KR100700710B1 - Cable peeler - Google Patents

Abstract

The present invention is configured such that the distance between the fixed arm and the movable arm of the cable pillar is elastically variable by the elastic reaction force of the pressure spring embedded in the movable side arm so that the cable can be clamped to be compatible with various diameter wire cables Peeling work also relates to a cable filler that is easy to perform.

Cable, sheath, peeling, clamping, handle, arm.

Description

Cable Filler {CABLE PEELER}

1 is a perspective view showing a conventional wire covering stripper.

2 is an exploded perspective view showing a cable filler according to the present invention.

3 is a perspective view showing a combined state of FIG.

4 is a cross-sectional view showing a movable side arm cross-sectional structure of the present invention.

5 is a cross-sectional view showing a cross-sectional structure of the auxiliary clamping unit of the present invention.

Figure 6 is a detailed view showing the detailed structure of the cutting blade of the present invention.

Figure 7 is an operation showing the operating structure of the gap control unit of the present invention.

8 is an operation diagram showing a cutting process of the cable sheathing by the cable filler of the present invention.

9 is a front view of FIG. 8;

10 is an operation diagram showing a process of completely separating the sheath cut in a spiral shape using the cable filler of the present invention from the cable.

<Explanation of symbols for the main parts of the drawings>

110: fixed side arm 111,121 support

112,122: Handle 113: receiving groove

114,124,171: Supporting surface 115: Guide groove

120: movable side arm 123: hollow

125: screw hole 128,162: locking jaw

130: connecting shaft 132: protrusion end

134,182: bolt portion 140: pressure spring

150: cutting blade 151: cutting groove

153: inclined chamfer 160: elastic control handle

164,172,200: through hole 170: auxiliary support

173: shaft bolt 174: ring body

175,195: control unit 180: tightening handle

190: shaft 191: spring

192: fitting groove 193: support piece

194: hollow bolt 197: incision plane

198: Home 199: Chin

190: blade 192: ball

194: spring 196: separation piece

220: cable 222: (cable) sheath

FIELD OF THE INVENTION The present invention relates to cable fillers for stripping wire cable sheaths, and more particularly to cables of various diameter sizes, from cables with standardized diameters to cables with unstandardized diameters. The peeling work also relates to a cable filler which can be carried out very simply.

In general, various types of cables used in electrical work are used depending on the power receiving voltage and the application, and particularly thick cables having a diameter of several centimeters are used in high voltage insulated cables. In this way, numerous types of cables such as power cables, flame retardant cables, and insulated cables have a form of insulation coating applied to a bundle of copper conductors, and this insulation coating is made of high flame-retardant PVC and has very thick and high strength properties. Have.

In the conventional cable sheathing stripping device, as shown in FIG. 1, a blade 84 is provided at one side of the body 81, and a handle 83 penetrating the body 81 is provided at the rear thereof, and the body 81 is provided. The pressing body 82 is provided at the front end of the handle 83 which penetrates into ()).

The cable sheath stripping device 80 configured as described above has a handle 83 after inserting the cable 60 between the pressing body 82 and the body 81 to strip the sheath 61 of the cable 60. ), The pressing body 82 firmly grips the cable 60, and then rotates the handle 83 and the cable 60 in opposite directions so that the sheath 61 is cut by the blade 84.

When the sheath 61 is cut 360 ° along the circumferential surface of the cable 60 as described above, the handle 83 is rotated in the reverse direction when the cut is made so that the pressing body 82 is lifted upward to release the gripping force. .

After the above process, the sheath 61 is cut out of the cable 60 from between the pressing body 82 and the body 81, and then two workers pull the cable 60 by both sides to pull the sheath ( Withdraw 61).

However, the conventional cable sheathing stripper as described above has a structure in which the gap between the body 81 and the pressing body 82 for gripping the cable 60 is manually adjusted, so that the diameter of the cable 60 is increased. Therefore, it is necessary to adjust the intervals one by one, so there is a problem that the workability is deteriorated and the work time is also required.

In addition, in order to completely separate the sheath 61 cut through the blade 84 from the cable 60, the peeling apparatus is first separated from the cable 60, and then the operator directly pulls the sheath 61 by hand. It was inefficient because of the hassle of having to completely remove it from the cable 60 using a separate separating tool.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to configure the diameter of the cable by the structure in which the distance between the fixed side arm and the movable arm of the cable pillar can be elastically variable by the pressure spring Regardless, the present invention provides a cable filler which can be easily clamped and improves workability by significantly cutting and separating cable sheaths in one operation.

Cable filler according to the present invention for achieving the above object is a fixed side arm for supporting one side of the cable; A movable side arm disposed opposite the fixed side arm and supporting the other side of the cable; A connecting shaft connecting the fixed side arm and the movable side arm, one end of which is fixed to the fixed side arm and the other end of which is linearly movable with respect to the movable side arm; A pressing spring which is fitted to the connecting shaft in the movable side arm and elastically presses the movable side arm to the fixed side arm side; It is characterized in that it comprises a cutting blade which is mounted obliquely on any one of the fixed side arm and the movable side arm, the cutting blade for spirally cutting the sheath of the cable in accordance with the rotation of the arm.

In this case, the movable side arm may be further provided with an elastic adjustment handle which is screwed with the connecting shaft in the state that one end of the pressing spring is supported.

The cable support surface of the fixed side arm may have a larger radius of curvature than the cable support surface of the movable side arm.

The fixed side arm may further include an auxiliary clamping unit having a cable support surface corresponding to the cable support surface of the movable side arm and advancing in the direction of the movable side arm.

Here, the auxiliary clamping unit is preferably configured to include an auxiliary support for supporting the cable, the shaft bolt is coupled to the auxiliary support to be rotatable.

On the other hand, the cutting blade is formed with a cutting groove on the upper surface, the inclined surface portion is formed obliquely processed from the end of the cutting groove.

In addition, the movable arm may be further provided with a tightening handle for pressing the connecting shaft to forcibly suppress the relative movement of the movable arm and the connecting shaft.

In addition, the movable side arm is provided with at least one interval adjusting unit for adjusting the interval between the fixed side arm and the movable side arm at a predetermined constant interval.

At this time, the gap adjusting unit is a hollow bolt fastened to the fixed side arm; A control mechanism for engaging the hollow bolt and the concave-convex shape; A shaft having one end coupled to the control mechanism through the hollow bolt, and the other end being supported by a predetermined position on the connection shaft; A support piece fixed to an outer circumferential surface of the shaft; It is preferable to include a spring fitted to the shaft and supported between the hollow bolt and the support piece.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view showing a cable filler according to the present invention, Figure 3 is a perspective view showing a combined state of FIG.

As shown in Figures 2 and 3, the cable filler according to the present invention is a fixed side arm 110 for supporting one side of the cable (not shown), and is disposed opposite the fixed side arm 110 and the cable Connecting the movable side arm 120 and the fixed side arm 110 and the movable side arm 120 to support the other side of the one end is fixed to the fixed side arm 110 and the other end is A connecting shaft 130 which is held linearly movable with respect to the movable side arm 120 and fitted into the connecting shaft 130 within the movable side arm 120 to fix the movable side arm 120 to the fixed side; It comprises a pressing spring 140 for elastically pressing to the side arm 110 side and a cutting blade 150 inclinedly mounted to the fixed side arm 110 to cut the sheath of the cable in a spiral shape.

As shown in the drawing, the cable pillar of the present invention has a long rod shape in a lateral direction, and the fixed side arm 110 and the movable side arm 120 opposite thereto are in contact with the left and right sides of the cable to be clamped. .

The fixed side arm 110 and the movable side arm 120 each have a support 111 and 121 having support surfaces 114 and 124 contacting the outer surface of the cable, and the support 111 and 121. It is composed of handles 112 and 122 coupled with.

The support 111 and the handle 112 of the fixed side arm 110 and the support 121 and the handle 122 of the movable side arm 120 may be integrally formed.

