CN115938670A

CN115938670A - Multi-core branch combined cable

Info

Publication number: CN115938670A
Application number: CN202211366334.1A
Authority: CN
Inventors: 刘涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-11-01
Filing date: 2022-11-01
Publication date: 2023-04-07

Abstract

The invention relates to the field of cables, in particular to a multi-core branch combined cable which comprises a combined rubber sleeve, a cable core, a connecting T-shaped block and a connecting T-shaped groove, wherein the cable core is fixedly bonded in the combined rubber sleeve, the connecting T-shaped groove is respectively arranged at two ends of the combined rubber sleeve, the connecting T-shaped block is respectively arranged at two ends of the combined rubber sleeve, and a plurality of combined rubber sleeves are spliced in the connecting T-shaped groove through the connecting T-shaped block to be combined; the invention has the beneficial effect that the combined cable which is convenient to combine with different use requirements for automatic combined installation and disassembly can be processed.

Description

Multi-core branch combined cable

Technical Field

The invention relates to the field of cables, in particular to a multi-core branch combined cable.

Background

Through the use of cable, combine the maturity of science and technology, the cable of different patterns is more and more popularized, combines different service environment, through the use of combination cable, and then the result of use under the different environment that expands. The patent number is CN202010993216. Discloses a multi-core branch combined cable, which relates to the field of combined cables. The utility model provides a multicore branch combination cable, including the battery, battery bottom fixedly connected with support column, and support column outer wall face front side is opened and is equipped with the branch pipe, the outer wall contact of support column is connected with clamping mechanism, support column bottom fixedly connected with base, and the base underrun screw connection of base installs main cable, the outer annular winding of main cable has anti friction strip, and the welding of the both sides wall of main cable has the hook post, main cable bottom end face fixedly connected with feeder pillar, and feeder pillar opposite side end face fixedly connected with connecting seat, the outer wall connection of connecting seat has branch cable, the outer wall of branch cable installs the snap ring four, branch cable bottom end face fixedly connected with of department colludes the ring. But the cable is not convenient for automatic combined installation and disassembly according to different use requirements.

Disclosure of Invention

The invention aims to provide a multi-core branch combined cable which has the beneficial effect that the combined cable which is convenient to combine, install and disassemble automatically according to different use requirements can be processed.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide a multi-core branch combined cable which comprises a combined rubber sleeve, a cable core, a linking T-shaped block and a linking T-shaped groove, wherein the cable core is fixedly bonded in the combined rubber sleeve, the linking T-shaped groove is respectively arranged at two ends of the combined rubber sleeve, the linking T-shaped block is respectively arranged at two ends of the combined rubber sleeve, and a plurality of combined rubber sleeves are spliced in the linking T-shaped groove through the linking T-shaped block for combination.

The multi-core branch combined cable is processed by using a combined cable processing device, wherein the processing device comprises a processing frame, an angle adjusting processor, a forming cutter, an arc extruder and a transportation cutting driver, the processing frame internally rotates and is provided with the angle adjusting processor for adjusting the forming of a processing angle, the angle adjusting processor is internally provided with the forming cutter for cutting the forming through bolt adjustment, the arc extruder is arranged at the upper end of the processing frame through bolt adjustment, and the arc extruder is fixedly provided with the transportation cutting driver for driving extrusion.

The outer end of the processing frame is fixed with a collector used for collecting the combined rubber sleeve, and an arc-shaped rack limiting table used for limiting the angle inclination driving is fixed in the processing frame.

The angle adjustment processing device comprises a rotating gear shaft, an inner arc-shaped rack, an outer arc-shaped rack and two angle clamping plates, the rotating gear shaft rotates in the processing frame, the upper end and the lower end of the rotating gear shaft are respectively meshed with the outer arc-shaped rack and the inner arc-shaped rack in a transmission mode, and the lower ends of the two angle clamping plates are respectively fixed with the outer arc-shaped racks and the inner arc-shaped racks.

The cable cores are fixedly bonded in the processed combined rubber sleeves with different taper angles, the combined rubber sleeves with different angle patterns are matched according to actual combined use conditions, and then the cable cores with different quantities are combined for actual combined use; and the combined cable which is conveniently combined with the same specification is processed by adjusting the processing device.

