CN218788284U - Cross folding elastic braided electric lead - Google Patents

Abstract

A cross folding elastic braided electric lead, in particular to a telescopic anti-snapping cross folding elastic braided electric lead. First electric wire group, second electric wire group are the wave structure, and first electric wire group is located the crisscross superpose of second electric wire group top, and first electric wire group, second electric wire group wave kink opposite in the horizontal direction, and the elastic connection area is located between first electric wire group and the second electric wire group wave straightway and is connected with the winding of elastic connection area at first electric wire group and the second electric wire group wave straightway department. Two wires are a set of, and two sets of wires are alternately arranged with the wave structure opposition, and each wire of a plurality of stretch cord twines through stretch cord and the mode that the wire winding was woven for the electric wire is spacing by stretch cord when receiving tensile, and the pulling of external force can not lead to the fact the direct damage of pulling to the electric wire, very big improvement in the use the safety in utilization of wire rod, improvement wire rod's life.

Description

Cross folding elastic braided electric lead

Technical Field

The utility model relates to an electric lead is woven to alternately folding elasticity, concretely relates to electric lead is woven to alternately folding elasticity that scalable prevent snapping.

Background

The electric wire is the consumptive material commonly used among the daily life, by the wide application on various electrical apparatus, be indispensable wire rod, current electric wire is mostly insulating layer cladding sinle silk structure, and wire rod length is comparatively fixed, the insulating layer has certain elasticity, but, easily with insulating outer destruction when the wire rod receives excessive external force to drag, and then break the wire rod, in daily use, especially when the short distance uses, after the wire rod is dragged, because the wire rod lacks elasticity, can all drag electrical apparatus and plug socket simultaneously, probably lead to the fact the damage to the plug, and can fall the electrical apparatus, cause the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to defect among the prior art or not enough, a alternately folding elasticity woven electrical conductor is provided, two wires are a set of, two sets of wires are alternately arranged with the wave structure opposition, simultaneously with each wire of a plurality of stretch cord winding, through the mode that stretch cord and wire winding were woven, it is spacing by the stretch cord to make the electric wire receive tensile, the damage can not lead to the fact directness to the electric wire to dragging of external force, very big improvement in the use the safety in utilization of wire rod, the life of wire rod is improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: it contains first electric wire group 1, second electric wire group 2, stretch cord group 3, elastic connecting band 4, first electric wire group 1, second electric wire group 2 is the wave structure, first electric wire group 1 is located 2 top alternately superpositions of second electric wire group, first electric wire group 1, opposition on the 2 wave kink horizontal direction of second electric wire group, stretch cord group 3 alternately twines first electric wire group 1 and 2 wave straight line sections departments of second electric wire group, elastic connecting band 4 is located between first electric wire group 1 and the 2 wave straightway of second electric wire group and is connected with the winding of stretch cord group 3.

The first electric lead group 1 comprises a first lead 1-1 and a second lead 1-2, and the first lead 1-1 and the second lead 1-2 are mutually wound and arranged in parallel to form a wave-shaped structure.

The second electric lead group 2 comprises a third lead 2-1 and a fourth lead 2-2, and the third lead 2-1 and the fourth lead 2-2 are mutually wound and arranged in parallel to form a wavy structure.

The elastic rope group 3 comprises a first elastic rope 3-1, a second elastic rope 3-2, a third elastic rope 3-3 and a fourth elastic rope 3-4, the first elastic rope 3-1, the second elastic rope 3-2, the third elastic rope 3-3 and the fourth elastic rope 3-4 are identical in structure, the first elastic rope 3-1 and the fourth elastic rope 3-4 are outer side ropes and are wound in the same mode, the second elastic rope 3-2 and the third elastic rope 3-3 are inner side ropes and are wound in the same mode, the first elastic rope 3-1 and the fourth elastic rope 3-4 firstly wind around the top of one section of crossed section of the first electric lead group 1 and the second electric lead group 2 and are wound and connected with the first electric lead group 1 and the second electric lead group 2, then wind and connect with the elastic connecting belt 4 downwards, and then penetrate through the bottom of the other section of crossed section of the first electric lead group 1 and the second electric connecting belt 2 to be wound and connected with the elastic connecting belt 4, the repeated winding mode is connected with the first elastic rope 1-3, the second elastic rope 3-3 and the elastic rope 3-4 in the crossed sequence.

The first elastic rope 3-1 comprises a first winding rope 3-1-1 and a second winding rope 3-1-2, the first winding rope 3-1-1 is connected with the first electric lead group 1 and the second electric lead group 2 in a winding manner below-up-down-up manner, and the second winding rope 3-1-2 is connected with the first electric lead group 1 and the second electric lead group 2 in a winding manner above-down-up-down manner.

Elastic belts 5 are arranged in the first winding rope 3-1-1 and the second winding rope 3-1-2.

