CN110534993B - Wire rapid crimping device capable of achieving rapid forming - Google Patents

Abstract

The invention discloses a wire rapid crimping device capable of being rapidly formed, and relates to the technical field of power construction. The die comprises a fixed die holder, wherein a cover plate is fixedly arranged at an opening at the upper end of the fixed die holder, and an even number of press blocks are slidably arranged on the fixed die holder. And a die cavity for accommodating the splicing sleeve is arranged between the fixed die holder and the pressing block. A first roller way and a second roller way are respectively arranged on the front side and the rear side of the die cavity between the cover plate and the pressing block, a crimping block is arranged on the right side of the fixed die holder in the first roller way, a crimping block is arranged on the left side of the fixed die holder in the second roller way, the crimping block is fixedly arranged on a pull rod, and two ends of the pull rod are respectively fixedly connected with the driving frame. An oil cylinder for driving the driving frame to move left and right is arranged between the cover plate and the driving frame. The device has abandoned traditional mode that mode crimping was pursued to the mould, adopts continuous crimping, can realize quick crimping, and is efficient.

Description

Wire rapid crimping device capable of achieving rapid forming

Technical Field

The invention relates to the technical field of electric power construction, in particular to a rapid wire crimping device capable of being rapidly formed.

Background

The wire connection is a common power construction operation, plays an important role in the normal operation of a power system, and the connection reliability of the wire connection part must be ensured in order to ensure the normal operation of a power grid. This dictates that each step in the wire splicing process is strictly regulated.

When the wires are connected, the outer side wires at the end parts of the two wires are stripped by using a wire stripper, and the steel core is leaked. Then the two wires are oppositely inserted into the splicing sleeve, wherein the steel core of one wire is kept in the original state and is inserted into the wire at the other end, so that the wire at the other end is in a scattered state. And then, the inner-layer splicing sleeve is crimped by a crimping machine, so that crimping and fixing of the inner-layer splicing sleeve are realized.

When the traditional crimping machine is used for crimping, the crimping is generally carried out from the middle of the splicing sleeve to the two ends die by die, namely the crimping machine needs to be moved after one die is crimped, then the second time of crimping is carried out, the two times of crimping are connected, and finally the outer surface of the splicing sleeve forms a complete hexagonal prism shape to finish the crimping. At present, the adoption of the crimping mode mainly has the following defects:

first, in this process, because the crimping machine needs to be moved to carry out die-by-die crimping, because the crimping machine is heavy and inconvenient to move, the crimping machine needs to be carried out by means of an auxiliary device so as to facilitate the movement of the crimping machine, but even if the crimping machine needs to be carried out die-by-die, the problems of long working time and low efficiency still exist.

Secondly, when the die-by-die crimping is performed, the moving distance of the crimping machine cannot be accurately controlled, and the problems that the moving distance is too large and the two-time crimping cannot be continued often occur.

Thirdly, the fins and burrs are easy to generate, and the fins and burrs need to be manually ground after the crimping, so that the outer surface of the splicing sleeve becomes smooth, time and labor are wasted, and the working efficiency is low.

Disclosure of Invention

Aiming at the problems, the invention provides a rapid wire crimping device capable of being rapidly formed, which abandons the traditional mode of die-by-die crimping, adopts continuous crimping, can realize rapid crimping, has high efficiency and is not easy to generate flash and burr.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a rapid wire crimping device capable of being rapidly formed comprises a fixed die holder in a U-shaped structure, wherein a cover plate is fixedly arranged at an opening at the upper end of the fixed die holder, the fixed die holder is provided with an even number of pressing blocks, and the front side and the rear side of each pressing block are respectively connected with the fixed die holder in a sliding manner;

a die cavity for accommodating the splicing sleeve is arranged between the fixed die holder and the pressing block;

a first upper roller groove and a second upper roller groove are respectively arranged on the lower side surface of the cover plate and positioned on the front side and the rear side of the die cavity, a first groove and a second groove which correspond to the first upper roller groove and the second upper roller groove are respectively arranged on the upper side surface of the pressing block and positioned on the front side and the rear side of the die cavity, the first upper roller groove and the first groove jointly form a first roller way, and the second upper roller groove and the second groove jointly form a second roller way;

the depth of a first groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder is greater than that of a first groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder, and the depth of a second groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder is greater than that of a second groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder;

the first roller way is internally provided with a crimping block at the right side of the fixed die holder, the second roller way is internally provided with a crimping block at the left side of the fixed die holder, the crimping blocks are fixedly arranged on a pull rod, and two ends of the pull rod are respectively fixedly connected with a driving frame;

an oil cylinder for driving the driving frame to move left and right is arranged between the cover plate and the driving frame.

