CN214215024U - Waterproof conductive composite multilayer fabric - Google Patents

Abstract

The utility model belongs to the technical field of surface fabric multilayer structure, especially, relate to a waterproof electrically conductive compound multilayer surface fabric. The utility model discloses a from inside to outside sets gradually in wearing layer, interior tie coat, conducting layer, well tie coat, enhancement layer, second in tie coat, waterproof layer, outer tie coat, decorative layer and the mode of outer wearing layer, reaches the effect that compound surface fabric effectively carries out waterproof electrically conductive use. The utility model has the advantages of joint strength is big between the multilayer fabric structure, be difficult for the layering, and waterproof electrically conductive basic effect uses effectively, and the whole wear resistance of surface fabric is outstanding, and inside and outside both sides are all wear-resisting, and decorative nature is strong to and the whole tensile of surface fabric, anti ability reinforce that tears, difficult fracture.

Description

Waterproof conductive composite multilayer fabric

Technical Field

The utility model belongs to the technical field of surface fabric multilayer structure, especially, relate to a waterproof electrically conductive compound multilayer surface fabric.

Background

The composite multilayer fabric refers to a high-performance fabric with a multilayer structure and multiple functions, and generally can integrate the functions of flame retardance, water resistance, wind resistance, electric conduction, bacteriostasis and static resistance. The structure of the existing waterproof conductive fabric is generally an outer waterproof layer and an inner conductive layer, but the structure has the following problems: firstly, the bonding strength between the waterproof layer and the conductive layer is not enough, and the waterproof layer and the conductive layer are easy to delaminate; secondly, the waterproof layer is not wear-resistant, and the waterproof performance is greatly reduced after the waterproof layer is worn; thirdly, the conductive layer itself is also not wear resistant; fourth, the simple waterproof conductive fabric is not beautiful enough.

In conclusion, a novel waterproof conductive composite fabric with high structural strength and good use experience is urgently needed in the market.

The Chinese patent with patent publication No. CN 104856314A and publication No. 2015.08.26 discloses a waterproof, conductive and antibacterial fabric with high safety, which comprises a fabric body, wherein a polyurethane film is covered on the surface of the fabric body, moisture absorption and sweat release fibers are covered on the surface of the polyurethane film, air holes are formed in the surfaces of the moisture absorption and sweat release fibers, a waterproof layer is covered on the surface of the moisture absorption and sweat release fibers, and a polyurethane coating layer is covered on the surface of the waterproof layer.

However, the waterproof conductive antibacterial fabric disclosed by the invention has the problem of low bonding strength among multiple layers of fabric, and can be layered after being used for a period of time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a compound multilayer surface fabric of waterproof electrically conductive, it can reach the effect that compound surface fabric effectively carries out waterproof electrically conductive use through the mode that sets gradually interior wearing layer, interior tie coat, conducting layer, well tie coat, enhancement layer, second in tie coat, waterproof layer, outer tie coat, decorative layer and outer wear-resisting layer from inside to outside. The utility model has the advantages of joint strength is big between the multilayer fabric structure, be difficult for the layering, and waterproof electrically conductive basic effect uses effectively, and the whole wear resistance of surface fabric is outstanding, and inside and outside both sides are all wear-resisting, and decorative nature is strong to and the whole tensile of surface fabric, anti ability reinforce that tears, difficult fracture.

The utility model provides a technical scheme that above-mentioned problem adopted is: the waterproof conductive composite multilayer fabric comprises a waterproof layer on the outer side, a conductive layer on the inner side, a decorative layer arranged on the outer side of the waterproof layer, an outer wear-resistant layer arranged on the outer side of the decorative layer, a reinforcing layer arranged between the waterproof layer and the conductive layer, and an inner wear-resistant layer arranged on the inner side of the conductive layer.

The further preferred technical scheme is as follows: the waterproof layer is arranged on the outer surface of the decorative layer, the waterproof layer is arranged on the inner surface of the waterproof layer, the decorative layer is arranged on the outer surface of the waterproof layer, the two middle bonding layers are arranged on two sides of the reinforcing layer, and the inner bonding layer is arranged between the conductive layer and the inner wear-resistant layer.

The further preferred technical scheme is as follows: the thickness of the outer bonding layer is equal to the thickness of the middle bonding layer and is smaller than the thickness of the inner bonding layer.

The further preferred technical scheme is as follows: the thickness of the reinforcing layer is 0.20-0.22mm, and the thickness of the multilayer fabric is 0.80-0.85 mm.

The further preferred technical scheme is as follows: the thickness of the waterproof layer is 0.10-0.15mm, and the thickness of the conductive layer is 0.06-0.09 mm.

The further preferred technical scheme is as follows: the thickness of the outer wear-resistant layer is 0.12-0.16mm, and the thickness of the inner wear-resistant layer is 0.20-0.23 mm.

