KR102371808B1 - Underground distribution line hanger mechanism for remote management of electric power outlets - Google Patents

Abstract

The present invention relates to a remotely manageable underground distribution line hanger device to be disposed at a cable tunnel. The device comprises a channel (100), an assembly for supporting a wire (200), a remote control (300), a solenoid (400), and a control unit (500). Accordingly, the present invention can greatly reduce a risk of musculoskeletal injury of an operator and easily manage a facility by remotely operating expansion of a holding space and can greatly improve space utilization by making it possible to build additional underground distribution lines.

Description

Underground distribution line hanger mechanism for remote management of electric power outlets

The present invention relates to an underground distribution line hanger mechanism for arranging electric power outlets that can be remotely managed.

High-voltage electricity transmitted from a power plant or substation is transformed into a voltage of a certain size and then distributed to a consumption area, and such distribution is made through overhead or underground cables.

In particular, the underground wiring method is usually made by burying the underground pipe, but due to the difficulty in management, the method of installing the underground distribution line using an electric power outlet is recently used a lot. It is installed on a tray installed in

As a prior art for installing an underground distribution line using such a tray, there is Korean Patent Registration No. 10-1927805, which discloses a technology for easily and conveniently connecting an underground distribution line.

However, in the case of the conventional tray, if an underground distribution line was to be expanded, an additional tray had to be installed, so there was a great inconvenience in terms of scalability and increase in construction cost due to the additional expansion.

1. Republic of Korea Patent No. 10-2227021

The present invention can remotely operate the expansion of the mounting space, which can significantly lower the risk of injuries to the musculoskeletal system of the operator, facilitate facility management, and greatly improve space utilization by being able to extend more underground distribution lines. The purpose is to provide an underground distribution line hanger device for power station arrangement that can be remotely managed.

The present invention for achieving the above object,

A 'B'-shaped channel body installed vertically on the wall of the electric power outlet, a latch coupling part formed at regular intervals along the longitudinal direction of the channel body, an arc hole spaced apart from the latch coupling part, and the lower end of the arc hole a channel composed of a stopper coupling unit composed of a vertically extending vertical hole;

The support body that supports the underground distribution line and the inside is opened downward, is formed in an oblique line on the side of the support body, and is vertically and rotatably fitted to the latch coupling part, and rotated with the support body to be displaced from the latch coupling part. A 'T'-shaped clasp caught in the clasp coupling part, protruding from the side of the support body, butt against the end of the channel body, supporting the support body while it is formed on the side of the support body to be disposed between the clasp and the clasp , a support consisting of a stopper that is removably inserted into the stopper coupling part and restricts the rotation of the support body;

The cover body installed so as to be opened and closed at the bottom of the support, the first shaft formed on the upper surface of one end of the cover body and rotatably connected to the cover body through the first pin, the other end of the cover body is formed in the upper surface of the square ring shape A cover comprising a hook portion and a second shaft formed at regular intervals along the longitudinal direction of the upper surface of the cover body;

It consists of a vertical part rotatably installed on the second shaft through the second pin, and an auxiliary support consisting of an arc-shaped holder that extends from the end of the vertical part to form a concave shape and pressurizes and fixes the underground distribution line coming into the inside. assembly for supporting wires;

A remote control that transmits a wireless signal by the operator's operation;

a solenoid built into the support to fix and release the cover;

It characterized in that it includes; a control unit for controlling the operation of the solenoid by receiving a radio signal through the receiving unit.

The present invention can remotely operate the expansion of the mounting space, which can significantly lower the risk of injuries to the musculoskeletal system of the operator, facilitate facility management, and greatly improve space utilization by being able to extend more underground distribution lines. There are advantages that can be

1 is a perspective view of an underground distribution line hanger mechanism for arranging electric power outlets capable of remote management according to the present invention.
2a to 2c are a combined perspective view, an exploded perspective view, and a combined side view showing an assembly for supporting a channel and an electric wire separately extracted from an underground distribution line hanger mechanism for arranging electric power outlets that can be remotely managed according to the present invention.
Figure 3 is an exploded perspective view showing the wire support assembly separately from the underground distribution line hanger mechanism for arrangement of electric power outlets capable of remote management according to the present invention.
Figure 4 is a view showing the coupling process of the assembly for supporting wires in the underground distribution line hanger mechanism for arrangement of electric power outlets capable of remote management according to the present invention.
5a to 5c are views for explaining the operation of the underground distribution line hanger mechanism for remote management possible electric power outlet arrangement according to the present invention.

Hereinafter, it will be described in detail based on the accompanying drawings.

1 is a perspective view of an underground distribution line hanger mechanism for arranging electric power outlets that can be remotely managed according to the present invention, and FIGS. 2A to 2C are a channel and It is a combined perspective view, an exploded perspective view, and a combined side view showing the wire support assembly separately extracted, and Figure 3 is an exploded view showing the wire support assembly separately extracted from the underground distribution line hanger mechanism for remote management possible according to the present invention is a perspective view.

