KR102307360B1 - Cap for insulating end of wire for indirect hot-line work - Google Patents

Abstract

The present invention relates to an insulated terminal cap for indirect live wire. Insulated terminal cap for indirect live wire according to an embodiment of the present invention, a housing formed by indenting the terminal groove into which the terminal of the wire is inserted on one surface; and a bolt member penetrating an area opposite to the terminal groove of the side wall of the housing, wherein the head portion located outside the terminal groove of the bolt member is provided in a ring shape on which a hook of a smart stick can be caught do.

Description

Insulated terminal cap for indirect live wire {CAP FOR INSULATING END OF WIRE FOR INDIRECT HOT-LINE WORK}

The present invention relates to a terminal cap placed on a terminal of an electric wire for insulation, and more particularly, to an insulated terminal cap for an indirect live wire that is put on a terminal of an electric wire for insulation during an indirect live wire operation.

In case of cutting a energized wire during wiring work of extra high voltage distribution line, use an indirect live wire tool, a smart stick, to temporarily put an insulated terminal cap on the exposed part of the wire so that the live part is not exposed. It prevents safety accidents such as electric shock, short circuit of distribution lines, and ground faults.
1 is a view showing a side of a general clamp-type insulating terminal cap 10. As shown in FIG. FIG. 2 is a view showing the rear surface of the clamp-type insulating terminal cap 10 of FIG. 1 in a state held by the grab stick 20 . 1 and 2, a general clamp-type insulated terminal cap 10 is equipped with a clamp 11 to pick up the inserted electric wire in order to prevent the clamp-type insulated terminal cap 10 from being separated from the electric wire. . In general, in order to put the clamp-type insulated terminal cap 10 like this on the terminal of the electric wire, the clamp 11 is held by the end of the clamp portion 20 of the smart stick, the grab stick, to spread the clamp 11, and then spread the electric wire. Put the clamp-type insulated terminal cap 10 on the terminal of the, and then, spread the tongs 20 and place the tongs 11 to clamp the inserted wire terminal.
In this case, the tongs 11 are gripped only by the end of the tongs 20, and in general, the tongs 11 are installed at a position far away from the center of gravity of the tongs-type insulated terminal cap 10, and the tongs 20 ) and the tongs 11, the contact surface is small and the portion gripped by the tongs 20 of the tongs 11 reduces friction due to wear, so the tongs 11 can be easily separated from the tongs 20 . In addition, the force to bite the wire is weakened due to the decrease in elasticity of the elastic body that provides the elastic force so that the tongs 11 clamp the wire terminal, so that the tongs-type insulated terminal cap 10 can be easily separated from the wire terminal. In addition, in general, only the elastic force of the elastic body providing the elastic force to the tongs 11 may cause a phenomenon in which the tongs 11 easily slide from the electric wire covering when there is moisture in the electric wire covering.

The present invention is to solve the above problems, and an object of the present invention is to provide an insulated terminal cap for an indirect live wire that can be firmly gripped using a grab stick.
In addition, an object of the present invention is to provide an insulated terminal cap for indirect live wire that can firmly maintain the state covered with the wire terminal.

An insulated terminal cap for indirect live wire according to an embodiment of the present invention includes: a housing in which a terminal groove into which a terminal of an electric wire is inserted is recessed inwardly on one surface; A bolt member penetrating an area opposite to the terminal groove of the side wall of the housing, wherein the head portion located outside the terminal groove of the bolt member is provided in a ring shape that can be hooked with a hook of a smart stick do.
In the sidewall of the housing, a plurality of anti-slip grooves formed to be indented in a circumferential direction may be formed in a longitudinal direction of the terminal groove.
The housing and the bolt member may be made of a material including MC nylon.
The housing and the bolt member may be formed by a process including cutting.
A detector indicating whether the electric wire inserted into the terminal groove is charged may be installed on the opposite surface of the housing facing in the opposite direction to the one surface.

The insulated terminal cap for indirect live wire according to the present invention can be firmly gripped using a grab stick.
In addition, the insulated terminal cap for indirect live wire according to the present invention can firmly maintain the state covered with the wire terminal.

