CN114583525B

CN114583525B - Full-automatic cable connection is with interfacing apparatus

Info

Publication number: CN114583525B
Application number: CN202210363960.9A
Authority: CN
Inventors: 钱钢; 甘纯; 盛兴; 张引贤; 敬强; 徐海宁; 金武杰; 陈泽云; 丛贇; 韩叶林
Original assignee: Zhoushan Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Zhoushan Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2023-08-15
Anticipated expiration: 2042-04-07
Also published as: CN114583525A

Abstract

The invention discloses a butt joint device for full-automatic cable wiring, which belongs to the technical field of cable wiring devices and solves the problems of large workload and low efficiency of the existing connection mode of winding iron bars on cables.

Description

Full-automatic cable connection is with interfacing apparatus

Technical Field

The invention relates to the technical field of cable wiring devices, in particular to a docking device for full-automatic cable wiring.

Background

The existing cable connection has multiple modes, most of the cable connection with smaller diameter and lower toughness is connected by winding, most of the power transmission cable with larger diameter and higher flexibility is connected by staggering joints, the cable in the overlapped section is wound with iron bars to be connected and fastened by extrusion, and a few of the power transmission cables are fixedly connected with two ends of the cable to be connected by adopting a cable connector, so that the cable connector is high in connection cost and is used in key parts.

The iron strip connector is reserved outside the joint through the mode of extrusion connection fastening of winding iron strips on the cable, so that the insulation layer wrapping protection is not facilitated, the winding fastening operation is complex, the connection workload is large, and the efficiency is low.

Based on the above problems, the invention provides a docking device for full-automatic cable connection.

Disclosure of Invention

Aiming at the problems in the technical background, the invention aims to provide a full-automatic butt joint device for cable wiring, and solves the problems of large workload and low efficiency of the existing connection mode of winding iron strips on cables in the background technology by designing the full-automatic cable wiring device and wrapping a U-shaped steel clamping sleeve to connect cables in an extrusion molding mode for connection and fastening.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the docking device for the full-automatic cable connection comprises an automatic machine base, wherein a cable placing groove is formed in the automatic machine base, and a plurality of groups of telescopic clamping parts for extruding and stabilizing cables are symmetrically arranged on the automatic machine base at two sides of the cable placing groove;

a rotatable telescopic pushing block is arranged above the middle part of the automatic machine base, a U-shaped locking piece with a downward opening is clamped on the pushing block through a magnetic attraction block, and traction grooves are symmetrically arranged below two sides of the U-shaped locking piece;

the middle part of the automatic machine seat is provided with an extrusion forming groove, and pushing extrusion parts are symmetrically arranged at the front and back below the extrusion forming groove;

an arc-shaped surface is arranged at the top of one end, facing the cable, of the extrusion head contained in the pushing extrusion part, and the extrusion end of the extrusion head is inserted into the traction groove to pull the U-shaped locking piece to wrap and extrude the cable connection section;

and a pushing and feeding part is arranged on one side of the top of the automatic machine base.

Furthermore, side sliding grooves are symmetrically arranged in front and back below the extrusion molding groove, and pushing extrusion parts are arranged in the side sliding grooves.

Further, the pushing and extruding part comprises a plurality of groups of second hydraulic telescopic rods and the extruding heads, one ends of the plurality of groups of second hydraulic telescopic rods are fixedly arranged on the automatic machine base, and movable ends of the plurality of groups of second hydraulic telescopic rods are arranged on one side face of the extruding heads.

Further, the first through groove that runs through of propulsion piece middle part top, first through groove bottom intercommunication runs through the second through groove of propulsion piece both sides and bottom, install at first through inslot top the magnetism is inhaled the piece, install in the second through groove U type latch fitting, it is perpendicular to set up on the propulsion piece the extrusion propulsion groove of second through groove, extrusion propulsion groove runs through propulsion piece both sides and bottom.

Still further, advance the piece top and be connected with the third hydraulic telescoping rod, third hydraulic telescoping rod top is installed on rotating the seat, it installs on being the mounting bracket of L type to rotate the seat, the mounting bracket bottom fixing is in automation frame top one side.

Further, the automatic frame of cable standing groove both sides is last the symmetry to set up multiunit constant head tank, install in the constant head tank flexible clamping part, flexible clamping part contains multiunit first hydraulic telescoping rod, locating piece and multiunit antislip strip, multiunit first hydraulic telescoping rod expansion end orientation cable standing groove is installed on the automatic frame, multiunit first hydraulic telescoping rod expansion end is connected with the locating piece, the locating piece orientation cable standing groove is installed multiunit on a side antislip strip.