1 to 3, the underground distribution line hanger mechanism according to the present invention is composed of a channel 100, an assembly for supporting wires 200, a remote control 300, a solenoid 400 and a control unit 500, According to this, the extension of the mounting space can be remotely operated, so facility management is easy, and more underground distribution lines (L) can be mounted, so there is a technical feature with excellent space utilization.

1 to 2c, the channel 100 is a metal member forming a 'L' shape when viewed in a plan view. It serves to support the wire support assembly 200 so that it can be disposed in a horizontal direction orthogonal to the channel 100 .

The channel 100 is composed of a channel body 110, a latch coupling part 120, and a stopper coupling part 130, and is in close contact with the electric power bulb wall (W) and fixed through a fixing means (eg, anchor bolt). do.

On one surface of the channel body 110 , a latch coupling part 120 and a stopper coupling part 130 are formed at regular intervals along the vertical direction of the channel body 110 .

The latch coupling part 120 is a vertical long hole, and the latch 212 of the support 210 is detachably fitted.

The stopper coupling part 130 is composed of an arc hole 131 and a vertical hole 132. In this embodiment, the stopper ( 214) to guide them.

The arc hole 131 is an arc-shaped hole. The arc hole 131 is formed to be spaced apart by a predetermined distance from the center of the length of the clasp coupling part 120 to guide the stopper 214 of the support 210 .

A vertically extending vertical hole 132 is integrally formed at an end of the arc hole 131 .

1 to 3 , the wire support assembly 200 includes a support 210 , a cover 220 , and an auxiliary support 230 .

The support 210 is composed of a support body 211, a clasp 212, a clasp 213 and a stopper 214. In this embodiment, the support 210 is detachably installed in the channel 100 in the form of a cantilever and is installed underground. It serves to support (L).

The support body 211 is a tube having both ends and a downwardly opened inside, and a 'T'-shaped clasp 212 is integrally formed at one end. The clasp 212 is installed on the support body 211 in a state of being twisted in approximately 11 o'clock and 5 o'clock directions with respect to the vertical axis (12 o'clock and 6 o'clock directions). This clasp 212 is fitted to the clasp coupling part 120 to be lifted and rotatably fitted, and is caught by the clasp coupling part 120 while being displaced from each other with the latch coupling part 120 to the channel body 110 and the support body ( 211) serves to limit unauthorized separation.

The locking protrusion 213 protrudes from the side surface of the support body 211 and serves to support the support body 211 while being abutted against the end of the channel body 110 .

The stopper 214 is formed on the side surface of the support body 211 to be disposed between the clasp 212 and the locking jaw 213, and is detachably inserted into the stopper coupling part 130 to prevent the rotation of the support body 211. plays a limiting role.

4 is a view showing a coupling process of an assembly for wire support in an underground distribution line hanger mechanism for arranging electric power outlets that can be remotely managed according to the present invention, which will be described with reference to the following.

Referring to FIG. 2B , the latch coupling part 120 is formed vertically, whereas the latch 212 of the support 210 is twisted at a predetermined angle with respect to the vertical axis.

Accordingly, as shown in FIG. 4 , when you want to insert the latch 212 of the support 210 into the latch coupling part 120 , the latch 212 is attached to the latch coupling part in a state where the support 210 is tilted. The stopper 214 is inserted into the arc hole 131 of the stopper coupling part 130 during the insertion process. When the support 210 is rotated about the clasp 212 so that the support 210 is horizontal in the inserted state, the clasp coupling part 120 and the clasp 212 are alternately arranged, and the stopper 214 is an arc hole. It is moved along the 131 and moved to the entrance of the vertical hole 132 . And when the latch 212 is lowered along the latch coupling part 120 , the stopper 214 also descends along the vertical hole 132 that communicates with the arc hole 131 . Therefore, as the clasp coupling part 120 and the clasp 212 are alternately arranged, separation of the support 210 from the channel body 110 can be restricted, and the stopper 214 inserted into the vertical hole 132 is Rotation of the clasp 212 is fundamentally limited by this.

In addition, as the locking jaw 213 is abutted to the end of the channel body 110 , the support 210 is stably supported through the locking jaw 213 and the stopper 214 .

The cover 220 is composed of a cover body 221, a first axle 222, a hook part 223 and a second axle 224, and in this embodiment, a first pin ( P1) is rotatably coupled to open and close the opening of the support 210, and provides a space in which the auxiliary support 230 can be installed.

The cover body 221 is a plate having a predetermined width and thickness.

A first shaft 222 is integrally formed on the upper surface of one end of the cover body 221 , and the first shaft 222 is rotatably connected to one end of the support 210 via the first pin P1 as a medium. do.

The upper surface of the other end of the cover body 221 is integrally formed with a hook portion 223 having a rectangular ring shape, and the hook portion 223 is fixed by a rod of a solenoid 400 .

A second axle 224 is formed at regular intervals along the longitudinal direction of the upper surface of the cover body 221 between the first axle 222 and the hanger 223 , and the auxiliary support 230 is provided on the second axle 224 . ) is rotatably connected via the second pin (P2).

The auxiliary support 230 is composed of a vertical part 231 and a mounting part 232, and in this embodiment, it is rotatably on the second shaft 224 of the cover 220 via the second pin P2. It is installed to stably mount and fix the underground distribution line (L).

