CN211701304U

CN211701304U - Anti-winding device for wiring cable

Info

Publication number: CN211701304U
Application number: CN201921917199.9U
Authority: CN
Inventors: 杨赣斌
Original assignee: Individual
Current assignee: Shenzhen Badu Photoelectric Technology Co ltd
Priority date: 2019-11-08
Filing date: 2019-11-08
Publication date: 2020-10-16
Anticipated expiration: 2029-11-08

Abstract

The utility model provides a wiring cable antiwind device, belong to cable technical field, be provided with the wiring groove among the device, the actinobacillus board, the unwrapping wire recess, compression spring, tensile pole, handle and magnetic block, during the wiring, separately put into the cable conductor on the actinobacillus board in the wiring groove, its cable conductor can fall into and place in the unwrapping wire recess, the unwrapping wire in-process can be pressed pressure spring down, make the wiring nimble, pull out tensile pole through the handle, handle one end is inhaled with the magnetic block mutually, accomplish solidus processing to the cable conductor of inslot, and after compression spring resets, to ascending apical force of cable conductor, decide the cable conductor on tensile pole, can prevent that the cable conductor is not hard up, and the setting is separated to wiring groove list, reduce the electric heat production between the cable conductor, avoid the easy winding condition that takes place of cable conductor, it opens the cable conductor when also making things convenient for maintenance.

Description

Anti-winding device for wiring cable

Technical Field

The utility model relates to the technical field of cables, more specifically the utility model relates to a wiring cable anti-winding device that says so.

Background

The cable is a wire product for transmitting electric energy and electric signals and realizing electromagnetic energy conversion, and generally consists of a cable core for transmitting the electric energy or the electric signals and a sheath for protecting and insulating, wherein the cable core in the cable is made of a metal material with good electric conductivity, and generally copper or aluminum is used, so that the cost is low and the electric conductivity is good.

Can bind the cable conductor together one by one during traditional cable wiring, can produce the electric heat during cable conductor transmission electric energy, can make to have a lot of electrostatic force to attract between the cable conductor, lead to cable conductor self very easy winding together and hardly untie, bring certain influence to carrying the electric energy, and fragile cable conductor itself, consequently need make further innovation on this basis, provide a wiring cable anti-winding device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that cables are bound together and generate electric heat when the cables transmit electric energy, so that a plurality of electrostatic forces between the cables are attracted, the cables are easily wound together and are difficult to untwist, and certain influence is brought to the electric energy transmission, and provides an anti-winding device for the wired cables, which is provided with a wiring groove, a paying-off plate, a paying-off groove, a pressure spring, a stretching rod, a handle and a magnetic block, when in wiring, the cables are separately placed on the paying-off plate in the wiring groove, the cables can fall into the paying-off groove to be placed, the pressure spring can be pressed down in the paying-off process, so that the wiring is flexible, the stretching rod is pulled out through a handle, one end of the handle is attracted with the magnetic block, the cable fixing treatment is completed on the cables in the groove, and after the pressure spring is reset, the upward jacking force is applied to the cables, the cables are, can prevent that the cable conductor is not hard up, and the single division of wiring groove sets up, reduces the electric heat production between the cable conductor, avoids the easy winding condition that takes place of cable conductor, and the division cable conductor when also conveniently overhauing.

In order to achieve the above object, the utility model provides a following technical scheme: an anti-winding device for a wiring cable comprises a wiring device, a slot cover and a wiring slot, wherein the slot cover is movably connected to the middle of the front surface of the wiring device, and the wiring slot is embedded in the wiring device;

the antistatic coating is tightly attached to the surface layer of the back surface of the groove cover through glue;

pay off plate swing joint is in the centre of the inside below of wiring groove, and the equal swing joint of pressure spring is in the centre of the inside bottom of wiring groove, and first magnetic pole piece embedding sets up the left side in the middle of the inside of wiring groove, and second magnetic pole piece embedding sets up the right side in the middle of the inside of wiring groove, and tensile pole swing joint is in the left side of the inside top of wiring groove, and the magnetic piece embedding sets up the right side in the inside top of wiring groove.

Further: the antistatic coating is made of epoxy antistatic coating.