Further, the positioning block is provided with a trapezoid notch towards one side face of the cable placing groove.

Further, advance pay-off portion contains feed side frame, U type frame, impels piece and fourth hydraulic telescoping rod, the feed side frame is installed automation frame top one side, the feed side frame top is installed the opening to the U type frame of cable standing groove, it has the opening decurrent to deposit on the U type frame U type locking piece, install in the U type frame impels the piece, install on the U type frame and impel the piece to the fourth hydraulic telescoping rod of cable standing groove.

Further, the opening of the U-shaped frame is aligned with the pushing block which can be lifted and lowered in a rotating mode, and the second through groove of the pushing block corresponds to the opening of the U-shaped frame during charging.

Compared with the prior art, the invention has the following advantages:

(1) According to the invention, the cable placing grooves are formed in the automatic machine base, a plurality of groups of telescopic clamping parts for extruding and stabilizing the cables are symmetrically arranged on the automatic machine base at two sides of the cable placing grooves, rotatable telescopic pushing blocks are arranged above the middle part of the automatic machine base, U-shaped locking pieces with downward openings are clamped on the pushing blocks through magnetic attraction blocks, traction grooves are symmetrically formed below two sides of the U-shaped locking pieces, extrusion forming grooves for inserting the pushing blocks are formed in the middle part of the automatic machine base, pushing extrusion parts are symmetrically arranged front and back below the extrusion forming grooves, cables to be connected are inserted into the cable placing grooves in a staggered mode, meanwhile, staggered sections are located below the pushing blocks, the cables to be connected are fixed through the telescopic clamping parts, sliding is avoided, the pushing blocks are controlled to be inserted into the extrusion forming grooves, meanwhile, the U-shaped locking pieces are clamped on the cables to be connected, then extrusion heads of the pushing extrusion parts at two sides are controlled to be inserted into the traction grooves at two sides of the U-shaped locking pieces, the extrusion heads at two sides are used for pulling the bottom ends of the U-shaped locking pieces to carry out forced closed loop, and arc surfaces are arranged at the top of the extrusion heads in the process of forming closed loop, so that the extrusion heads can better extrusion U-shaped locking pieces are matched with the cables, and the joint strength of the cables is reduced, and the gap is reduced.

(2) According to the invention, the pushing feeding part is arranged on one side of the top of the automatic machine seat, after a group of extrusion connection is completed, the pushing block is controlled to lift and separate from the extrusion forming groove, then the cable is taken out, a second group of cables to be connected are put into the pushing feeding part, at the moment, the pushing block is controlled to rotate and align with a U-shaped frame contained in the pushing feeding part, the pushing block is controlled to push the U-shaped locking piece to be inserted into the second through groove of the pushing block through the fourth hydraulic telescopic rod, meanwhile, the magnetic attraction block is controlled to attract the U-shaped locking piece, then the pushing block is controlled to rotate so that the first through groove is parallel to the cables to be connected, finally, the pushing block is controlled to descend for repeatedly extruding the connecting cables, and the intelligent feeding design is realized, so that the working efficiency of cable connection is improved.

Drawings

FIG. 1 is a perspective view of a pusher block inserted into an extrusion groove provided by an embodiment of the present invention;

FIG. 2 is a perspective view of a pusher block ejection extrusion groove provided by an embodiment of the present invention;

FIG. 3 is a perspective view showing a U-shaped lock member of a propulsion block according to an embodiment of the present invention;

FIG. 4 is a perspective view of a propulsion block according to an embodiment of the present invention;

FIG. 5 is a perspective view of a U-shaped lock according to an embodiment of the present invention;

FIG. 6 is a partial semi-cutaway perspective view of an automated chassis provided in an embodiment of the present invention;

FIG. 7 is a partial semi-cutaway perspective view of an automated chassis compression connection according to an embodiment of the present invention;

fig. 8 is a perspective view of a telescopic clamping portion according to an embodiment of the present invention.

In the figure: 1. an automatic machine base; 2. a cable placement groove; 3. a positioning groove; 4. a first hydraulic telescoping rod; 5. a positioning block; 6. an anti-slip strip; 7. an extrusion molding groove; 8. a side chute; 9. a second hydraulic telescoping rod; 10. an extrusion head; 11. an arc surface; 12. a propulsion block; 13. a first through slot; 14. a magnetic suction block; 15. a second through groove; 16. extruding the pushing groove; 17. a U-shaped locking piece; 18. a traction groove; 19. a mounting frame; 20. a rotating seat; 21. a third hydraulic telescoping rod; 22. a feed side frame; 23. a U-shaped frame; 24. a propulsion block; 25. and a fourth hydraulic telescopic rod.

