CN109192380B

CN109192380B - Combined cable

Info

Publication number: CN109192380B
Application number: CN201811253178.1A
Authority: CN
Inventors: 王成
Original assignee: Shanghai Step Electric Corp
Current assignee: Shanghai Step Electric Corp
Priority date: 2018-10-25
Filing date: 2018-10-25
Publication date: 2024-05-17
Anticipated expiration: 2038-10-25
Also published as: CN109192380A

Abstract

The invention relates to a cable and discloses a combined cable. The combination cable includes: a plurality of wire harnesses arranged in parallel and connecting pieces arranged on the wire harnesses; the wire harness comprises a wire core, an insulating sleeve is coated on the wire core, and a connecting piece is arranged on the insulating sleeve; the connecting pieces on each wire harness are respectively arranged along the length direction of the wire harness, and the connecting piece on any wire harness is used for being detachably connected with the insulating sleeve on the other wire harness; each wire harness arranged in parallel is used for being sequentially wound along the same direction to form a single cable. Compared with the prior art, the cable with different numbers of wire cores is convenient to form, the use requirements of different circuits are met, the production cost is reduced, and the process steps are reduced.

Description

Combined cable

Technical Field

The invention relates to a cable, in particular to a combined cable.

Background

An elevator cable, which is a cable for supplying power and transmitting signals to an elevator when a car of the elevator moves up and down, is required to have good reliability and stability.

The current elevator cable is generally composed of a plurality of wire cores and an insulating sleeve wrapping the wire cores. In the production of the existing cable, a mould is designed according to the number of wire cores in the cable, and the cable with the preset number of wire cores is reproduced, so that an insulating sleeve and the wire cores of the cable are integrated. However, the inventor finds that in practical use, cables with different numbers of cores need to be used for different lines, but the cores of the existing cables are integrated with the insulating sleeve, so that the produced cables cannot be modified into cables with other numbers of cores. Therefore, in order to meet different use requirements, actual production requires the manufacture of multiple dies, producing multiple cables with different skilled cores. So that the production cost is too high and the production process steps are increased.

Disclosure of Invention

The invention aims to provide a combined cable which is used for forming cables with different numbers of wire cores, meets the use requirements of different circuits, reduces the production cost and reduces the process steps.

In order to solve the above technical problems, the present invention provides a combination cable, including: a plurality of wire harnesses arranged in parallel and a connecting piece arranged on each wire harness; the wire harness comprises a wire core and an insulating sleeve which is used for coating the wire core, and the connecting piece is arranged on the insulating sleeve;

The connecting pieces on each wire harness are respectively arranged along the length direction of the wire harness, and the connecting piece on any wire harness is used for being detachably connected with the insulating sleeve on the other wire harness;

Each wire harness arranged in parallel is used for being sequentially wound in the same direction to form a single cable.

Compared with the prior art, the wire harness comprises the wire core and the insulating sleeve which covers the wire core, the connecting piece is arranged on the insulating sleeve, and the connecting piece is detachably connected with the insulating sleeve on the other wire harness. Therefore, the wire harnesses can be spliced together, and then the connected wire harnesses are wound into a single cable along the same direction, so that the formation of the cable is realized. And then can splice the cable through the connecting piece according to the pencil volume of actual cable demand, nimble different circuits of satisfying in the in-service use to the demand of different cables, direct unify batch processing production pencil in processing production can, reduction in production cost has also reduced the process step.

In addition, the connecting piece on any wire harness is used for hinging with the insulating sleeve of the other wire harness.

In addition, the connecting piece is a hinge piece.

In addition, the hinge includes: the two hinge seats are arranged at two ends of the insulating sleeve of the wire harness along the length direction of the wire harness.

In addition, shaft holes are respectively formed at two ends of the insulating sleeve of any wire harness; the hinge seat all includes:

The base body is arranged on the insulating sleeve;

the hinge shaft is arranged on the seat body;

On any one wire harness, the axes of the two hinge shafts are parallel to the axes of the two shaft holes, and are respectively positioned at two sides of the insulating sleeve, and the two hinge shafts on any one wire harness are respectively inserted into the shaft holes at two ends of the insulating sleeve of the other wire harness.

