KR101143970B1 - The cable armor peeling device - Google Patents

Abstract

The present invention relates to a stripping device for cable insulation.

More particularly, the present invention relates to a stripping device for cable insulation that can automate the process of stripping the sheath and shield of the cable after the sheathing of the sheath and shield to bind the cable to the connector.

To this end, the first and second seating pads each comprising a seating groove for seating the floor frame on which the component device is seated and the cable cut insulated to the upper side of the floor frame are respectively configured on both sides, and both sides of the first and second seating pads. The cylinder device is configured to move the upper and lower post bar, and to accommodate the post bar, the first and second cylinder device to move up and down by pneumatic, and is fastened to the lower portion of the first and second cylinder device The cable insulator includes a third cylinder device for horizontally moving the cylinder device for grounding the cutout and inserting or discharging it into the seating groove to form a cutout in which the insulation is cut and a protrusion for pressing the cable according to the operation of the device. The stripping device is configured to quickly carry out the automatic stripping of the insulation part of the cable, which was dependent on manual labor. It reduces the number of mass production and enables a remarkable defect rate relates to a cable sheath cutting device, characterized in that labor cost is a cost saving made I do not like separately.

cable

Description

The cable armor peeling device

The present invention relates to a stripping device for cable insulation.
More specifically, the present invention relates to a stripping device for cable insulation that can automatically implement a process for stripping the outer sheath and shield of the cable, in which the shell and shield cutting process for binding the cable to the connector is completed.

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Cable refers to a telephone line or a power line wrapped with a conductor that allows current to flow and a material that is not electrically conductive to the outside of the conductor.
The cable is used to be interconnected and connected to a desired point, and the connecting mechanism for constructing such an electric circuit is called a connector.
In order to connect the connector and the cable, the insulation of the cable that is connected to the connector is cut out to make an interconnection to the connector.
As shown in FIG. 9A, the cable 300 includes a shield 320 that protects the conductor 310 to the outside of the conductor, and an outer shell 330 that insulates the outside of the shield 320. The insulating part is configured to be used, and in order to couple the cable to the connector, the conductor in the cable is coupled to the connector, and then connected to another cable to be used in an electric circuit or the like.
Therefore, in order to connect the cable with the connector, the stripping operation of the insulation protecting the cable must be accompanied, and such work is usually performed by manual labor.
The stripping of the cable insulation through the manual work is performed by a skilled worker using a stripping tool such as a pliers and nippers to cut the insulation of the cable and then strip off the cut insulation separately.
Since the cable is processed in a large quantity, if the process of cutting and stripping the wires depends on manpower, excessive labor costs are incurred, and the work time is delayed, which reduces the work efficiency. High defect rate such as twisting or cutting the inner conductor is generated, and the length of the stripping section of the insulating part is nonuniform, making it difficult to obtain a good cable.

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To eliminate the above drawbacks,
According to the present invention, the cable insulation part which is made by hand is implemented by automation to minimize the labor cost by eliminating the intervention of manpower, and to produce high quality stripped cables in a short amount of time, thereby improving productivity. It has been invented with a focus on providing an insulation cutting device.

In order to eliminate the above conventional problems,
In the insulation part cutting device of the cable used in the stripping process of the insulation part in which the sheath or shield part is cut in the cable,
A first seating table 10 comprising a first seating groove 30 in which a cable is seated on the top of the floor frame 500, and a cutout seated, A post bar 50 which constitutes a second seat 20 including a second seating groove 40, protrudes vertically to both sides of the first and second seats 10 and 20, and the post bar ( And a support plate 90 configured to receive the cylinder rod of the vertical pneumatic cylinder portion 80 at the center of the upper end of the upper end of the support plate 90, and to operate the cylinder rod in the vertical direction through pneumatic pressure above the support plate 90. The vertical pneumatic cylinder portion 80 and the support plate 90, the lower portion, the cylinder rod front end of the vertical pneumatic cylinder portion 80 is coupled to the bottom corresponding to the first and second seating grooves (30, 40) Comprising the first and second cylinder device (60, 70) comprising a working plate 100 comprising a protrusion 110 of the form A horizontal pneumatic cylinder 170 coupled with the second mounting table 20 to the side of the second seat 20 and a cylinder rod to the rear of the coupling plate 160. Provided is an insulation cutting device for a cable comprising a third cylinder device 150 including.

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According to the present invention, it is possible to reduce the labor costs by eliminating the involvement of personnel by implementing the peeling operation of the insulation part made by the existing manual operation by automation, thereby increasing productivity.
In addition, it is a great invention that the effect that can significantly reduce the defect rate and improve the product quality by producing a large amount of cables stripped of the high-quality insulation due to automation.

