JP2020162355A - Cable isolation device - Google Patents

Abstract

To provide a cable isolation device that can continuously and stably maintain a predetermined distance between single-core cables of a cable formed by twisting a plurality of single-core cables and between the single-core cable and an attached cable.SOLUTION: In a cable isolation device, a pointed long side portion 15 provided at the bottom of a cable isolation device main body 11 is inserted between two cables 19a and 19b. A cable support around the side of the cable isolation device main body 11 supports the two cables when the cable isolation device main body 11 is inserted between the two cables. An operation rod 18 is inserted through a through hole provided in the cable isolation device main body 11, and the cable isolation device main body 11 is rotated until the two cables are supported by the short sides of the cable isolation device main body 11 with the cable isolation device main body 11 inserted between the two cables.SELECTED DRAWING: Figure 4

Description

According to the present invention, a cable separation for ensuring a predetermined distance between each single-core cable of a cable formed by twisting a plurality of single-core cables and between the single-core cable and an adjacent cable. Regarding the securement device.

For example, a CVT cable that transmits three-phase electric power is composed of three single-core cables (CV-1C cables) and is formed by twisting them so that the outer peripheral surfaces of adjacent single-core cables are in contact with each other. In such a cable, it is necessary to untwist the cable when replacing the cable with a new one or when supplying power to new electrical equipment. This is to secure a work space so that connection work and disconnection work can be performed safely.

To untwist the twisted cable, a handle such as a screwdriver or a hammer is used to untwist it, but the repulsive force of the twist causes the screwdriver or hammer to come off, and the limbs of the operator. There is a risk of getting caught in a single-core cable.

Therefore, there is a power cable untwisting tool that can safely and reliably perform untwisting work of a plurality of single-core cables and facilitate the stop confirmation work of the power cable (see, for example, Patent Document 1). .. It includes a untwisting rod that is inserted between each of the single-core cables that are twisted together to perform untwisting, and an untwisted state-holding member that holds the untwisted state of each single-core cable. It is a thing.

Japanese Unexamined Patent Publication No. 2009-71915

However, in Patent Document 1, since the untwisting rod is used to untwist each single-core cable, when the operator removes the untwisting rod from his / her hand, the twisted state may be returned to the twisted state due to the repulsive force of the twist. That is, it is difficult to continuously and stably maintain the untwisted state of each single-core cable. In addition, two members, an untwisting rod and an untwisting state holding member, are required, and the untwisting state holding member must be arranged in a state where each single-core cable is untwisted by the untwisting rod. There is a possibility that the twisted state may be returned due to the repulsive force of the twist, and it is necessary to pay attention to the arrangement of the untwisted state holding member.

As for the cables for supplying power, a plurality of cables are laid in a ladder-shaped cable rack. For example, a CVT cable, a CV-2C cable (two core wires as one cable), a CV-3C cable (three core wires as one cable), and the like are installed side by side. Therefore, since there is an annexed cable adjacent to the CVT cable to be worked, a work space is also provided between one single-core cable of the CVT cable to be worked and the attached cable. It is necessary to secure.

An object of the present invention is to continuously stabilize a predetermined distance between each single-core cable of a cable formed by twisting a plurality of single-core cables and between the single-core cable and an attached cable. It is to provide a cable isolation device that can be maintained.

In the cable isolation securing device of the present invention, the distance between two single-core cables in a cable in which a plurality of single-core cables are twisted or one single in a cable in which a plurality of single-core cables are twisted. A cable separation securing device main body having a substantially rectangular planar shape for ensuring a distance between the core cable and the attached cable, and the two single-core cables provided at the lower part of the cable separation securing device main body. The long side of the tip that is inserted between the single core cable and the adjacent cable, and the cable separation securing main body provided around the side surface of the cable separation securing main body are the above 2 When inserted between the single-core cables or between the single-core cable and the attached cable, the two single-core cables or the one single-core cable and the attached cable The cable support portion and the cable separation securing device main body are inserted into the through hole provided in the cable separation securing device main body, and the cable separation securing device main body is placed between the two single-core cables or in combination with the one single-core cable. A state in which the two single-core cables or the one single-core cable and the attached cable are supported by the short side portion of the cable separation securing device main body in a state of being inserted between the cables. It is characterized in that it is provided with an operation rod for rotating the cable separation securing device main body until the above.

According to the present invention, the cable separation securing device is used until the two single-core cables or one single-core cable and the attached cable are supported by the short side of the main body of the cable separation securing device by the operating rod. By rotating the main body, the two single-core cables or one single-core cable and the attached cable are maintained in a state of being supported by the short side of the cable separation securing device main body, so that each single-core cable is twisted. It is possible to continuously and stably maintain the returned state, and it is possible to secure a work space between one single-core cable and the attached cable.