1 is a view showing a side of a general clamp-type insulated terminal cap.
FIG. 2 is a view showing the rear surface of the clamp-type insulating terminal cap of FIG. 1 in a state of being gripped by a grab stick.
3 is a perspective view of an insulated terminal cap for an indirect live wire according to an embodiment of the present invention.
4 is a perspective view showing a state in which the terminal of the wire is inserted into the insulated terminal cap for the indirect live wire of FIG. 3 .
5 is a rear view of the insulated terminal cap for indirect live wire of FIG. 3 .
6 is a perspective view exemplarily showing the size of the insulated terminal cap 100 for indirect live wire of FIG. 3 .
7 is a perspective view showing another example of the bolt member shown in FIG. 3 .

Hereinafter, embodiments of the present invention will be described clearly and in detail to the extent that those skilled in the art can easily practice the present invention.
3 is a perspective view of an insulated terminal cap 100 for an indirect live wire according to an embodiment of the present invention. 4 is a perspective view showing a state in which the terminal 1 of the wire is inserted into the insulated terminal cap 100 for indirect live wire of FIG. 3 . 5 is a rear view of the insulated terminal cap 100 for indirect live wires of FIG. 3 . 3 to 5, the insulated terminal cap 100 for an indirect live wire is a terminal (1) of an electric wire so that the exposed part of the bare wire is not exposed when the electric wire is cut during the wiring work of the extra-high voltage distribution line. covered on According to an embodiment, the insulated terminal cap 100 for indirect live wire may include a housing 110 , a bolt member 120 , and a detector 130 .
The housing 110 may be provided in a generally cylindrical shape. The housing 110 is formed to be recessed into the inner side of the terminal groove 111 on one surface. The housing 110 is provided with a material having excellent mechanical strength and excellent insulation performance. For example, the housing 110 may be provided with an MC nylon material.
The terminal 1 of the bare wire is inserted into the terminal groove 111 . The terminal groove 111 may be provided so that the other side other than the hole into which the bolt member 120 is inserted and the open inlet of the terminal groove 111 to be described below are sealed by the side wall of the housing 110 . The sidewall of the housing 110 connects one surface and one surface of the housing 110 and the opposite surface facing the opposite direction.
The thickness of the side wall of the housing 110 surrounding the terminal groove 111 is the hole into which the bolt member 120 is inserted from the opposite side of the hole into which the bolt member 120 is inserted when looking at one surface on which the terminal groove 111 is formed. It may be provided to be thicker toward the formed side. Therefore, in the state in which the terminal 1 of the electric wire is inserted into the terminal groove 111, the bolt member 120 is not yet inserted into the housing 110 by the difference in weight of the side wall area due to the thickness of the bolt member ( Since the hole into which the 120 is inserted is positioned to face downward, the bolt member 120 can be easily inserted into the hole without a separate position adjustment. In addition, by setting the thickness of the side wall of the housing 110 surrounding the terminal groove 111 as described above, the bolt member 120 is tightened to press the terminal 1 of the wire inserted into the terminal groove 111 . It is possible to reduce the weight and size of the insulated terminal cap 100 for indirect live wire so that it is possible to secure sufficient thickness to stably maintain the state and to allow the operator to work more easily using a smart stick, and material can be saved. have.
An anti-slip groove 112 may be formed in the sidewall of the housing 110 . According to an embodiment, the non-slip groove 112 may be formed to be recessed inward along the circumferential direction of the housing 110 . The anti-slip groove 112 may be provided in plurality along the longitudinal direction of the terminal groove 111 . As described above, since the anti-slip groove 112 is formed, it is possible to prevent the housing 110 from slipping away from the hand or the grab stick when the user holds the housing 110 by hand or using a grab stick. can Therefore, when the insulated terminal cap 100 for indirect live wire of the present invention is used, more stable and safe indirect live wire work is possible.
The bolt member 120 is provided to penetrate the area opposite to the terminal groove 111 of the side wall of the housing 110 . According to an embodiment, the bolt member 120 may include a bolt part 121 and a head part 122 . The bolt member 120 is provided with a material having excellent mechanical strength and excellent insulation performance. For example, the bolt member 120 may be provided with an MC nylon material.
The bolt part 121 is threaded on the side. The bolt part 121 directly penetrates the side wall of the housing 110 . A screw surface is formed on the inner surface of the hole into which the bolt portion 121 of the housing 110 is inserted so as to be engaged with the thread formed on the side surface of the bolt portion 121 .
The head 122 is located outside the terminal groove 111 . According to an embodiment, the head part 122 is provided at one end positioned outside the terminal groove 111 of the bolt part 121 . According to an embodiment, a hole 123 through which a hook of a smart stick can be caught may be formed in the head 122 . For example, the head 122 may be provided in a ring shape.
As the bolt member 120 is provided in the structure and shape as described above, the operator hooks the hook of the smart stick to the hole 123 formed in the head 122 and rotates the hook, the bolt portion 121 Insulated terminal cap 100 for indirect live wire by moving the other end located in the housing 110 of It can be prevented from being separated from the terminal 1 of this electric wire.
