged on the lower bracket 432, a lower travel switch 436 is arranged on the inner rear wall of the lower bracket, and the lower bracket 432 is driven to lift by a lower bracket cylinder 437; a lower telescopic device 438 is fixed on the lower lifting platform 431, the output end of the lower telescopic device 438 is fixedly connected with one end of a second welding upper conductor 433, the lower telescopic device 438 drives the second welding upper conductor 433 to horizontally move along the direction close to or far away from the lower bracket 432, a second welding lower conductor 434 is positioned at the side of the lower lifting platform 431, and the second welding lower conductor 434 is driven to lift by a second welding driving cylinder 439. The upper and lower retractors 428 and 438 may be horizontal worm screw lifters or other actuators such as pneumatic cylinders.

An upper needle plate transmission chain 44 for driving the flour cloth to advance is arranged at the upper part of the rack 41, needle heads on the upper needle plate transmission chain 44 are arranged downwards, a plurality of upper compression rollers 441 are arranged on the upper needle plate transmission chain 44 at intervals along the water flow direction, the flour cloth is compressed by the upper compression rollers 441, the stability of the flour cloth and the warp knitting cloth during welding can be ensured, and an upper needle removal top knife 442 for separating the flour cloth from the upper needle plate transmission chain 44 is arranged at the output end of the upper needle plate transmission chain 44;

the lower part of frame 41 is equipped with lower faller transmission chain 45 that is used for driving the backer to go forward, and the syringe needle on the faller transmission chain 45 sets up down, and lower faller transmission chain 45 goes up the stream water direction interval and is equipped with a plurality of lower compression rollers 451, presses the bottom cloth through a plurality of lower compression rollers 451, can guarantee the stability when backer and warp knitting cloth weld, and the output of faller transmission chain 45 is equipped with and takes off needle top sword 452 down that breaks away from with backer and last faller transmission chain 44 down. After the welding is finished, the upper needle plate transmission chain 44 and the lower needle plate transmission chain 45 respectively drive the shell fabric and the base fabric to move forward for a preset distance, under the action of the upper needle-off top knife 442 and the lower needle-off top knife 452, the shell fabric and the base fabric are respectively separated from the upper needle plate transmission chain 44 and the lower needle plate transmission chain 45, and finally the woven fabric which is welded into a whole is wound on the finished product winding mechanism 5.

A trimming mechanism 54 is arranged between the finished product winding mechanism 5 and the finished product winding roller 52. The trimming mechanism 54 is used to trim the edges of the finished weld or to cut the finished weld to a particular width dimension. The trimming mechanism 54 comprises a hobbing cutter with an axially adjustable position, the trimming mechanism 54 belongs to the prior art, and the specific structure and the working principle are not described in detail.

A connecting plate welding mechanism 6 is arranged between the output end of the warp knitting and distributing mechanism 2 and the input end of the continuous welding mechanism 4, the connecting plate welding mechanism 6 comprises a base 61 and a lifting seat 62, a plurality of third welding lower conductors 63 are arranged on the base 61 at intervals (the number of the third welding lower conductors 63 is the same as the total number of the upper welding unit 42 and the lower welding unit 43), the lifting seat 62 is positioned above the base 61 and is driven to lift by a lifting driving cylinder 64, third welding upper conductors 65 are respectively fixed at the bottom of the lifting seat 62 corresponding to the lower fixed welding conductors, and each connecting plate is respectively fed into the space between the corresponding third welding lower conductors 63 and the corresponding third welding upper conductors 65 from the side.

The input end and the output end of the connecting plate welding mechanism 6 and the continuous welding mechanism 4 are respectively provided with a cloth braking mechanism 7 and a cloth braking mechanism 8, the cloth braking mechanisms 7 and 8 comprise a lifting roller and a bottom roller, and the lifting roller is arranged right above the bottom roller and driven by a braking cylinder to lift. By designing the cloth braking mechanisms 7 and 8, the stability in the welding process can be improved, and the quality of finished products is improved.

In addition, an active traction mechanism 9 can be added between the continuous welding mechanism 4 and the finished product winding mechanism 5 to drive the welded warp knitted fabric, shell fabric and base fabric to advance together.