The perspective view of the cable separation securing device which concerns on embodiment of this invention. The plan view of the cable separation securing device main body which concerns on embodiment of this invention. The front view of the cable separation securing device main body which concerns on embodiment of this invention. The perspective view which shows the use state of the cable separation securing device which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described. FIG. 1 is a perspective view of the cable separation securing device according to the embodiment of the present invention, FIG. 2 is a plan view of the cable separation securing device main body, and FIG. 3 is a front view of the cable separation securing device main body. The cable separation securing device according to the embodiment of the present invention is between two single-core cables of a cable formed by twisting a plurality of single-core cables to be worked, or a plurality of single-core cables to be worked. A predetermined distance is maintained between the cable formed by twisting the cables and one single-core cable. In the following description, the distance between the two single-core cables of the CVT cable to be worked on is maintained. A case where a predetermined interval is maintained will be described.

In FIG. 1, the upper portion of the cable separation securing device main body 11 has a shape in which a protrusion 13 is mounted on a flat plate portion 12 having a substantially rectangular planar shape, and the lower portion of the cable separation securing device main body 11 has a convex curved portion 14. It is formed in a shape having. A pointed long side portion 15 is provided at the edge of the convex curved portion 14 at the lower part of the cable separation securing device main body 11. Further, a cable support portion 16 is provided at a peripheral portion on the side surface between the convex curved portion 14 and the flat plate portion 12.

Through holes 17x, 17y, and 17z are provided in the protrusion 13 on the upper portion of the cable separation securing device main body 11. An operation rod 18 for rotating the cable separation securing device main body 11 is inserted into the through holes 17x, 17y, and 17z. The operation rod 18 rotates the cable separation securing device main body 11 in a state where the cable separation securing device main body 11 is inserted between the two single-core cables. A state in which two single-core cables are supported by the short side portion of the cable separation securing device main body 11 by the operating rod 18 (the distance between the two single-core cables is approximately the long side length of the cable separation securing device. The operation of rotating the cable separation securing device main body 11 is performed until the secured state is reached.

FIG. 1 shows a case where the operation rod 18 is inserted into the through hole 17x. In this case, the operation rod 18 is in the short side direction (X-axis direction) of the flat plate portion 12 on the upper portion of the cable separation securing device main body 11. Is parallel to. When the operating rod 18 is inserted into the through hole 17y, the operating rod 18 is parallel to the long side direction (Y-axis direction) of the flat plate portion 12 on the upper part of the cable separation securing device main body 11, and the operating rod 18 is in the through hole 17z. When inserted into, the operating rod 18 becomes parallel to the Z-axis direction of the cable separation securing device main body 11. In FIGS. 2 and 3, the description of the operation rod 18 is omitted.

Next, the usage state of the cable separation securing device according to the embodiment of the present invention will be described. FIG. 4 is a perspective view showing a usage state of the cable separation securing device according to the embodiment of the present invention, and FIG. 4A shows a predetermined operation rod 18 inserted into the through hole 17x of the cable separation securing device main body 11. A perspective view showing a state in which the cable separation securing device is brought into contact between the two single-core cables 19a and 19b for ensuring the distance, FIG. 4B shows the cable separation securing device main body in which the two single-core cables 19a and 19b are in contact with each other. FIG. 4 (c) is a perspective view showing a state of being supported by the long side portion of 11 (a state in which the distance between the two single-core cables 19a and 19b is secured by the substantially short side length of the cable separation securing device). A perspective view showing a state in which the operation rod 18 in the state of FIG. 4B is removed from the through hole 17x and inserted into the through hole 17y of the cable separation securing device main body 11, FIG. 4D shows two single-core cables 19a. , 19b are supported by the long side of the cable separation securing device main body 11 (the distance between the two single-core cables 19a and 19b is secured by the substantially short side length of the cable separation securing device). FIG. 4 is a perspective view showing a process of shifting to a state in which the single-core cables 19a and 19b of No. 1 are supported by the short side portion of the cable separation securing device main body 11 (a state in which the cable separation securing device is secured by a substantially long side length). In (e), two single-core cables 19a and 19b are supported by the short side of the cable separation securing device main body 11 (the distance between the two single-core cables 19a and 19b is the approximate length of the cable separation securing device. It is a perspective view which shows the state (the state secured by the side length).

As shown in FIG. 4A, the pointed long side portion 15 provided at the edge of the convex curved portion 14 at the lower part of the cable separation securing device main body 11 is placed between the two single-core cables 19a and 19b. Make contact. In FIG. 4A, since the pointed long side portion 15 is brought into contact with the two single-core cables 19a and 19b from the upper part, the upper part and the lower part of the cable separation securing device main body 11 are in opposite positions. There is.

In this state, the operation rod 18 is inserted into the through hole 17x of the protrusion 13 mounted on the flat plate portion 12 on the upper part of the cable separation securing device main body 11. The operation rod 18 is inserted into the through hole 17x of the cable separation securing device main body 11 so that the operation rod 18 is parallel to the short side of the cable separation securing device main body 11. Then, the operation rod 18 is rotated in the direction of the arrow (direction from the X axis to the Z axis).