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The present invention relates to a stripping device for cable insulation.
More particularly, the present invention relates to a stripping device for cable insulation that can automate the process of stripping the sheath and shield of the cable after the cutout of the sheath and shield to bind the cable to the connector.
Fig. 1 is a perspective view showing a preferred embodiment of the present invention, Fig. 2 is an exploded perspective view showing a preferred embodiment to which the present invention is coupled, Fig. 3 is a plan view showing a preferred embodiment of the invention, and Fig. 4 shows a preferred embodiment of the invention. Fig. 5 is a sectional view showing a preferred form of the AA ″ portion of the present invention, and Figs. 6 (a), 6 (b) and 6 (c) are exemplary views showing a preferred form in which the set screw is inserted into the adjustment groove. 7 is a perspective view showing a preferred form in which the operating plate and the protrusion of the present invention is distinguished, FIG. 8 is a side view showing a preferred form in which the operating plate and the protrusion of the present invention are distinguished, and FIG. 9 (a) is a form of the inner layer of the cable 9 (b) is an exemplary view showing the shape of the cable cut through the cutting process, for the implementation of the present invention with reference to the drawings. In more detail the specific details,
In the insulation stripping device of the cable used in the stripping process of the insulation portion in which the sheath or shield portion is cut in the cable,
A first seating table 10 comprising a first seating groove 30 in which a cable is seated on the top of the floor frame 500, and a cutout seated, A post bar 50 which constitutes a second seat 20 including a second seating groove 40, protrudes vertically to both sides of the first and second seats 10 and 20, and the post bar ( And a support plate 90 configured to receive the cylinder rod of the vertical pneumatic cylinder portion 80 at the center of the upper end of the upper end of the support plate 90, and to operate the cylinder rod in the vertical direction through pneumatic pressure above the support plate 90. The vertical pneumatic cylinder portion 80 and the support plate 90, the lower portion, the cylinder rod front end of the vertical pneumatic cylinder portion 80 is coupled to the bottom corresponding to the first and second seating grooves (30, 40) Comprising the first and second cylinder device (60, 70) comprising a working plate 100 comprising a protrusion 110 of the form A horizontal pneumatic cylinder 170 coupled with the second mounting table 20 to the side of the second seat 20 and a cylinder rod to the rear of the coupling plate 160. Provided is an insulation cutting device for a cable comprising a third cylinder device 150 including.
First, as shown in FIG. 9 (b), the cable 300 provided in the present invention is completed with a cutting process of the outer shell 330 or the shield portion 320, and thus the outer shell 300 or the shield portion ( The cut portion 320 is formed in a cut state, and the cut portion is collectively referred to as a cut portion 350.
The stripping device of the cable insulation part according to the present invention based on the bar shown in Figure 3 is largely composed of a bottom frame 500 is composed of a device, and the first and second seats 10 and 10 to be seated separately from the cable by the cutting process And 20, first and second cylinder devices 60 and 70 for crimping and crimping the cable 300 and the cutout 350 to the first and second seats 10 and 20, and the cutout 350 The second cylinder device (70) for crimping) is largely composed of a third cylinder device (150) for moving horizontally.
As shown in Figure 1, 2, 3, 4, 5, the first and second seats (10, 20) is configured in the upper portion of the bottom frame 500, the cut section 350 and the cable ( Each of the first seat 10, the cable is seated so that the 300 is seated, and the second seating table 20, the seating portion 350 is seated is divided into the first seat 10, the cable ( The first seating groove 30 on which 300 is seated, and the second seating groove 40 on which the cutout 350 is seated, are respectively configured.
In the cutting process of the cable 300, the cutout 350 is cut at the end, the stop and various parts of the cable 300, the cutout of the cable of the second seating groove 40 according to the irregular cutout Control groove 140 that extends from the rear of the second seating groove 40 to the stop, as shown in Figure 6 (a), (b), (c) to selectively control the site where the 350 is seated To configure the set screw 130 is fastened to the adjusting groove 140, the end of the set screw 130 is configured to be grounded to the end of the cable cutout 350 is fastened to the set screw 130 It is configured to distinguish the seating position of the cable cutout 350 by the depth.
The first and second cylinder devices 60 and 70, which will be described later, on both sides of the first and second seating seats 10 and 20, may be configured in a vertical direction to move the post bar 50 up and down.
The first and second cylinder devices (60, 70) is to advance or reverse the tip of the protrusion coupled to the cylinder rod in the seating groove to compress and separate the cut-out portion 350 and the cable 300 after the first, The first and second cylinder devices 60 and 70 are divided into two seating grooves 30 and 40, respectively. The first and second cylinder devices 60 and 70 have the same configuration. The first cylinder device 60 is crimped to the cable 300 and the second cylinder device 70 is crimped to the cutout 350. Configured to do so.