The further preferred technical scheme is as follows: the reinforcing layer comprises two side pieces, bonding strips arranged on the inner sides of the two side pieces, clamping pieces arranged on the inner sides of the bonding strips, and reinforcing fiber nets arranged on the inner sides of the clamping pieces.

The further preferred technical scheme is as follows: and a grid bonding layer is arranged between the two clamping pieces, and the fiber net for reinforcement is arranged in the grid bonding layer.

The further preferred technical scheme is as follows: the two sides of the outer side surface of the clamping piece are respectively provided with one bonding strip, four bonding strips form a group, a plurality of groups of bonding strips are uniformly arranged on the side piece at intervals in a linear arrangement mode, and the distance between the adjacent sides of the clamping piece on the same group of bonding strips is 2-6 cm.

The further preferred technical scheme is as follows: the clamping pieces and the reinforcing fiber nets are square and vertically overlapped, and the size of the bonding strip is equal to that of the side pieces in the long edge direction of the bonding strip.

The utility model discloses a from inside to outside sets gradually in wearing layer, interior tie coat, conducting layer, well tie coat, enhancement layer, second in tie coat, waterproof layer, outer tie coat, decorative layer and the mode of outer wearing layer, reaches the effect that compound surface fabric effectively carries out waterproof electrically conductive use. The utility model has the advantages of joint strength is big between the multilayer fabric structure, be difficult for the layering, and waterproof electrically conductive basic effect uses effectively, and the whole wear resistance of surface fabric is outstanding, and inside and outside both sides are all wear-resisting, and decorative nature is strong to and the whole tensile of surface fabric, anti ability reinforce that tears, difficult fracture.

Drawings

Fig. 1 is a schematic view of the cross-sectional structure of the multilayer fabric of the present invention.

Fig. 2 is the utility model discloses in behind the reinforcing layer tiling at the structure sketch map under overlooking the angle.

Fig. 3 is a schematic cross-sectional structure diagram of the middle reinforcement layer of the present invention.

Detailed Description

The following description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2 and 3, the waterproof conductive composite multilayer fabric comprises an outer waterproof layer 1, an inner conductive layer 2, a decorative layer 3 disposed on the outer side of the waterproof layer 1, an outer wear-resistant layer 4 disposed on the outer side of the decorative layer 3, a reinforcing layer 5 disposed between the waterproof layer 1 and the conductive layer 2, and an inner wear-resistant layer 6 disposed on the inner side of the conductive layer 2.

In this embodiment, the waterproof layer 1 is made of waterproof oxford fabric, the conductive layer 2 is made of nickel-plated conductive fabric, the decorative layer 3 is made of polyurethane sheet, the polyurethane sheet is filled with decorative colors according to the prior art, the polyurethane sheet is initially in a liquid state and is formed together with the multilayer fabric, so that the decorative layer 3 has a bonding effect, the outer wear-resistant layer 4 is made of acrylic fiber fabric, and the inner wear-resistant layer 6 is made of polyamide fabric.

The waterproof layer is characterized by further comprising an outer bonding layer 7 arranged between the decorative layer 3 and the waterproof layer 1, two middle bonding layers 8 arranged on two sides of the reinforcing layer 5, and an inner bonding layer 9 arranged between the conductive layer 2 and the inner wear-resistant layer 6.

In this embodiment, the outer adhesive layer 7, the middle adhesive layer 8 and the inner adhesive layer 9 are all obtained by bonding, curing and molding an existing water-based adhesive sticker or dry water-based laminating adhesive.

The thickness of the outer adhesive layer 7 is equal to that of the middle adhesive layer 8 and is smaller than that of the inner adhesive layer 9.

In this embodiment, the service conditions of the inner wear-resistant layer 6 are more severe, so that the wear resistance and the thickness thereof need to be correspondingly larger, and therefore, the inner bonding layer 9 is thicker to ensure the bonding structural stability of the inner wear-resistant layer 6 in the whole multilayer fabric and the bonding strength is sufficient.

The thickness of the reinforcing layer 5 is 0.20-0.22mm, and the thickness of the multilayer fabric is 0.80-0.85 mm.

In this embodiment, the reinforcing layer 5 is the key to ensure the tensile and tear resistance of the multi-layer fabric, and therefore needs to be relatively thick.

The thickness of the waterproof layer 1 is 0.10-0.15mm, and the thickness of the conductive layer 2 is 0.06-0.09 mm.

The thickness of the outer wear-resistant layer 4 is 0.12-0.16mm, and the thickness of the inner wear-resistant layer 6 is 0.20-0.23 mm.

In this embodiment, the friction between the object covered by the multi-layer fabric and the inner wear-resistant layer 6 is more, and the friction between the outer wear-resistant layer 4 facing outwards is less, so that it is more reasonable to provide the inner wear-resistant layer 6 with a relatively thicker thickness.

The reinforcing layer 5 includes two side pieces 501, an adhesive tape 502 provided on the inner side of the two side pieces 501, a grip piece 503 provided on the inner side of the adhesive tape 502, and a reinforcing fiber web 504 provided on the inner side of the grip piece 503. A mesh adhesive layer 505 is further provided between the two clamping pieces 503, and the reinforcing fiber web 504 is provided in the mesh adhesive layer 505.

In this embodiment, the side sheet 501 is made of carbon fiber cloth, the adhesive strip 502 is an existing double-sided adhesive strip, the clamping sheet 503 is made of glass fiber cloth, the reinforcing fiber net 504 is made of nylon fiber mesh cloth, and the mesh adhesive layer 505 is obtained by bonding, curing and molding the water-based adhesive or dry-type water-based laminating adhesive, and is used for wrapping the reinforcing fiber net 504, that is, the reinforcing fiber net 504 is not in direct contact with the clamping sheet 503.

The two sides of the outer side surface of the clamping piece 503 are respectively provided with one bonding strip 502, four bonding strips 502 form a group, a plurality of groups of bonding strips 502 are uniformly arranged on the side piece 501 at intervals in a linear arrangement mode, and the distance between the adjacent sides of the clamping piece 503 on the same group of bonding strips 502 is 2-6 cm. The grip pieces 503 and the reinforcing fiber web 504 are both square in shape and vertically overlapped, and the size of the adhesive tape 502 is equal to that of the side pieces 501 in the longitudinal direction of the adhesive tape 502.

In this embodiment, the square sheets formed by the clamping sheets 503, the reinforcing fiber mesh 504 and the grid bonding layer 505 are also uniformly and intermittently disposed in a group of frame structures formed by the four bonding strips 502, and finally the square sheet structures are fixed in the two side sheets 501, so that the whole reinforcing layer 5 has the advantages of being not easy to deform and break when being pulled, not easy to break when being punctured, and not easy to tear when being torn.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the appended claims.

Claims (10)

1. The utility model provides a waterproof electrically conductive compound multilayer surface fabric, includes waterproof layer (1) in the outside to and inboard conducting layer (2), its characterized in that: the waterproof layer is characterized by further comprising a decorative layer (3) arranged on the outer side of the waterproof layer (1), an outer wear-resistant layer (4) arranged on the outer side of the decorative layer (3), a reinforcing layer (5) arranged between the waterproof layer (1) and the conducting layer (2), and an inner wear-resistant layer (6) arranged on the inner side of the conducting layer (2).

2. The waterproof conductive composite multilayer fabric according to claim 1, characterized in that: the waterproof layer is characterized by further comprising an outer bonding layer (7) arranged between the decorative layer (3) and the waterproof layer (1), two middle bonding layers (8) arranged on two sides of the reinforcing layer (5), and an inner bonding layer (9) arranged between the conductive layer (2) and the inner wear-resistant layer (6).

3. The waterproof conductive composite multilayer fabric according to claim 2, characterized in that: the thickness of the outer bonding layer (7) is equal to that of the middle bonding layer (8) and is smaller than that of the inner bonding layer (9).

4. The waterproof conductive composite multilayer fabric according to claim 1, characterized in that: the thickness of the reinforcing layer (5) is 0.20-0.22mm, and the thickness of the multilayer fabric is 0.80-0.85 mm.

5. The waterproof conductive composite multilayer fabric according to claim 1, characterized in that: the thickness of the waterproof layer (1) is 0.10-0.15mm, and the thickness of the conductive layer (2) is 0.06-0.09 mm.

6. The waterproof conductive composite multilayer fabric according to claim 1, characterized in that: the thickness of the outer wear-resistant layer (4) is 0.12-0.16mm, and the thickness of the inner wear-resistant layer (6) is 0.20-0.23 mm.

7. The waterproof conductive composite multilayer fabric according to claim 1, characterized in that: the reinforcing layer (5) comprises two side pieces (501), an adhesive strip (502) arranged on the inner sides of the two side pieces (501), a clamping piece (503) arranged on the inner side of the adhesive strip (502), and a reinforcing fiber net (504) arranged on the inner side of the clamping piece (503).

8. The waterproof conductive composite multilayer fabric according to claim 7, characterized in that: a mesh bonding layer (505) is further provided between the two clamping pieces (503), and the reinforcing fiber net (504) is provided in the mesh bonding layer (505).

9. The waterproof conductive composite multilayer fabric according to claim 7, characterized in that: the two sides of the outer side surface of the clamping piece (503) are respectively provided with one bonding strip (502), the four bonding strips (502) form a group, a plurality of groups of bonding strips (502) are uniformly arranged on the side piece (501) at intervals in a linear arrangement mode, and the distance between the adjacent sides of the clamping piece (503) on the same group of bonding strips (502) is 2-6 cm.

10. The waterproof conductive composite multilayer fabric according to claim 7, characterized in that: the clamping piece (503) and the reinforcing fiber net (504) are both square in shape and vertically overlapped, and the size of the bonding strip (502) is equal to that of the side piece (501) in the long side direction of the bonding strip (502).

Images