Further: a plurality of paying-off grooves are formed in the paying-off plate, and the two sides of the paying-off plate are of arc-shaped structures.

Further: all leave 2cm clearance distance between the pressure spring, and the pressure spring top all is connected with the unwrapping wire board bottom surface.

Further: the first magnetic pole block and the second magnetic pole block are same-polarity magnetic pole blocks.

Further: the stretching rod is a single-stage stretching rod, the right side of the stretching rod is provided with a handle, and the handle is made of iron materials.

Further: the magnetic block is connected with the handle in a magnetic combination manner.

Has the advantages that:

(1) be provided with the wiring groove among the device, the drawing board, the unwrapping wire recess, compression spring, tensile pole, handle and magnetic block, during the wiring, separately put into the cable conductor on the drawing board of wiring inslot, its cable conductor can fall into and place in the unwrapping wire recess, the unwrapping wire in-process can be pressed down compression spring, make the wiring nimble, pull out tensile pole through the handle, handle one end and magnetic block attract each other, accomplish solid line processing to the cable conductor in the groove, and compression spring resets the back, to the ascending apical force of cable conductor, decide the cable conductor on tensile pole, can prevent that the cable conductor from becoming flexible, and the setting is separated to wiring groove list, reduce the electric heat production between the cable conductor, avoid the easy winding condition that takes place of cable conductor, the division cable conductor when also conveniently overhauing.

(2) First magnetic pole piece and second magnetic pole piece can produce mutual repulsion effort in the wiring groove for the difficult gathering of the static suction that produces on the cable conductor is on the cable conductor, further prevents that the cable conductor from twining.

(3) The anti-static coating can eliminate some electrostatic force generated when the cable in the wiring groove transmits power, so that the cable can be reduced to be influenced by the electrostatic force.

Drawings

Fig. 1 is a schematic view of the overall front view structure of the present invention.

Fig. 2 is a schematic view of the back structure of the slot cover of the present invention.

Fig. 3 is a schematic view of the internal sectional structure of the wiring device of the present invention.

Fig. 4 is the schematic diagram of the internal structure of the wiring groove of the present invention.

In FIGS. 1-4: the wiring device comprises a wiring device 1, a groove cover 2, an antistatic coating 201, a wiring groove 3, a pay-off plate 301, a pressure spring 302, a first magnetic pole block 303, a second magnetic pole block 304, a stretching rod 305 and a magnetic block 306.

Detailed Description

The utility model discloses in wiring arrangement 1 that uses, antistatic coating 201, unwrapping wire board 301, compression spring 302, first magnetic pole piece 303, second magnetic pole piece 304, tensile pole 305 and magnetic block 306 all can be through market purchase or private customization income.

Example (b):

referring to fig. 1 to 4, in an embodiment of the present invention, an anti-winding device for a wiring cable includes a wiring device 1, a slot cover 2 and a wiring slot 3, wherein the slot cover 2 is movably connected to the middle of the front surface of the wiring device 1, and the wiring slot 3 is embedded in the wiring device 1;

the antistatic coating 201 is tightly attached to the surface layer of the back surface of the groove cover 2 through glue;

pay off plate 301 swing joint is in the centre of wiring groove 3 inside below, and the equal swing joint of pressure spring 302 is in the centre of wiring groove 3 inside bottom, and first magnetic pole piece 303 embedding sets up the left side in the middle of wiring groove 3 is inside, and the embedding of second magnetic pole piece 304 sets up the right side in the middle of wiring groove 3 is inside, and tensile pole 305 swing joint is in the left side of wiring groove 3 inside top, and the embedding of magnetic pole piece 306 sets up the right side in the inside top of wiring groove 3.

