KR101331179B1 - Fixing bracket for stable connection of underground distribution line - Google Patents

Abstract

The present invention allows an underground distribution line to be inserted inside an underground distributer through a fixing bracket before an underground duct and a grab guide means are engaged by a grab engagement means and makes an underground line grab part contract to hold the underground distribution line tight, thereby fixing the underground distribution line after the engagement. By doing so, the underground distribution line is inserted to fit in the underground distributer through the fixing bracket regardless of the length without drooping or being tangled outside the underground distributer, thereby maximizing the utilization of space, and a gap in the connection part is blocked and safe accidents due to a short circuit can be prevented by applying an assembly method in the fixing bracket.

Description

Fixing bracket for stable connection of underground distribution lines {fixing bracket for stable connection of underground distribution line}

The present invention relates to a fixed bracket for the stable connection of the underground cable for distribution, and more particularly to a fixed bracket for stable connection of the underground cable for improved distribution structure to ensure a stable connection when installing the underground cable for distribution It is about.

Electricity distributed from the primary substation or secondary substation is transmitted or distributed to the receiving facility of each customer through a transmission and distribution system consisting of overhead and underground cables for distribution, and low voltage consumers through special high voltage consumers, high pressure consumers and various outdoor transformers. It is distributed to and used for industrial and home use.

Among these, the transmission and distribution method using underground through the transmission and distribution system composed of distribution underground cables is provided with underground pipeline adapters in underground distribution boards through which the distribution underground cables are introduced, and the plugs are connected to the ends of the underground cables for distribution. It is a method of fastening to underground pipeline adapter.

An example of such an underground cable connection structure for power distribution is disclosed in Korean Utility Model Publication No. 20-2011-0000252 (published Jan. 10, 2011, hereinafter referred to as 'Patent Document 1').

However, there is a problem in that the underground cable connection structure according to the prior art adopts a prefabricated joint method, even if the gap of the connection part is blocked, a safety accident may occur due to a short circuit due to damage over time.

Republic of Korea Utility Model Publication No. 20-2011-0000252 (released January 10, 2011)

An object of the present invention is to provide a fixed bracket for the stable connection of the underground cable for power distribution that can prevent the occurrence of a safety accident due to a short circuit while blocking the gap of the connection portion by adopting the prefabricated joint method.

In order to achieve the above object is a fixed bracket for a stable connection of the underground cable for power distribution according to the present invention:

Underground power distribution vessels for the distribution of underground wires are introduced into a cylindrical shape, there is formed an underground line receiving port through which the distribution underground wires pass, and underground thread formed over the entire outer circumferential surface exposed to the outside of the underground distribution Pipeline adapters;

It is disposed in contact with the underground pipeline adapter, and is provided in a cylindrical shape formed with a male thread over the entire outer circumferential surface therein is formed a ground line through-hole communicating with the underground line receiving port, the ground from the end oriented to the underground pipeline adapter Grab guide means formed inside the grab insertion guide part such that the inner diameter of the underground line through hole is gradually reduced toward the end contacting the pipe adapter;

The underground pipe adapter is formed in a cylindrical shape so that a guide insertion hole formed with a female thread is formed throughout the inner circumferential surface so as to surround and engage the underground pipe adapter and the grab guide means, and an underground wire insertion hole communicating with the underground line through hole is formed. Before fastening, the underground line insertion hole is horizontally positioned along the longitudinal direction of the guide insertion hole, and is retracted by contact with the grab insertion guide part as the grab guide means is gradually engaged into the guide insertion hole. Grab fastening means provided in the underground line grab portion to form a;

An earth leakage detector provided in the underground line grab portion of the grab fastening means toward the inside of the underground line insertion hole and provided in plural numbers so as to be symmetrically disposed along the circumference of the underground line for distribution;

An alarm unit provided to notify an alarm signal when a short circuit is detected by the earth leakage detector; And

A controller configured to control the alarm unit to generate an alarm signal in the alarm unit when it is determined that the leakage current value exceeds a preset value based on a result detected by the ground fault detector;

Including,

The grab guide means includes a plurality of fixing protrusions projecting from the end contacting the underground pipe adapter toward the underground pipe adapter and symmetrically formed along the circumference of the underground line through hole.

