CN210901535U - Clothes with inflation expansion pipe - Google Patents

Abstract

The utility model discloses a clothing with inflation expansion pipe, include: the inflatable fabric tube is composed of an inflatable expansion tube, a fabric tube, a rubber tube, a fabric, an elastic fabric, an inflation nozzle and a pressing inflation valve, wherein the rubber tube is arranged on the inner layer of the inflatable expansion tube, and the fabric tube is arranged on the outer layer; between the fabric and the elastic fabric, the inflatable expansion pipes are continuously bent and arranged at certain intervals; sewing or gluing the fabric and the elastic fabric at the interval of the inflatable expansion pipes; one end of the rubber tube is sealed, and the other end of the rubber tube is connected with the inflating nozzle and the pressing inflating valve; the hemispherical plane glue of the pressing inflation valve is adhered to the surface of the fabric; the rubber tube is a seamless hollow tube made of high-elasticity rubber. The structure can better provide the effects of warm keeping and ventilation, and is suitable for larger temperature difference change.

Description

Clothes with inflation expansion pipe

Technical Field

The utility model relates to a garment, in particular to an inflatable tube capable of adjusting the warming effect of clothes.

Background

The existing clothes fabric can realize the functions of wind prevention, water prevention, ventilation and heat preservation of clothes through the polymer coating and the materials used by the clothes. However, if the material or structure used for the garment is more functional, the comfort and adaptability of the garment can be further improved.

SUMMERY OF THE UTILITY MODEL

The rubber tubes which are arranged at intervals are additionally arranged on the surface of clothes, and the rubber tubes are closely attached to each other after being inflated and expanded to achieve a better warm-keeping effect; after the rubber tube is deflated and contracted, intervals are formed among the clothes fabrics, and the clothes fabrics among the intervals realize the functions of ventilation and heat dissipation.

In order to achieve the above object, the present invention provides a clothes with an inflation expansion pipe, comprising: the inflatable fabric tube is composed of an inflatable expansion tube, a fabric tube, a rubber tube, a fabric, an elastic fabric, an inflation nozzle and a pressing inflation valve, wherein the rubber tube is arranged on the inner layer of the inflatable expansion tube, and the fabric tube is arranged on the outer layer; between the fabric and the elastic fabric, the inflatable expansion pipes are continuously bent and arranged at certain intervals; sewing or gluing the fabric and the elastic fabric at the interval of the inflatable expansion pipes; one end of the rubber tube is sealed, and the other end of the rubber tube is connected with the inflating nozzle and the pressing inflating valve; the hemispherical plane glue of the pressing inflation valve is adhered to the surface of the fabric; the rubber tube is a seamless hollow tube made of high-elasticity rubber.

Further, after the rubber tube is inflated, the rubber tube and the fabric tube are subjected to expansion deformation simultaneously; when the air is deflated, the fabric tube extrudes and contracts the inflatable expansion tube to exhaust air.

Further, the fabric tube is woven by chemical fiber mixed elastic fiber into a circular hollow tube; or the fabric tube is woven into a strip-shaped fabric and then sewn into a hollow tube with a sealed edge. Furthermore, the elastic fabric is directly woven or sewn into a hollow elastic tube with a hollow tube structure, and the interior of the hollow elastic tube is wrapped with the inflation expansion tube.

Further, the fabric tube has a cross-sectional area in a contracted state equal to or smaller than the rubber tube in the contracted state.

Further, the spacing distance between the inflation expansion pipes is smaller than the diameter of the inflation expansion pipes after being expanded.

Further, the inflatable expansion pipes are arranged in a continuous S shape.

Furthermore, the fabric tube with the sealed edge is directly connected with the fabric of the clothes in a sewing way; or the round hollow pipes and the hollow pipes with the sealed edges are alternately arranged, sewed and glued on the fabric of the clothes.

Furthermore, at least one binding belt is sewn on the fabric of the clothes and is bound on the surface of the inflatable expansion pipe to bind the inflatable expansion pipe.

And further, the inflating nozzle is inflated through an external inflator.

In the embodiment of the present invention: the inflatable expansion pipe is connected to the inner surface of the clothes in a sewing mode, and the rubber pipe in the inflatable expansion pipe is inflated. The expanded rubber tubes are tightly attached to each other, so that the separation of external air is realized, and the function of keeping warm is realized. The fabric pipe wrapped outside the rubber pipe is made of elastic materials, and the diameter of the fabric pipe is smaller than that of the rubber pipe. When in deflation, the fabric tube is contracted to drive the rubber tube to contract, so that the air in the rubber tube is discharged. The contracted rubber tube is arranged at the interval part of the surface of the clothes, and the air permeability function is realized through the fabric of the clothes. The structure can better provide the effects of warm keeping and ventilation, and is suitable for larger temperature difference change.