In this embodiment, preferably, the anti-static coating 201 is made of epoxy type anti-static coating, and the anti-static coating 201 can eliminate some electrostatic force generated during power transmission of the cable in the wiring groove 3, so that the cable is less affected by the electrostatic force; a plurality of paying-off grooves are formed in the paying-off plate 301, the two sides of the paying-off plate 301 are both arranged in an arc-shaped structure, cables are separately placed on the paying-off plate 301 in the wiring groove 3, the cables can fall into the paying-off grooves to be placed, and the cables are separated; 2cm gap distance is reserved among the pressure springs 302, the top of each pressure spring 302 is connected with the bottom surface of the pay-off plate 301, the pressure springs 302 are pressed down in the pay-off process, wiring is flexible, after the pressure springs 302 reset, upward jacking force is exerted on the cable, the cable is fixed on the stretching rod 305, and the cable can be prevented from loosening; the first magnetic pole block 303 and the second magnetic pole block 304 are same-polarity magnetic pole blocks, and the first magnetic pole block 303 and the second magnetic pole block 304 can generate mutual repulsive force in the wiring groove 3, so that electrostatic attraction generated on a cable line is not easy to gather on the cable line, and the cable line is further prevented from being wound; the stretching rod 305 is a single-stage stretching rod 305, the right side of the stretching rod 305 is a handle made of ferrous materials, the stretching rod 305 is pulled out through the handle, one end of the handle is attracted with the magnetic block 306, and cable fixing treatment is completed on a cable in the groove; the magnetic block 306 is connected with the handle in a magnetic combination mode, the trouble of punching in the groove is avoided due to the arrangement of the magnetic block 306, and the wiring groove 3 is easily damaged due to punching and fixing.

The working principle is as follows:

when the anti-winding device for the wiring cable is used, firstly, during wiring, the cable is separately placed on the pay-off plate 301 in the wiring groove 3, the cable can fall into the pay-off groove for placement, the pressure spring 302 can be pressed down during the pay-off process, so that the wiring is flexible, the stretching rod 305 is pulled out through the handle, one end of the handle is attracted with the magnetic block 306, the cable fixing treatment is completed on the cable in the groove, and after the pressure spring 302 is reset, the upward jacking force is applied to the cable, the cable is fixed on the stretching rod 305, the cable can be prevented from being loosened, the wiring groove 3 is separately arranged, the electric heat generation between the cables is reduced, the situation that the cable is easy to be wound is avoided, meanwhile, the first magnetic pole block 303 and the second magnetic pole block 304 can generate mutual repulsion acting force in the wiring groove 3, so that the electrostatic suction force generated on the cable is not easy to be gathered on the cable, further preventing the cable from being wound, and finally, the anti-static coating 201 can eliminate some electrostatic force generated when the cable in the wiring groove 3 transmits power, so that the cable can be less affected by the electrostatic force.

Claims

1. The utility model provides a wiring cable antiwind device, includes wiring device (1), capping (2) and wiring groove (3), its characterized in that: the middle part of the front surface of the wiring device (1) is movably connected with a groove cover (2), and wiring grooves (3) are embedded in the wiring device (1);

the antistatic coating (201) is tightly attached to the surface layer of the back of the groove cover (2) through glue;

pay off plate (301) swing joint is in the centre of wiring groove (3) inside below, the equal swing joint of pressure spring (302) is in the centre of wiring groove (3) inside bottom, first magnetic pole piece (303) embedding sets up the left side in the middle of wiring groove (3) inside, second magnetic pole piece (304) embedding sets up the right side in the middle of wiring groove (3) inside, stretch pole (305) swing joint is in the left side of wiring groove (3) inside top, magnetism piece (306) embedding sets up the right side in wiring groove (3) inside top.

2. The wiring cable anti-wind device according to claim 1, wherein: the antistatic coating (201) is made of epoxy antistatic coating.

3. The wiring cable anti-wind device according to claim 1, wherein: a plurality of paying-off grooves are formed in the paying-off plate (301), and the two sides of the paying-off plate (301) are both arc-shaped structures.

4. The wiring cable anti-wind device according to claim 1, wherein: all leave 2cm clearance distance between pressure spring (302), and pressure spring (302) top all is connected with unwrapping wire board (301) bottom surface.

5. The wiring cable anti-wind device according to claim 1, wherein: the first magnetic pole block (303) and the second magnetic pole block (304) are same-polarity magnetic pole blocks.

6. The wiring cable anti-wind device according to claim 1, wherein: the stretching rod (305) is a single-stage stretching rod (305), the right side of the stretching rod (305) is provided with a handle, and the handle is made of ferrous materials.

7. The wiring-cable anti-winding device according to any one of claims 1 or 6, wherein: the magnetic block (306) and the handle are mutually connected in a magnetic combination way.