CN113572085B

CN113572085B - Intelligent manufacturing device for cable armor part

Info

Publication number: CN113572085B
Application number: CN202111117713.2A
Authority: CN
Inventors: 张军
Original assignee: Nantong Dongfeng Special Cable Co ltd
Current assignee: Nantong Dongfeng Special Cable Co ltd
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2021-11-26
Anticipated expiration: 2041-09-24
Also published as: CN113572085A

Abstract

The invention relates to the field of cable processing, in particular to an intelligent manufacturing device for a cable armor part, which comprises two track mechanisms which are arranged in a mirror symmetry mode and can be spliced to form an annular lifting space and an annular track which are respectively arranged at the inner side and the outer side, and an armor unloading mechanism which is connected to the annular track in a sliding mode, wherein the armor unloading mechanism comprises a cutter head which can cut a cable on the axis of the annular lifting space, the cutter head can do circular motion, and the annular track and a virtual circle formed by the motion track of the cutter head are arranged coaxially. The convenience in transformation can be improved. The convenience in modifying the cable armor portion can be improved.

Description

Intelligent manufacturing device for cable armor part

Technical Field

The invention relates to the field of cable processing, in particular to an intelligent manufacturing device for an armored part of a cable.

Background

The armored cable is firmer due to the multilayer structure compared with the common cable, the flexible outer sheath and the metal protective pipe of the armored cable can be sleeved on the cable with any structure, the mechanical strength of the cable can be obviously increased, the anti-corrosion capability of the cable is improved, the tensile strength and the compressive strength of the cable are enhanced, the cable is not easy to damage, the service life of the cable is prolonged, and the armored cable is particularly suitable for being used in occasions which the cable is easy to be subjected to external force or corrosion; when the armor part of manufacturing cable, the further processing is gone up on finished product armoured cable usually, reforms transform the special section of putting under special environment, if installation connector or special outer armour to need keep the position of armoured cable to skin, but armoured cable's protective layer is thicker, and intensity is great, and whole weight is heavier, is not convenient for peel off, and especially high-end armoured cable needs the manual work when the armoured is made and is reformed transform, and the convenience is relatively poor.

Disclosure of Invention

The invention provides an intelligent manufacturing device for an armored part of a cable, and aims to improve convenience in modifying the armored part of the cable.

The above purpose is realized by the following technical scheme:

the utility model provides a cable armor part intelligence manufacturing installation, includes that two mirror symmetry set up and can splice and form the annular that is in inside and outside both sides respectively and lift space and the orbital track mechanism of annular to and sliding connection unload armoring mechanism on the annular track, it includes can be right to unload the armoring mechanism the cable on the annular lifts the space axis carries out the tool bit of cutting, circular motion can be done to the tool bit, and the two coaxial lines of virtual circle that the orbit of annular and the motion trail of tool bit constitute set up.

The track mechanism comprises semi-ring discs and tracks I arranged on the semi-ring discs, the annular lifting space is formed when the two semi-ring discs are in butt joint, and the two tracks I are in butt joint to form the annular track.

The track mechanism further comprises a position adjusting mechanism for adjusting the position of the semi-ring disc, the position adjusting mechanism comprises a y-axis adjusting mechanism and an x-axis adjusting mechanism, the y-axis adjusting mechanism is used for adjusting the position of the semi-ring disc in the front-back direction, and the x-axis adjusting mechanism is used for adjusting the position of the semi-ring disc in the left-right direction.

Drawings

FIG. 1 shows an overall structure of a smart manufacturing apparatus for an armored portion of a cable;

FIG. 2 shows another perspective of the overall structure;

FIG. 3 shows a track mechanism;

FIG. 4 shows a armor removing mechanism;

FIG. 5 shows a half-ring disc and track I;

FIG. 6 shows how the armor removing mechanism is mounted on track I of the semicircular disc;

FIG. 7 shows an armor removing mechanism underlying structure;

FIG. 8 shows a tool bit and a push block;

FIG. 9 shows a partial structure of a rail mechanism;

fig. 10 shows another partial structure of the rail mechanism.