After the technical scheme is adopted, the utility model discloses beneficial effect does: two wires are a set of, and two sets of wires alternately arrange with the wave structure opposition, simultaneously with each wire of a plurality of stretch cord windings, through the mode that stretch cord and wire winding were woven for the electric wire is spacing by the stretch cord when receiving tensile, and pulling of external force can not lead to the fact the direct damage of pulling to the electric wire, the very big improvement in the use the safety in utilization of wire rod, the life of improvement wire rod.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

FIG. 2 is another angular view of FIG. 1;

FIG. 3 is a schematic view of the first elastic string 3-1 and the first electric wire set 1 of the present invention;

fig. 4 is a schematic diagram of the arrangement structure of the first and second electric wire sets 1 and 2 according to the present invention.

Description of reference numerals: the elastic rope comprises a first electric lead group 1, a second electric lead group 2, an elastic rope group 3, an elastic connecting belt 4, an elastic belt 5, a first lead 1-1, a second lead 1-2, a first elastic rope 3-1, a second elastic rope 3-2, a third elastic rope 3-3, a fourth elastic rope 3-4, a first winding rope 3-1-1 and a second winding rope 3-1-2.

Detailed Description

Referring to fig. 1 to 4, the technical solution adopted by the present embodiment is: the elastic connecting band comprises a first electric lead group 1, a second electric lead group 2, an elastic rope group 3 and an elastic connecting band 4, wherein the first electric lead group 1 and the second electric lead group 2 are both of a wave-shaped structure, the first electric lead group 1 is positioned above the second electric lead group 2 in a crossed and superposed mode, wave-shaped bent parts of the first electric lead group 1 and the second electric lead group 2 are opposite in the horizontal direction, the elastic rope group 3 is wound at wave-shaped straight line sections of the first electric lead group 1 and the second electric lead group 2 in a crossed mode, the elastic connecting band 4 is positioned between the wave-shaped straight line sections of the first electric lead group 1 and the second electric lead group 2 and is wound and connected with the elastic rope group 3, the first electric lead group 1 comprises a first lead 1-1 and a second lead 1-2, the first lead 1-1 and the second lead 1-2 are wound and arranged in parallel to form a wave-shaped structure, the second electric lead group 2 comprises a third lead 2-1 and a fourth lead 2-2, and the third lead 2-1 and the fourth lead 2-2 are wound and arranged in parallel to form a wave-shaped structure. Adopt four wires and stretch cord to twine in this embodiment and weave, wherein, two wires are a set of, every group all folds into wave structure, two sets of wire alternately superposes, and crest opening horizontal direction sets up relatively, the structure of alternately arranging can reduce the whole width of wire, and the width can be set up according to the production user demand, satisfy different user demands, stretch cord group 3 is the holistic elastic stretching structure of wire, be alternately winding relation with the wire, can carry on spacingly to the wire when tensile, prevent that the wire from being damaged by overstretching, stretch connecting band 4 is as the intermediate junction section, it connects the stretch cord to lie in wire main part, the main part that the wire folded has been connected promptly, the stretch cord has been connected again, play effectual guard action to the stretch cord, when receiving the pulling at every turn, stretch connecting band 4 all can stretch in step, make stretch cord wholly can not receive single tensile effort, it receives stretch effort partly dispersion to stretch connecting band 4, stretch the stretch cord is broken in the twinkling of an eye when avoiding receiving energetically, thereby furthest's the normal use of protection wire.

Further, the elastic rope group 3 comprises a first elastic rope 3-1, a second elastic rope 3-2, a third elastic rope 3-3 and a fourth elastic rope 3-4, the first elastic rope 3-1, the second elastic rope 3-2, the third elastic rope 3-3 and the fourth elastic rope 3-4 are identical in structure, the first elastic rope 3-1 and the fourth elastic rope 3-4 are outer side ropes and are wound in the same mode, the second elastic rope 3-2 and the third elastic rope 3-3 are inner side ropes and are wound in the same mode, the first elastic rope 3-1 and the fourth elastic rope 3-4 firstly bypass from the top of a section of cross section of the first electric conductor group 1 and the second electric conductor group 2 and are wound and connected with the first electric conductor group 1 and the second electric conductor group 2, then are wound and connected with the elastic connecting belt 4 downwards, then the bottom of a section of the first electric conductor group 1 and the second electric conductor group 2 penetrates through the elastic rope and is wound and connected with the elastic connecting belt 4, the bottom of the section of the first electric conductor group 1 and the second electric conductor group 2 is wound and connected with the elastic rope 3-3, the elastic rope 3-3 and the second elastic rope, and the elastic rope are wound and are connected with the elastic rope in a reverse order. The elastic rope group 3 is composed of four elastic ropes, two outer sides are a group, two inner sides are a group, the outer elastic ropes are wound in the same mode as the conducting wires, the inner elastic ropes are wound in the same mode as the conducting wires, and the outer elastic ropes and the conducting wires are wound with the cross parts of the conducting wires in an upper mode and a lower mode respectively, so that the segmented fixing effect is achieved, the manufacturing is simpler, and the extension effect is better.