The handles 112 and 122 have a tapered shape on one side for easy handling, and a hollow 123 is formed therein.

The connecting shaft 130 has a rectangular bar shape, and at one end corresponding to the fixed side arm 110, a protruding end 132 protrudes upward, and a thread is processed at the other end corresponding to the movable side arm 120. Bolted portion 134 is formed.

Protruding end 132 of the connecting shaft 130 is inserted into the receiving groove 113 formed in the support 111 of the fixed side arm 110 is coupled and fixed through the bolt 101 and includes a bolt portion 134 The end of the square shape is inserted through the support 121 and the handle 122 of the movable side arm 120 to allow sliding linear movement with the movable side arm 120.

At this time, although not shown in the drawing, the support 121 of the movable arm 120 has a guide groove penetrated in a rectangular shape corresponding to the outer shape of the connecting shaft 130.

On the other hand, Figure 4 is a cross-sectional view showing a cross-sectional structure of the movable arm 120 of the present invention.

As shown, an elastic control handle 160 is installed at the end of the handle 122 of the movable side arm 120 to compress or restore the pressure spring 140 and to adjust the elasticity of the pressure spring 140.

The elastic adjustment handle 160 has a locking step 162 is formed to be stepped on the outer surface therein is formed with a female screw portion 165 that can be screwed with the bolt portion 134 of the connecting shaft 130.

In addition, in the handle 122 of the movable side arm 120, a locking step 128 is formed to form a step with the hollow 123 to correspond to the locking step 162 of the elastic adjustment handle 160.

The pressure spring 140 is supported between the locking jaw 128 of the handle 122 and the locking jaw 162 of the elastic adjustment handle 160 in a state of being fitted to the connecting shaft 130.

By the above-described structure, since the movable side arm 120 is elastically pressed toward the fixed side arm 110 by the elastic reaction force of the pressing spring 140 supported by the elastic control handle 160, firmly hold the cable from side to side. Given.

In addition, since the elastic control handle 160 has a structure screwed to the bolt portion 134 of the connecting shaft 130, while rotating the elastic control handle 160 to compress or restore the pressure spring 140 Since the elasticity of the pressure spring 140 can be adjusted appropriately, the tightening force of the cable by the fixed side arm 110 and the movable side arm 120 can be adjusted appropriately.

In addition, the elastic adjustment handle 160 is formed with a through hole 164 penetrated in the vertical direction, so that an operator can easily perform a handle operation by inserting an appropriate tool in the through hole 164.

In addition, the cutting blade 150 is arranged inclined at a predetermined angle on one side of the support 111 of the fixed side arm 110 is fixedly installed through the bolt 164, the spiral of the sheath of the cable during the cable peeling operation. Will be cut with

In addition, the radius of curvature of the support surface 114 formed on the support 111 of the fixed side arm 110 is larger than the radius of curvature of the support surface 124 formed on the support 121 of the movable side arm 120. have.

On the other hand, Figure 5 is a cross-sectional view showing a cross-sectional structure of the auxiliary clamping unit of the present invention.

As shown in FIG. 5, the fixed side arm 110 has a cable support surface 171 corresponding to the support surface 124 formed on the support 121 of the movable side arm 120 and the movable side arm 120. Auxiliary clamping unit for advancing in the direction is installed.

The auxiliary clamping unit is used to support the cable together with the movable side arm 120 when it is necessary to clamp a cable having a relatively small diameter.

The auxiliary clamping unit includes an auxiliary support 170 for supporting a cable together with the support 121 of the movable side arm 120, and an axial bolt 173 rotatably coupled to the auxiliary support 170. do.

The shaft bolt 173 is accommodated in the head portion of the auxiliary support 170, the ring bolt 174 is rotatably fitted to the shaft bolt 173, the ring body 174 is fastened to the upper and lower bolts 176 fastening It is maintained in a fixed state through the auxiliary support (170).

The support 111 of the fixed side arm 110 is formed with a guide groove 115 through which the auxiliary support 170 is received and a female screw portion 116 to which the shaft bolt 173 can be screwed. .

