CN115800107A

CN115800107A - Safe butt joint device for output circuit line

Info

Publication number: CN115800107A
Application number: CN202211095921.1A
Authority: CN
Inventors: 李月洁
Original assignee: Ordos Institute of Technology
Current assignee: Ordos Institute of Technology
Priority date: 2022-09-06
Filing date: 2022-09-06
Publication date: 2023-03-14

Abstract

The invention discloses a safe output circuit line butt joint device which comprises a shell, wherein the shell is a sealed insulating box, wire inlet holes are formed in two ends of the shell respectively, the heights of the wire inlet holes are staggered up and down, two supporting rollers are rotatably arranged below an inner shell of each wire inlet hole, a driving roller is arranged on the supporting roller close to the wire inlet hole, a cutting disc is arranged on the supporting roller far away from the wire inlet hole, a wire connecting component is arranged in the shell far away from the driving roller on one side of the cutting disc, and the circle center of the wire connecting component is aligned to the circle center of the corresponding wire inlet hole. Compared with the prior art, the cable winding device has the advantages that the opposite cables are wound onto the opposite cables along with the rotation of the rotating gear ring, and the sliding blocks synchronously move towards opposite directions to compensate for the shortened length of the opposite cables.

Description

Safe butt joint device for output circuit line

Technical Field

The invention relates to the technical field of circuit connection, in particular to a safe butt joint device for an output circuit line.

Background

When laying circuit line because the length of a bundle of cable is limited, the mode of many bundles of cables of plugging into is used commonly in a circuit and docks, and prior art's circuit uses the wire plier to dock through the manual work, and is inefficient, the security is poor.

Therefore, it is necessary to provide a safe docking device for output circuit lines to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an output circuit safety interfacing apparatus, includes the casing, the casing is sealed insulating case, the casing both ends are respectively opened there is the entrance hole, the high stagger from top to bottom in entrance hole, every the below of the interior casing of entrance hole rotationally is equipped with two backing rolls, is close to be equipped with the drive roller on the backing roll in entrance hole, is equipped with the cutting dish on the backing roll of keeping away from the entrance hole, the cutting dish is kept away from and is equipped with the wiring subassembly in the casing of drive roller one side, just the centre of a circle of corresponding entrance hole is aimed at in the centre of a circle of wiring subassembly.

Further, preferably, the cutting disc is connected in the shell in a vertically sliding mode through lifting frames, and lifting cylinders are arranged on the shell corresponding to the lifting frames.

Further, as a preferred mode, heating nozzles are arranged on the inner wall of the shell, close to one end of the wiring assembly, of the two sides of the cutting disc.

Further, preferably, a bottom hole is formed in the bottom of the shell below the cutting disc.

Further, preferably, one side of the two ends of the housing is provided with a driving device, and the driving device can enable the driving roller and the cutting disc to rotate reversely.

Furthermore, preferably, the wiring assembly comprises a fixing ring, the fixing ring is fixed in the shell, the center of the fixing ring is aligned with the center of the corresponding wire inlet hole, a rotating gear ring is rotatably arranged at one end of the fixing ring, which is far away from the wire inlet hole, and a driving gear meshed with the rotating gear ring is further arranged at one side of the fixing ring;

the novel wire connecting component is characterized in that a rotating block is fixed in the rotating gear ring, two guide shafts which are axially parallel to the fixed ring are fixed in the rotating block, a sliding block is arranged in each guide shaft, a pair of arc-shaped clamping rods are arranged below each sliding block, the centers of the clamping rods are aligned to the axes of the fixed ring, arc-shaped clamping blocks are fixed below the clamping rods, and the centers of the clamping blocks are aligned to the axes of the fixed ring of the other wire connecting component.

Preferably, a screw rod is rotatably arranged in a rotating block at the center of each of the two guide shafts, the screw rod penetrates through the sliding block in a threaded connection mode, a fixed gear ring staggered with the rotating gear ring is fixed in the fixed ring, the fixed gear ring is an inner gear ring, a driven gear is fixed in the screw rod, and the driven gear is meshed with the fixed gear ring.

Preferably, a connecting block is fixed above each clamping rod, and a pair of electromagnetic adsorption blocks is fixed on one opposite surface of each connecting block.

Further, preferably, a spring is fixed between the two connecting blocks, and the spring provides a force for separating the clamping rods.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the lifting frame can be driven to lift through the lifting cylinder so as to enable the cutting disc to change the distance between the cutting disc and the supporting roller, so as to control whether the cutting disc longitudinally cuts the cable on the supporting roller, and the cut cable can be heated through the heating nozzle, so that the sheath of the cable is separated from the copper core.

In the invention, when two cables penetrate from the wire inlet holes at two ends and the opposite cables are clamped by the opposite clamping blocks, the opposite cables are wound on the opposite cables along with the rotation of the rotating gear ring, and the sliding blocks synchronously move towards opposite directions so as to compensate the shortened length of the opposite cables.