Drawings

FIG. 1 is a schematic structural view of the combination cable of the present invention;

FIG. 2 is a schematic structural view of the composite rubber boot of the present invention;

FIG. 3 is a first schematic view of the overall structure of the processing apparatus of the present invention;

FIG. 4 is a second schematic view of the overall structure of the processing apparatus of the present invention;

FIG. 5 is a schematic view of the construction of the inventive processing stand;

FIG. 6 is a partial structural schematic of the present invention;

FIG. 7 is a schematic view of the angle adjustment processor of the present invention;

FIG. 8 is a schematic view of the construction of the form cutter of the present invention;

FIG. 9 is a schematic view of the construction of the arc extruder of the present invention;

fig. 10 is a schematic view of the structure of the transport cutting drive of the present invention.

In the figure: a combined rubber sleeve 1; a cable core 2; connecting the T-shaped block 3; connecting the T-shaped groove 4; a processing frame 5; a collector 6; an arc-shaped rack limiting table 7; an angle adjustment processor 8; a locker 9; a form cutter 10; an arc extruder 11; a transport cutting drive 12; a rotating gear shaft 13; an inner arc-shaped rack 14; an outer arc-shaped rack 15; an angle clamp plate 16; a threaded adjusting insert plate 17; a transverse cutting edge 18; a boss-shaped cutting edge 19; a T-shaped groove cutting edge 20; an upper end arc-shaped extrusion table 21; the squeeze adjusting bolt 22; a conveyance drive motor 23; a plurality of pinch drive rollers 24.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in the embodiments illustrated herein,

the cable cores 2 are fixedly bonded in the processed combined rubber sleeves 1 with different conical angles, the combined rubber sleeves 1 with different angle styles are matched according to actual combined use conditions, and then the cable cores 2 with different numbers are combined for actual combined use, and the combined rubber sleeves 1 with different specification angles are subjected to insertion combination through mutual insertion between the connecting T-shaped blocks 3 and the connecting T-shaped grooves 4, so that the combined cables combined according to different required numbers of cables are realized, and the combined cables are convenient to disassemble and install when in use; the combined cable which is conveniently combined with the same specification is processed by adjusting the processing device.

Further optimization in conjunction with the above examples:

further processingequipment includes processing frame 5, angle modulation processor 8, contour cutter 10, arc squeezer 11 and

transportation cutting drive

12, 5 internal rotations in the processing frame are provided with the angle modulation processor 8 that is used for processing angle shaping regulation, be provided with through bolt adjustment in the angle modulation processor 8 and be used for cutting fashioned contour cutter 10, arc squeezer 11 sets up the upper end at processing frame 5 through bolt adjustment, be fixed with on the arc squeezer 11 and be used for extrudeing driven transportation cutting drive 12.

The working process of the part according to the multi-core branch combination cable example shown in fig. 2, 3, 4 and 5 is as follows:

add to the processing frame 5 in through the combined rubber cover 1 that has cable core 2 with the former stock, adjust processor 8 through rotation angle, and then accomplish the combined rubber cover 1 of required combination angle, push down the arc that forms the upper end through adjusting arc squeezer 11, prescribe a limit to the cutting environment simultaneously, combined rubber cover 1 that has cable core 2 of drive former stock on arc squeezer 11 through transportation cutting driver 12 transports through shaping cutterbar 10, cut through extrusion drive transportation, and then cut out linking T type piece 3 and linking T type groove 4 and be used for combining the linking at the both ends of combined rubber cover 1.

Further optimization in conjunction with the above examples:

further working processes according to the multi-core branch combination cable example shown in fig. 2, fig. 3, fig. 4 and fig. 5 are:

the processed combined rubber sleeve 1 is convenient to collect through the collector 6 fixed at the outer end of the processing frame 5, and the corresponding model is convenient to search and assemble; the arc-shaped rack limiting table 7 is used for conveniently limiting the driving of the angle adjustment processing device 8 for angle inclination.

Further optimization in conjunction with the above examples:

further working processes according to the multi-core branch combined cable example shown in fig. 6, 7, 8 and 9 are as follows:

through the regulation of rotating pinion 13 on processing frame 5, and then make and adjust pinion 13 and drive interior arc rack 14 of gear engagement and outer arc rack 15 simultaneously to opposite reverse displacement, and then drive two angle splint 16 and carry out synchronous angle modulation along same centre of a circle, and then make and form the angle pattern of appointed requirement between two angle splint 16, and then conveniently accomplish the fashioned processing preparation to combined rubber cover 1.

Further optimization in conjunction with the above examples:

further, the outer arc-shaped rack 15 and the inner arc-shaped rack 14 slide in an arc-shaped sliding groove in the arc-shaped rack limiting table 7 through a limiting sliding block.

