CN209881077U - Bullet-proof wire separating equipment - Google Patents

Abstract

The utility model discloses a shellproof silk splitter, inhale the piece including the vacuum that can go up, down, left and right removal to and can go up, down, preceding, the shaping piece that moves back, inhale piece and shaping piece cooperation by the vacuum, will be located the heart yearn and the shellproof silk separation of wire rod between the two, make the heart yearn expose follow-up processing and do not receive shellproof silk's futilely to be scratched. The bullet-proof wire separation method comprises 6 steps: s1, the wire with the head end stripped is placed between the vacuum suction block and the shaping block → S2 vacuum suction block descends to be close to the wire → S3 vacuum suction block moves the bulletproof wire sucking leftwards and rightwards → S4 vacuum suction block sucks the bulletproof wire → S5 shaping block ascends to be inserted into a gap between the bulletproof wire and the core wire → S6 shaping block moves forwards to shape the bulletproof wire. The utility model discloses a vacuum adsorption draws and divides the back, and the mode that the shaping piece of reuse was kept apart, shellproof silk separation is very simple effective, can satisfy the production demand to this kind of method is applicable to automatic operation, and is efficient, can improve the productivity and reduce cost.

Description

Bullet-proof wire separating equipment

Technical Field

The utility model belongs to the technical field of the wire rod processing technique and specifically relates to indicate a shellproof silk splitter who is used for separating shellproof silk from heart yearn around.

Background

With the development of IT industry, electronic consumer products are continuously enhanced in performance and are continuously tending to be miniaturized in volume. Especially, for products with wire harnesses, the diameter of the wire tube is required to be thinner and thinner, and the number of core wires in the wire tube is increased. At present, for the holistic tensile degree of increase pencil, increase the setting of bulletproof silk usually inside the spool, when the spool received external force, made bulletproof silk atress, the damage of heart yearn in the atress in-process is effectively protected to the whole pulling force of increase pencil.

Generally, a connector is arranged at the end of a wire harness of a product with wire harnesses, and when the wire harness is connected with the connector, the outer cover of the wire harness needs to be stripped, the anti-elastic wires need to be cut, the outer cover of the core wire needs to be stripped, and the core wire needs to be welded or riveted, so that the copper core in the core wire is electrically connected with a terminal of the connector. However, the bulletproof wires are wrapped on the periphery of the wire core, and are difficult to separate in automatic operation, and the traditional method adopts manual separation, but the manual separation efficiency is low, the cost is high, and the large-scale production cannot be realized.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a bullet-proof wire separation device, which uses a vacuum adsorption method to separate bullet-proof wire and isolate it, and the method is simple and effective, and is suitable for automatic operation.

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

a ballistic wire separation device comprising

The suction module comprises a vacuum suction block, a vacuum suction block up-and-down mechanism and a vacuum suction block left-and-right mechanism, and the vacuum suction block up-and-down mechanism and the vacuum suction block left-and-right mechanism are connected with the vacuum suction block and drive the vacuum suction block to move up, down, left and right;

the shaping module corresponds to the suction module up and down, and a space for placing wires is arranged between the shaping module and the suction module; the shaping module comprises a shaping block, a shaping block up-and-down mechanism and a shaping block front-and-back mechanism, wherein the shaping block up-and-down mechanism and the shaping block front-and-back mechanism are connected with the shaping block and drive the shaping block to move up and down and back and forth.

As a preferred scheme, the vacuum suction blocks are provided with a plurality of vacuum suction blocks which are arranged in a row at intervals, each vacuum suction block comprises a suction part, a fixed part and a vacuum suction pipe connector, the suction parts are integrally arranged below the fixed parts, the vacuum suction pipe connectors are positioned above the fixed parts, vacuum suction holes are formed in the suction parts, and through holes in the vacuum suction pipe connectors penetrate through the fixed parts and are communicated to the vacuum suction holes.

Preferably, the side surface of the suction part is provided with an adsorption groove, and the vacuum suction hole is positioned in the adsorption groove.

Preferably, the vacuum suction block is connected below the vacuum suction block up-down mechanism, and the vacuum suction block up-down mechanism is connected to the vacuum suction block left-right mechanism.

As a preferable scheme, the power of the vacuum suction block up-and-down mechanism and the power of the vacuum suction block left-and-right mechanism are both cylinders.

Preferably, the shaping block comprises a connecting part and a plurality of tooth parts, and a tooth groove capable of avoiding the wire is formed between every two tooth parts.

Preferably, the tip of the tooth portion is pointed.

Preferably, the shaping block is connected to a shaping block front-rear mechanism, and the shaping block front-rear mechanism is connected to a shaping block up-down mechanism.