The underground pipeline adapter is formed with a plurality of projection receiving grooves on the inner circumferential surface corresponding to the fixing projection along the circumference of the underground line receiving port,

The ground wire grab portion of the grab fastening means has an outer diameter smaller than the inner diameter of the guide insertion hole in the guide insertion hole, and a plurality of cutouts are formed symmetrically with each other along the circumference of the underground line insertion hole at an end contacting the grab insertion guide portion first. It is characterized by.

According to the present invention, it is possible to provide a fixing bracket for the stable connection of the underground cable for distribution that can prevent the occurrence of a safety accident due to a short circuit while blocking the gap of the connection portion by adopting the prefabricated joint method.

Figure 1 is a side cross-sectional view showing a state in which the fixing bracket for the stable connection of the underground cable for distribution according to the present invention,
FIG. 2 is a view illustrating a state in which a power distribution underground cable is freely movable in and out of the underground power distribution unit before the fixing bracket for the stable connection of the power distribution underground cable of FIG. 1 is coupled;
3 is an exploded perspective view of a fixing bracket for the stable connection of the underground power distribution line of FIG.
Figure 4 is a view of the fixing bracket for the stable connection of the underground cable for distribution of Figure 1, viewed from the rear,
Figure 5 is a side cross-sectional view showing a state in which the fixing bracket for the stable connection of the underground cable for power distribution according to another embodiment of the present invention,
6 is an exploded perspective view of a fixing bracket for the stable connection of the underground power distribution line of FIG.
7 is a control block diagram of a fixed bracket for a stable connection of the underground cable for distribution according to the present invention.

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

The fixed bracket 100 for the stable connection of the underground cable for power distribution according to the present invention, as shown in Figure 1 and 7, is provided in the underground power distribution (3) into which the underground cable 1 for distribution Grab fastening means provided to surround and tighten the underground pipeline adapter 200, the grab guide means 300 disposed to abut the underground pipeline adapter 200, and the underground pipeline adapter 200 and the grab guide means 300 ( 400, a ground fault detecting unit 500, an alarm unit 600, and a control unit 700.

Accordingly, regardless of the length of the underground cable (1) for distribution, the underground cable (1) for distribution uses the fixed bracket (100) for the stable connection of the underground cable for distribution according to the present invention. The space efficiency can be increased by allowing the inside of the underground distribution board 3 to fit snugly without being stretched or tangled from the outside, and can facilitate the passage of the worker, and can be neat in appearance.

The underground distributor 3 may be a distribution box in a transmission system and a distribution panel in a power distribution system.

1 to 3, the underground pipeline adapter 200 is provided with a cylindrical shape in the underground power distribution unit 3, and the underground line receiving hole 201 through which the underground electric wire 1 for power distribution passes therein is provided. Male threads are formed over the entire outer circumferential surface of the underground distributor 3.

1 to 3, the grab guide means 300 is provided with a cylindrical shape formed with a male thread over the entire outer circumferential surface, and the underground line through hole 301 communicating with the underground line receiving hole 201 is provided therein. And a grab insertion guide part 310 formed therein so that the inner diameter of the underground line through hole 301 gradually decreases from an end oriented to the underground pipe adapter 200 toward an end contacting the underground pipe adapter 200. do.

Accordingly, male threads are formed on the outer circumferential surfaces of the underground pipe adapter 200 and the grab guide means 300, and female threads are formed on the inner circumferential surface of the grab fastening means 400, such that the grab fastening means 400 is the underground pipe adapter 200. And by being provided to wrap and fasten the grab guide means 300, fastening is more robust, in particular fastening force can be further improved to prevent vibration loosening and the like.

As an embodiment of the present invention, as shown in Figure 3, the grab guide means 300 is projected toward the underground pipeline adapter 200 from the end in contact with the underground pipeline adapter 200, underground line through hole 301 And a plurality of fixing protrusions 320 symmetrically formed along the perimeter of the underground pipe adapter 200, and the plurality of protrusions are accommodated on the inner circumferential surface of the underground pipeline adapter 200 corresponding to the fixing protrusions 320 along the periphery of the underground line receiving port 201. It is preferable that the groove 210 is formed recessed.