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.

As shown in fig. 1-8, a docking device for full-automatic cable connection comprises an automatic machine base 1, wherein a cable placing groove 2 is arranged on the automatic machine base 1, and a plurality of groups of telescopic clamping parts for extruding and stabilizing cables are symmetrically arranged on the automatic machine base 1 at two sides of the cable placing groove 2; the stability of the cable during extrusion connection is improved by arranging the telescopic clamping part, the effect of sliding affecting extrusion connection is avoided, the rotatable telescopic pushing block 12 is arranged above the middle part of the automatic machine base 1, the U-shaped locking piece 17 with a downward opening is clamped on the pushing block 12 through the magnetic attraction block 14, the U-shaped locking piece 17 with a closed loop separated from the magnetic attraction block 14 of the pushing block 12 is lifted after extrusion molding, the U-shaped locking piece 17 is made of steel which can be subjected to forced compression molding, the rigidity after closed loop molding is improved, the deformation is not easy, and traction grooves 18 are symmetrically arranged below two sides of the U-shaped locking piece 17; an extrusion forming groove 7 for inserting a pushing block 12 is formed in the middle of the automatic machine base 1, and pushing extrusion parts are symmetrically arranged at the front and back sides below the extrusion forming groove 7; the extrusion head 10 contained in the pushing extrusion part is provided with an arc-shaped surface 11 towards the top of one end of the cable, and the extrusion end of the extrusion head 10 is inserted into the traction groove 18 to pull the U-shaped locking piece 17 to wrap and extrude the cable connection section; the propelling feeding part is arranged on one side of the top of the automatic machine base 1, the extruding heads 10 on two sides are convenient to drive the U-shaped locking pieces 17 to form a closed loop around the bottom of the cable by arranging the traction grooves 18, and meanwhile, the arc-shaped surface is arranged on the top of the extruding heads 10, so that the U-shaped locking pieces 17 can be conveniently extruded and molded along the circular surface of the bottom of the cable, and the connection strength of the molded cable is increased.

As shown in fig. 6 and 7, side sliding grooves 8 are symmetrically arranged in front and back of the lower part of the extrusion forming groove 7, and pushing extrusion parts are arranged in the side sliding grooves 8 and are communicated with the front and back lower parts of the extrusion forming groove 7 through the side sliding grooves 8, so that the pushing extrusion parts can conveniently extrude the trolley on two sides of the bottom of the U-shaped lock piece 17.

As shown in fig. 6 and 7, the pushing extrusion part comprises a plurality of groups of second hydraulic telescopic rods 9 and extrusion heads 10, one ends of the plurality of groups of second hydraulic telescopic rods 9 are fixedly installed on the automatic machine base 1, movable ends of the plurality of groups of second hydraulic telescopic rods 9 are installed on one side surface of the extrusion heads 10, the extrusion heads 10 are driven to stretch and retract by controlling the plurality of groups of second hydraulic telescopic rods 9 to carry out cart extrusion one-time molding on the U-shaped locking pieces 17, and the efficiency of cable connection is improved.

As shown in fig. 4, a first through groove 13 is formed in the upper middle of the pushing block 12, the bottom of the first through groove 13 is communicated with a second through groove 15 formed in the two sides and the bottom of the pushing block 12, a magnetic attraction block 14 is installed at the top in the first through groove 13, the stability of the U-shaped locking piece 17 is ensured when the U-shaped locking piece 17 is clamped by installing the magnetic attraction block 14 in the first through groove 13, a U-shaped locking piece 17 is installed in the second through groove 15, an extrusion pushing groove 16 perpendicular to the second through groove 15 is formed in the pushing block 12, the extrusion pushing groove 16 penetrates through two sides and the bottom of the pushing block 12, when the extrusion pushing grooves 16 are formed in two sides and are convenient for inserting the pushing block 12 into the extrusion forming groove 7, the extrusion head 10 of the pushing part extrudes the U-shaped locking piece 17 through the extrusion pushing grooves 16 on two sides, and meanwhile, when loading is carried out, the rotation pushing block 12 is lifted to align to the pushing feeding part, and automatic feeding of the U-shaped locking piece 17 is realized.