Further, the two first upper roll grooves and the two second upper roll grooves are symmetrical about a vertical plane in which the mold cavity axis is located.

Furthermore, the pull rod comprises a first shaft section and a second shaft section, a compression joint block and a positioning ring are sleeved on the second shaft section, the compression joint block is compressed on a step surface formed by the first shaft section and the second shaft section through the positioning ring, and a set screw is arranged on the positioning ring.

Furthermore, the second shaft section is provided with a flat.

Furthermore, the crimping block is of an isosceles trapezoid structure with the thickness gradually decreasing from outside to inside, and the large end of the crimping block abuts against a step surface formed by the first shaft section and the second shaft section.

Furthermore, the upper end and the lower end of the big end of the crimping block are respectively provided with a crimping roller.

Furthermore, the right half part of the bottom surface of the first groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder is an inclined surface, and the left half part of the bottom surface of the second groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder is an inclined surface.

Furthermore, the cover plate is provided with a stud, the fixed die holder is provided with a through hole for accommodating the stud, and a locking nut is arranged below the fixed die holder on the stud.

Furthermore, the front side face and the rear side face of the pressing block are both provided with sliding blocks with T-shaped sections, and the inner side face of the vertical part of the fixed die holder is provided with sliding grooves matched with the sliding blocks.

The invention has the beneficial effects that:

1. the crimping device does not need to be moved in the crimping process, continuous crimping can be realized, the efficiency of crimping work is effectively improved, and time is saved.

2. Any auxiliary device is not needed in the crimping process, and the use is convenient.

3. Because do not need artifical the removal crimping device in the crimping process, consequently do not have the too big discontinuous problem of crimping that causes of removal distance, and be difficult to produce the overlap burr, make things convenient for operation on next step.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is an enlarged schematic view of portion B of FIG. 3;

FIG. 6 is a schematic perspective view of a press block located on the right side of the symmetrical plane of the fixed die holder;

FIG. 7 is a left side view of the connection between the stationary die holder, the press block and the cover plate;

FIG. 8 is a sectional view taken along line A-A of FIG. 7;

FIG. 9 is a cross-sectional view taken along line B-B of FIG. 7;

FIG. 10 is a schematic view of a fixed structure of the crimping block;

in the figure: 1-a fixed die holder, 11-a lower die groove, 12-a sliding groove, 13-a through hole, 2-a cover plate, 21-a first upper roller groove, 22-a second upper roller groove, 23-a stud, 24-a locking nut, 3-a pressing block, 31-an upper die groove, 32-a sliding block, 33-a first groove, 34-a second groove, 41-a first roller way, 42-a second roller way, 5-a compression block, 51-a compression roller, 6-a pull rod, 61-a first shaft section, 62-a second shaft section, 621-a positioning ring, 622-a set screw, 7-a driving frame, 8-an oil cylinder, 91-a lead and 92-a splicing sleeve.

Detailed Description

For convenience of description, a coordinate system is now defined as shown in fig. 1.

As shown in fig. 1, 2 and 3, the quick wire crimping device capable of quickly forming comprises a fixed die holder 1, wherein the fixed die holder 1 comprises a horizontal part, two sides of the horizontal part, front and rear sides of the horizontal part, are respectively provided with an upward extending vertical part, and the horizontal part and the vertical part jointly form a U-shaped structure.

As a specific implementation manner, in this embodiment, four corners of the cover plate 2 are respectively and fixedly provided with studs 23 in a welding manner, a vertical portion of the fixed die holder 1 is provided with a through hole 13 for accommodating the stud 23, the stud 23 is provided with a locking nut 24 below the fixed die holder 1, and the cover plate 2 is pressed against the fixed die holder 1 through the locking nut 24, as shown in fig. 3.