Drawings

Fig. 1 is a schematic perspective view of a half-section of the clothes with the inflatable tubes, which contains the inflatable tubes.

Fig. 2 is a schematic partial half-section perspective view of the inflation tube of the clothes with the inflation tube of the present invention.

Fig. 3 is a schematic plan view of the clothes with the inflatable tubes in the present invention when the inflatable tubes are not inflated.

Fig. 4 is a schematic plane structure diagram of the present invention, which is attached to each other after being inflated between the inflation tubes of the clothes with inflation tubes.

Fig. 5 is a side view schematically illustrating the structure of the inflation tube of the clothes with the inflation tube according to the present invention.

Fig. 6 is a schematic top plan view of a garment with inflatable tubes according to the present invention when the inflatable tubes are not inflated.

Fig. 7 is a schematic top plan view of the inflatable tubes of the clothes with inflatable tubes, which are attached to each other after being inflated.

In the figures, the reference numerals are explained as follows:

inflation tube 1fabric tube 11rubber tube 2garment material 3elastic material 4 inflation nozzle 5 presses the inflation valve.

Detailed Description

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

As shown in fig. 1 to 7, a garment having an inflatable tube, comprises: the inflatable fabric is composed of aninflatable expansion pipe 1, afabric pipe 11, arubber pipe 12, aclothes fabric 2, anelastic fabric 3, aninflation nozzle 4 and a pressing inflation valve 5, wherein the inner layer of theinflatable expansion pipe 1 is therubber pipe 12, and the outer layer is thefabric pipe 11; between theclothes fabric 2 and theelastic fabric 3, theinflatable tubes 1 are continuously bent and arranged at certain intervals; sewing or gluing theclothes fabric 2 and theelastic fabric 3 at the interval of theinflatable tubes 1; one end of therubber tube 12 is sealed, and the other end is connected with the inflatingnozzle 4 and the pressing inflating valve 5; the plane glue of the hemispherical pressing inflation valve 5 is adhered to the surface of theclothes fabric 2; therubber tube 12 is a seamless hollow tube made of high-elasticity rubber.

Specifically, theinflation tube 1 is wrapped between thegarment fabric 2 and theelastic fabric 3, and theinflation tube 1 is separated in a specific space by sewing or gluing thegarment fabric 2 and theelastic fabric 3. After theinflation expansion pipe 1 is inflated and expanded, theinflation expansion pipe 1 can be tightly attached to each other and the positions of theinflation expansion pipe 1 are relatively fixed.

Inflation pipe 1 is a complete and continuous crooked cavity pipeline, through it is right to press inflation valve 5rubber tube 12 aerifys, after aerifingrubber tube 12 produces the inflation. And, thefabric tube 11 wrapping therubber tube 12 is expanded together with the expansion of therubber tube 12. After therubber tube 12 is expanded, the interval between theinflatable expansion tubes 1 disappears, and theinflatable expansion tubes 1 are tightly attached to theinflatable expansion tubes 1. An insulating layer with air separation is formed between the fabrics of the clothes, and the insulating layer is tightly attached by a plurality of columns of therubber tubes 12 and wraps the inner surface of the clothes. Thereby isolating cold air to the outside of theclothing fabric 2 and realizing the effect of keeping warm. When the inflatable tube is contracted, an exhaust valve in the pressing inflation valve 5 is opened, and air or gas is exhausted from therubber tube 12 of theinflatable expansion tube 1. Since thefabric tube 11 has a small cross section and is made of elastic fiber or rubber, it is possible to perform a contraction and compression action on therubber tube 12. Excess air in therubber tube 12 is discharged by the contraction of the elastic fibers (rubber strings). And therubber tube 12 is compressed to a smaller state. At this time, theinflatable tubes 1 are restored to an arrangement state with a space therebetween, and at this time, theclothing fabric 2 can realize a ventilation effect. The structure realizes the adjustment of different warm-keeping effects of clothes through the inflation and deflation of theinflatable expansion tube 1.

