CN113628811B

CN113628811B - Intelligent manufacturing device for cable inner armor

Info

Publication number: CN113628811B
Application number: CN202111184975.0A
Authority: CN
Inventors: 张军
Original assignee: Nantong Dongfeng Special Cable Co ltd
Current assignee: Nantong Dongfeng Special Cable Co ltd
Priority date: 2021-10-12
Filing date: 2021-10-12
Publication date: 2021-12-28
Anticipated expiration: 2041-10-12
Also published as: CN113628811A

Abstract

The invention relates to the field of cable inner armor processing, in particular to an intelligent cable inner armor manufacturing device which comprises a support, sliding frames, sliding blocks and cutting knives. Still include reciprocal spring, ring frame and depression bar, all be provided with reciprocal spring between a plurality of sliders and the balladeur train that corresponds, the ring frame switching is on the support, is provided with a plurality of depression bars on the ring frame, all is provided with the spring between a plurality of depression bars and the ring frame. The cable further comprises a limiting rod and a limiting frame, the limiting rods are arranged on the sliding blocks, the limiting frame is arranged on the support, and the cable has the advantage that the cable core can be easily stripped from the cable inner shell.

Description

Intelligent manufacturing device for cable inner armor

Technical Field

The invention relates to the field of cable inner armor processing, in particular to an intelligent cable inner armor manufacturing device.

Background

Is made of one or more mutually insulated conductors and an outer-coated insulating protective layer, transmits electric power or information from one place to a wire at another place, protects the conductors, is called as an inner armor with insulating and protecting functions,

when emergency repair is carried out on the cable, a professional tool is needed to peel off the inner armor of the common cable, so that the connection of the cable core of the cable is rapidly completed, but if no professional equipment is available in the emergency repair, the peeling of the inner armor from the cable core cannot be easily completed.

Disclosure of Invention

The invention aims to provide an intelligent manufacturing device for an inner shell of a cable, which has the advantage that the inner shell of the cable can be easily stripped.

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

the utility model provides a first intelligent manufacturing installation in cable, includes support, balladeur train, slider and cutting knife, is provided with a plurality of balladeur trains on the support, all is provided with the slider on a plurality of balladeur trains, all is provided with the cutting knife on a plurality of sliders, and a plurality of sliders homoenergetic carry out linear sliding.

Further, still include reciprocal spring, ring frame and depression bar, all be provided with reciprocal spring between a plurality of sliders and the balladeur train that corresponds, the ring frame switching is on the support, is provided with a plurality of depression bars on the ring frame, all is provided with the spring between a plurality of depression bars and the ring frame.

Furthermore, the sliding block device further comprises a limiting rod and a limiting frame, wherein the limiting rods are arranged on the sliding blocks, and the limiting frame is arranged on the support.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of cutting a armor in a cable;

FIG. 2 is a schematic view of the structure of FIG. 1 in another orientation;

FIG. 3 is a schematic structural view of the support device;

FIG. 4 is a schematic structural view of the ring frame;

FIG. 5 is a schematic view of a structure for adjusting the depth of a nail in a processed cable;

FIG. 6 is a schematic structural view of the finishing of the inner nail outer wall;

FIG. 7 is a schematic structural view of the outer wall of the inner nail after being polished and trimmed;

FIG. 8 is a schematic view of the structure driving the rotation of FIG. 7;

FIG. 9 is a schematic view of the structure of the driving ring frame;

fig. 10 is a schematic structural diagram of an intelligent cable armour manufacturing apparatus.