And, the end of the shaft bolt (173) facing the auxiliary support 170 is fastened to the adjuster 175 is maintained in a fixed state.

Accordingly, as the adjustment mechanism 175 rotates, the auxiliary support 170 can be easily clamped together with the support 121 of the movable side arm 120 while the auxiliary support 170 is advanced to an appropriate position.

Meanwhile, the movable side arm 120 may further include a tightening handle 180 for pressing the upper surface of the connecting shaft 130 to forcibly suppress relative movement of the movable arm 120 and the connecting shaft 130. Can be.

To this end, the tightening handle 180 forms a bolt portion 182 at the lower end and a screw hole 105 to which the bolt portion 182 is fastened to an upper surface of the support 121 of the movable side arm 120. do.

And, the front and rear sides of the movable side arm 120 may be provided with a gap adjusting unit for adjusting the interval between the fixed side arm 110 and the movable arm 120 at a predetermined constant interval.

The gap adjusting unit is a hollow bolt 194 that is fastened to the fixed side arm 110, the adjusting hole 195 to be engaged with the hollow bolt 194 in the form of irregularities, and one end penetrates the hollow bolt 194. And the other end is coupled to the control unit 195 and the other end is caught in the shaft 190 is supported at a predetermined position on the connecting shaft 130, the support piece 193 fixed to the outer peripheral surface of the shaft 190, and the shaft Is inserted into the 190 is configured to include a spring 191 supported between the hollow bolt 194 and the support piece 193.

The hollow bolt 194 has a hollow formed therein and a threaded portion 202 is formed on the outer circumferential surface of one end thereof so as to be fastened to a screw hole 124 formed in the support 121 of the movable side arm 120. One end has a concave-convex shape in which a jaw 199 protruding from the center is formed, and the jaw 199 has a through hole 200 through which the shaft 190 penetrates.

In addition, the adjuster 195 has a concave-convex shape that can be matched with the concave-convex portion of the hollow bolt 194.

In addition, one end portion of the shaft 190 is formed with a cutting surface 197 having a planar shape cut about half way, and the other end portion is inserted into a thin groove along the outer circumferential surface so that the support piece 193 can be fitted and fixed. The groove 192 is formed.

The shaft 190 is coupled to the end formed with the cutting surface 197 through the adjusting hole 195 and the bolt 196 through the through-hole 200 of the hollow bolt 194, on the cutting surface 197 A groove 198 is formed to be inserted into the end of the bolt 196.

In addition, one end of the spring 191 is supported by the support piece 193 while being fitted to the shaft 190 and the other end is supported in the hollow bolt 194 and the shaft 190 is elastic in the direction of the connecting shaft 130. Pressurized.

By the above structure, the adjusting mechanism 195 is coupled with the shaft 190 and is retracted in the front-rear direction with respect to the hollow bolt 194 by the elasticity of the spring 191, and also the rotational operation is also possible. have.

In addition, the front and rear sides of the connecting shaft 130 are formed with a plurality of fixing grooves 106 into which the end of the shaft 190 can be inserted and are arranged with a predetermined interval therebetween.

At this time, the interval between the fixing groove 106 is set in consideration of the diameter of the standardized cable, the fixing groove 106 disposed on the front side of the connecting shaft 130 and the fixing groove disposed on the rear side The spacing between them is staggered so as to clamp standardized cables of various diameters.

On the other hand, Figure 6 is an enlarged view showing the cutting blade 150 of the cable filler according to the present invention.

As shown in FIG. 6, a cutting groove 151 is formed in the upper surface of the cutting blade 150 in the shape of a round cross section along the longitudinal direction, and a curved portion 152 is formed on the lower side to form a gentle bend on the outer surface. . In addition, the inclined chamfered portion 153 is formed to be inclined at a predetermined angle from the end of the cutting groove 151 to the fixed side arm 110 side.

According to the shape of the cutting blade 150 described above, since the initial insertion and spiral peeling of the cutting blade 150 to the cable sheath 222 during the peeling operation of the cable 220 is very easy, workability is improved. You can.