A plurality of pressing blocks 3 are sequentially arranged in the area formed by the fixed die holder 1 and the cover plate 2 from left to right, the number of the pressing blocks 3 is even, and the two adjacent pressing blocks 3 are attached to each other. As shown in fig. 5 and 6, the front side and the back side of the pressing block 3 are both provided with a sliding block 32 with a T-shaped cross section, and the inner side of the vertical part of the fixed die holder 1 is provided with a sliding groove 12 with a T-shaped cross section, which is matched with the sliding block 32. The slide block 32 can slide up and down relative to the fixed die holder 1.

As shown in fig. 3, a lower mold groove 11 penetrating the fixed mold base 1 in the left-right direction is formed on an upper side surface of the horizontal portion of the fixed mold base 1, and an upper mold groove 31 penetrating the press block 3 in the left-right direction is formed on a lower side surface of the press block 3. As shown in fig. 7, when the lower side surface of the compact 3 is attached to the upper side surface of the horizontal portion of the stationary die holder 1, the upper die groove 31 and the lower die groove 11 together form a die cavity having a hexagonal cross section.

As shown in fig. 3, two first upper roll grooves 21 and two second upper roll grooves 22 are provided on the lower side surface of the cover plate 2, and the two first upper roll grooves 21 and the two second upper roll grooves 22 are symmetrical with respect to the vertical plane of the mold cavity axis. As shown in fig. 6, two first grooves 33 corresponding to the first upper roller grooves 21 and two second grooves 34 corresponding to the second upper roller grooves 22 are respectively disposed on the upper side surface of the pressing block 3, the first grooves 33 and the second grooves 34 penetrate through the pressing block 3 in the left-right direction, as shown in fig. 8 and 9, the depth N2 of the second grooves 34 of the pressing block 3 located on the left side of the symmetry plane of the fixed die holder 1 is greater than the depth N1 of the first grooves 33, and the depth M1 of the first grooves 33 of the pressing block 3 located on the right side of the symmetry plane of the fixed die holder 1 is greater than the depth M2 of the second grooves 34. A plurality of first recess 33 end to end in proper order has formed a continuous first bottom roll groove, just first bottom roll groove is located the degree of depth of fixed die holder 1 plane of symmetry right side part and is greater than the degree of depth that is located fixed die holder 1 plane of symmetry left side part. Similarly, a plurality of second grooves 34 are sequentially connected end to form a continuous second lower roller groove, and the depth of the second lower roller groove at the left part of the symmetrical surface of the fixed die holder 1 is greater than the depth of the second lower roller groove at the right part of the symmetrical surface of the fixed die holder 1.

As shown in fig. 7, the first upper roll groove 21 and the corresponding first lower roll groove form a first roll table 41, and the second upper roll groove 22 and the corresponding second lower roll groove form a second roll table 42.

As shown in fig. 2 and 3, the first roller way 41 and the second roller way 42 are both provided with a press-connection block 5 therein, the press-connection block 5 matched with the first roller way 41 is located on the right side of the fixed die holder 1, and the press-connection block 5 matched with the second roller way 42 is located on the left side of the fixed die holder 1. As a specific embodiment, as shown in fig. 3, the second roller ways 42 are located at two sides of the first roller way 41.

As shown in fig. 1 and 3, the pressure block 5 is fixedly disposed on a pull rod 6, and a driving frame 7 crossing the fixed die holder 1 in the left-right direction is disposed above the fixed die holder 1. The driving frame 7 comprises a transverse plate, vertical plates extending downwards are respectively arranged at the left end and the right end of the transverse plate, and the transverse plate and the vertical plates jointly form a U-shaped structure with a downward opening. And two ends of the pull rod 6 are respectively fixedly connected with the vertical plate of the driving frame 7.

An oil cylinder 8 is fixedly arranged on the upper side face of the cover plate 2, the oil cylinder 8 is a double-rod oil cylinder 8, and piston rods on two sides of the oil cylinder 8 are fixedly connected with a vertical plate of the driving frame 7 respectively.

As a specific embodiment, as shown in fig. 4 and 10, the pull rod 6 includes a first shaft section 61 and a second shaft section 62, and the diameter of the second shaft section 62 is smaller than that of the first shaft section 61. The crimping block 5 is sleeved on the second shaft section 62, and the second shaft section 62 is provided with a flat part for limiting the rotation of the crimping block around the second shaft section 62. One end of the compression joint block 5 abuts against the step surface formed by the first shaft section 61 and the second shaft section 62, the second shaft section 62 is provided with a positioning ring 621 in a sleeved mode, the other end of the compression joint block 5 is provided with a set screw 622, and the set screw 622 is arranged between the positioning ring 621 and the second shaft section 62.