As a result, as shown in FIG. 4B, the cable separation securing device main body 11 is in a state of being inserted between the two single-core cables 19a and 19b. In this state, the cable separation securing device main body 11 is inserted between the two single-core cables 19a and 19b, and the cable support portion 16 on the long side of the cable separation securing device main body 11 is inserted into the two single-core cables 19a and 19b. It is in contact. That is, the distance between the two single-core cables 19a and 19b is secured by the substantially short side length of the cable separation securing device main body 11.

Next, as shown in FIG. 4 (c), the operating rod 18 in the state of FIG. 4 (b) is pulled out from the through hole 17x and inserted into the through hole 17y of the cable separation securing device main body 11. Then, when the operation rod 18 is rotated in the direction of the arrow shown in FIG. 4 (c) (the direction from the −X axis to the Y axis), the two single-core cables 19a, as shown in FIG. 4 (d), From the state where the distance between 19b is secured by the substantially short side length of the cable separation securing device main body 11, the distance between the two single-core cables 19a and 19b is secured by the substantially long side length of the cable separation securing device main body 11. It shifts to the state that was done. At that time, the support portion that supports the two single-core cables 19a and 19b shifts from the cable support portion 16 on the long side portion of the cable separation securing device main body 11 to the cable support portion 16 on the short side portion.

Further, in the direction of the arrow shown in FIG. 4 (d) (the direction from the −X axis to the Y axis), the distance between the two single core cables 19a and 19b is approximately the length of the long side of the cable separation securing device main body 11. The operation rod 18 is rotated until the condition is secured.

As a result, as shown in FIG. 4 (e), the distance between the two single-core cables 19a and 19b is secured by the substantially long side length of the cable separation securing device main body 11. That is, the distance between the two single-core cables 19a and 19b is maintained at a substantially long side length of the cable separation securing device main body 11.

Here, the operation rod 18 in the state of FIG. 4B was pulled out from the through hole 17x and reinserted into the through hole 17y of the cable separation securing device main body 11 between the two single-core cables 19a and 19b. This is to prevent the operation rod 18 from interfering with the work while the work space is secured. That is, as shown in FIG. 4 (e), there are two operating rods 18 in a state where the distance between the two single-core cables 19a and 19b is secured by the substantially long side length of the cable separation securing device main body 11. It is located in the direction perpendicular to the single core cables 19a and 19b. Therefore, it is possible to prevent the operation rod 18 from interfering with the work in the work space between the two single-core cables 19a and 19b.

As described above, according to the embodiment of the present invention, the two single-core cables 19a and 19b are supported by the long side portion of the cable separation securing device main body 11 by the operation rod 18, and further, 2 The cable separation securing device main body 11 is rotated until the single-core cables 19a and 19b of the book are supported by the short side of the cable separation securing device main body 11, and the two single-core cables 19a and 19b secure the cable separation. The state of being supported by the short side portion of the vessel body 11 is maintained. Therefore, the distance between the two single-core cables 19a and 19b is maintained at the substantially long side length of the cable separation securing device main body 11, and the untwisted state of each single-core cable is continuously and stably maintained. can do. Further, after securing the distance between the two single-core cables 19a and 19b with the cable separation securing device main body 11, the distance between the two single-core cables 19a and 19b is separately provided by the untwisted state holding member. It is also possible to secure it.

In the following description, the case where a predetermined distance is maintained between the two single-core cables of the CVT cable to be worked is described, but not only between the two single-core cables of the CVT cable to be worked, but also a plurality of cables. Adjacent to one single-core cable between two single-core cables of a cable formed by twisting a single-core cable or one of a cables formed by twisting a plurality of single-core cables A predetermined distance may be maintained between the cable and the cable.

Although the embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. This novel embodiment can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

11 ... Cable separation securing device main body, 12 ... Flat plate part, 13 ... Projection part, 14 ... Curved part, 15 ... Pointed long side part, 16 ... Cable support part, 17 ... Through hole, 18 ... Operation rod, 19 ... Single Heart cable

Claims (1)

The distance between two single-core cables in a cable in which multiple single-core cables are twisted, or the distance between one single-core cable in a cable in which multiple single-core cables are twisted and the attached cable. The main body of the cable separation securing device, which has a substantially rectangular flat shape to secure the space,
A pointed long side portion provided at the lower part of the cable separation securing device main body and inserted between the two single-core cables or between the one single-core cable and the attached cable.
The cable separation securing device main body is provided around the side surface of the cable separation securing device main body, and the cable separation securing device main body is inserted between the two single-core cables or between the one single-core cable and the attached cable. When the two single-core cables or the one single-core cable and the cable support portion that supports the side-by-side cable,
The cable separation securing device main body is inserted through a through hole provided in the cable separation securing device main body, and the cable separation securing device main body is inserted between the two single-core cables or between the one single-core cable and the attached cable. The cable separation securing device until the two single-core cables or the one single-core cable and the attached cable are supported by the short side portion of the cable separation securing device main body in this state. A cable separation securing device characterized by being equipped with an operation rod for rotating the main body.

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