CN216981117U - A wire separated time device for electric wire processing - Google Patents

Abstract

The utility model relates to a wire branching device for wire processing, which comprises a support, an arc-shaped guide rail, a wire, a clamping jaw driving mechanism, a guide pulley block and a pulley block driving mechanism, wherein the arc-shaped guide rail is fixedly arranged on the support, the wire and the clamping jaw driving mechanism are respectively arranged on the guide pulley block, the clamping jaw driving mechanism drives the wire to realize the clamping of the wire, the guide pulley block is arranged on the arc-shaped guide rail, the pulley block driving mechanism is connected with the guide pulley block, and the pulley block driving mechanism drives the guide pulley block to slide along the arc-shaped guide rail. Compared with the prior art, the utility model has the advantages of good safety, effective prevention of the damage of the wire outer cover, accurate control of the branching angle and the like.

Description

A wire separated time device for electric wire processing

Technical Field

The utility model relates to a wire branching device for electric wire processing, in particular to a wire branching device for electric wire processing.

Background

The electric wire is a conducting wire capable of conducting current and can effectively conduct current, and the electric wire consists of one or more soft conducting wires and is covered by a soft protective layer. At the present stage, the wire needs to be subjected to wire splitting in the wire processing process, so that the wire can be conveniently subjected to the next processing.

In the automatic equipment wire-distributing mechanism in the prior art, a clamping jaw slides along a linear rail with a fixed angle to process two electric wires into a Y shape. In this way, because the angle is fixed, the clamping jaw is easy to damage the outer cover of the electric wire when adjustment is needed, and the angle of the separated line of the lead cannot be accurately controlled.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the wire branching device for processing the electric wire, which has good safety, effectively prevents the outer cover of the electric wire from being damaged and accurately controls the branching angle.

The purpose of the utility model can be realized by the following technical scheme:

a wire distributing device for wire processing comprises a support, an arc-shaped guide rail, a wire, a clamping jaw driving mechanism, a guide pulley block and a pulley block driving mechanism; the arc-shaped guide rail is fixedly arranged on the bracket; the lead and the clamping jaw driving mechanism are respectively arranged on the guide pulley block; the clamping jaw driving mechanism drives the lead to clamp the electric wire; the guide pulley block is arranged on the arc-shaped guide rail; the pulley block driving mechanism is connected with the guide pulley block; the pulley block driving mechanism drives the guide pulley block to slide along the arc-shaped guide rail.

Preferably, the arc-shaped guide rail is a circular guide rail.

More preferably, the circular guide rail is a semicircular guide rail.

Preferably, the clamping jaw driving mechanism is a clamping jaw driving cylinder.

Preferably, the number of the conducting wires, the clamping jaw driving mechanisms and the guide pulley blocks is two, and each conducting wire, each clamping jaw driving mechanism and each guide pulley block form one wire distributing module, so that two wire distributing modules are formed.

More preferably, the two wire distributing modules are symmetrically arranged on two sides of the axis of the wire distributing device.

More preferably, the pulley block driving mechanism comprises a pulley block driving cylinder, a linear guide rail, a sliding block and a linkage rod; the pulley block driving cylinder is fixed on the bracket; the linear guide rail is fixed on the pulley block driving cylinder; the sliding block is connected with the linear guide rail in a sliding manner; the pulley block drives the cylinder to drive the sliding block to slide along the linear guide rail; one end of the linkage rod is connected with the sliding block, and the other end of the linkage rod is connected with the guide pulley block.

More preferably, the number of the linkage rods is two, and the linkage rods are respectively connected with the two guide pulley blocks.

Preferably, the wire branching device is provided with a wire damage prevention mechanism; the wire and the clamping jaw driving mechanism are both arranged on the guide pulley block through the wire damage prevention mechanism.

More preferably, the wire damage prevention mechanism comprises a damage prevention mechanism slide rail, a damage prevention mechanism slide block, a stop block and a stop block limiting block; the anti-damage mechanism sliding block and the stop block limiting block are respectively fixed on the guide pulley block; a gap is formed between the anti-damage mechanism sliding block and the stop block limiting block; the damage prevention mechanism sliding block is connected with the damage prevention mechanism sliding rail in a sliding manner; the stop block is connected with the slide block of the loss prevention mechanism in a specified mode, and the stop block is vertically arranged in a gap between the slide block of the loss prevention mechanism and the stop block limiting block.