Compared with the prior art, the utility model have obvious advantage and beneficial effect, particularly, can know by above-mentioned technical scheme, mainly be owing to designed the vacuum that can move about, down, left and right and inhale the piece to and can be above, down, preceding, the shaping piece that moves back, inhale piece and shaping piece cooperation by the vacuum, will be located the heart yearn and the shellproof silk separation of wire rod between the two, make the heart yearn expose the dry of follow-up processing not receiving shellproof silk and warp. The separation method of the bulletproof wires comprises 6 steps: s1, the wire with the head end stripped is placed between the vacuum suction block and the shaping block → S2, the vacuum suction block descends to approach the wire → S3, the vacuum suction block moves the bulletproof wire → S4 leftwards and rightwards, the vacuum suction block sucks the bulletproof wire → S5, the shaping block ascends to insert a gap between the bulletproof wire and the core wire → S6, and the shaping block moves forwards to shape the bulletproof wire. Therefore, after vacuum adsorption drawing separation is adopted, the mode of isolating by the shaping block is adopted, the bulletproof wire separation is very simple and effective, and the production requirement can be met. The method is suitable for automatic operation, has high efficiency, and can improve the productivity and reduce the cost.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the original state of a wire (the end of the wire is stripped off the outer covering) according to an embodiment of the present invention.

Fig. 2 is a schematic view of the state of the bulletproof wire being pulled open according to the embodiment of the present invention.

Fig. 3 is a schematic view of a wire rod placed between the shaping module and the suction module according to an embodiment of the present invention.

Fig. 4 is a schematic view of the original state of the bulletproof wire separation device according to the embodiment of the present invention.

Fig. 5 is a schematic diagram of a vacuum suction block sucking the bulletproof wire of the bulletproof wire separation device according to the embodiment of the present invention.

Fig. 6 is a schematic diagram of the vacuum suction block of the bulletproof wire separation device according to an embodiment of the present invention.

Fig. 7 is a schematic view of a shaped block shaped ballistic filament of an embodiment ballistic filament separation device of the present invention.

The attached drawings indicate the following:

10. suction module 11 and vacuum suction block

111. Suction part 112, fixing part

113. Vacuum suction pipe connector 114 and vacuum suction hole

115. Adsorption tank 12, vacuum suction block up-down mechanism

13. Vacuum suction block left-right mechanism 20 and shaping module

21. Shaping block 211 and connecting part

212. Tooth 213 and tooth slot

22. Shaping block up-and-down mechanism 23, shaping block front-and-back mechanism

30. Wire 31 and bulletproof yarn

32. A core wire.

Detailed Description

Referring to fig. 1 to 7, which show a specific structure of a preferred embodiment of the present invention, the bullet-proof wire separating apparatus includes an absorbing module 10 and a shaping module 20, the shaping module 20 corresponds to the absorbing module 10 up and down, and a space for placing a wire 30 is provided between the shaping module 20 and the absorbing module 10.

The suction module 10 comprises a vacuum suction block 11, a vacuum suction block up-and-down mechanism 12 and a vacuum suction block left-and-right mechanism 13. The vacuum suction block up-and-down mechanism 12 and the vacuum suction block left-and-right mechanism 13 are connected to the vacuum suction block 11, and drive the vacuum suction block 11 to move up and down and left and right.

The shaping module 20 comprises a shaping block 21, a shaping block up-down mechanism 22 and a shaping block front-back mechanism 23. The shaping block up-down mechanism 22 and the shaping block front-rear mechanism 23 are connected to the shaping block 21, and drive the shaping block 21 up and down and forward and backward. The vacuum suction block 11 and the shaping block 21 are matched to separate the bulletproof wire 31, the state before the bulletproof wire is separated is shown in figure 1, and the state after the bulletproof wire is separated is shown in figure 2.

In this embodiment, there are several vacuum suction blocks 11, which are arranged in a row with a certain distance. Each vacuum suction block 11 comprises a suction part 111, a fixing part 112 and a vacuum suction pipe connector 113, the suction part 111 is integrally arranged below the fixing part 112, the vacuum suction pipe connector 113 is arranged above the fixing part 112, a vacuum suction hole 114 is arranged on the suction part 111, and a through hole in the vacuum suction pipe connector 113 penetrates through the fixing part 112 and is communicated with the vacuum suction hole 114. Preferably, the side surface of the suction portion 111 is provided with an adsorption groove 115, the vacuum suction hole 114 is located in the adsorption groove 115, and the space in the adsorption groove 115 enables air flow to be gathered in the adsorption groove 115 during vacuum suction, so that the bulletproof wires 31 are arranged in the adsorption groove 115 after being vacuum-sucked, and the bulletproof wires 31 are prevented from falling and loosening.

The vacuum suction block 11 is connected below the vacuum suction block up-and-down mechanism 12, and the vacuum suction block up-and-down mechanism 12 is connected to the vacuum suction block left-and-right mechanism 13. In this embodiment, the vacuum suction block up-down mechanism 12 and the vacuum suction block left-right mechanism 13 are both powered by air cylinders. The vacuum suction block 11 is driven by a vacuum suction block up-and-down mechanism 12 and a vacuum suction block left-and-right mechanism 13 to move up, down, left, and right.

In this embodiment, the shaping block 21 includes a connecting portion 211 and a plurality of teeth portions 212, and the plurality of teeth portions 212 are arranged in a row. Between each two tooth parts 212, there is a tooth slot 213 for avoiding the wire. Preferably, the top of the tooth 212 is pointed, so that the shaping block 21 is inserted into the gap between the bulletproof wire 31 and the core wire 32 from bottom to top without disturbing the bulletproof wire, and so that the bulletproof wire is better shaped when the shaping block 21 moves forward.

The shaping block 21 is connected to a shaping block front-rear mechanism 23, the shaping block front-rear mechanism 23 is connected to a shaping block up-down mechanism 22, and the shaping block 21 is driven by the shaping block up-down mechanism 22 and the shaping block front-rear mechanism 23 to move up, down, front, and rear.

The utility model also discloses a bullet-proof silk separation method, which comprises the following steps

S1, placing the wire with the head end stripped off the coat between the vacuum suction block 11 and the shaping block 21, and referring to FIG. 4;

s2, the vacuum block 11 is lowered close to the wire 30, see fig. 5;

s3, the vacuum suction block 11 moves left and right to suck the bulletproof wire 31;

s4, the vacuum suction block 11 sucks and pulls the bulletproof wires apart, and the bulletproof wires are shown in figure 6;

s5, the shaping block 21 is inserted upward into the gap between the bulletproof wire 31 and the core wire 32, see fig. 7;

and S6, the shaping block 21 moves forward to shape the bulletproof wire.

After the 6 steps, the separation of the bulletproof wires and the core wires is realized, so that the core wires are exposed out and subsequently processed without being disturbed by the bulletproof wires.

To sum up, the utility model discloses a design focus lies in, mainly inhales piece 11 owing to the vacuum that has designed can upper and lower, left and right removal to and can be above, lower, preceding, the integer piece 20 of back removal, inhale piece 11 and the cooperation of integer piece 21 by the vacuum, will be located the heart yearn 32 and the shellproof silk 31 separation of wire rod 30 between the two for the heart yearn exposes follow-up processing and does not receive shellproof silk's futilely to be scratched. The bulletproof wire separation method adopts a mode of separating by using the shaping block 21 after vacuum adsorption and drawing, is very simple and effective in bulletproof wire separation, and can meet production requirements.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (8)

1. A bullet-proof wire separation device is characterized in that: comprises that

The suction module comprises a vacuum suction block, a vacuum suction block up-and-down mechanism and a vacuum suction block left-and-right mechanism, and the vacuum suction block up-and-down mechanism and the vacuum suction block left-and-right mechanism are connected with the vacuum suction block and drive the vacuum suction block to move up, down, left and right;

the shaping module corresponds to the suction module up and down, and a space for placing wires is arranged between the shaping module and the suction module; the shaping module comprises a shaping block, a shaping block up-and-down mechanism and a shaping block front-and-back mechanism, wherein the shaping block up-and-down mechanism and the shaping block front-and-back mechanism are connected with the shaping block and drive the shaping block to move up and down and back and forth.

2. The ballistic wire separation apparatus of claim 1, wherein: the vacuum suction block is provided with a plurality of suction blocks which are arranged in a row at intervals, each vacuum suction block comprises a suction part, a fixed part and a vacuum suction pipe connector, the suction parts are integrally arranged below the fixed parts, the vacuum suction pipe connectors are positioned above the fixed parts, vacuum suction holes are formed in the suction parts, and through holes in the vacuum suction pipe connectors penetrate through the fixed parts and are communicated to the vacuum suction holes.

3. Ballistic wire separation device according to claim 2, characterized in that: the side of the suction part is provided with an adsorption groove, and the vacuum suction hole is positioned in the adsorption groove.

4. The ballistic wire separation apparatus of claim 1, wherein: the vacuum suction block is connected to the lower portion of the vacuum suction block up-down mechanism, and the vacuum suction block up-down mechanism is connected to the vacuum suction block left-right mechanism.

5. The ballistic wire separation apparatus of claim 4, wherein: the vacuum suction block up-down mechanism and the vacuum suction block left-right mechanism are powered by cylinders.

6. The ballistic wire separation apparatus of claim 1, wherein: the shaping block comprises a connecting part and a plurality of tooth parts, and tooth grooves capable of avoiding wires are formed between every two tooth parts.

7. The ballistic wire separation apparatus of claim 6, wherein: the top end of the tooth part is pointed.

8. The ballistic wire separation apparatus of claim 1, wherein: the shaping block is connected to the shaping block front-rear mechanism, and the shaping block front-rear mechanism is connected to the shaping block up-down mechanism.