CN220576761U - Coat with multifunctional multilayer composite fabric structure - Google Patents

Abstract

The utility model discloses a multifunctional multilayer composite fabric structural coat, which comprises a base layer positioned on the inner side and a breathable structural layer arranged on the base layer; the base layer is used as a supporting layer, and the ventilation structure layer is arranged in a grid shape or a honeycomb shape; the coat is provided with a turned-over edge on one side or two turned-over edges on the opposite sides symmetrically, the lower surface of the turned-over edge is provided with a reflecting layer or/and a thermal insulation layer, and the turned-over edge can be turned over to cover the surface of the breathable structure layer. The utility model designs a multifunctional multi-layer composite fabric structural coat, which is characterized in that a flange with a reflecting layer or/and a thermal insulation layer capable of covering the surface of a structural layer is arranged on the side edge of the coat, wherein the reflecting layer can effectively avoid insolation of the structural layer of the coat, the service life of the coat is prolonged, and the thermal insulation layer can provide a heat storage effect for winter use of the coat and can realize cross-season use of the coat.

Description

Coat with multifunctional multilayer composite fabric structure

Technical Field

The utility model relates to a multi-layer composite coat, in particular to a multifunctional multi-layer composite fabric-structured coat.

Background

In daily life, the jacket products are visible everywhere, and commonly include pillowcases, mattress covers, cushion covers (including seat covers of chairs or electric vehicles), and the like.

In view of the use environment of summer sultry, a multi-layer composite type outer cover is commercially available for improving the use comfort and air permeability of the outer cover, and the outer cover structure comprises a base layer positioned on the inner side and an air permeable structure layer arranged on the base layer; the base layer is used as a supporting layer and is made of cotton cloth or mesh cloth; the material of ventilative structural layer is one of gel, tpe, silica gel, tpu, tpr, ventilative structural layer sets up to single-layer latticed or cellular or the multilayer latticed or the cellular that staggers in upper and lower position, and then guarantees the gas circulation on overcoat surface, forms ventilative surface structure, promotes the use travelling comfort of overcoat.

However, through actual use, when the outer sleeve is used as outdoor scenes such as an outdoor seat, an air cushion bed, an electric vehicle outer sleeve and the like, once the outer sleeve is exposed to the sun, the ventilation structure layer is easily heated to expand and deform, and as a result, the use comfort of the outer sleeve is affected, and the service life of the outer sleeve is also affected.

Moreover, the breathable outer sleeve with the composite structure is specially designed for the high-temperature environment in summer, and is the opposite to the high-temperature environment in winter, a user can only replace one set of warm outer sleeve for use, the purchase cost is increased, and the outer sleeve which is idle in changing seasons is inconvenient to store.

Disclosure of Invention

Aiming at the problems, the utility model designs the multifunctional multi-layer composite fabric structural jacket, which is provided with the flanging with the reflecting layer or/and the thermal insulation layer, wherein the flanging with the reflecting layer or/and the thermal insulation layer can cover the surface of the structural layer is arranged on the side edge of the jacket, the reflecting layer can effectively avoid insolation of the structural layer of the jacket, the service life of the jacket is prolonged, and the thermal insulation layer can provide a heat storage effect for winter use of the jacket and can realize cross-season use of the jacket.

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

a multifunctional multi-layer composite fabric structural coat comprises a base layer positioned on the inner side and a breathable structure layer arranged on the base layer; the basic unit is as the supporting layer, ventilative structural layer sets up to latticed or cellular, its characterized in that: the coat is provided with a turned-over edge on one side or two turned-over edges on the opposite sides symmetrically, the lower surface of the turned-over edge is provided with a reflecting layer or/and a thermal insulation layer, and the turned-over edge can be turned over to cover the surface of the breathable structure layer.

More specifically, the outer side edge of the flanging is provided with a fixing structure, and the fixing structure is a magic tape, a buckle, a zipper or an elastic rope.

More specifically, the base layer is made of cloth, leather or plastic.

More specifically, the material of the breathable structure layer is one of gel, tpe, silica gel, tpu and tpr.

More specifically, the breathable structure layer is a single-layer grid-shaped or honeycomb-shaped structure.

More specifically, the ventilation structure layer is a multi-layer grid-shaped or honeycomb-shaped structure, and grid holes or honeycomb holes in different layers are staggered.

More specifically, the bottom of the base layer is compositely provided with a waterproof sealing film layer.

More specifically, the sealing film layer is made of PVC, TPU, TPE or plastic material.