In addition, as described above, by providing the bolt member 120 that can be tightened using a hook, the housing 110 can be gripped using a grab stick among smart sticks, and, as described above, the existing Since there is no need to use the grab stick to spread the tongs provided on the terminal cap, the grab stick can be used to grip the housing 110 . In addition, when the housing 110 is provided in a cylindrical shape, it can be gripped by the inner round part instead of the tip of the grab stick, so that the operation can be performed in a stable gripped state compared to the existing terminal caps.
According to an embodiment, the housing and the bolt member 120 may be formed by a process including cutting. For example, the housing 110 cuts a cylindrical material having an appropriate diameter manufactured by various methods to an appropriate length, and then, the non-slip groove 112 and the terminal groove 111 are formed using a lathe process. It can be prepared by forming. In addition, the bolt part 121 may cut a cylindrical material having an appropriate diameter manufactured by various methods to an appropriate length, and then use a lathe process to form a screw trough. In addition, the head 122 may be processed into a ring shape using a milling process on a plate-shaped material having an appropriate width and thickness.
6 is a perspective view exemplarily showing the size of the insulated terminal cap 100 for indirect live wire of FIG. 3 . 3 and 6 , the housing 110 may be provided in a cylindrical shape having a diameter D1 that can sufficiently secure the diameter D2 of the terminal groove 111 . For example, the diameter D1 of the housing 110 may be provided in a range of 45 to 55 mm, preferably 50 mm.
The terminal groove 111 may be provided with a diameter in which the terminal 1 of the electric wire used for the extra-high voltage distribution line can be inserted, and the terminal 1 of the inserted electric wire can be tightened by the bolt part 121 . For example, the diameter D2 of the terminal groove 111 may be 25 to 35 mm, preferably 30 mm.
The terminal groove 111 may be shallower than the length L1 of the housing 110 , but may be provided with a depth into which the terminal 1 of the electric wire can be sufficiently inserted.
When looking at one surface on which the terminal groove 111 of the housing 110 is formed, the thickness t1 of the region into which the bolt member 120 of the side wall surrounding the terminal groove 111 of the housing 110 is inserted is determined by the bolt member. 120 may be provided with a thickness sufficient to maintain a tightening state of the terminal 1 of the wire inserted into the terminal groove 111 . For example, the thickness t1 of the region into which the bolt member 120 of the side wall surrounding the terminal groove 111 of the housing 110 is inserted may be provided as 11 to 15 mm, preferably 13 mm.
When looking at one surface on which the terminal groove 111 of the housing 110 is formed, the thickness t2 of the area opposite to the area into which the bolt member 120 of the side wall surrounding the terminal groove 111 of the housing 110 is inserted. is thinner than the thickness t1 of the region into which the bolt member 120 is inserted, but may be provided with a thickness capable of having sufficient mechanical strength. For example, the thickness t2 of the region opposite to the region into which the bolt member 120 of the side wall surrounding the terminal groove 111 of the housing 110 is inserted may be 5 to 9 mm, preferably 7 mm. .
The head 122 has an outer diameter (d1) and a thickness (t3) that can secure a thickness that can have sufficient mechanical strength when tightened using the hook of the smart stick, and sufficient enough to allow the hook of the smart stick to be caught It may be provided in a ring shape having an inner diameter (d2) of the size. For example, the outer diameter d1 of the head 122 may be 40 to 50 mm, preferably 45 mm. The thickness t3 of the head 122 may be 13 to 17 mm, preferably 15 mm. The inner diameter d2 of the head 122 may be provided in a range of 17 to 23 mm, preferably 20 mm.
The bolt part 121 is longer than the thickness t1 of the region into which the bolt member 120 of the side wall surrounding the terminal groove 111 of the housing 110 is inserted, but the head part in a state in which the bolt member 120 is completely tightened. 122 may be provided in a length that does not protrude excessively.
The housing 110 may be provided with a length capable of securing the depth of the terminal groove 111 into which the terminal 1 of the electric wire of sufficient length can be inserted. For example, the length L1 of the housing 110 may be 190 to 210 mm, preferably 200 mm.
The length L2 protruding from the housing 110 of the detector 130 is the detector 130 can be installed. In order to reduce interference with surrounding wires during indirect live work, the entire insulated terminal cap 100 for indirect live wire is It may be provided in an appropriate size so that the length is not excessively long. For example, the length L2 protruding from the housing 110 of the detector 130 may be 30 to 40 mm, preferably 35 mm.
7 is a perspective view showing another example 120a of the bolt member shown in FIG. 3 . Referring to FIG. 7 , a protrusion 124 may be formed on the other end of the bolt unit 121 inserted into the side wall of the housing 110 to face the inside of the terminal groove 111 . According to an embodiment, the protrusion 124 may be provided in a shape having a pointed end. A plurality of protrusions 124 may be provided to be arranged over the entire end surface. As described above, since the protrusion 124 is provided, when the bolt member 120a is tightened in a state where the wire terminal 1 is inserted into the terminal groove 111 , the insulated terminal cap 100 for indirect live wire is formed by the protrusion 124 . ) can be maintained more firmly in the state covered by the wire terminal (1).
Referring back to FIGS. 3 and 4 , the detector 130 may be installed on the opposite surface of the housing 110 . The detector 130 indicates whether the electric wire inserted into the terminal groove 111 is charged.
The above are specific embodiments for carrying out the present invention. In addition to the above-described embodiments, the present invention will include simple design changes or easily changeable embodiments. In addition, the present invention will include techniques that can be easily modified and implemented using the embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, and should be defined by the claims and equivalents of the claims of the present invention as well as the claims to be described later.