Further, the first elastic rope 3-1 comprises a first winding rope 3-1-1 and a second winding rope 3-1-2, the first winding rope 3-1-1 is wound and connected with the first electric lead group 1 and the second electric lead group 2 in a lower-upper-lower-upper mode, and the second winding rope 3-1-2 is wound and connected with the first electric lead group 1 and the second electric lead group 2 in a higher-lower-upper-lower mode. Every stretch cord equallys divide into upper and lower two parts, alternately twines the wire from upper and lower two directions, and is better to the fixed effect of wire, is difficult for the pine to take off.

Furthermore, elastic belts 5 are arranged in the first winding rope 3-1-1 and the second winding rope 3-1-2. The elastic band 5 is arranged in the elastic rope, the elastic band 5 is made of elastic materials, and the whole elastic rope is formed by a weaving structure, so that the elastic effect of the elastic rope is ensured.

The utility model discloses a theory of operation: in the embodiment, four wires and elastic ropes are adopted for winding and weaving, wherein two wires are in a group, each group is folded into a wavy structure, two groups of wires are overlapped in a crossed manner, the horizontal directions of wave crest openings are oppositely arranged, and the elastic ropes are in four groups, wherein the first elastic rope 3-1 and the fourth elastic rope 3-4 are outer side ropes and are wound in the same manner, the second elastic rope 3-2 and the third elastic rope 3-3 are inner side ropes and are wound in the same manner, the inner side elastic ropes and the outer side elastic ropes are in a crossed winding sequence, namely, when the elastic ropes are wound with the wires, the outer side elastic ropes are arranged on the upper layer, and the inner side elastic ropes are arranged on the lower layer, so that the elastic ropes are wound in a crossed manner at each section of wavy straight line segment structure, the fastening effect is ensured, the elastic ropes and the wires are also in a vertically crossed manner from the local parts to the whole, the wires are wound in a crossed manner, when the wires are integrally stretched, the stretching effect can be realized, the wires can be prevented from being broken due to excessive stretching, and the service life of the wires is greatly prolonged.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A cross-folded, resilient braided electrical conductor characterized by: it contains first electric wire group (1), second electric wire group (2), elastic cord group (3), elastic connecting band (4), first electric wire group (1), second electric wire group (2) are the wave structure, first electric wire group (1) is located second electric wire group (2) top alternately superpose, first electric wire group (1), second electric wire group (2) wave kink horizontal direction is opposite, elastic cord group (3) cross winding first electric wire group (1) and second electric wire group (2) wave straight line section department, elastic connecting band (4) are located between first electric wire group (1) and second electric wire group (2) the wave straightway and are connected with elastic cord group (3) winding.

2. A cross-folded, resilient, braided electrical conductor according to claim 1, wherein: the first electric lead group (1) comprises a first lead (1-1) and a second lead (1-2), and the first lead (1-1) and the second lead (1-2) are mutually wound and arranged in parallel to form a wave-shaped structure.

3. A cross-folded, resilient, braided electrical conductor according to claim 1, wherein: the second electric lead group (2) comprises a third lead (2-1) and a fourth lead (2-2), and the third lead (2-1) and the fourth lead (2-2) are mutually wound and arranged in parallel to form a wave-shaped structure.

4. A cross-folded, resilient, braided electrical conductor according to claim 1, wherein: the elastic rope group (3) comprises a first elastic rope (3-1), a second elastic rope (3-2), a third elastic rope (3-3) and a fourth elastic rope (3-4), the first elastic rope (3-1), the second elastic rope (3-2), the third elastic rope (3-3) and the fourth elastic rope (3-4) are of the same structure, the first elastic rope (3-1) and the fourth elastic rope (3-4) are outer ropes and are wound in the same mode, the second elastic rope (3-2) and the third elastic rope (3-3) are inner ropes and are wound in the same mode, the first elastic rope (3-1) and the fourth elastic rope (3-4) are wound around the top of a section of a first electric conductor group (1), the second electric conductor group (2) and are wound and connected with the first electric conductor group (1) and the second electric conductor group (2) and then are wound and connected with the elastic connecting band (4) downwards, and then are connected with the elastic rope group (3-4) and connected with the first elastic rope (3-1) and the second electric conductor group (3-3) and the second elastic rope (3-4) and are wound and connected with the elastic rope (3-4) in sequence, and the first elastic rope (3-1) and the second elastic rope (3-4) and the second elastic rope (3-4) and the second elastic rope are wound and are connected with the elastic rope (3) and the elastic rope (3-4) and are connected with the elastic rope and the elastic rope in a second elastic rope winding mode, the second elastic rope (3-2) is wound in the opposite order in a crossing way.

5. A cross-folded, resilient braided electrical conductor according to claim 4, wherein: the first elastic rope (3-1) comprises a first winding rope (3-1-1) and a second winding rope (3-1-2), the first winding rope (3-1-1) is connected with the first electric lead group (1) and the second electric lead group (2) in a winding manner in a lower-upper-lower-upper manner, and the second winding rope (3-1-2) is connected with the first electric lead group (1) and the second electric lead group (2) in a winding manner in a upper-lower-upper-lower manner.

6. A cross-folded, resilient, braided electrical conductor according to claim 5, wherein: elastic belts (5) are arranged in the first winding rope (3-1-1) and the second winding rope (3-1-2).

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