When the wires 91 are crimped and fixed, first, the outer wires at the ends of the two wires 91 are stripped by a wire stripper to leak out of the steel core, and then the two wires 91 are inserted into the splicing sleeve 92 in an opposed manner. Then the splicing sleeve 92 is placed in a die cavity formed by the pressing block 3 and the fixed die holder 1, and the cover plate 2 is locked, so that the cover plate 2 and the fixed die holder 1 form a fixed whole. Then the oil cylinder 8 is started, the piston rod at the left side of the oil cylinder 8 extends out, and the four pull rods 6 are driven by the driving frame 7 to move leftwards. As shown in fig. 8, at this time, the press block 5 located in the first roller way 41 moves leftward along with the pull rod 6, and in the process of moving leftward, because the depth of the first lower roller groove located at the right side of the symmetric plane of the fixed die holder 1 is greater than the depth of the first lower roller groove located at the left side of the symmetric plane of the fixed die holder 1, that is, the depth of the first groove 33 of the press block 3 located at the right side of the symmetric plane of the fixed die holder 1 is greater than the depth of the first groove 33 of the press block 3 located at the left side of the symmetric plane of the fixed die holder. Therefore, as shown in fig. 8, when the pressing block 5 moves in the right half of the first roller way 41, the pressing block 3 is not pressed downward, and the pressing action on the continuous tube 92 is not generated; however, when the pressure block 5 moves to the left half part of the first roller way 41 across the symmetrical plane of the fixed die holder 1, because the depth of the left half part of the first roller way 41 is small, at this time, the pressure block 5 will generate downward pressure on the pressure block 3 located on the left side of the symmetrical plane of the fixed die holder 1 under the action of the cover plate 2, and the pressure block 3 located on the left side of the symmetrical plane of the fixed die holder 1 will sequentially generate pressure connection action on the splicing sleeve 92 under the action of the pressure block 5, so as to realize pressure connection of the left half part of the splicing sleeve 92.

Then, the piston rod on the right side of the oil cylinder 8 extends out, and drives the four pull rods 6 to move rightwards through the driving frame 7. Similarly, the press block 5 in the second roller way 42 moves rightward along with the pull rod 6, and in the process of moving rightward, because the depth of the second lower roller groove on the left side of the symmetrical surface of the fixed die holder 1 is greater than the depth of the second lower roller groove on the right side of the symmetrical surface of the fixed die holder 1, that is, the depth of the second groove 34 of the press block 3 on the left side of the symmetrical surface of the fixed die holder 1 is greater than the depth of the second groove 34 of the press block 3 on the right side of the symmetrical surface of the fixed die holder 1. Therefore, as shown in fig. 9, when the crimping block 5 does not generate downward pressure on the pressing block 3 in the process of moving in the left half of the second roller way 42, the crimping action on the continuous pipe 92 is not generated; however, when the press block 5 moves to the right half of the second roller way 42 across the symmetrical plane of the fixed die holder 1, because the depth of the left half of the second roller way 42 is small, the press block 5 will generate downward pressure on the press block 3 located on the right side of the symmetrical plane of the fixed die holder 1 under the action of the cover plate 2, and the press block 3 located on the right side of the symmetrical plane of the fixed die holder 1 will sequentially generate a press-connection effect on the splicing sleeve 92 under the action of the press block 5, so as to realize the press-connection of the right half of the splicing sleeve 92.

Further, the smoothness of the press block 5 moving from one press block 3 to another press block 3 is ensured, as shown in fig. 8 and 9, the right half part of the bottom surface of the first groove 33 of the press block 3 located on the left side of the symmetry plane of the fixed die holder 1 is an inclined surface, and when a certain press block 3 located on the left side of the symmetry plane of the fixed die holder 1 moves downwards to the lower limit distance under the action of the press block 5, the left end of the bottom surface of the first groove 33 of the press block 3 is equal to the right end of the bottom surface of the first groove 33 of the press block 3 located on the left side of the press block 3.