100: insulated terminal cap for indirect live wire 110: housing
111: terminal groove 112: anti-slip groove
120, 120a: bolt member 121: bolt part
122: head 124: projection
130: sword

Claims (5)

a housing in which a terminal groove into which the terminal of the electric wire is inserted is recessed in one surface thereof;
a bolt member penetrating an area opposite to the terminal groove of the side wall of the housing;
The bolt member may include: a head positioned outside the terminal groove; and a bolt part extending from the head, directly penetrating the side wall of the housing, and having a screw thread formed on the side thereof,
The head is provided in a ring shape that can be hooked with a hook of a smart stick, and has a thickness of 13 to 17 mm in the direction through which the inner hole passes,
The bolt portion is provided such that the diameter of the screw thread is the same as the thickness of the head portion, and the inner end of the housing is in direct contact with the electric wire inserted into the terminal groove,
The housing is provided in a cylindrical shape with a diameter of 45 to 55 mm made of MC nylon,
a region into which the bolt member is inserted of the side wall of the housing is provided to be thicker than a region opposite to a region into which the bolt member is inserted on the side wall of the housing;
When looking at one surface of the housing on which the terminal groove is formed, the terminal groove is provided in a circular shape with a center adjacent to the opposite area than the area into which the bolt member of the side wall of the housing is inserted and having a diameter of 25 to 35 mm, and ,
The thickness of the region into which the bolt member is inserted of the side wall of the housing is provided to be 11 to 15 mm,
Insulated terminal caps for indirect live wires provided with a thickness of 5 to 9 mm in the opposite region. The method of claim 1,
Insulated terminal cap for indirect live wire in which a plurality of anti-skid grooves formed to be indented inward along the circumferential direction on the side wall of the housing are formed along the longitudinal direction of the terminal groove. delete The method of claim 1,
The housing and the bolt member are insulated terminal caps for indirect live wires formed by a process including cutting. The method of claim 1,
Insulated terminal cap for indirect live wire in which a detector indicating whether the electric wire inserted into the terminal groove is charged is installed on the opposite surface of the housing facing the opposite direction to the one surface.

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