Accordingly, when the grab guide means 300 abuts against the underground pipeline adapter 200 before the grab guide means 300 is fastened to the underground pipeline adapter 200 by the grab fastening means 400, the underground pipeline The fixing projection 320 of the grab guide means 300 is inserted into and engaged with the projection receiving groove 210 of the adapter 200 so that the grab guide means 300 is fixedly coupled to the underground pipeline adapter 200. By doing so, the fastening by the grab fastening means 400 can be performed more easily.

As shown in FIGS. 1 to 3, the grab fastening means 400 includes a guide insertion hole 410 having a female thread formed on an entire inner circumferential surface to cover and fasten the underground pipeline adapter 200 and the grab guide means 300. The underground line insertion hole 401 is formed to be formed in a cylindrical shape communicated with the underground line through hole 301 is formed, and before being fastened to the grab guide means 300, the horizontal state along the longitudinal direction in the guide insertion hole 410 As the grab guide means 300 is gradually fastened to the inside of the guide insertion hole 410, the underground line grab part 420 which forms the underground line insertion hole 401 to be deformed by contact with the grab insertion guide part 310. ) Is provided inside.

Accordingly, as shown in FIG. 2, before the underground pipeline adapter 200 and the grab guide means 300 are fastened to the grab fastening means 400, the distribution underground cable 1 is stably connected to the distribution underground cable. Through the fixing bracket 100 for freely to be pulled in or out of the underground distributor 3, and as shown in Figure 1, after the fastening underground wire (1) for fastening the underground wire grab portion to be fixed 420 is retracted so that the underground cable 1 for power distribution is held in close contact with each other, so that the underground cable 1 for stable distribution of the underground cable for power distribution is secured regardless of the length of the underground cable 1 for power distribution. 100 can be introduced into the inside of the underground distributor 3 without sagging or tangling from the outside of the underground distributor 3 so that the space efficiency outside the underground distributor 3 can be increased, Passage can be easy, and in appearance You can also get clean.

That is, the fixing bracket 100 for the stable connection of the underground cable for distribution according to the present invention before the ground pipe adapter 200, the grab guide means 300 and the grab fastening means 400 is fastened to the grab guide means ( When the 300 moves freely on the underground cable 1 for distribution, when the underground pipe adapter 200, the grab guide means 300, and the grab fastening means 400 are all fastened, the underground cable 1 for distribution is no longer moved. The underground line grab part 420 is provided so that the underground wire 1 for power distribution may be closely held.

As shown in FIG. 2 and FIG. 3, the ground line grab portion 420 of the grab fastening means 400 is smaller than the inner diameter of the guide insertion hole 410 inside the guide insertion hole 410. It is preferably formed to have an outer diameter, and a plurality of cutouts 421 are formed symmetrically along the circumference of the underground line insertion hole 401 at an end contacting the grab insertion guide part 310 first.

Accordingly, as the grab guide means 300 is gradually fastened into the guide insertion hole 410 of the grab fastening means 400, the inner diameter of the underground line through hole 301 gradually goes toward the end contacting the underground pipeline adapter 200. The gap between the plurality of cutouts 421 is gradually narrowed while the grab insertion guide part 310 and the ground line grab part 420 formed to be gradually reduced so that the ground line grab part 420 is deformed. can do.

1 and 4, the earth leakage detecting unit 500 is provided toward the inside of the underground line insertion hole 401 in the ground line grab portion 420 of the grab fastening means 400, the underground line for power distribution ( It is provided with a plurality of so as to be arranged in an annular form symmetrically along the periphery of 1) to detect the leakage current of the underground cable (1) for distribution.

More specifically, the ground fault detecting unit 500 extends from the inner side surface of the underground line grab unit 420 toward the underground wire line 1 for the distribution line to a position adjacent to the underground wire line 1 for power distribution. