CN215007576U - Elastic braided belt containing multiple conducting wires - Google Patents

Abstract

The utility model discloses an elasticity braid over braid that contains many wires, the wire is the wave, many wires parallel arrangement, the crest of wire stretches into between rather than a pair of trough of adjacent wire, the trough of wire stretches into between rather than a pair of crest of adjacent wire, the braided wire is elastic fiber, many braided wire parallel arrangement and do not contact, the braided wire extends to the other end from the one end of wire, and form winding structure on the wire and be used for driving the wire and produce the displacement along the tensile direction of braided wire, it is equipped with two braided wires to lie in between its crest and the trough on a wire, and the braided wire of non-avris passes two adjacent wires. The utility model discloses braided wire itself has elasticity, combines to be wavy wire, and the braid over braid has better elastic stretching ability, and the design of netted braided structure, can have better deformability, is favorable to reducing material cost and whole weight moreover, makes the product more light.

Description

Elastic braided belt containing multiple conducting wires

Technical Field

The utility model relates to a wire technical field especially relates to an elasticity braid over braid that contains many wires.

Background

Along with the rise of the intelligent wearable market, the intelligent garment is added with a signal acquisition device, an intelligent heating and warming function, an intelligent physical examination function, an intelligent massage and health care function, an auxiliary electrode and other structures, so that the intelligent garment becomes a mainstream product of the intelligent garment, and the market influence of the intelligent garment is increased day by day. In the application process of the intelligent garment, all the functional modules are generally connected through wires inside the garment, and functional devices such as a battery, a control switch, a heating plate and the like must be connected through wires to form an intelligent effect.

The traditional electric wire comprises an electric core and an insulating layer positioned on the periphery of the electric core, wherein the electric core and the insulating layer do not have stretching capacity, after the electric wire is applied to the intelligent clothes, the clothes can be stretched or compressed in different body states and motions, and the electric wire without stretching capacity can be damaged, leaked with electricity, or even broken so as to be incapable of being used; at present, in the field of intelligent clothes, silica gel wires or TPE wires are generally used for wire connection among the functional modules, the two types of wires are adopted for connection of the functional modules, the two types of wires are soft, but the two types of wires cannot be stretched synchronously with clothes fabric, the diameter of the two types of wires is large, the two types of wires are easy to damage, and wearing experience of the intelligent clothes is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an elasticity braid over braid that contains many wires, braided wire itself has elasticity, combines to be wavy wire, has strengthened the tensile properties of braid over braid, and netted braided structure can have better deformability, still is favorable to reduction material cost and whole weight, makes the product lighter.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides an elasticity braid over braid that contains many wires, includes wire and braided wire, the wire is the wave, many wire parallel arrangement and not contact, the crest of wire stretches into between rather than a pair of trough of adjacent wire, the trough of wire stretches into between rather than a pair of crest of adjacent wire, the braided wire is elastic fiber, many braided wire parallel arrangement and not contact, the braided wire extends to the other end from the one end of wire, and forms winding structure on the wire and be used for driving the wire and produce the displacement along the tensile direction of braided wire, one be located on the wire and be equipped with two braided wires between its crest and trough, and a braided wire that is located non-avris department passes two adjacent arrangement's wire.

As a further optimization, the braided wire is made of spandex fibers.

As a further optimization, the braided wire is made of elastic fibers through cabling, the cabling is carried out on two sides of the conducting wire, and the conducting wire is stranded by the elastic fibers without cabling at the conducting wire.

As a further optimization, the wire comprises an insulating layer and a battery cell, the battery cell is wrapped in the insulating layer, and the battery cell is made of a plurality of conductive wires through stranding.

As a further optimization, the diameter of the conductive wire is 0.035-0.08 mm.

As a further optimization, the number of the conductive filaments is fifteen to fifty.

As a further optimization, the insulating layer is made of Teflon; a plurality of the insulating layers have different identifications.

As a further optimization, the number of the wires is four to ten.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model forms a winding structure at the intersection of the N leads by the N +1 braided wires to form a net-shaped braided structure, which has better deformation capability, is favorable for reducing material cost and overall weight, makes the product more portable and can increase the appearance;

2. the braided wire has elasticity and is combined with the wavy lead, so that the tensile property of the braided belt is enhanced;

3. the conductive wires and the tensile insulating layers are stranded, so that the tensile strength of the conductive wires is greatly improved, the conductive wires are not easy to break when repeatedly stretched and bent, and the service life of the braided belt is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the structure of the utility model when being stretched.

Fig. 3 is a schematic view of the winding structure at a in fig. 1.

Fig. 4 is a schematic view of a winding structure at B in fig. 1.