Detailed Description

Referring to fig. 1, the implementation process of cutting the cable inner armor is described in detail:

an intelligent manufacturing device for an inner shell of a cable comprises a support 11, wherein a plurality of sliding frames 12 are fixedly connected to the support 11, a plurality of sliding blocks 21 are slidably connected to the plurality of sliding frames 12, cutting knives 22 are fixedly connected to the plurality of sliding blocks 21, when a cable core of the inner shell which is just machined penetrates through the centers of the plurality of cutting knives 22, the plurality of sliding blocks 21 can synchronously and linearly slide, the plurality of cutting knives 21 drive the plurality of cutting knives 22 to linearly slide, the plurality of cutting knives 22 are synchronously gathered to the center, the plurality of cutting knives 22 cut the inner shell of the cable which is just machined to form the inner shell, a plurality of dents are cut at one circumference of the inner shell of the cable, when the cable needs emergency maintenance, when the inner shell of the cable is stripped by no professional tool, the cable core of the cable is extremely easily damaged by some basic stripping tools, the cable core is easier to be directly cut off, and the inner shell of the cable which is machined by the plurality of cutting knives 22 only needs to be clamped normally, when the inner armor of the cable is clamped and then rotated, the inner armor is fractured due to different stress at the plurality of dents, the inner armor of the cable can be easily stripped, the inner armor of the cable is quickly removed, then the cable core of the cable is quickly connected, and the normal use of the cable is recovered.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 1, 2, 3 and 4, the implementation of automatic indentation of the armor in the cable is described in detail:

the plurality of sliders 21 and the corresponding sliding frame 12 are fixedly connected with reciprocating springs 24, the ring frame 31 is rotatably connected to the support 11, the ring frame 31 is slidably connected with a plurality of pressure rods 33, the springs are fixedly connected between the plurality of pressure rods 33 and the ring frame 31, one ends of the plurality of pressure rods 33, which are close to the center of the ring frame 31, are semicircular, one ends of the plurality of sliders 21, which are far away from the center of the ring frame 31, are semicircular, when the ring frame 31 rotates, the ring frame 31 drives the plurality of pressure rods 33 to rotate, the semicircular ends of the plurality of pressure rods 33 are contacted with the plurality of sliders 21, in order to realize the smooth sliding of the plurality of sliders 21 and prevent the plurality of pressure rods 33 and the corresponding sliders 21 from being clamped, one ends of the plurality of sliders 21, which are contacted with the plurality of pressure rods 33, are also semicircular, the plurality of sliders 21 slide, the plurality of sliders 21 drive the plurality of cutting knives 22 to finish the processing of the inner shells, the plurality of sliders 21 compress the corresponding reciprocating springs 24, when a plurality of depression bars 33 and the slider 21 that corresponds are not contacted, a plurality of compressed reciprocal springs 24 promote a plurality of sliders 21 and reset, when a plurality of sliders 21 are compressed to unable when sliding, a plurality of depression bars 33 slide on the ring frame 31, compress the spring of establishing on a plurality of depression bars 33 cover simultaneously, the stiffness coefficient of the spring of establishing on a plurality of depression bars 33 cover is greater than a plurality of reciprocal springs 24, when a plurality of reciprocal springs 24 are compressed extremely after limited, just slip takes place for a plurality of depression bars 33, when a plurality of depression bars 33 and the slider 21 that corresponds do not contact, the spring that a plurality of depression bars 33 compressed promotes and resets.

referring to fig. 5, an implementation process of adjusting the processing depth of a plurality of cutters is described in detail:

equal fixedly connected with gag lever post 23 on a plurality of sliders 21, gag lever post 41 rotates to be connected on support 11, there is the bolt through threaded connection on gag lever post 41, the equipartition has a plurality of arc poles on the gag lever post 41, the quantity of arc pole is the same with gag lever post 23's quantity, unscrew the bolt that fixed gag lever post 41 used, when rotating gag lever post 41, a plurality of arc poles that gag lever post 41 drove rotate, the different positions of a plurality of arc poles are different apart from the distance at gag lever post 41 center, rotate behind the gag lever post 41, can adjust the spacing position of gag lever post 41 to a plurality of gag lever posts 23, after a plurality of gag lever posts 23 contact gag lever posts 41, a plurality of sliders 21 no longer slide, thereby adjust the cutting depth of a plurality of cutting knives 22, and then realize the processing to the first in the cable of different thickness.