Compared with the prior art, the utility model has the following beneficial effects:

firstly, the safety is good, and the outer cover of the electric wire is effectively prevented from being damaged: the wire branching device adopts the semicircular guide rail, when the opening angle is adjusted, the clamping jaw moves along an arc, the clamping jaw does not have relative displacement to the wire, and the wire is not pulled and damaged; meanwhile, the wire separating device is also provided with a wire anti-damage mechanism, so that the wire outer cover is effectively prevented from being damaged in the wire separating process.

Secondly, accurately controlling the branching angle: the wire branching device adopts the cylinder to drive the guide pulley block, and can accurately control the angle of branching.

Drawings

FIG. 1 is a schematic view of the overall structure of the wire branching device of the present invention;

FIG. 2 is a schematic structural diagram of a pulley block driving mechanism of a wire branching device according to the present invention;

FIG. 3 is a schematic view of the structure of the wire damage prevention mechanism of the present invention;

fig. 4 is a schematic diagram of the structure of the electric wires passing through the wire branching device of the utility model.

The reference numbers in the figures indicate:

1. the device comprises an arc-shaped guide rail, 2 a wire clamping jaw, 3 a clamping jaw driving mechanism, 4 a guide pulley block, 5 a pulley block driving mechanism, 6 a support, 7 an electric wire loss prevention mechanism, 501 a pulley block driving cylinder, 502 a linear guide rail, 503 a sliding block, 504 a linkage rod, 701 a loss prevention mechanism sliding rail, 702 a loss prevention mechanism sliding block, 703 a stop block, 704 and a stop block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, shall fall within the protection scope of the present invention.

A wire distributing device for wire processing is structurally shown in figure 1 and comprises a support 6, an arc-shaped guide rail 1, a wire 2, a clamping jaw driving mechanism 3, a guide pulley block 4 and a pulley block driving mechanism 5. The arc-shaped guide rail 1 is fixedly arranged on the bracket 6. The lead 2 and the clamping jaw driving mechanism 3 are respectively arranged on the guide pulley block 4. The clamping jaw driving mechanism 3 drives the wire 2 to clamp the wire. The guide pulley block 4 is arranged on the arc-shaped guide rail 1. The pulley block driving mechanism 5 is connected with the guide pulley block 4. The pulley block driving mechanism 5 drives the guide pulley block 4 to slide along the arc-shaped guide rail 1.

The arc guide rail 1 in this embodiment is a circular guide rail, and specifically: and a semicircular guide rail is adopted, so that most of branching requirements can be met.

The jaw driving mechanism 3 in this embodiment is a jaw driving cylinder.

The number of the wires 2, the clamping jaw driving mechanisms 3 and the guide pulley blocks 4 is two, and each wire 2, each clamping jaw driving mechanism 3 and each guide pulley block 4 form a wire distributing module, so that two wire distributing modules are formed. The two wire distributing modules are symmetrically arranged on two sides of the axis of the wire distributing device and used for distributing two wires simultaneously, and the working efficiency is improved.

The structure of the pulley block driving mechanism 5 is shown in fig. 2, and includes a pulley block driving cylinder 501, a linear guide rail 502, a slider 503 and a linkage 504. The pulley block driving cylinder 501 is fixed on the bracket 6. The linear guide rail 502 is fixed on the pulley block driving cylinder 501. The slider 503 is slidably connected to the linear guide 502. The pulley block driving air cylinder 501 drives the sliding block 503 to slide along the linear guide rail 502. One end of the linkage rod 504 is connected with the sliding block 503, and the other end is connected with the guide pulley block 4. The number of the linkage rods 504 is two, and the linkage rods are respectively connected with the two guide pulley blocks 4.

As shown in fig. 3, the wire branching device is provided with a wire breakage prevention mechanism 7. The lead 2 and the clamping jaw driving mechanism 3 are both arranged on the guide pulley block 4 through the wire anti-damage mechanism 7. The wire damage prevention mechanism 7 includes a damage prevention mechanism slide rail 701, a damage prevention mechanism slider 702, a stopper 703, and a stopper 704. The damage prevention mechanism sliding block 701 and the stop block 704 are respectively fixed on the guide pulley block 4. A gap is formed between the anti-damage mechanism sliding block 701 and the stopper limiting block 704. The damage prevention mechanism slider 702 is slidably connected to the damage prevention mechanism slide rail 701. The stopper 703 is connected to the anti-damage mechanism slider 702, and the stopper 703 is vertically disposed in a gap between the anti-damage mechanism slider 701 and the stopper 704.