Detailed Description

An intelligent manufacturing device for a cable armor part can be easily understood by referring to fig. 3, and comprises two track mechanisms 1 which are arranged in a mirror symmetry mode, wherein the two track mechanisms 1 can be spliced close to each other to form an annular lifting space and an annular track, and the annular lifting space is positioned in the annular track;

referring to fig. 4, the device further comprises an armor discharging mechanism 2 slidably connected to the annular track, wherein the armor discharging mechanism 2 comprises a cutter head 211 capable of cutting the cable on the axis of the annular lifting space, and the cutter head moves circularly around the annular space;

specifically, can refer to fig. 1 and 2, place the armoured cable and lift in annular lift space, the axis of armoured cable distributes from left to right this moment, and the axis of armoured cable and the axis coincidence of the circle that the tool bit motion trajectory formed, track mechanism 1 can set up the multiunit as required, carries out the multistage to the armoured cable and supports, and the armoured cable is treated the processing position and need not support. Make the tool bit be circular motion around circular orbit, and then can open the oversheath of armoured cable, treat the processing position with the armoured cable and control two limit ends and encircle the cutting respectively, and then treat that the oversheath of processing position will independently come out to follow-up independent processing takes off, improves the convenience.

Preferably, referring to fig. 5 and 6, the track mechanism 1 includes half-ring discs 11 and tracks i 12 disposed on the half-ring discs 11, a complete ring structure is formed when the two half-ring discs 11 are butted, an annular lifting space is formed inside the ring structure, the two tracks i 12 are also butted to form the ring track after the two half-ring discs 11 are butted, and after the two half-ring discs 11 are butted, an armored cable can be passed through the annular lifting space from left to right direction and lifted by the two half-ring discs 11, but this limits the arrangement form of the armored cable, which causes inconvenience in arrangement, so that the armored cable can be longitudinally passed between the two half-ring discs 11 before the two half-ring discs 11 are butted, and then the two half-ring discs 11 are close to the butted to complete lifting.

The track mechanism 1 further comprises an adjusting mechanism for adjusting the position of the semi-ring disc 11 on the horizontal plane, and the position adjusting mechanism comprises a y-axis adjusting mechanism;

referring to fig. 3, the y-axis adjusting mechanism includes an electric push rod i 13, and connecting members 14 fixedly connected to front and rear ends of the electric push rod i 13, the connecting member 14 located at the rear side is fixedly connected to the right side of the front end of the semi-ring plate 11, and the connecting member 14 located at the front side is fixedly connected to the x-axis adjusting mechanism;

furthermore, when the electric push rod I13 is started, the semi-ring discs 11 can be driven to move back and forth, so that the linear motion in the y-axis direction is realized, and the two semi-ring discs 11 are far away from each other or close to each other to realize butt joint.

Orientations are added for ease of description. Still in fig. 3, the x-axis adjusting mechanism comprises four guide wheels i 15 rotatably connected to the connecting piece 14 positioned at the front side, a guide rail 16 with an upper guide groove and a lower guide groove, and a threaded hole 122 extending longitudinally is formed in the lower part of the track mechanism 1, the threaded hole 122 is positioned in the track i 12, and the threaded hole 122 is internally threaded with a bolt with the tail part facing upwards; four guide pulleys I15 are located the four corners of a virtual rectangle respectively, two guide pulleys I15 that are located the top roll in the guide slot that is located the top, two guide pulleys I15 that are located the below roll in the guide slot that is located the below, the middle part of guide pulley I15 is equipped with the ring channel, be equipped with in every guide slot on the guide rail 16 a body coupling and with ring channel complex protruding rail, be used for spacing to guide pulley I15, make guide pulley I15 only control the straight line and roll, the connecting piece 14 that is located the front side can remove through the drive of linear actuator, also can directly transfer through the hand, in actual operation, when two armoured cables dock, when installing additional armour or connector, the hand is transferred more conveniently.

Then, when moving the semi-ring plate 11 about, can adjust and lift the position and change the cutting position, it is nearer with the cutting position distance to lift the position to make the cutting operation steady, and lift the position and can adjust in step with the cutting position, improve operating efficiency.