As shown in fig. 1 and 2, the top of the pushing block 12 is connected with a third hydraulic telescopic rod 21, the top of the third hydraulic telescopic rod 21 is installed on a rotating seat 20, the rotating seat 20 is installed on an L-shaped installation frame 19, the bottom end of the installation frame 19 is fixed on one side of the top of the automatic machine base 1, the rotating seat 20 is driven by an existing motor base, the purpose of extrusion and separation is achieved by controlling the expansion and contraction of the third hydraulic telescopic rod 21, the steering of the pushing block 12 is controlled by the rotating seat 20, and the purpose of automatic feeding is achieved by matching with a pushing feeding part.

As shown in fig. 1, 2 and 8, the automatic machine base 1 on two sides of the cable placing groove 2 is symmetrically provided with a plurality of groups of positioning grooves 3, a telescopic clamping part is installed in each positioning groove 3, each telescopic clamping part comprises a plurality of groups of first hydraulic telescopic rods 4, a positioning block 5 and a plurality of groups of anti-slip strips 6, the movable ends of the plurality of groups of first hydraulic telescopic rods 4 are installed on the automatic machine base 1 towards the cable placing groove 2, the movable ends of the plurality of groups of first hydraulic telescopic rods 4 are connected with the positioning block 5, the positioning block 5 is installed on one side surface of the cable placing groove 2, the plurality of groups of anti-slip strips 6 are arranged to ensure that the surface of a cable is not contused while the extrusion is stable, the protection of the surface of the cable is achieved, the purpose of firmly clamping the cable and loosening the cable is achieved by controlling the plurality of groups of first hydraulic telescopic rods 4 to stretch and retract, and the stability of extrusion connection is improved.

As shown in fig. 1, 2 and 8, the positioning block 5 is arranged to be a trapezoid notch towards one side surface of the cable placing groove 2, and the notch is arranged to be a trapezoid notch, so that the cables can be conveniently attached when two cables are clamped, the existence of a gap is avoided, and the extrusion molding effect is improved.

As shown in FIG. 1, the propelling part comprises a feeding side frame 22, a U-shaped frame 23, a propelling block 24 and a fourth hydraulic telescopic rod 25, wherein the feeding side frame 22 is arranged on one side above the automatic machine base 1, the U-shaped frame 23 with an opening facing the cable placing groove 2 is arranged at the top of the feeding side frame 22, a U-shaped lock piece 17 with a downward opening is stored on the U-shaped frame 23, the propelling block 24 is arranged in the U-shaped frame 23, the propelling block 24 is arranged on the U-shaped frame 23, and the fourth hydraulic telescopic rod 25 for propelling the propelling block 24 to the cable placing groove 2 is arranged on the U-shaped frame 23, and the purpose of propelling the U-shaped lock piece 17 to be inserted into the propelling block 12 for feeding is achieved by controlling the fourth hydraulic telescopic rod 25 to stretch out and push the propelling block 24.

As shown in fig. 3, the opening of the U-shaped frame 23 is aligned with the lifting pushing block 12, and when the lifting pushing block is charged, the second through groove 15 of the pushing block 12 corresponds to the opening of the U-shaped frame 23, so that the feeding accuracy is increased and the working efficiency is improved by arranging the U-shaped frame 23.

Working principle:

the multi-group first hydraulic telescopic rods 4 are controlled to stretch and push the positioning blocks 5 to squeeze and hold the cables to be connected, sliding is avoided, the third hydraulic telescopic rods 21 are controlled to stretch and drive the pushing blocks 12 to lift, the rotating seat 20 is controlled to control the turning of the pushing blocks 12, the second penetrating grooves 15 are aligned with the U-shaped frames 23, the fourth hydraulic telescopic rods 25 are controlled to stretch out and push the pushing blocks 24 to drive the U-shaped locking pieces 17 to insert into the pushing blocks 12, at the moment, the magnetic attraction blocks 14 attract the U-shaped locking pieces 17 to achieve clamping effect, then the rotating seat 20 is controlled to drive the pushing blocks 12 to rotate, the U-shaped locking pieces 17 are guaranteed to open in the cable in parallel, the third hydraulic telescopic rods 21 are controlled to stretch out and push the pushing blocks 12 to insert into the extrusion forming grooves 7, after the position is reached, the two groups of second hydraulic telescopic rods 9 are controlled to push the extrusion heads 10 to insert into the traction grooves 18 at two sides of the bottom of the U-shaped locking pieces 17, and the bottom ends of the U-shaped locking pieces 17 are pulled to conduct strong-pressure closed-loop, and in the process of forming closed-loop, the top of the extrusion head 10 is provided with the arc-shaped surfaces 11, the good extrusion U-shaped locking pieces 17 are convenient to squeeze the cables, and the cable is closed-loop, and the gap strength is reduced, and simultaneously, and the connection strength of the cables is increased.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The butt joint device for the full-automatic cable wiring comprises an automatic machine base (1) and is characterized in that a cable placing groove (2) is formed in the automatic machine base (1), and a plurality of groups of telescopic clamping parts for extruding and stabilizing cables are symmetrically arranged on the automatic machine base (1) at two sides of the cable placing groove (2);