More specifically, the sealing film layer is composed of a film upper layer and a film lower layer, the peripheries of the film upper layer and the film lower layer are sealed by hot melting to form a hollow air inflation cavity between the film upper layer and the film lower layer, and an air inflation hole communicated with the air inflation cavity is arranged at the bottom of the film lower layer.

More specifically, the upper and lower sides of the inflatable chamber are connected by a plurality of wires.

The utility model is provided with a flanging at one side or the opposite side of the coat, and the lower surface of the flanging is provided with a reflecting layer or/and a thermal insulation layer. When the flanging is downwards stacked to the bottom of the outer sleeve, the exposed breathable structure layer of the outer sleeve has good air permeability, and the use requirement of a high-temperature environment in summer is met. When the flanging is turned up to cover the ventilation structure layer, the lower surface of the flanging is turned up, and the reflecting layer on the flanging reflects most sunlight, so that the ventilation structure layer is prevented from being exposed to the sun to be heated and expanded and deformed, and the use comfort and the service life of the ventilation structure layer can be effectively ensured. When the reflecting layer is replaced by the thermal layer or the thermal layer is directly attached to the reflecting layer, the thermal storage performance of the surface of the jacket can be effectively improved, so that the jacket can be used in a low-temperature environment such as winter, and the like, and can meet the use requirements of multiple scenes.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the turnup of the present utility model stacked down onto the bottom of the jacket;

FIG. 3 is a schematic view of the structure of the flange of the present utility model with the flange turned up and covered over the air permeable structure layer;

FIG. 4 is a schematic diagram of a structure in which an insulation layer is arranged on the lower surface of the flanging;

FIG. 5 is a schematic diagram of a structure in which a reflecting layer and a heat-insulating layer are simultaneously arranged on the lower surface of the flanging;

FIG. 6 is a schematic view of the structure of the utility model, wherein two flanges are arranged on the opposite sides of the outer sleeve;

FIG. 7 is a schematic view of a structure in which a sealing film layer is provided at the bottom of a base layer according to the present utility model.

Detailed Description

As shown in fig. 1-3, a multifunctional multi-layer composite fabric structural jacket comprises a base layer 1 positioned on the inner side and a breathable structure layer 2 arranged on the base layer.

The base layer 1 is used as a supporting layer, and is made of cloth, leather or plastic.

The breathable structure layer 2 is made of one of gel, tpe, silica gel, tpu and tpr.

The ventilation structure layer 2 is arranged in a grid shape or a honeycomb shape, the whole ventilation structure layer can be arranged in a single-layer grid shape or a honeycomb shape structure, and also can be arranged in a multi-layer grid shape or a honeycomb shape structure, and when the ventilation structure layer is arranged in a multi-layer structure, grid holes or honeycomb holes in different layers are staggered.

The jacket is provided with a flanging 3 on one side or two flanging 3 on the opposite side symmetrically.

The structure of the flange 3 is only described with respect to the structure that the flange 3 is arranged on one side in the figure, and the reflecting layer 31 and/or the thermal insulation layer 32 are arranged on the lower surface of the flange 3. In practice, the lower surface of the flange 3 may be provided with a light-reflecting layer 31 alone, the structure of which is shown in fig. 1. Or the insulating layer 32 alone, the structure of which is described in fig. 4. Or the reflecting layer 31 and the heat insulating layer 32 are arranged at the same time, the structure is shown in figure 5, and separable connecting structures such as a magic tape 33 and the like are arranged between the reflecting layer 31 and the heat insulating layer 32. The flange 3 may be folded down onto the bottom of the casing or up onto the surface of the ventilation structure layer 2.

And as shown in fig. 6, a schematic structure of the jacket is provided with two flanges 3 on the opposite sides.

The outer side edge of the flanging 3 is provided with a fixing structure 3a, and the fixing structure 3a is a magic tape, a buckle, a zipper or an elastic rope, and a corresponding structure is selected according to the actual requirement.