The first and second cylinder device (60, 70) is configured on the upper side of the first, second seating table (10, 20) is a vertical pneumatic cylinder portion 80 for advancing or retracting the cylinder rod in the vertical direction through pneumatic It is composed.
The support plate 90 is coupled to the lower side of the vertical pneumatic cylinder portion 80 to support the vertical pneumatic cylinder portion 80.
The support plate 90 is configured such that the cylinder rod of the vertical pneumatic cylinder unit 80 is accommodated forward or backward and the end of the post bar 50 is fixed to both sides.
The operation plate 100 is formed under the support plate 90, and the operation plate 100 compresses the cables and cutouts formed in the first and second seating grooves 30 and 40, respectively, by the operation of the cylinder rod. Part of the cylinder rod of the vertical pneumatic cylinder portion 80 is fastened to the center so that the protrusion 110 of the form corresponding to the first and second seating grooves 30 and 40 to the lower side, respectively.
In addition, the through bar is configured to receive the post bars 50 on both sides of the support plate 90 so that the post bars 50 are moved up and down.
Therefore, when the vertical pneumatic cylinder unit 80 is operated, the vertical pneumatic cylinder unit 80 and the support plate 90 are fixed, and the operation plate 100 coupled with the cylinder rod is provided with the post bar 50. It is configured to be moved downward and the first and second seating grooves 30 and 40 to protrude or squeeze back.
The post bar 50 is vertically configured from both sides of the first and second seats 10 and 20 to both sides of the support plate 90, and upper and lower end portions of the first and second seats 10 and 20. And the support plate 90 and configured to move the operation plate 100 vertically through the post bar 50.
The third cylinder device 150 is configured on the side of the second seating table 20 on which the cutout is mounted, and the second cylinder device 70 and the second seating table are pressed in the second seating groove 40. 20) is moved to the horizontal direction is configured to separate the cable 300 and the cutout 350.
The third cylinder device 150 has a coupling plate 160 coupled to the second seat 20 by the side of the second seat 20, and the coupling plate 160 to the rear of the coupling plate 160. The cylinder rod of the horizontal pneumatic cylinder 170 operating in the horizontal direction) is fastened so that the coupling plate 160 can move forward or backward in the horizontal direction by the operation of the horizontal pneumatic cylinder 170.
Looking at the embodiment of the present invention made of the above device,
First, as shown in FIGS. 6A, 6B, and 6C, the cut part 350 in which the shield part 320 or the sheath 330 of the cable is cut through the cutting step of the cable 300 is configured. The cable 300 is seated in the first and second seating grooves 30 and 40, and the cable 300 as the first seating groove 30 and the second seating groove 40 according to the cut portion of the cutout 350. ) And the cutting depth of the set screw 130 is adjusted so that the cutout 350 and the cutout 350 are seated separately, and the cable 300 is seated by the first seating groove 30 and the cutout part is formed by the second seating groove 40. 350 each seat.
When the mounting of the cable 300 and the cutout 350 is confirmed, as shown in FIG. 5, the vertical pneumatic cylinder 80 is operated to cause the cylinder rod of the vertical pneumatic cylinder 80 to actuate the plate 100. And the protrusion 110 of the operation plate 100 is advanced to the first and second seating grooves 30 and 40 to compress the cable 300 and the cutout 350, respectively.
The protrusion 110 of the operation plate 100 and the first and second seating grooves 30 and 40 constitute a plurality of intaglio portions 250 which are engraved into the surface of the mutual friction portion, except for the intaglio portion 250. It is configured to increase the pressing force of the cable 300 and the cut 350 to the surface.
The combination of the coupling plate 160 and the coupling plate 160 formed on the cylinder rod of the horizontal pneumatic cylinder 170 by operating the horizontal pneumatic cylinder 170 at the same time the crimping of the cable 300 and the cutout 350 2, the seat 20 is operated, which causes the second seat 20 and the second cylinder device 70 to operate horizontally, thereby cutting the cutout 350 formed in the second seating groove 40 into the cable 300 In this case, the shield portion 320 or the shell 330 outside the conductor 310 may be sequentially peeled off without being damaged or twisted in the conductor 310 in the cable 300.
Meanwhile, as shown in FIGS. 7 and 8, the operating plate 100 and the protrusion 110 may be separately configured, and a long hole 105 may be configured in the operating plate 100, and the long hole 105 may be formed as the protrusion 110. The fixing groove 115 is formed at a position corresponding to the fastening bolt 280 through the long hole 105 and the fixing groove 115 so that the protrusion is fastened to the operation plate 100 of the long hole 105. The fixed radius of the protrusion 110 is selectively formed by the length to move the position of the intaglio portion 250 of the protrusion 110 of the operation plate 100 to form the intaglio portion of the first and second seating grooves 30 and 40. It is configured to increase the compressive force to selectively change the frictional portion due to (250).