The working principle of the branching device is as follows:

(1) the clamping jaw driving mechanism 3 drives the conducting wire 2 to clamp two conducting wires;

(2) the pulley block driving cylinder 501 is started, and the guide pulley block 4 is driven to move by the linkage rod 504;

(3) the guide pulley block 4 drives the lead 2 to move along the arc-shaped track 1;

(4) the two wires are Y-shaped as shown in fig. 4.

While the utility model has been described with reference to specific embodiments, the utility model is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the utility model. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A wire distributing device for wire processing is characterized by comprising a bracket (6), an arc-shaped guide rail (1), a wire (2), a clamping jaw driving mechanism (3), a guide pulley block (4) and a pulley block driving mechanism (5); the arc-shaped guide rail (1) is fixedly arranged on the bracket (6); the lead (2) and the clamping jaw driving mechanism (3) are respectively arranged on the guide pulley block (4); the clamping jaw driving mechanism (3) drives the lead (2) to clamp the electric wire; the guide pulley block (4) is arranged on the arc-shaped guide rail (1); the pulley block driving mechanism (5) is connected with the guide pulley block (4); the pulley block driving mechanism (5) drives the guide pulley block (4) to slide along the arc-shaped guide rail (1).

2. The wire branching device for electric wire processing as claimed in claim 1, wherein the arc-shaped guide rail (1) is a circular guide rail.

3. The wire distributing device for electric wire processing according to claim 2, wherein the circular guide rail is a semicircular guide rail.

4. The wire branching device for electric wire processing as claimed in claim 1, wherein the jaw driving mechanism (3) is a jaw driving cylinder.

5. The wire branching device for wire processing according to claim 1, wherein the number of the wires (2), the jaw driving mechanism (3) and the guide pulley block (4) is two, and each wire (2), the jaw driving mechanism (3) and the guide pulley block (4) form a branching module, so that two branching modules are formed.

6. The wire branching device for electric wire processing as claimed in claim 5, wherein the two branching modules are symmetrically arranged on both sides of the axis of the wire branching device.

7. The wire branching device for electric wire processing as claimed in claim 5, wherein the pulley block driving mechanism (5) comprises a pulley block driving cylinder (501), a linear guide rail (502), a slide block (503) and a linkage (504); the pulley block driving cylinder (501) is fixed on the bracket (6); the linear guide rail (502) is fixed on the pulley block driving cylinder (501); the sliding block (503) is connected with the linear guide rail (502) in a sliding way; the pulley block driving cylinder (501) drives the sliding block (503) to slide along the linear guide rail (502); one end of the linkage rod (504) is connected with the sliding block (503), and the other end is connected with the guide pulley block (4).

8. The wire branching device for electric wire processing as claimed in claim 7, wherein the number of the linkage rods (504) is two, and the two linkage rods are respectively connected with the two guide pulley blocks (4).

9. The wire branching device for wire processing according to claim 1, wherein the wire branching device is provided with a wire damage prevention mechanism (7); the wire (2) and the clamping jaw driving mechanism (3) are both installed on the guide pulley block (4) through the wire loss prevention mechanism (7).

10. The wire branching device for wire processing according to claim 9, wherein the wire damage prevention mechanism (7) comprises a damage prevention mechanism slide rail (701), a damage prevention mechanism slide block (702), a stopper (703) and a stopper limiting block (704); the anti-damage mechanism sliding block (701) and the stop block limiting block (704) are respectively fixed on the guide pulley block (4); a gap is formed between the anti-damage mechanism sliding block (701) and the stop block limiting block (704); the damage prevention mechanism sliding block (702) is in sliding connection with the damage prevention mechanism sliding rail (701); the stop block (703) is connected with the damage-prevention mechanism sliding block (702) in a specified mode, and the stop block (703) is vertically arranged in a gap between the damage-prevention mechanism sliding block (701) and the stop block limiting block (704).

Images