 7 is an operation view showing the operation structure of the above-described spacing adjusting unit, the top view is a state in which the control opening 195 is fitted to the hollow bolt 194 shaft not shown is fixed to the connecting shaft by the elasticity of the spring The movable arm 120 is caught in the groove to show a state in which the flow is suppressed with respect to the connecting shaft 130.

And, in the center of the state pulls the adjusting mechanism 195 forward from the hollow bolt 194 and is separated from the fixing groove of the connecting shaft by the front side retraction of the shaft 190, the movable arm 120 is connected The linear movement with respect to the axis 130 is shown.

In addition, the last lower figure shows a state of being seated on the center jaw 199 of the hollow bolt 194 after pulling the adjustment sphere 195 rotated 90 degrees, the movable side arm 120 is As described above, linear movement is possible with respect to the connecting shaft 130.

In this manner, the shaft 190 is caught or separated from the fixing groove 106 of the connecting shaft 130 by a series of methods of pulling and rotating the adjusting mechanism 195 to connect the movable arm 120 to the connecting shaft ( 130 can be set to a movable or impossible state.

A method of using the cable filler of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

8 is a state diagram showing a state of cutting the cable sheath using the cable filler of the present invention, Figure 9 is a front view showing the front view of FIG. 10 is a plan view showing a plan view of an operation of completely removing and removing the sheath cut using the cable filler from the cable.

Referring to FIGS. 8 to 10 and the accompanying drawings as described above, the cable filler is normally pushed by the movable side arm 120 to the fixed side arm 110 by the elastic reaction force of the pressure spring 140, both sides support 111 The 121 is in contact with each other.

When the cable pillar is clamped to the cable in the above state, the operator pushes both handles in the opposite direction to pull apart the movable arm 120 and the fixed arm 110 sufficiently, and then supports both sides 111. Inserting the cable 220 between the supporting surfaces 114 and 124 of the 121 and releasing the pulled force releases the movable side arm 120 and the fixed side arm 110 by the restoring force of the pressure spring 140. Clamping is performed by pressing the cable 220 from side to side.

In this state, when the tightening handle 180 on the upper side of the movable arm 120 is rotated and tightened for more firm clamping, the bolt part 182 presses the upper surface of the connecting shaft 130 to move the arm. Since the 120 is fixed to the connecting shaft 130, the distance between the fixed side arm 110 and the movable side arm 120 remains unchanged and fixed.

As described above, when the operator grips both handles 112 and 122 of the cable pillar and rotates it in the forward direction (clockwise) in the state in which the clamping of the cable 220 is completed, the fixed side arm (as shown in FIGS. 8 and 9). The cutting blade 150 mounted obliquely on the 110 moves helically along the outer surface of the cable 220 and cuts the sheath 222 in a spiral shape.

When the sheath 222 of the cable 220 is cut by the required length by the above process, as shown in FIG. 10, the cable filler is rotated about one more time with the cable filler slightly rotated to the left side to the cable 220. By changing the cutting angle of the sheath 222 by the blade 150, the sheath 222 is no longer cut in a spiral but is cut in a direction perpendicular to the cable 220 so that the sheath 222 is cut into the cable 220. Completely separated from it.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below And can be changed.

According to the present invention having the above-described configuration, the cable pillar of the present invention thus has a structure in which the distance between the fixed side arm and the support members on both sides of the movable arm is elastically changed by the pressure spring built in the movable side arm. It is possible to apply and clamp compatible cables of various diameters ranging from cables of standard diameters to cables of non-standard diameters.

In addition, since the cable filler of the present invention has a compact rod-shaped structure adopting both handles, portability and storage can be improved at the same time, and the cable filler can be operated by using both hands when the cable is peeled. Convenience can be improved.

In addition, the clamping of the cable is made easier by simply pulling the handles on both sides of the cable filler and then releasing the cable, which makes the cable clamping work easier than before, and the cable peeling work is only performed by rotating the clamped cable filler. It is made easy to work and has an excellent effect that can significantly shorten the working time.