Referring to fig. 9, the track mechanism 1 further includes an electric push rod ii 17, and a double push rod 18 fixedly connected to a movable end of the electric push rod ii 17, the electric push rod ii 17 is used for pushing the double push rod 18 to move forward and backward, the track mechanism 1 further includes shafts rotatably connected to two ends of the double push rod 18, the two shafts are respectively inserted into two frames with straight mouths 19, the frames with straight mouths 19 are integrally connected with a square column 120 extending backward, an included angle between the square column 120 and the frame with straight mouths 19 connected to the square column 120 is 45 degrees, and a support column 121 is fixedly connected to a rear end of the square column 120, so that four support columns 121 formed by the two track mechanisms 1 arranged in a mirror symmetry manner are respectively located at four corners of a virtual square;

specifically, when starting two electric putter II 17, two electric putter II 17 drive two double push rods 18 and are close to each other, so four are supported post 121 and are close to each other, virtual square reduces, drives two double push rods 18 and keep away from each other when two electric putter II 17, and virtual square size grow so utilizes four to support post 121 to drag the clamp and fix different diameter armoured cable and can ensure the axis of armoured cable and the axis coincidence of the circular motion orbit of tool bit 211, and then only need tool bit 211 to do circular motion can cut the oversheath of armoured cable.

Referring to fig. 4, the armor removing mechanism 2 further comprises an electric push rod iii 21, two bosses 22 fixedly connected to the wall surface of the housing of the electric push rod iii 21, holes are formed on the bosses 22, a connecting seat 23 is rotatably connected to the lower portion of the housing of the electric push rod iii 21, a screw i 24 is screwed on the connecting seat 23, the screw i 24 can be inserted into the holes of the bosses 22 by rotating the screw i 24, two support rods 25 are fixedly connected to the side wall of the left end of the connecting seat 23, a guide wheel ii 26 is rotatably connected to the left end of the support rod 25, a straight plate i 27 is fixedly connected to the movable end of the electric push rod iii 21, two return rods 28 slidably connected to the straight plate i 27, a base 29 is fixedly connected to the lower end of the return rods 28, a limiting portion is fixedly connected to the upper end of the return rods 28, a compression spring is sleeved on the return rods 28, both ends of the compression spring are respectively contacted with the straight plate i 27 and the base 29, two sliders 210 are slidably connected to the lower end of the base 29, the two sliding blocks 210 can only linearly slide back and forth, a screw II 214 is in threaded connection with the middle of the base 29, and the screw II 214 is in sliding connection with the straight plate I27 and the movable end of the electric push rod III 21; the lower part of the cutter head 211 is a semicircular cutter edge, the upper part of the cutter head is a cutter body, a push block 212 is arranged between the semicircular cutter edge and the cutter body, and the two bosses 22 are spaced by 90 degrees in the circumferential direction;

specifically, the tool bit 211 can be driven to be close to or far away from an armored cable by starting the electric push rod III 21, so that the cutting of the outer sheaths with different diameters can be realized, the tool bit 211 can elastically reset during cutting, the cutting of metal armor is avoided, after circumferential cutting is respectively completed at two ends of a section to be cut of the armored cable, the rotary screw I24 is separated from the convex seat 22, the electric push rod III 21 is rotated for 90 degrees, the screw I24 is rotated to enter the other convex seat 22, and further the electric push rod III 21 is positioned, then the tool bit 211 is rotated for 90 degrees to be distributed leftwards and rightwards, the outer sheath is linearly cut when moving leftwards and rightwards, and further the cutting section of the outer sheath is two circumferential cutting traces and a transverse cutting trace which is communicated with two circumferential cutting edges, so that the outer sheath can be taken down from the armored cable, the further the rotary screw II 214 is connected, the distance between the screw II 214 and a semicircular cutting edge is adjusted, and the semicircular cutting edge can be inserted into the outer sheath when the screw II 214 is supported on the outer sheath, the insertion depth is the distance between the screw II 214 and the semicircular cutting edge, the cutting depth can be controlled, the important significance is that when the metal outer sheath is cut, the depth can be controlled without damaging the flexible material in the metal outer sheath, and the pushing block 212 can be used as a reference object to visually observe the entering depth; and a bolt in the threaded hole 122 is screwed into the track I12 upwards to block the guide wheel I15, so that the armor unloading mechanism 2 is prevented from falling off.