In addition, each of the wire harnesses further includes: the first bonding piece and the second bonding piece are arranged on the upper surface of the insulating sleeve, and the second bonding piece is arranged on the lower surface of the insulating sleeve of each wire harness;

the first bonding member of any one wire harness is used for bonding with the second bonding member of the adjacent wire harness when being wound.

In addition, the first bonding piece and the second bonding piece are both magic tapes or adhesive films.

In addition, the upper surface of the insulating sleeve of each wire harness is provided with a groove, and the lower surface of the insulating sleeve of each wire harness is also provided with a protrusion for being embedded into the groove; the grooves and the protrusions are respectively arranged along the winding direction of each wire harness;

the first bonding piece is arranged in the groove of the wire harness, and the second bonding piece is arranged on the protrusion of the wire harness.

In addition, the protrusion is in interference fit with the groove.

Drawings

Fig. 1 is a schematic view showing the structure of a wire harness in a detachable combined cable according to a first embodiment of the present invention;

FIG. 2 is a schematic view showing the structure of the detachable combined cable according to the first embodiment of the present invention in which the wire bundles are connected together;

FIG. 3 is a cross-sectional view of a first embodiment of the invention with the bundles connected together in a removable modular cable;

fig. 4 is a schematic view showing a structure of a wire harness rolled up into a cable according to a first embodiment of the present invention;

FIG. 5 is a schematic view showing the structure of the upper surface of a detachable combined cable according to a second embodiment of the present invention;

Fig. 6 is a schematic view of the structure of the lower surface of a detachable combined cable according to a second embodiment of the present invention;

Fig. 7 is a schematic view of a wire harness reel-up cable according to a second embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, those of ordinary skill in the art will understand that in various embodiments of the present application, numerous technical details have been set forth in order to provide a better understanding of the present application. The technical solutions claimed in the claims of the present application can be realized without these technical details and various changes and modifications based on the following embodiments.

The first embodiment of the present invention relates to a combination cable, as shown in fig. 1,2 and 4, which includes a plurality of wire harnesses 1 arranged in parallel, and connectors provided on each wire harness 1, wherein the wire harnesses 1 include a wire core 11, and an insulating sheath 12 covering the wire core 11, and the connectors are provided on the insulating sheath 12. The connectors on each wire harness 1 are respectively arranged along the length direction of the wire harness 1, the connector on any wire harness 1 is used for being detachably connected with the insulating sleeve 12 on the other wire harness 1, and each wire harness 1 arranged in parallel is used for being sequentially wound along the same direction to form a single cable. That is, when the cable is required to be used, the number of the wire harnesses 1 is selected according to the requirement of the wire harnesses 1 in the cable required to be used, the connecting piece of each wire harness 1 is connected with the insulating sleeve 12 of the wire harness 1 required to be adjacent to the wire harness 1, so that the two wire harnesses 1 are connected together, the other wire harnesses 1 are repeatedly connected, the number of the wire harnesses 1 connected together meets the use requirement of the cable, and finally the wire harnesses 1 connected together are wound to form a single cable to be used. Taking 10 required cable harnesses 1 as an example, 10 harnesses 1 are sequentially connected together, and then the harnesses 1 are coiled into a single cable as shown in the figure.

In addition, the insulating sleeve 12 is composed of a carbon fiber insulating layer and a carbon fiber insulator, and because the carbon fiber material has higher strength and better flexibility compared with the traditional PVC material, the phenomena of abrasion, cracking and aging of the insulator during bending of the cable can be effectively prevented, the service life of the whole cable is safely and effectively prolonged, and meanwhile, the insulating sleeve 12 coated on the surface of each cable core 11 can be omitted. Meanwhile, since the carbon fiber material has lighter weight and better elastic restoring ability than the conventional PVC material, each wire harness 1 can be wound to a proper arc when wound. And because the carbon fiber insulating layer and the carbon fiber insulator are integrally formed, the isolation capability between each bundle of wire cores 11 is further improved, so that stable signal transmission is ensured, and cracking, abrasion and aging phenomena of the insulating layer caused by repeated bending of the cable are avoided.