The coat with the structure is provided with a turned-over edge 3 on one side or the opposite side, and the lower surface of the turned-over edge 3 is provided with a reflecting layer 31 or/and a thermal insulation layer 32. When the flanging 3 is not used, the flanging 3 is downwards stacked to the bottom of the outer sleeve and fixed by the fixing structure 3a, and the ventilation structure layer 2 exposed out of the outer sleeve has good ventilation performance, so that the use requirement of a high-temperature environment in summer is met. When the flange 3 is turned up to cover the ventilation structure layer 2 and is fixed by the fixing structure 3a, the lower surface of the flange 3 is turned to be in an upward state, and the reflective layer 31 on the flange reflects most sunlight, so that the ventilation structure layer 2 is prevented from being exposed to the sun to be heated, expand and deform, and the use comfort and the service life of the ventilation structure layer 2 can be effectively ensured. When the reflective layer 31 is replaced by the thermal insulation layer 32 or the thermal insulation layer 32 is directly attached to the reflective layer 31, the thermal insulation layer 32 can effectively improve the surface heat storage performance of the jacket, so that the jacket can be used in winter under low-temperature environments.

As shown in fig. 7, the waterproof sealing film layer 4 is compositely arranged at the bottom of the base layer 1, the sealing film layer 4 is made of PVC, TPU, TPE or plastic material, and the waterproof performance of the bottom of the outer sleeve can be effectively improved due to the arrangement of the sealing film layer 4.

Here, the sealing film layer 4 may have a single-layer film structure, and the sealing film layer 4 may be provided in a double-layer structure in consideration of practical use, and the present embodiment will be described only with respect to the structure in which the sealing film layer 4 is formed of an upper film layer 4a and a lower film layer 4b, the peripheries of the upper film layer 4a and the lower film layer 4b are heat-sealed to form a hollow inflation chamber 41 therebetween, and an inflation hole 4b1 communicating with the inflation chamber 41 is provided at the bottom of the lower film layer 4 b. In use, the jacket is raised and lowered by at best adjustment in the plenum 41, and has the effect of pressure relief and cushioning.

The upper side and the lower side of the air inflation cavity 41 are connected through a plurality of wires 411, so that the shape of the inflated sealing film layer 4 is ensured to reach an ideal shape, and the actual use requirement is met.

The jacket described above can also be applied to animal saddles, saddle, camel saddles and the like.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation or modification made to the above embodiments according to the technical principles of the present utility model still falls within the scope of the technical solutions of the present utility model.

Claims (10)

1. A multifunctional multi-layer composite fabric structural coat comprises a base layer (1) positioned on the inner side and a breathable structure layer (2) arranged on the base layer; the base layer (1) is used as a supporting layer, and the breathable structure layer (2) is arranged in a grid shape or a honeycomb shape, and is characterized in that: the coat is provided with a turned-up edge (3) on one side or two turned-up edges (3) on the opposite side symmetrically, a reflecting layer (31) or/and a thermal insulation layer (32) is arranged on the lower surface of the turned-up edge (3), and the turned-up edge (3) can be turned up to cover the surface of the breathable structure layer (2).

2. A multifunctional multi-layer composite structural garment according to claim 1, wherein: the outer side edge of the flanging (3) is provided with a fixing structure (3 a), and the fixing structure (3 a) is a magic tape or a buckle or a zipper or an elastic rope.

3. A multifunctional multi-layer composite structural garment according to claim 1 or 2, wherein: the base layer (1) is made of cloth, leather or plastic.

4. A multifunctional multi-layer composite structural garment according to claim 1 or 2, wherein: the breathable structure layer (2) is made of one of gel, tpe, silica gel, tpu and tpr.

5. A multifunctional multi-layer composite structural garment according to claim 4, wherein: the ventilation structure layer (2) is of a single-layer grid-shaped or honeycomb-shaped structure.

6. A multifunctional multi-layer composite structural garment according to claim 4, wherein: the ventilation structure layer (2) is of a multi-layer grid-shaped or honeycomb-shaped structure, and grid holes or honeycomb holes in different layers are staggered.

7. A multifunctional multi-layer composite structural garment according to claim 1 or 2, wherein: the bottom of the base layer (1) is compositely provided with a waterproof sealing film layer (4).

8. A multifunctional multi-layer composite structural garment according to claim 7, wherein: the sealing film layer (4) is made of PVC or TPU or TPE or plastic material.

9. A multifunctional multi-layer composite structural garment according to claim 7, wherein: the sealing film layer (4) is composed of an upper film layer (4 a) and a lower film layer (4 b), the peripheries of the upper film layer (4 a) and the lower film layer (4 b) are sealed by hot melting, a hollow inflation cavity (41) is formed between the upper film layer and the lower film layer, and an inflation hole (4 b 1) communicated with the inflation cavity (41) is formed in the bottom of the lower film layer (4 b).

10. A multifunctional multi-layer composite structural garment according to claim 9, wherein: the upper side and the lower side of the inflation cavity (41) are connected through a plurality of wires (411).