The inner ends of the two sliding blocks 210 are fixedly connected with a tension spring 213 respectively, the inner ends of the two tension springs 213 are fixedly connected with the middle part of the base 29, when cutting is finished, the two cutter heads 211 are influenced by the tension springs to be closer, when the cutting of the straight line trace is finished, the two cutter heads 211 are rotated by 90 degrees to expand the outer sheath, then an electric push rod III 21 is started to feed the two cutter heads 211, the cutting sections of the outer sheath can be pushed out of the armored cable by the two cutter heads 211 one above the other, when the outer sheath is pushed, the outer sheath is easy to continue to be cut due to the sharpness of the cutter heads 211, the outer sheath can be pushed against the section of the straight line cutting trace of the outer sheath by the pushing block 212, the outer sheath is smoothly pushed out of the armored cable, when the metal armor is cut again, a section of the metal armor is reserved at the edge end of the rest outer sheath and used for sleeving a new modified outer armor, such as the metal outer armor, a bolt is screwed into the two half-pipe modified outer armor, the modified outer armor of two half tubular construction is pressed on the metal armor who remains, plays fixed effect, and when the erection joint of also being convenient for, the joint of being convenient for is pressed on keeping one end metal armor.

Claims

1. The utility model provides a cable armor part intelligence manufacturing installation, includes that two mirror symmetry set up and can splice to form annular that is in inside and outside both sides respectively and lift space and circular orbit's track mechanism (1) to and sliding connection is in last armour mechanism (2) of unloading of circular orbit, its characterized in that: the armor unloading mechanism (2) comprises a cutter head (211) capable of cutting the cable on the axis of the annular lifting space;

the track mechanism (1) comprises semi-ring discs (11) and tracks I (12) arranged on the semi-ring discs (11), wherein the two semi-ring discs (11) form an annular lifting space when in butt joint, and the two tracks I (12) form an annular track in butt joint;

the track mechanism (1) further comprises a position adjusting mechanism for adjusting the position of the semi-ring disc (11);

the position adjusting mechanism comprises a y-axis adjusting mechanism;

the y-axis adjusting mechanism comprises an electric push rod I (13) and connecting pieces (14) fixedly connected to the front end and the rear end of the electric push rod I (13), wherein one connecting piece (14) is fixedly connected with the front end of the semi-ring disc (11);

the position adjusting mechanism also comprises an x-axis adjusting mechanism for adjusting the position of the other connecting piece (14);

the x-axis adjusting mechanism comprises four guide wheels I (15) which are connected to the other connecting piece (14) in a rotating mode and distributed in a rectangular mode, and a guide rail (16) with an upper guide groove and a lower guide groove; the lower part of the track mechanism (1) is provided with a longitudinally extending threaded hole (122), the threaded hole (122) is positioned in the track I (12), and a bolt with an upward tail part is connected with an internal thread of the threaded hole (122);

the track mechanism (1) further comprises an electric push rod II (17), a double push rod (18) fixedly connected to the movable end of the electric push rod II (17), shafts arranged at two ends of the double push rod (18), two straight opening racks (19) respectively spliced with the two shafts, a square column (120) integrally connected to the straight opening racks (19), and a support column (121) fixedly connected to the square column (120) and far away from one end of each straight opening rack (19), wherein an included angle between the square column (120) and each straight opening rack (19) is 45 degrees, and the four support columns (121) are respectively located at four corners of a virtual square;

the armor removing mechanism (2) also comprises an electric push rod III (21), two convex seats (22) arranged on the wall surface of the shell of the electric push rod III (21), a connecting seat (23) rotatably connected to the lower part of the shell of the electric push rod III (21), a screw I (24) which is in threaded connection with the connecting seat (23) and is used for inserting the convex seats (22), a supporting rod (25) with one end fixedly connected to the side wall of the connecting seat (23), a guide wheel II (26) rotatably connected to the other end of the supporting rod (25), a straight plate I (27) fixedly connected to the movable end of the electric push rod III (21), two reset rods (28) slidably connected to the straight plate I (27), a base (29) fixedly connected to the lower end of the reset rod (28), a limiting part fixedly connected to the upper end of the reset rod (28), and a compression spring sleeved on the reset rod (28), the two sliding blocks (210) are connected to the lower end of the base (29) in a sliding mode, and the screw II (214) is connected to the middle of the base (29) in a threaded mode and connected to the straight plate I (27) and the movable end of the electric push rod III (21) in a sliding mode; the lower part of the tool bit (211) is a semicircular cutting edge, the upper part of the tool bit is a cutter body, a push block (212) is arranged between the semicircular cutting edge and the cutter body, and the two convex seats (22) are spaced by 90 degrees in the circumferential direction.

2. The device of claim 1, wherein the inner ends of the two sliding blocks (210) are fixedly connected with a tension spring (213) respectively, and the inner ends of the two tension springs (213) are fixedly connected with the middle part of the base (29).