Similarly, the left half part of the bottom surface of the second groove 34 of the press block 3 located on the right side of the symmetric surface of the fixed die holder 1 is an inclined surface, and when a certain press block 3 located on the right side of the symmetric surface of the fixed die holder 1 moves downwards to the lower limit distance under the action of the press block 5, the right end of the bottom surface of the second groove 34 of the press block 3 located on the right side of the press block 3 is equal to the left end of the bottom surface of the second groove 34 of the press block 3 located on the right side of the press block 3.

Further, as shown in fig. 10, the thickness of the crimping block 5 in the vertical direction gradually decreases from the outside to the inside, and the structure is similar to an isosceles trapezoid, and the large end of the crimping block 5 abuts against the step surface formed by the first shaft section 61 and the second shaft section 62. The upper end and the lower end of the big end of the crimping block 5 are respectively provided with a crimping roller 51, and the crimping rollers 51 are rotatably connected with the crimping block 5.

Claims (9)

1. The utility model provides a but quick crimping device of rapid prototyping's wire which characterized in that: the die comprises a fixed die holder in a U-shaped structure, wherein a cover plate is fixedly arranged at an opening at the upper end of the fixed die holder, the fixed die holder is provided with an even number of pressing blocks, and the front side and the rear side of each pressing block are respectively connected with the fixed die holder in a sliding manner;

a die cavity for accommodating the splicing sleeve is arranged between the fixed die holder and the pressing block;

a first upper roller groove and a second upper roller groove are respectively arranged on the lower side surface of the cover plate and positioned on the front side and the rear side of the die cavity, a first groove and a second groove which correspond to the first upper roller groove and the second upper roller groove are respectively arranged on the upper side surface of the pressing block and positioned on the front side and the rear side of the die cavity, the first upper roller groove and the first groove jointly form a first roller way, and the second upper roller groove and the second groove jointly form a second roller way;

the depth of a first groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder is greater than that of a first groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder, the depth of a second groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder is greater than that of the second groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder, and the symmetrical surface is vertical to the axis of the wire to be crimped;

a compression joint block is arranged on the right side of the fixed die holder in the first roller way, a compression joint block is arranged on the left side of the fixed die holder in the second roller way, the compression joint blocks are fixedly arranged on a pull rod, and two ends of the pull rod are respectively fixedly connected with a driving frame;

an oil cylinder for driving the driving frame to move left and right is arranged between the cover plate and the driving frame.

2. The quick crimping device for the conducting wire capable of being quickly formed according to claim 1, wherein: and the two first upper roller grooves and the two second upper roller grooves are symmetrical about a vertical plane in which the mold cavity axis is located.

3. The quick crimping device for the conducting wire capable of being quickly formed according to claim 1, wherein: the pull rod comprises a first shaft section and a second shaft section, a compression joint block and a positioning ring are sleeved on the second shaft section, the compression joint block is tightly pressed on a step surface formed by the first shaft section and the second shaft section through the positioning ring, and a set screw is arranged on the positioning ring.

4. The quick crimping device for the conducting wire capable of being quickly formed according to claim 3, wherein: the second shaft section is provided with a flat pair.

5. The quick crimping device for the conducting wire capable of being quickly formed according to claim 3, wherein: the compression joint block is of an isosceles trapezoid structure, the thickness of the isosceles trapezoid structure is gradually reduced from outside to inside, and the large end of the compression joint block abuts against a step surface formed by the first shaft section and the second shaft section.

6. The quick crimping device for the conducting wire capable of being quickly formed according to claim 5, wherein: and the upper end and the lower end of the big end of the crimping block are respectively provided with a crimping roller.

7. The quick crimping device for the conducting wire capable of being quickly formed according to claim 1, wherein: the right half part of the bottom surface of the first groove of the pressing block positioned on the left side of the symmetrical surface of the fixed die holder is an inclined surface, and the left half part of the bottom surface of the second groove of the pressing block positioned on the right side of the symmetrical surface of the fixed die holder is an inclined surface.

8. The quick crimping device for the conducting wire capable of being quickly formed according to claim 1, wherein: the cover plate is provided with a stud, the fixed die holder is provided with a through hole for accommodating the stud, and a locking nut is arranged below the fixed die holder on the stud.

9. The quick crimping device for the conducting wire capable of being quickly formed according to claim 1, wherein: the front side face and the rear side face of the pressing block are both provided with sliding blocks with T-shaped sections, and the inner side face of the vertical part of the fixed die holder is provided with a sliding groove matched with the sliding blocks.

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