Theinflation expansion pipe 1, theinflation nozzle 4 and the pressing inflation valve 5 are sequentially connected in theinflation expansion pipe 1. Wherein, thecharging connector 4 and the pressing charging valve 5 are connected with one end of therubber tube 12. The inflatingnozzle 4 inflates air through an inflator to deform and expand therubber tube 12 in theinflation expansion tube 1. The pressing inflation valve 5 is a manual rubber pump device with an inflation and deflation integrated function. The inflation is performed by repeated pressing with the hand. And opening the air release valve of the pressing inflation valve 5 for deflation.

According to the requirement, the outside of theinflatable expansion pipe 1 is sleeved with hollow elastic pipes made of theelastic fabric 3, and the hollow elastic pipes are sewn with each other to form a tubular surface. Theinflatable expansion tubes 1 in the tubular surface are inflated and then mutually expanded and extruded to be attached, so that the hollow elastic tubes are mutually extruded and attached to form a fabric structure filled with air inside, and the fabric structure is used for preventing cold air from entering. Or the hollow elastic tube with the sealing edge can be directly continuously sewn or glued on the surface of theclothes fabric 2.

Theinflation expansion pipe 1 can also be formed by alternately arranging a round hollow pipe and a hollow pipe with a sealing edge, and a certain height difference exists between the round hollow pipe and the hollow pipe, so that the round hollow pipe and the hollow pipe can be better and closely attached together after expansion. Or the sealing edge of the hollow pipe with the sealing edge can be directly and continuously sewed on the surface of theclothes fabric 2. Thefabric tube 11 and theelastic fabric 3 in theinflatable tube 1 are made of rubber bands and high polymer synthetic fibers with good elasticity and high strength. Theclothing fabric 2 is made of chemical fiber synthetic fibers or cotton and linen fibers. Cotton or down feather materials are filled between theinflatable tubes 1 according to requirements.

Claims (10)

1. A garment having inflatable tubes, comprising: the inflatable fabric tube is composed of an inflatable expansion tube, a fabric tube, a rubber tube, a fabric, an elastic fabric, an inflation nozzle and a pressing inflation valve, wherein the rubber tube is arranged on the inner layer of the inflatable expansion tube, and the fabric tube is arranged on the outer layer; between the fabric and the elastic fabric, the inflatable expansion pipes are continuously bent and arranged at certain intervals; sewing or gluing the fabric and the elastic fabric at the interval of the inflatable expansion pipes; one end of the rubber tube is sealed, and the other end of the rubber tube is connected with the inflating nozzle and the pressing inflating valve; the hemispherical plane glue of the pressing inflation valve is adhered to the surface of the fabric; the rubber tube is a seamless hollow tube made of high-elasticity rubber.

2. A garment having inflatable tubes as claimed in claim 1, comprising: after the rubber tube is inflated, the rubber tube and the fabric tube are subjected to expansion deformation simultaneously; when the air is deflated, the fabric tube extrudes and contracts the inflatable expansion tube to exhaust air.

3. A garment having inflatable tubes as claimed in claim 1, comprising: the fabric tube is woven by chemical fiber mixed elastic fiber into a round hollow tube; or the fabric tube is woven into a strip-shaped fabric and then sewn into a hollow tube with a sealed edge.

4. A garment having inflatable tubes as claimed in claim 1, comprising: the elastic fabric is directly woven or sewn into a hollow elastic tube with a hollow tube structure, and the interior of the hollow elastic tube is wrapped with the inflation expansion tube.

5. A garment having inflatable tubes as claimed in claim 1, comprising: the fabric tube has a cross-sectional area in a contracted state that is equal to or less than the rubber tube in the contracted state.

6. The garment of claim 1, further comprising: the spacing distance between the inflatable expansion pipes is smaller than the diameter of the inflatable expansion pipes after being expanded.

7. A garment having inflatable tubes as claimed in claim 1, comprising: the inflatable expansion pipes are arranged in a continuous S shape.

8. A garment having inflatable tubes as claimed in claim 1, comprising: the fabric tube with the sealed edge is directly connected with the fabric in a sewing way; or the round hollow tubes and the hollow tubes with the sealing edges are alternately arranged, sewed and glued on the fabric.

9. A garment having inflatable tubes as claimed in claim 1, comprising: and at least one binding belt is sewn on the fabric and is bound on the surface of the inflatable expansion pipe to bind the inflatable expansion pipe.

10. A garment having inflatable tubes as claimed in claim 1, comprising: and the inflating nozzle is inflated through an external inflator.

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