The working process of the part of the multi-core branch combined cable shown in fig. 6, 7, 8 and 9 is as follows:

through the spacing arc spout of sliding in the spacing platform 7 of arc rack of outer arc rack 15 and interior arc rack 14, it is more stable when two angle splint 16 of integral drive mesh the drive, prevent to take place the drive skew to make things convenient for.

Further optimization in conjunction with the above examples:

further, the rotating toothed shaft 13 is locked and fixed on the processing frame 5 through engaging a locker 9, and the locker 9 slides in the processing frame 5 through bolt adjustment.

The working process of the part according to the multi-core branch combination cable example shown in fig. 6, 7, 8 and 9 is as follows:

the displacement of the locking device 9 is driven by the screw thread on the processing frame 5, so that the tooth table on the locking device 9 is meshed on the gear of the rotating gear shaft 13, the rotating gear shaft 13 is locked and fixed, and the two angle clamping plates 16 subjected to angle adjustment are locked and fixed to prevent deviation in the processing process.

Further optimization in conjunction with the above examples:

the forming cutter 10 further comprises a thread adjusting inserting plate 17, a transverse cutting edge 18, a boss-shaped cutting edge 19 and a T-shaped groove cutting edge 20, the thread adjusting inserting plate 17 is inserted into an angle clamping plate 16 of the angle adjusting processor 8 in a thread matching mode, the transverse cutting edge 18 for transverse inclined cutting is fixed on the thread adjusting inserting plate 17 through a cutter holder, and the boss-shaped cutting edge 19 and the T-shaped groove cutting edge 20 for cutting and connecting the T-shaped block 3 and the T-shaped groove 4 are fixed on the transverse cutting edge 18; the T-shape of the land-shaped cutting edge 19 is downward and the T-shape of the T-shaped groove cutting edge 20 is upward.

the thread adjusting inserting plate 17 is adjusted through the bolt on the angle clamping plate 16, so that the integral cutter withdrawing and withdrawing can be conveniently carried out, and meanwhile, the accurate adjustment of the cutting position can be conveniently carried out; the excessive blank of the combined rubber sleeve 1 is cut off through the transverse cutting edge 18, and the combined rubber sleeve 1 is cut into a T-shaped block 3 and a T-shaped groove 4 through the cutting of the specified shape when the combined rubber sleeve 1 is driven and transported by the boss-shaped cutting edge 19 and the T-shaped groove cutting edge 20, so that the combined rubber sleeve is convenient to combine and link for use.

Further optimization in conjunction with the above examples:

further arc squeezer 11 includes upper end arc extrusion platform 21 and extrusion adjusting bolt 22, and the lower extreme of upper end arc extrusion platform 21 is the arc form, and the lower extreme extrusion of upper end arc extrusion platform 21 is on built-up rubber sleeve 1, and the upper end of upper end arc extrusion platform 21 is adjusted longitudinal sliding through extrusion adjusting bolt 22 drive in the upper end of processing frame 5

extrude adjusting bolt 22 through the rotational adjustment on processing frame 5, and then adjust the height of upper end arc extrusion platform 21 longitudinal position according to the demand, and then processing extrudes the convenient holistic circular use that makes up of combination rubber sleeve 1 that appointed thickness.

Further optimization in conjunction with the above examples:

further, the transportation cutting driver 12 comprises a transportation driving motor 23 and a plurality of extrusion driving rollers 24, wherein the transportation driving motor 23 is fixed at the upper end of the upper end arc-shaped extrusion table 21 and drives the plurality of extrusion driving rollers 24 to rotate in the upper end arc-shaped extrusion table 21 through a transmission belt.

The working process of the part of the multi-core branch combined cable shown in fig. 7, 8, 9 and 10 is as follows:

fix on upper end arc extrusion platform 21 through transportation driving motor 23, and then the displacement of a plurality of extrusion drive rollers of synchronous drive 24 at the inner wall drive combined rubber sleeve 1 of upper end arc extrusion platform 21, when convenient transportation, also conveniently receive the drive power of cutting shape in the transportation, and then conveniently accomplish the processing and the preparation of combined rubber sleeve 1 to the requirement of appointed specification angle.

The fixed connection in the device can be fixed by welding, thread fixing and the like, the rotary connection can be realized by baking the bearing on a shaft, a spring retainer groove or an inter-shaft baffle is arranged on the shaft or a shaft hole, the axial fixation of the bearing is realized by clamping an elastic retainer ring in the spring retainer groove or the inter-shaft baffle, and the rotation is realized by the relative sliding of the bearing; different connection modes are used in combination with different use environments.

