KR-20260065333-A - Digital wire-processing device provided gap-removing device

Abstract

The digital wire processing device provided by the present invention is designed to solve the biggest problem in processing cable wires, such as stripping and cutting, which is that the wires are not processed to a consistent length. It is characterized by being equipped with a gap removal device to eliminate the gap between the guide hose and the wire, which is the cause of the aforementioned problem. The technical configuration constituting the gap removal device includes a tension generating clamp made of an elastic plate and a sliding jig. By driving the tension generating clamp, the gap between the guide hose and the wire can be eliminated, thereby significantly reducing the defect rate of the processed wire. Furthermore, by using the digital wire processing device provided by the present invention, the device can be efficiently maintained without a complex mechanism, and the efficiency of the automated process can be maximized by integrating the sensor and the device that control the movement of the wire.

Inventors

• 신윤항

Assignees

• 신윤항

Dates

Publication Date

20260508

Application Date

20241101

Claims (3)

1. The present invention relates to a digital wire processing device for processing wire cables, wherein the wire processing device is characterized by having a gap removal device (1) for removing gap between a guide hose (20) and a wire (30). The above gap removal device (1) is characterized by being provided with a gap removal device (1) comprising: a guide pipe (10) for transporting a wire (30) to a cutting section (80); a guide hose (20) for guiding the wire to the guide pipe (10); a sliding jig (50) connected to the guide hose (20) and having a front portion formed in a triangular shape; a tension generating clamp (40) in contact with the sliding jig (50) and moving back and forth along the contact surface of the sliding jig (50); a clamp transfer device (100) connected to the tension generating clamp (40) and moving the tension generating clamp (40); an air cylinder (70) connected to the clamp transfer device (100) and operating the clamp transfer device (100); and a stripping clamp (60) for stripping the wire (30).
2. A digital wire processing device for processing a wire cable according to claim 1, wherein the tension generating clamp (40) is composed of an elastic plate (40) made of an elastic material, and the tension generating clamp (40) moves forward and backward in contact with a sliding jig (50), and when moving forward according to the shape of the sliding jig (50), the elastic plate (40) closes to eliminate play between the supplied wire (30) and the guide hose (20), and when moving backward, the elastic plate (40) opens.
3. A digital wire processing device for processing a wire cable according to claim 1, wherein the front part of the sliding jig (50) is formed in a triangular shape, and the end part is formed to correspond to the vertex of the triangle, so as to operate to close when the tension generating clamp (40) moves forward and open when it moves backward.

Description

Digital wire processing device equipped with a gap-removing device The present invention relates to an automatic wire sheathing and stripping device for automatically stripping and cutting the sheath of a cable wire, and to a digital wire processing device equipped with a clearance removal device for eliminating length deviation of the wire supplied to the cutter of the stripping device. More specifically, in a device that automatically performs wire cutting and sheath stripping, known as a so-called digital cutter, a guide hose is used to supply a wire of a constant length in order to maintain a constant length of the supplied wire for stripping and cutting the wire sheath. However, there was a problem in that the portion of the wire stripped of its sheath was inconsistent because the position of the wire supplied to the wire cutter within the guide hose was inconsistent. Accordingly, the present invention relates to a digital wire stripping device invented to solve the above-mentioned problems. Generally, electric wire cables have a structure in which an electric conductor is wrapped in an insulating sheath, and are connected to be interconnected at a target point via connectors, etc., to form communication lines or power lines. For such wire cables to be connected to connectors, etc., the outer sheath forming the insulation must be stripped, and this stripping of the sheath is usually a task performed manually by manpower. The conventional manual stripping of cable insulation involves a skilled worker cutting the outer sheath of the cable using stripping tools such as knives, scissors, pliers, and nippers, and then individually stripping the cut sheath. However, since cables are processed in large quantities, relying on manpower for the sheath stripping process resulted in excessive labor costs and delayed work time, which lowered work efficiency, as well as frequent worker injuries due to the use of stripping tools. In addition, there were problems such as defects occurring where the internal conductors of the cable were twisted or cut due to manual work, as well as uneven lengths of the stripped sections of the insulation, making it difficult to obtain high-quality cables. As described above, various technologies have been developed and patented to solve the problems caused by manual work in the cable cutting and stripping process. However, most wire stripping devices provided in the prior art described above only offer simple functions such as cable cutting or stripping, and have a problem in that they do not address technology for improving the quality of the finally processed wire. A guide hose is used to supply a wire of a certain length to the cutter for stripping, but since the position of the wire supplied inside the guide hose changes from moment to moment, the length of the wire supplied to the cutter for stripping is not constant, and for this reason, the reality is that the finally processed wire is often processed in a defective state that cannot be practically used. The present invention is intended to minimize the defect rate of the finally processed wire by maintaining a constant length of the wire supplied to the cutter for stripping the insulation as described above. FIG. 1 is an explanatory diagram of the gap removal device part of the digital wire processing device provided by the present invention. FIG. 2 is an explanatory diagram showing the operation of a tension generating clamp and a sliding jig composed of an elastic plate for eliminating wire slack in a digital wire processing device provided by the present invention. a indicates when the tension generating clamp moves in the forward direction, and b indicates when it moves in the backward direction. Figure 3 illustrates the cutting process while removing the gap of the wire in the digital wire processing device provided by the present invention, where a represents the basic position and b represents the position where the length is corrected by removing the gap of the wire supplied by the elastic plate. FIG. 4 illustrates the cutting of a wire while removing the gap in the wire in the digital wire processing device provided by the present invention, where a represents the position where the elastic plate removes the gap in the wire and moves backward, and b represents the position where the wire supplied at a constant length is cut after the gap is removed. Preferred embodiments of the present invention will be described in detail below with reference to the attached drawings. Prior to this, terms and words used in this specification and claims should not be interpreted as being limited to their ordinary or dictionary meanings. Instead, based on the principle that the inventor can appropriately define the concepts of terms to best describe their invention, they should be interpreted in a meaning and concept consistent with the technical spirit of the present invention. Therefore, the embodiments described in this specificatio