Drawings

FIG. 1 is a schematic structural diagram of a safe docking device for output circuit lines;

FIG. 2 is a schematic view of a wiring assembly;

in the figure: 1. a housing; 2. a wire inlet hole; 3. a support roller; 4. a drive roller; 5. cutting the disc; 51. a lifting frame; 52. a lift cylinder; 6. heating the nozzle; 7. a bottom hole; 8. a wiring assembly; 81. a fixing ring; 82. rotating the gear ring; 83. rotating the block; 84. a slider; 85. a guide shaft; 86. a screw; 87. a driven gear; 88. a clamping bar; 881. a clamping block; 89. fixing the gear ring; 810. a drive gear; 811. connecting blocks; 812. an electromagnetic adsorption block; 813. a spring; 9. a drive device.

Detailed Description

Referring to fig. 1, in the embodiment of the present invention, an output circuit line safety butt joint device includes a housing 1, where the housing 1 is a sealed insulating box, two ends of the housing 1 are respectively provided with wire inlet holes 2, the heights of the wire inlet holes 2 are staggered from top to bottom, two supporting rollers 3 are rotatably disposed below the housing 1 in each wire inlet hole 2, a driving roller 4 is disposed on the supporting roller 3 close to the wire inlet hole 2, a cutting disc 5 is disposed on the supporting roller 3 far from the wire inlet hole 2, a wiring assembly 8 is disposed in the housing 1 far from the driving roller 4 side of the cutting disc 5, and a center of the wiring assembly 8 aligns with a center of the corresponding wire inlet hole 2.

In this embodiment, the cutting disc 5 is connected to the casing 1 by the lifting frames 51 in a vertically slidable manner, and the casing 1 is provided with a lifting cylinder 52 corresponding to each lifting frame 51. The lifting frame 51 can be driven to lift by the lifting cylinder 52 so that the cutting disc 5 changes the distance from the supporting roller 3 to control whether the cutting disc longitudinally cuts the cable on the supporting roller 3.

In this embodiment, the inner wall of the casing 1 at the end of the cutting disc 5 close to the wiring component 8 is provided with a heating nozzle 6. The cut cable can be heated by the heating nozzle 6, so that the sheath of the cable is separated from the copper core.

In this embodiment, the bottom of the casing 1 below the cutting disc 5 is provided with a bottom hole 7. The cable sheath softened by heating by the heating nozzle 6 can fall from the bottom hole 7.

In this embodiment, a driving device 9 is disposed at one side of the two ends of the housing 1, and the driving device 9 can rotate the driving roller 4 and the cutting disc 5 in opposite directions, so that the cutting disc 5 can longitudinally cut the cable fed from the driving roller 4.

Referring to fig. 2, in the present embodiment, the wiring assembly 8 includes a fixing ring 81, the fixing ring 81 is fixed inside the housing 1, a center of the fixing ring 81 is aligned with a center of the corresponding wire inlet 2, a rotating ring gear 82 is rotatably disposed at one end of the fixing ring 81 far away from the wire inlet 2, and a driving gear 810 engaged with the rotating ring gear 82 is further disposed at one side of the fixing ring 81;

the rotary gear ring 82 is fixed with a rotating block 83, two guide shafts 85 which are axially parallel to the fixed ring 81 are fixed in the rotating block 83, a sliding block 84 is arranged in each guide shaft 85, a pair of arc-shaped clamping rods 88 are arranged below each sliding block 84, the centers of the clamping rods 88 are aligned to the axis of the fixed ring 81, arc-shaped clamping blocks 881 are fixed below each clamping rod 88, and the centers of the clamping blocks 881 are aligned to the axis of the fixed ring 81 of the other wiring component 8. That is, when two cables are inserted from the wire inlet holes 2 at both ends and the facing clamp block 881 clamps the facing cable, the facing cable is wound around the facing cable as the rotary ring gear 82 rotates.

In this embodiment, a screw 86 is rotatably provided in the rotating block 83 at the center of the two guide shafts 85, the screw 86 is threaded to penetrate the slider 84, a fixed gear 89 staggered from the rotating gear 82 is fixed in the fixed ring 81, the fixed gear 89 is an inner gear, a driven gear 87 is fixed in the screw 86, and the driven gear 87 is meshed with the fixed gear 89. When the rotary ring gear 82 rotates, the threaded rods 86 synchronously rotate and cause the sliders 84 to move in a direction away from the rotary ring gear 82, that is, as the rotary ring gear 82 rotates to wind the opposite wire around the opposite wire, the sliders 84 synchronously move in opposite directions to compensate for the shortened length of the opposite wire.

In this embodiment, a connecting block 811 is fixed above each clamping rod 88, and a pair of electromagnetic adsorption blocks 812 is fixed on one surface of each connecting block 811 facing each other. The clamp lever 88 can be closed by the electromagnetic adsorption block 812 so that the clamp block 881 clamps the opposite cable.