Claims

1. Multicore branch combination cable, including combination rubber sleeve (1), cable core (2), link up T-shaped piece (3) and link up T-shaped groove (4), its characterized in that: the cable core (2) is fixedly bonded in the combined rubber sleeve (1), the two ends of the combined rubber sleeve (1) are respectively provided with a connecting T-shaped groove (4), the two ends of the combined rubber sleeve (1) are respectively provided with a connecting T-shaped block (3), and a plurality of combined rubber sleeves (1) are spliced in the connecting T-shaped grooves (4) through the connecting T-shaped blocks (3) to be combined.

2. The multi-core branch combined cable as claimed in claim 1 is processed by using a combined cable processing device, wherein the processing device comprises a processing frame (5), an angle adjusting processor (8), a forming cutter (10), an arc extruder (11) and a transportation cutting driver (12), the angle adjusting processor (8) for forming and adjusting the processing angle is rotationally arranged in the processing frame (5), the forming cutter (10) for cutting and forming is arranged in the angle adjusting processor (8) through bolt adjustment, the arc extruder (11) is arranged at the upper end of the processing frame (5) through bolt adjustment, and the transportation cutting driver (12) for driving and extruding is fixed on the arc extruder (11).

3. The multi-core branch combined cable as claimed in claim 2, wherein a collector (6) for collecting the combined rubber sleeve (1) is fixed at the outer end of the processing frame (5), and an arc-shaped rack limiting table (7) for limiting the angle tilt driving is fixed in the processing frame (5).

4. The multi-core branch combined cable as claimed in claim 2, wherein the angle adjustment processing device (8) comprises a rotary gear shaft (13), an inner arc-shaped rack (14), an outer arc-shaped rack (15) and two angle clamping plates (16), the rotary gear shaft (13) rotates in the processing frame (5), the upper end and the lower end of the rotary gear shaft (13) are respectively engaged with the outer arc-shaped rack (15) and the inner arc-shaped rack (14), and the lower ends of the two angle clamping plates (16) are respectively fixed with the outer arc-shaped racks (15) and the inner arc-shaped racks (14).

5. The multiple-core branch combination cable according to claim 4, wherein the outer arc-shaped rack (15) and the inner arc-shaped rack (14) slide in an arc-shaped sliding groove in the arc-shaped rack limiting table (7) through a limiting slide block.

6. The multiple branch combination cable according to claim 4, wherein the rotary gear shaft (13) is locked and fixed on the processing frame (5) by engaging a locker (9), and the locker (9) slides in the processing frame (5) by bolt adjustment.

7. The multi-core branch combined cable as claimed in claim 2, wherein the shaping cutter (10) comprises a thread adjusting insert plate (17), a transverse cutting edge (18), a boss-shaped cutting edge (19) and a T-shaped groove cutting edge (20), the thread adjusting insert plate (17) is inserted into an angle clamping plate (16) of the angle adjusting processor (8) in a thread fit manner, the transverse cutting edge (18) for transverse inclined cutting is fixed on the thread adjusting insert plate (17) through a cutter holder, and the boss-shaped cutting edge (19) and the T-shaped groove cutting edge (20) for cutting and connecting the T-shaped block (3) and the T-shaped groove (4) are fixed on the transverse cutting edge (18).

8. The multiple branch combination cable as claimed in claim 7, wherein the T-shape of the land-shaped cutting edge (19) is downward and the T-shape of the T-shaped groove cutting edge (20) is upward.

9. The multi-core branch combination cable as claimed in claim 2, wherein the arc-shaped extruder (11) comprises an upper arc-shaped extrusion table (21) and an extrusion adjusting bolt (22), the lower end of the upper arc-shaped extrusion table (21) is arc-shaped, the lower end of the upper arc-shaped extrusion table (21) is extruded on the combination rubber sleeve (1), and the upper end of the upper arc-shaped extrusion table (21) is driven by the extrusion adjusting bolt (22) to be adjusted to longitudinally slide on the upper end of the processing frame (5).

10. The multiple branch combination cable as claimed in claim 9, wherein the transportation and cutting driver (12) comprises a transportation driving motor (23) and a plurality of pressing and driving rollers (24), the transportation driving motor (23) is fixed at the upper end of the upper arc-shaped pressing table (21) and drives the plurality of pressing and driving rollers (24) to rotate in the upper arc-shaped pressing table (21) through a transmission belt.