Fig. 5 is a schematic radial cross-sectional view of the wire of the present invention.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, an elastic woven belt containing a plurality of wires comprises a wire 1 and a woven wire 2, wherein the wire 1 is wave-shaped, the wires 1 are arranged in parallel and do not contact with each other, the utility model discloses a four wires have, in an adjacent pair of wires, a peak of a wire 1 extends into between a pair of troughs of another wire 1 adjacent to the peak, a trough of a wire 1 extends into between a pair of peaks of another wire 1 adjacent to the trough, the woven wire 2 is elastic fiber, the wires 2 are arranged in parallel and do not contact with each other, the woven wire 2 extends from one end of the wire 1 to the other end, and a winding structure is formed on the wire 1 for driving the wire 1 to generate displacement along the stretching direction of the woven wire 2, two woven wires 2 are arranged between the peaks and troughs of one wire 1, and the non-side of the wire 2 passes through the two adjacent wires 1, specifically, as shown in fig. 3, on the two wires at the side, which are away from the crest or trough of the wire at the middle, the braided wires are wound and positioned, for example, the braided wires can be twisted together at the non-wire by separating at the intersection with the wire to form a first braided wire 2a and a second braided wire 2b, and twisting together at the non-wire, thereby realizing a wound structure; as shown in fig. 4, a braided wire at a non-side passes through the side of the crest of a wire and the side of the trough of another wire in sequence, the braided wire can also be twisted at the non-side by winding the wires separately at the intersection with the wires to position and differential-wind two adjacent wires, in the utility model, the braided wire has elasticity and is combined with the wavy lead wire, so that the braided belt has better elastic tensile property, four wires are woven into a mesh structure through five weaving wires to form a weaving belt, the design of the mesh weaving structure can have better deformation capacity, but also is beneficial to reducing the material cost and the whole weight, leads the product to be more portable and can increase the appearance, and the weaving density is controlled according to the actual production requirement, and the telescopic capacity of the weaving belt is adjusted, such as the number of conductive wires is increased or reduced.

In an embodiment of the present invention, the braided wire 2 is made of spandex fiber, and specifically may be made by doubling and twisting two or more spandex filaments, which are doubled and twisted at both sides of the wire 1, and the wire 1 is twisted by untwisted elastic fiber at the intersection with the wire 1. The utility model discloses a weaving method does, at first with elastic fiber tensile, twists with it on tensile state to twine the wire in wire department, weave the completion back, get rid of the pulling force of applying on elastic fiber, elastic fiber contracts, forms promptly the utility model discloses an initial condition as shown in figure 1, when applying external force, elastic fiber is stretched and is driven the wire and produce lateral displacement, and the interval diminishes between the crest trough of wire, forms as shown in figure 2 state.

As shown in fig. 5, the lead 1 includes an insulating layer 11 and a cell 12, the cell 12 is wrapped in the insulating layer 11, the cell 12 is made of a plurality of conductive filaments by stranding, the diameter of the conductive filament is 0.035-0.08mm, and the number of the conductive filaments is fifteen to fifty.

The insulating layer 11 is made of teflon, the insulating layers 11 have different marks, for example, the insulating layers can be distinguished by different colors, such as white, red, blue and the like, and the insulating layers are coated on the outer side of the battery core to form the insulating layer, so that the insulating layer has the advantages of corrosion resistance, high temperature resistance and the like, the compressive strength of the insulating layer is 3000VAC/MIN, and the resistant temperature can reach 200 ℃.

The utility model discloses stranded by many conductive wires, tensile insulated wire and form for the tensile strength of conductor wire improves greatly, and the conducting layer is difficult to the breaking occur when flexible bending repeatedly, has improved the life of braid over braid.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides an elasticity braid over braid that contains many wires, its characterized in that, includes wire and braided wire, the wire is the wave, many wire parallel arrangement and not contact, the crest of wire stretches into between rather than a pair of trough of adjacent wire, the trough of wire stretches into between rather than a pair of crest of adjacent wire, the braided wire is elastic fiber, many braided wire parallel arrangement and not contact, the braided wire extends to the other end from the one end of wire, and forms winding structure on the wire and be used for driving the wire and produce the displacement along the tensile direction of braided wire, one be located on the wire between its crest and trough and be equipped with two braided wires, and the braided wire on non-avris passes two adjacent wires.

2. The elastic braided ribbon comprising a plurality of conductive wires as claimed in claim 1, wherein said braided wire is made of spandex fiber.

3. An elastic braided band comprising a plurality of wires according to claim 1 or 2, wherein said braided wire is made by cabling elastic fibers, which are cabled on both sides of the wires, and the wires are twisted at the wires by the untwisted elastic fibers.

4. The elastic braided ribbon comprising a plurality of wires according to claim 1, wherein the wires comprise an insulating layer and a core, the core is wrapped in the insulating layer, and the core is made by stranding a plurality of conductive filaments.

5. The elastic braided band containing a plurality of conductive wires as claimed in claim 4, wherein said conductive filaments have a diameter of 0.035-0.08 mm.

6. An elastic braided band containing a plurality of conductive wires as claimed in claim 4 or 5, wherein said conductive filaments are fifteen to fifty.

7. The elastic braided strap of claim 4, wherein said insulating layer is made of Teflon; a plurality of the insulating layers have different identifications.

8. An elastic braided band comprising a plurality of wires as claimed in claim 1 or 4, wherein said wires are four to ten.

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