From the above, it is apparent that since the wire harness 1 includes the wire core 11 and the insulating sheath 12 covering the wire core 11, the insulating sheath 12 is provided with the connection member, and the connection member is detachably connected with the insulating sheath 12 on the other wire harness 1. Therefore, the wire harnesses 1 can be spliced together, and the connected wire harnesses 1 are wound into a single cable along the same direction, so that the formation of the cable is realized. And then can splice the cable through the connecting piece according to the pencil 1 volume of actual cable demand, nimble satisfy the demand of different circuits in the in-service use to different cables, direct unify batch processing production pencil 1 in processing production can, reduction in production cost has also reduced the process step.

Further, the connector on any one harness 1 is used for hinging with the insulating sleeve 12 of the other harness 1.

Optionally, the connector is a hinge.

In addition, as shown in fig. 2 and 3, the hinge member includes two hinge seats, namely, hinge seat 5 and hinge seat 6, respectively, which are disposed at both ends of insulation sleeve 12 of wire harness 1 along the length direction of wire harness 1, and the two hinge seats have the same structure.

Specifically, as shown in fig. 2 and 4, the two ends of the insulating sleeve 12 of any wire harness 1 are respectively provided with a shaft hole 3 and a shaft hole 4, the hinge base 5 includes a base body 51 and a hinge shaft 52, the base body 51 is disposed on the insulating sleeve 12, and the hinge shaft 52 is disposed on the base body 51. Similarly, the hinge bases 6 each include a base body 61 and a hinge shaft 62, and the base body 51 and the base body 61 are disposed opposite to each other on the insulating bush 12. The hinge shaft 52 is arranged on the seat body 51, the spring member 7 is arranged in the seat body 51, and the hinge shaft 52 is arranged on the seat body 51 in a manner of pressing against the spring member 7. When the hinge shaft 52 is inserted into the corresponding shaft hole 3, the hinge shaft 52 presses the spring member 7 to contract in a direction away from the shaft hole 3, and after the hinge shaft 52 is aligned to the shaft hole 3, the hinge shaft 52 can be pushed out into the shaft hole 3 by the spring member 7 against which it is pressed. Similarly, the hinge shaft 62 is disposed in the seat body 61 on the seat body, and the spring member 8 is also disposed in the seat body 61, and the hinge shaft 62 abuts against the spring member 8. When the hinge shaft 62 is inserted into the corresponding shaft hole 4, the hinge shaft 62 presses the spring member 8 to contract in a direction away from the shaft hole 4, and after the hinge shaft 62 is aligned to the shaft hole 4, the hinge shaft 62 can be pushed out into the shaft hole 4 by the spring member 8 against which it is pressed. Thereby connecting the two wire harnesses 1 together. On any wire harness 1, the axes of the two hinge shafts are parallel to the axes of the two shaft holes and are respectively positioned at two sides of the insulating sleeve 12, and the two hinge shafts on any wire harness 1 are respectively inserted into the shaft holes at two ends of the insulating sleeve 12 of the other wire harness 1.

A second embodiment of the invention relates to a detachable modular cable. The second embodiment is a further improvement of the first embodiment. In the present embodiment, as shown in fig. 5 and 6, each wire harness 1 further includes a first adhesive member 9 and a second adhesive member 10, and the first adhesive member 9 is provided on the upper surface of the insulating sheath, and the second adhesive member 10 is provided on the lower surface of the insulating sheath of each wire harness 1. The first adhesive member 9 of any one wire harness 1 is used to adhere to the second adhesive member 10 of an adjacent wire harness 1 at the time of winding.

As shown in fig. 7, taking an example in which 10 wire harnesses 1 are provided, after 10 wire harnesses 1 are connected together, the first wire harness 1 starts to be wound up to the tenth wire harness 1, and at this time, the first wire harness 1 is positioned at the innermost side of the formed cable and the tenth wire harness 1 is positioned at the outermost side of the formed cable. The first bonding member 9 of the ninth wire harness 1 is bonded to the second bonding member 10 of the first wire harness 1, and the first bonding member 9 of the tenth wire harness 1 is bonded to the second bonding member 10 of the second wire harness 1, so that the cables are not scattered after the wire harnesses 1 are wound into the cables. In actual use, there are also more first bonding members 9 and second bonding members 10 on the wire harness 1 according to the actual winding situation.