It should be emphasized that the air cylinder of the present invention can be replaced by an electric push rod, a servo screw rod, or other drivers.

The fitting method of the device for continuously fitting the upper cloth layer and the lower cloth layer on the height shaping layer of the inflatable product comprises the following steps:

1) the warp knitting cloth is sent into the connecting plate welding mechanism 6 through the warp knitting cloth sending mechanism 2, the connecting plates are respectively sent between each group of the third welding lower conductors 63 and the third welding upper conductors 65, the lifting seat 62 descends to drive the plurality of the third welding upper conductors 65 to synchronously press down on the corresponding third welding lower conductors 63, and therefore the plurality of the connecting plates are sequentially welded and fixed on the top surface and the bottom surface of the warp knitting cloth in a staggered mode;

2) the warp knitting cloth welded with the connecting plates, the surface cloth and the base cloth are sent into a continuous welding mechanism 4, each connecting plate on the top surface of the warp knitting cloth corresponds to an upper welding unit 42, and each connecting plate on the bottom surface of the warp knitting cloth corresponds to a lower welding unit 43; then, each upper welding unit 42 and each lower welding unit 43 work synchronously, wherein an upper expansion piece 428 of each upper welding unit 42 extends out of a first lower welding conductor 424, an upper travel switch 426 stops after sensing to the right position, an upper platform lifting cylinder 425, a first welding driving cylinder 429 and an upper bracket cylinder 427 extend out synchronously, so that a first upper welding conductor 423 and the first lower welding conductor 424 clamp a connecting plate and a surface cloth corresponding to the top surface of the warp knitting cloth, and pressure maintaining is carried out for a preset time, so that the connecting plate on the top surface of the warp knitting cloth is welded and fixed with the surface cloth; meanwhile, the lower expanders 438 of the lower welding units 43 extend out of the second welding upper conductors 433, the lower stroke switches 436 stop after sensing in place, and the lower platform lifting cylinder 435, the second welding driving cylinder 439 and the lower bracket cylinder 437 extend out synchronously, so that the second welding upper conductors 433 and the second welding lower conductors 434 clamp the connecting plates and the base fabric corresponding to the bottom surface of the warp knitted fabric and maintain pressure for a preset time, and the connecting plates and the base fabric at the bottom surface of the warp knitted fabric are welded and fixed, wherein the width of the warp knitted fabric is smaller than the width of the surface fabric and the base fabric;

3) after the warp knitting cloth, the surface cloth and the base cloth are welded to form a welding finished product, each upper welding unit 42 and each lower welding unit 43 are reset, the welding finished product is sent out by the continuous welding mechanism 4 and is wound on the finished product winding mechanism 5, and meanwhile, the unwelded parts of the warp knitting cloth, the surface cloth and the base cloth enter the continuous welding mechanism 4 to wait for the next section of welding.

The practice of the present invention has been described with reference to the accompanying drawings, but the invention is not limited to the embodiments described above, which are illustrative rather than limiting, and it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (7)

1. The utility model provides a cloth layer device about aerifing continuous laminating of product height design layer which characterized in that: the warp knitting machine comprises a surface cloth sending mechanism, a warp knitting cloth sending mechanism, a base cloth sending mechanism, a continuous welding mechanism and a finished product winding mechanism;

the surface cloth sending mechanism, the warp knitting cloth sending mechanism and the base cloth sending mechanism respectively convey the surface cloth, the warp knitting cloth and the base cloth to the input end of the continuous welding mechanism, and the surface cloth, the warp knitting cloth and the base cloth are welded into a whole in the continuous welding mechanism and then are wound in the finished product winding mechanism;

the continuous welding mechanism comprises a rack, a plurality of upper welding units are arranged at the upper part of the rack, a plurality of lower welding units are arranged at the lower part of the rack, and the upper welding units and the lower welding units are sequentially and alternately arranged along the direction of an assembly line in a staggered manner;

after the surface cloth, the warp knitted cloth and the base cloth enter the continuous welding mechanism, each upper welding unit and each lower welding unit work synchronously, so that the warp knitted cloth is welded and fixed with the surface cloth and the base cloth in sequence and alternately staggered along the direction of a production line, and the warp knitted cloth forms a zigzag shape between the surface cloth and the base cloth.

2. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product according to claim 1, wherein: the upper welding unit comprises an upper lifting platform, an upper bracket, a first welding upper conductor and a first welding lower conductor; the upper lifting platform is driven to lift by an upper platform lifting cylinder, the upper bracket is arranged beside the upper lifting platform, an upper bracket with an opening facing the upper lifting platform is arranged on the upper bracket, an upper travel switch is arranged on the rear wall of the inner side of the upper bracket, and the upper bracket is driven to lift by the upper bracket cylinder; an upper expansion piece is fixed on the upper lifting platform, the output end of the upper expansion piece is fixedly connected with one end of a first welding lower conductor, the upper expansion piece drives the first welding lower conductor to horizontally move in the direction close to or far away from the upper bracket, the first welding upper conductor is positioned beside the upper lifting platform, and the first welding upper conductor is driven to lift by a first welding driving cylinder;

the lower welding unit comprises a lower lifting platform, a lower bracket, a second welding upper conductor and a second welding lower conductor; the lower lifting platform is driven to lift by a lower platform lifting cylinder, the lower bracket is arranged beside the lower lifting platform, a lower bracket with an opening facing the lower lifting platform is arranged on the lower bracket, a lower travel switch is arranged on the inner rear wall of the lower bracket, and the lower bracket is driven to lift by the lower bracket cylinder; the lower lifting platform is fixedly provided with a lower telescopic device, the output end of the lower telescopic device is fixedly connected with one end of a second welding upper conductor, the lower telescopic device drives the second welding upper conductor to horizontally move along the direction close to or far away from the lower bracket, the second welding lower conductor is positioned beside the lower lifting platform, and the second welding lower conductor is driven by a second welding driving cylinder to drive the lifting.

3. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height-setting layer of an inflatable product according to claim 2, wherein: an upper needle plate transmission chain for driving the shell fabric to advance is arranged at the upper part of the rack, needles on the upper needle plate transmission chain are arranged downwards, a plurality of upper compression rollers are arranged on the upper needle plate transmission chain at intervals along the water flow direction, and an upper needle removal top knife for removing the shell fabric from the upper needle plate transmission chain is arranged at the output end of the upper needle plate transmission chain;

the lower part of the rack is provided with a lower needle plate transmission chain for driving the base cloth to advance, the needle heads on the lower needle plate transmission chain are arranged upwards, a plurality of lower compression rollers are arranged on the lower needle plate transmission chain at intervals along the water flowing direction, and the output end of the lower needle plate transmission chain is provided with a lower needle-off top knife for separating the base cloth from the upper needle plate transmission chain.

4. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product according to claim 1, wherein: the shell fabric sending mechanism sequentially comprises a shell fabric sending roller and a shell fabric receiving frame along the water flow direction; the warp knitting cloth sending mechanism sequentially comprises a warp knitting cloth sending roller and a warp knitting cloth receiving frame along the water flow direction; the base fabric sending mechanism sequentially comprises a base fabric sending roller and a base fabric receiving frame along the water flow direction; the finished product winding mechanism sequentially comprises a finished product storage rack and a finished product winding roller along the water flowing direction.

5. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product according to claim 4, wherein: and a trimming mechanism is arranged between the finished product winding mechanism and the finished product winding roller.

6. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product according to claim 2, wherein: the connecting plate welding mechanism is arranged between the output end of the warp knitting cloth sending mechanism and the input end of the continuous welding mechanism and comprises a base and a lifting seat, a plurality of third welding lower conductors are arranged on the base at intervals, the lifting seat is located above the base and is driven by a lifting driving cylinder to lift, third welding upper conductors are respectively fixed at the bottom of the lifting seat corresponding to the lower fixed welding conductors, and the connecting plates are respectively fed into the positions between the corresponding third welding lower conductors and the corresponding third welding upper conductors from the side.

7. The device for continuously attaching an upper cloth layer and a lower cloth layer to a height setting layer of an inflatable product according to claim 6, wherein: the input end and the output end of the connecting plate welding mechanism and the input end and the output end of the continuous welding mechanism are both provided with a cloth braking mechanism, the cloth braking mechanism comprises a lifting roller and a bottom roller, and the lifting roller is arranged right above the bottom roller and driven by a braking cylinder to lift.

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