referring to fig. 6, the implementation process of cutting the excircle of the inner armor is detailed:

cutting frame 51 rotates to be connected on support 11, the equipartition has a plurality of arc sword 52 on cutting frame 51, when cutting frame 51 takes place to rotate, cutting frame 51 drives a plurality of arc sword 52 and rotates, a plurality of arc sword 52 are the spiral, the outer wall of first in the spiral arc sword 52 more can laminating when first in the cutting cable, cut the outer wall of first in the cable more easily, add the unsmooth places such as arch on the outer wall to first in the cable processing and maintain, be convenient for in the cable processing in the back closely arrange of a plurality of cable cores.

referring to fig. 6, the implementation process of cutting the armor in the cable is described in detail:

all processed sharp angle shape cutting edge on a plurality of arc sword 52, when a plurality of sharp angle shape cutting edges are cutting the interior first outer wall, sharp angle shape's cutting edge is sharper, when cutting interior first, has better cutting effect.

referring to fig. 7, the implementation process of polishing the inner and outer walls of the cable is described in detail:

cutting frame 51 is last to rotate and to be connected with the ring frame 61 of polishing, sliding connection has a plurality of slide bars 62 of polishing on the ring frame 61 of polishing, equal fixedly connected with polishing plate 63 on a plurality of slide bars 62 of polishing, a plurality of slide bars 62 of polishing and all be provided with the extension spring between the ring frame 61 of polishing, when polishing ring frame 61 and rotate, polishing ring frame 61 drives a plurality of slide bars 62 of polishing and rotates, a plurality of slide bars 62 of polishing drive a plurality of polishing plate 63 and rotate, a plurality of polishing plate 63 polish the first outer wall in the cable under rotating, when the cable core passes a plurality of polishing plate 63 middle parts, a plurality of extension springs pulling a plurality of polishing plate 63 tightly laminate on the first outer wall in the cable core, carry out smooth polishing with the first outer wall in the cable, be convenient for follow-up in the middle of the process of adding to the cable.

with reference to fig. 7, the implementation of the cable core through the center of the plurality of sanding plates is detailed:

equal fixedly connected with direction arc board on a plurality of boards 63 of polishing touches a plurality of direction arc boards earlier when the cable core passes a plurality of boards 63 of polishing, struts a plurality of direction arc boards earlier, and then laminates on a plurality of boards 63 of polishing again, prevents that a plurality of boards 63 of polishing from direct first contact with the interior first of cable core, and the edges and corners of a plurality of boards 63 of polishing of non-direction direct contact directly cause the fish tail to first the interior first, the processing of damage cable.

referring to fig. 8, 9 and 10, the detailed description of the implementation of the driving sanding plate for sanding the inner nail is as follows:

two arc framves 71 of fixedly connected with on the support 11, fixedly connected with double-shaft motor 74 on one of them arc frame 71, fixedly connected with grinding drive wheel 72 on one of them output shaft of double-shaft motor 74, fixedly connected with grinding ring 64 on the ring frame 61 of polishing, grinding ring 64 and the meshing transmission of grinding drive wheel 72, when starting double-shaft motor 74, double-shaft motor 74 drives grinding drive wheel 72 and rotates, grinding drive wheel 72 meshes the drive and grinds ring 64 and rotate, grinding ring 64 drives grinding ring frame 61 and rotates, thereby realize that grinding ring frame 61 drives a plurality of grinding plates 63 and rotates and polish first in the cable.

referring to fig. 8, 9 and 10, the implementation of the rotation of the driving ring frame is explained in detail:

cutting ring gear 32 fixed connection is on ring frame 31, fixedly connected with cutting drive wheel 73 on another output shaft of biax motor 74, cutting drive wheel 73 and the transmission of cutting ring gear 32 meshing, when starting biax motor 74, biax motor 74 drives cutting drive wheel 73 and rotates, cutting drive wheel 73 meshing drive cutting ring gear 32 rotates, cutting ring gear 32 drives ring frame 31 and rotates, thereby realize that a plurality of depression bars 33 promote a plurality of sliders 21 and slide, thereby realize the processing of a plurality of cutting knives 22 to the first.

referring to fig. 9 and 10, the implementation process of driving the plurality of arc-shaped knives to rotate is described in detail:

fixedly connected with excision ring gear 53 on cutting frame 51, it has excision drive wheel 81 to rotate on another arc frame 71, excision drive wheel 81 and excision ring gear 53 meshing transmission, be provided with on another arc frame 71 and drive excision drive wheel 81 pivoted gear motor, when starting this gear motor, this gear motor drives excision drive wheel 81 and rotates, excision drive wheel 81 meshes the drive and excises ring gear 53 and rotates, excision ring gear 53 drives cutting frame 51 and rotates, cutting frame 51 drives a plurality of arc sword 52 and rotates, the realization is to the excision processing of first in the cable.