Optionally, the first adhesive member 9 and the second adhesive member 10 are both velcro or adhesive films.

Further, as shown in fig. 5 and 6, the upper surface of the insulating sheath of each wire harness 1 is provided with a groove 20, the lower surface of the insulating sheath of each wire harness 1 is further provided with a protrusion 21 for embedding the groove 20, and the groove 20 and the protrusion 21 are respectively arranged along the winding direction of each wire harness 1. The first adhesive member 9 is disposed in the groove 20 of the wire harness 1, and the second adhesive member 10 is disposed on the projection 21 of the wire harness 1. The grooves 20 are communicated to form an integral channel, so that after each wire harness 1 is wound into a cable, at least one protrusion 21 can be embedded into the corresponding groove 20, and at the moment, the first bonding piece 9 in the groove 20 can be adhered to the second bonding piece 10 on the protrusion 21 embedded into the groove 20, and the wound wire harnesses 1 are not easy to scatter to form the cable. As shown in fig. 7, the projection 21 on the first harness 1 is fitted into the groove 20 of the ninth harness 1, and the projection 21 on the second harness 1 is fitted into the groove 20 of the tenth harness 1. In practical use, the number of the wound wire harnesses 1 is different, and more protrusions 21 can be embedded into the corresponding grooves 20 after winding in the formed cable, so that the cable with a difficult fixed form is formed.

It is further noted that the protrusion 21 is an interference fit with the recess 20.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples of carrying out the invention and that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A combination cable, characterized in that: comprising the following steps: a plurality of wire harnesses arranged in parallel and a connecting piece arranged on each wire harness; the wire harness comprises a wire core and an insulating sleeve which is used for coating the wire core, and the connecting piece is arranged on the insulating sleeve;

each wire harness arranged in parallel is used for sequentially winding the wire harnesses along the same direction to form a single cable;

The connecting piece on any wire harness is used for being hinged with the insulating sleeve of the other wire harness, and the connecting piece is a hinge piece; the hinge includes: the two hinging seats are arranged at two ends of the insulating sleeve of the wire harness along the length direction of the wire harness;

shaft holes are respectively formed at two ends of the insulating sleeve of any wire harness; the hinge seat all includes:

the base body is arranged on the insulating sleeve, and a spring piece is arranged in the base body;

The hinge shaft is arranged on the seat body in a propping way by the spring piece;

On any wire harness, the axes of the two hinge shafts are parallel to the axes of the two shaft holes and are respectively positioned at two sides of the insulating sleeve, and the two hinge shafts on any wire harness are respectively inserted into the shaft holes at two ends of the insulating sleeve of the other wire harness;

When the hinge shaft is inserted into the corresponding shaft hole, the hinge shaft presses the spring element to shrink towards the direction away from the shaft hole, and after the hinge shaft is aligned to the shaft hole, the hinge shaft can be pushed out into the shaft hole by the spring element which is pressed by the hinge shaft;

Each of the wire harnesses further includes: the first bonding piece and the second bonding piece are arranged on the upper surface of the insulating sleeve, and the second bonding piece is arranged on the lower surface of the insulating sleeve of each wire harness; the first bonding piece of any wire harness is used for bonding with the second bonding piece of the adjacent wire harness when being wound; when ten wire harnesses are arranged, a first wire harness is positioned at the innermost side of the formed cable, a tenth wire harness is positioned at the outermost side of the formed cable, a first bonding piece on a ninth wire harness is bonded to a second bonding piece on the first wire harness, and a first bonding piece on the tenth wire harness is bonded to a second bonding piece on the second wire harness;

the upper surface of the insulating sleeve of each wire harness is provided with a groove, and the lower surface of the insulating sleeve of each wire harness is also provided with a protrusion for being embedded into the groove; the grooves and the protrusions are respectively arranged along the winding direction of each wire harness; the first bonding piece is arranged in the groove of the wire harness, and the second bonding piece is arranged on the protrusion of the wire harness; the protrusion is in interference fit with the groove.

2. The combination cable of claim 1, wherein: the first bonding piece and the second bonding piece are both magic tapes or adhesive films.