In addition, in order to completely separate the cut sheath from the cable, the cut sheath is cut by a simple operation of slightly twisting and rotating the cable filler during the final cut of the cable sheath without pulling and removing the cut sheath using a hand or a separate tool. Since the sheath is completely separated from the cable, there is an advantage that cutting and detaching of the cable sheath can possibly be performed in one series of operations.

In addition, by installing the elastic adjustment handle screwed to the connecting shaft in the state where the one end of the pressure spring is supported on the movable side arm of the present invention, by rotating the elastic adjustment handle to compress or restore the pressure spring elasticity of the pressure spring Since the degree can be properly adjusted, there is an advantage in that the clamping force of the cable by the fixed side arm and the movable side arm can be properly adjusted.

In addition, the radius of curvature of the cable support surface of the fixed side arm is larger than the radius of curvature of the cable support surface of the movable side arm, which has the advantage of smoothly clamping cables of various diameter sizes.

In addition, by employing the auxiliary clamping unit in the fixed side arm of the present invention there is an advantage that can easily clamp a small diameter cable that can not be clamped through the support surface of the fixed side arm and the movable side arm.

In addition, when the cable filler of the present invention is mainly applied to a cable having a standard diameter, the distance between the fixed side arm and the movable arm to match the diameter of the cable by using the gap adjusting unit provided on the movable side arm There is an advantage that can be clamped by adjusting the constant.

In addition, by forming a cutting groove on the upper surface of the cutting blade, and by forming an inclined chamfer that is inclined from the end of the cutting groove, initial insertion of the cutting blade to the cable sheathing and spiral peeling operation becomes very easy during the peeling operation of the cable. Therefore, workability can be improved.

Claims (9)

A fixed side arm supporting one side of the cable; A movable side arm disposed opposite the fixed side arm and supporting the other side of the cable; A connecting shaft connecting the fixed side arm and the movable side arm, one end of which is fixed to the fixed side arm and the other end of which is linearly movable with respect to the movable side arm; A pressing spring which is fitted to the connecting shaft in the movable side arm and elastically presses the movable side arm to the fixed side arm side; And a cutting blade mounted obliquely on either one of the fixed side arm and the movable side arm, the cutting blade spirally cutting the sheath of the cable according to the rotation of the arm. 2. The cable pillar of claim 1, wherein the movable side arm is further provided with an elastic adjustment handle screwed to the connecting shaft while one end of the pressing spring is supported. The cable pillar according to claim 1 or 2, wherein the cable support surface of the fixed side arm has a larger radius of curvature than the cable support surface of the movable side arm. 4. The cable pillar according to claim 3, wherein the fixed side arm further has an auxiliary clamping unit having a cable support surface corresponding to the cable support surface of the movable side arm and advancing and retracting in the direction of the movable side arm. The cable filler of claim 4, wherein the auxiliary clamping unit includes an auxiliary support for supporting the cable and an axial bolt rotatably coupled to the auxiliary support. The cable filler according to claim 5, wherein the cutting blade has a cutting groove formed on an upper surface thereof, and an inclined chamfered portion formed to be inclined from an end of the cutting groove. The cable pillar according to claim 6, wherein the movable arm is further provided with a tightening handle that presses the connecting shaft to forcibly suppress relative movement of the movable arm and the connecting shaft. 8. The cable filler of claim 7, wherein the movable arm is provided with at least one gap adjusting unit for adjusting the gap between the fixed side arm and the movable arm at a predetermined constant interval. The method of claim 8, wherein the gap control unit, A hollow bolt fastened to the fixed side arm; A control mechanism for engaging the hollow bolt and the concave-convex shape; A shaft having one end coupled to the control mechanism through the hollow bolt, and the other end being supported by a predetermined position on the connection shaft; A support piece fixed to an outer circumferential surface of the shaft; Cable pillars, characterized in that it comprises a spring is inserted into the shaft and supported between the hollow bolt and the support piece.

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