Claims

1. The utility model provides a first intelligent manufacturing installation in cable, includes support (11), balladeur train (12), slider (21) and cutting knife (22), its characterized in that: the rack (11) is provided with a plurality of sliding frames (12), the sliding frames (12) are provided with sliding blocks (21), the sliding blocks (21) are provided with cutting knives (22), the sliding blocks (21) can slide linearly, the rack further comprises reciprocating springs (24), a ring frame (31) and pressing rods (33), the reciprocating springs (24) are arranged between the sliding blocks (21) and the corresponding sliding frames (12), the ring frame (31) is rotationally connected to the rack (11), the ring frame (31) is provided with a plurality of pressing rods (33), when the ring frame (31) rotates, the pressing rods (33) push the sliding blocks (21) to slide, the springs are arranged between the pressing rods (33) and the ring frame (31), the rack further comprises a limiting rod (23) and a limiting frame (41), the sliding blocks (21) are provided with the limiting rod (23), and the limiting frame (41) is arranged on the rack (11), stop position when spacing (41) can restrict a plurality of gag lever posts (23) and slide to spacing (41) axle center still includes cutting frame (51) and arc sword (52), and cutting frame (51) rotate to be connected on support (11), is provided with a plurality of arc sword (52) on cutting frame (51), and when cutting frame (51) rotated, cutting frame (51) drove a plurality of arc sword (52) and rotate, realizes the excision processing to first in the cable.

2. The intelligent cable armour manufacturing device according to claim 1, wherein: acute-angle-shaped cutting edges are arranged on the arc-shaped cutters (52).

3. The intelligent cable armour manufacturing apparatus according to claim 2, wherein: the polishing device is characterized by further comprising a polishing ring frame (61), polishing slide rods (62) and a polishing plate (63), wherein the polishing ring frame (61) is connected to the cutting frame (51) in a rotating mode, the polishing ring frame (61) is provided with a plurality of polishing slide rods (62), the polishing plate (63) is arranged on the polishing slide rods (62), and tension springs are arranged between the polishing slide rods (62) and the polishing ring frame (61).

4. The intelligent cable armour manufacturing apparatus according to claim 3, wherein: and guide arc plates are arranged on the plurality of grinding plates (63).

5. The intelligent cable armour manufacturing device according to claim 4, wherein: the polishing device is characterized by further comprising a polishing gear ring (64), arc-shaped frames (71), a polishing driving wheel (72) and a double-shaft motor (74), wherein the two arc-shaped frames (71) are arranged on the support (11), the double-shaft motor (74) is arranged on one arc-shaped frame (71), the polishing driving wheel (72) is fixedly connected to one output shaft of the double-shaft motor (74), the polishing gear ring (64) is arranged on the polishing ring frame (61), and the polishing gear ring (64) and the polishing driving wheel (72) are in meshing transmission.

6. The intelligent cable armour manufacturing device according to claim 5, wherein: the cutting device is characterized by further comprising a cutting gear ring (32) and a cutting driving wheel (73), wherein the cutting gear ring (32) is arranged on the ring frame (31), the cutting driving wheel (73) is fixedly connected to the other output shaft of the double-shaft motor (74), and the cutting driving wheel (73) and the cutting gear ring (32) are in meshing transmission.

7. The intelligent cable armour manufacturing apparatus according to claim 6, wherein: still including excision ring gear (53) and excision drive wheel (81), be provided with excision ring gear (53) on cutting frame (51), be provided with excision drive wheel (81) on another arc frame (71), excision drive wheel (81) and excision ring gear (53) meshing transmission are provided with on another arc frame (71) and drive excision drive wheel (81) pivoted gear motor.