a rotatable telescopic pushing block (12) is arranged above the middle of the automatic machine base (1), a U-shaped locking piece (17) with a downward opening is clamped on the pushing block (12) through a magnetic attraction block (14), and traction grooves (18) are symmetrically arranged below two sides of the U-shaped locking piece (17);

an extrusion forming groove (7) for inserting the pushing block (12) is formed in the middle of the automatic machine base (1), and pushing extrusion parts are symmetrically arranged at the front and back below the extrusion forming groove (7);

an arc-shaped surface (11) is arranged at the top of one end, facing the cable, of an extrusion head (10) contained in the pushing extrusion part, and the extrusion end of the extrusion head (10) is inserted into the traction groove (18) to pull the U-shaped locking piece (17) to wrap and extrude the cable connection section;

a pushing and feeding part is arranged on one side of the top of the automatic machine base (1);

the pushing and extruding part comprises a plurality of groups of second hydraulic telescopic rods (9) and an extruding head (10), one ends of the plurality of groups of second hydraulic telescopic rods (9) are fixedly arranged on the automatic machine base (1), and movable ends of the plurality of groups of second hydraulic telescopic rods (9) are arranged on one side face of the extruding head (10);

a first penetrating groove (13) is formed in the upper portion of the middle of the propelling block (12) in a penetrating mode, a second penetrating groove (15) penetrating through two sides and the bottom of the propelling block (12) is formed in the bottom of the first penetrating groove (13) in a communicating mode, the magnetic attraction block (14) is arranged at the inner top of the first penetrating groove (13), the U-shaped locking piece (17) is arranged in the second penetrating groove (15), an extrusion propelling groove (16) perpendicular to the second penetrating groove (15) is formed in the propelling block (12), and the extrusion propelling groove (16) penetrates through two sides and the bottom of the propelling block (12);

the cable placing groove is characterized in that a plurality of groups of positioning grooves (3) are symmetrically formed in the automatic machine base (1) on two sides of the cable placing groove (2), the telescopic clamping parts are arranged in the positioning grooves (3), each telescopic clamping part comprises a plurality of groups of first hydraulic telescopic rods (4), positioning blocks (5) and a plurality of groups of anti-slip strips (6), the movable ends of the first hydraulic telescopic rods (4) face the cable placing groove (2) to be arranged on the automatic machine base (1), the movable ends of the first hydraulic telescopic rods (4) are connected with the positioning blocks (5), and the positioning blocks (5) face one side face of the cable placing groove (2) to be provided with a plurality of groups of anti-slip strips (6).

2. The butt joint device for full-automatic cable connection according to claim 1, wherein side sliding grooves (8) are symmetrically arranged in front and back below the extrusion forming groove (7), and a pushing extrusion part is arranged in the side sliding groove (8).

3. The docking device for full-automatic cable connection according to claim 1, wherein a third hydraulic telescopic rod (21) is connected to the top of the pushing block (12), the top of the third hydraulic telescopic rod (21) is installed on a rotating seat (20), the rotating seat (20) is installed on an L-shaped installation frame (19), and the bottom end of the installation frame (19) is fixed on one side of the top of the automatic machine seat (1).

4. The docking device for fully automatic cable connection according to claim 1, wherein the positioning block (5) is provided as a trapezoidal recess towards one side of the cable placement groove (2).

5. The docking device for full-automatic cable connection according to claim 1, wherein the pushing feeding part comprises a feeding side frame (22), a U-shaped frame (23), a pushing block (24) and a fourth hydraulic telescopic rod (25), the feeding side frame (22) is installed on one side above the automatic machine base (1), the U-shaped frame (23) with an opening facing the cable placing groove (2) is installed at the top of the feeding side frame (22), the U-shaped lock (17) with a downward opening is stored on the U-shaped frame (23), the pushing block (24) is installed in the U-shaped frame (23), and the fourth hydraulic telescopic rod (25) pushing the pushing block (24) to the cable placing groove (2) is installed on the U-shaped frame (23).

6. The docking device for fully automatic cable connection according to claim 5, wherein the opening of the U-shaped frame (23) is aligned with the pushing block (12) which can be rotated up and down, and the second through slot (15) of the pushing block (12) corresponds to the opening of the U-shaped frame (23) when the docking device is charged.