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1 is a perspective view showing a preferred embodiment of the present invention

Figure 2 is an exploded perspective view showing a preferred form of the present invention is combined

3 is a plan view showing a preferred embodiment of the invention

4 is a side view showing a preferred embodiment of the invention

Fig. 5 is a cross-sectional view showing a preferred form of A-A ″ portion of the present invention.

Figure 6 (a), (b), (c) is an exemplary view showing a preferred form in which the set screw is inserted into the adjustment groove

Figure 7 is a perspective view showing a preferred form in which the operating plate and the protrusion of the present invention are distinguished

Figure 8 is a side view showing a preferred form in which the operating plate and the protrusion of the present invention are distinguished

Figure 9 (a) is an exemplary view showing the shape of the cable inner layer

Figure 9 (b) is an illustration showing the shape of the cable cut through the cutting process

Explanation of the major symbols used in the main part of the drawing

10: first seat 20: first seat

30: first seating groove 40: second seating groove

50: post bar 60: first cylinder device

70: second cylinder device 80: vertical pneumatic cylinder

90 support plate 100 operating plate

110: protrusion 130: set screw

140: adjusting groove 150: the third cylinder device

160: coupling plate 170: horizontal pneumatic cylinder

250: engraved portion 500: floor frame

Claims (4)

In the cable stripping device of the insulation strip used in the stripping process of the insulating portion in which the outer shell 330 or the shield 320 is cut in the cable 300, Configure the floor frame 500, the component is seated, The first seating platform 10 including the first seating groove 30 on which the cable 300 is seated on the top of the floor frame 500, and the second seating groove 40 on which the cutout 350 is seated. Comprising a second seating table 20, Post bars 50 which protrude vertically to both sides of the first, second seat 10, 20, A support plate 90 configured at an upper end of the post bar 50 to accommodate the cylinder rod of the vertical pneumatic cylinder portion 80 at the center thereof; Vertical pneumatic cylinder unit 80 for operating the cylinder rod in the vertical direction through pneumatic to the upper side of the support plate 90, The support plate 90 is configured to be lower, and the cylinder rod end of the vertical pneumatic cylinder unit 80 is coupled, and includes a protrusion 110 having a shape corresponding to the first and second seating grooves 30 and 40. To configure the first and second cylinder device (60, 70) comprising an operation plate 100 to Coupling plate 160 coupled to the second seat 20 to the side of the second seat 20, Including a horizontal pneumatic cylinder 170 is fastened to the cylinder rod to the rear of the coupling plate 160, A set of constituting the adjusting groove 140 extending from the rear portion of the second seating groove 40 to the stop portion and fastened to the adjusting groove 140, the end side of which is fastened to the end of the cable cutout 350. Configure the screw 130, At least one intaglio portion 250 is engraved into the surface of the site where the protrusion 110 and the first and second seating grooves 30 and 40 of the operation plate 100 are mutually rubbed, Separately configure the operation plate 100 and the protrusion 110, To construct the long hole 105 in the operation plate 100, Protruding portion 110 constitutes a fixing groove 115 in a position corresponding to the long hole 105, The fixing bolt 280 penetrates the long hole 105 and the fixing groove 115 so that the protrusion 110 is selectively fixed by the length of the long hole 105 when the protrusion is fastened to the operation plate 100. Stripping device for insulation of the cable, characterized in that According to claim 1, A set of constituting the adjusting groove 140 extending from the rear portion of the second seating groove 40 to the stop portion and fastened to the adjusting groove 140, the end side of which is fastened to the end of the cable cutout 350. Insulation stripping device of the cable comprising a screw 130 According to claim 1, Insulation of the cable comprising at least one intaglio portion 250 that is engraved into the surface of the site where the protrusion 110 and the first and second seating grooves 30 and 40 of the operation plate 100 are mutually rubbed Blowing device According to claim 1, Separately configure the operation plate 100 and the protrusion 110, To construct the long hole 105 in the operation plate 100, Protruding portion 110 constitutes a fixing groove 115 in a position corresponding to the long hole 105, The fixing bolt 280 penetrates the long hole 105 and the fixing groove 115 so that the protrusion 110 is selectively fixed by the length of the long hole 105 when the protrusion is fastened to the operation plate 100. Stripping device for insulation of the cable, characterized in that

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