The vertical portion 231 is a plate having a predetermined width and thickness, and one end is rotatably installed on the second shaft 224 via the second pin P2.

The mounting portion 232 extends downward from the end of the vertical portion 231 to form a concave shape, and serves to press and fix the underground distribution line L leading to the inside.

For example, when the fixed state of the cover 220 is released, the cover 220 is rotated around the first pin P1 to be installed vertically, and accordingly, the auxiliary support 230 installed on the cover 220 is It is exposed to the outside, and the underground distribution line L is mounted on the auxiliary support 230 exposed in this way.

Referring to FIG. 1 , the remote controller 300 is a general remote controller and serves to wirelessly transmit an operation signal. For example, when the operator presses a button (not shown) of the remote control 300 , an operation signal is transmitted wirelessly and is input to the control unit 500 via the receiving unit 510 .

Referring to FIGS. 2C and 3 , the solenoid 400 is built into the support 210 to fix and release the cover 220 , and the operation is controlled by the controller 500 .

For example, the solenoid 400 includes a rod, and as the rod is moved back and forth and inserted into or separated from the hook part 223 , the hook part 223 is fixed or released.

Referring to FIG. 1 , the control unit 500 receives the wireless signal of the remote control 300 through the receiving unit 510 and operates the solenoid 400 so that the cover 220 is separated from the support 210 . do

Although not specifically illustrated, the solenoid 400 and the control unit 500 may receive power from the outside or may receive power from a separate battery.

5A to 5C are diagrams illustrating a process of installing an underground distribution line using the underground distribution line hanger mechanism for arranging electric power outlets capable of remote management according to the present invention, which will be described with reference to the following.

As shown in FIG. 5A, the underground distribution line L is mounted on the support 210 of the assembly 200 for supporting the wire, but if there is insufficient space for mounting the underground distribution line L, the auxiliary support 230 You can use

To explain this in more detail, when the operator operates the remote control 300, a wireless signal is transmitted from the remote control 300, and the transmitted wireless signal is input to the control unit 500 through the receiving unit 510, The control unit 500 controls the operation of the solenoid 400 .

The solenoid 400 controlled by the control unit 500 is pulled so that the rod is drawn inside, and the cover 220 fixed by the rod is rotated around the first shaft pin P, thereby The auxiliary support 230 installed on the cover 220 is finally exposed to the outside.

As described above, when the auxiliary support 230 is exposed to the outside, the underground distribution line L may be mounted on the auxiliary support 230 .

Although the present invention has been described in detail only with respect to the specific embodiments described, it is natural for those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

100: channel 110: channel body 120: latch coupling part
130: stopper coupling portion 131: arc hole 132: vertical hole
200: assembly for wire support 210: support 211: support body
212: clasp 213: clasp 214: stopper
220: cover 221: cover body 222: first axle
223: hook 224: second axle 230: auxiliary support
231: vertical part 232: mounting part 300: remote control
400: solenoid 500: control unit 510: receiver

Claims (1)

A 'B'-shaped channel body 110 installed vertically on the wall surface of the electric power bulb (W), a latch coupling part 120 formed at regular intervals along the longitudinal direction of the channel body 110, and a latch coupling part A channel 100 consisting of a stopper coupling portion 130 consisting of an arc hole 131 spaced apart from 120 and a vertical hole 132 extending vertically from the lower end of the arc hole 131;
The support body 211 that supports the underground distribution line (L) and the inside is opened downward, is formed in an oblique line on the side of the support body 211, and is vertically and rotatably fitted to the latch coupling part 120, and the support body The 'T'-shaped clasp 212 caught on the clasp engaging part 120 while being rotated with (211) and displaced from the clasp coupling part 120, protrudes from the side of the support body 211 and the channel body ( The locking jaw 213 for supporting the support body 211 while being buttted to the end of 110, is formed on the side surface of the support body 211 to be disposed between the locking jaw 212 and the locking jaw 213, and a stopper coupling part ( A support 210 comprising a stopper 214 that is detachably inserted into the 130 and restricts the rotation of the support body 211,
The cover body 221 installed in the lower part of the support 210 so as to be opened and closed, is formed on one end of the upper surface of the cover body 221 and is rotatably connected to the cover body 221 via the first pin P1. 1 axle 222, a square ring-shaped hook 223 formed on the upper surface of the other end of the cover body 221, and a second axle 224 formed at regular intervals along the longitudinal direction of the upper surface of the cover body 221. a cover 220;
A vertical portion 231 rotatably installed on the second shaft 224 via the second pin P2, an underground distribution line extending downward from the end of the vertical portion 231 to form a concave shape and entering the inside ( L) a wire support assembly 200 consisting of an auxiliary support 230 consisting of an arc-shaped mounting portion 232 for fixing;
The remote control 300 for transmitting a wireless signal by the operator's operation;
The solenoid 400 is built into the support 210 to fix and release the cover 220;
A remote-manageable underground distribution line hanger mechanism for arranging electric power outlets, characterized in that it comprises a;

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