In this embodiment, a spring 813 is fixed between the two connecting blocks 811, and the spring 813 provides a force to separate the clamping rod 88, that is, when the electromagnetic absorption block 812 is powered off, the clamping block 881 releases the cable and opens a certain distance for the next cable to enter.

In specific implementation, two cables are respectively penetrated from the wire inlet holes 2 at two ends and approach to the center under the action of the driving roller 4, the telescopic cylinder 52 presses the lifting frame 51 downwards to enable the cutting disc 5 to longitudinally cut the cables, so that the outer skins of the cables are separated from the copper cores, the outer skins are softened under the heating of the heating nozzle 6 and fall to the bottom hole 7, the copper cores penetrate into the center of the fixing ring 81, the lifting frame 51 rises to stop cutting after the cables are cut for a certain length, and the driving roller 4 continues to convey the cables;

when the opposite cable is threaded into the opposite clamping block 881, the electromagnetic absorption block 812 is electrified to make the clamping block 881 clamp the opposite cable, the driving gear 810 drives the rotating gear ring 82 to rotate to make the opposite cable wind around the opposite cable, and simultaneously the slide block 84 synchronously moves towards the opposite direction to compensate the shortened length of the opposite cable. And after the outer skin is cut, the cable is moved to the other end, the joint part is sealed and insulated, and the next section of cable can be continuously connected.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides an output circuit safety interfacing apparatus, includes casing (1), casing (1) is sealed insulating box, casing (1) both ends are respectively opened there are entrance hole (2), the high stagger from top to bottom of entrance hole (2), every the below of casing (1) in entrance hole (2) rotationally is equipped with two backing roll (3), is equipped with drive roller (4) on backing roll (3) near entrance hole (2), is equipped with cutting disc (5) on backing roll (3) of keeping away from entrance hole (2), be equipped with wiring subassembly (8) in casing (1) of drive roller (4) one side is kept away from in cutting disc (5), just the centre of a circle of corresponding entrance hole (2) is aimed at in the centre of a circle of wiring subassembly (8).

2. The safety butt joint device for the output circuit line according to claim 1, characterized in that the cutting disc (5) is connected in the shell (1) in a manner of sliding up and down through a lifting frame (51), and a lifting cylinder (52) is arranged on the shell (1) corresponding to each lifting frame (51).

3. An output circuit line safety butt joint device according to claim 1, characterized in that, the inner wall of the shell (1) at two sides of the cutting disc (5) near one end of the wiring component (8) is provided with a heating nozzle (6).

4. The output circuit line safety butt joint device according to claim 1, characterized in that a bottom hole (7) is formed at the bottom of the shell (1) below the cutting disc (5).

5. An output circuit line safety docking device according to claim 1, characterized in that one of the two ends of the housing (1) is provided with a driving device (9), and the driving device (9) can make the driving roller (4) and the cutting disk (5) rotate reversely.

6. The safe butt joint device for the output circuit lines as claimed in claim 1, wherein the wiring assembly (8) comprises a fixing ring (81), the fixing ring (81) is fixed inside the casing (1), the center of the fixing ring (81) is aligned with the center of the corresponding wire inlet (2), a rotating gear ring (82) is rotatably arranged at one end of the fixing ring (81) far away from the wire inlet (2), and a driving gear (810) meshed with the rotating gear ring (82) is further arranged at one side of the fixing ring (81);

it has turning block (83) to rotate in ring gear (82), be fixed with in turning block (83) two with solid fixed ring (81) axial direction parallel's guiding axle (85), be equipped with slider (84) in guiding axle (85), slider (84) have a pair of curved clamping bar (88), and two the axis of solid fixed ring (81) is aimed at the center of clamping bar (88), clamping bar (88) below is fixed with curved clamping block (881), and two the axis of solid fixed ring (81) of another wiring subassembly (8) is aimed at to the center of clamping block (881).

7. The safety butt joint device for the output circuit line according to claim 6, characterized in that a screw rod (86) is rotatably arranged in a rotating block (83) at the center of the two guide shafts (85), the screw rod (86) is threaded and penetrates through the sliding block (84), a fixed gear ring (89) staggered with the rotating gear ring (82) is fixed in the fixed ring (81), the fixed gear ring (89) is an inner gear ring, a driven gear (87) is fixed in the screw rod (86), and the driven gear (87) is meshed with the fixed gear ring (89).

8. The output circuit line safety butt joint device according to claim 6, wherein a connection block (811) is fixed above each clamping rod (88), and a pair of electromagnetic adsorption blocks (812) is fixed on the opposite surfaces of the connection blocks (811).

9. An output circuit line safety docking device according to claim 8, wherein a spring (813) is fixed between the two connecting blocks (811), and the spring (813) provides a force for separating the clamping rod (88).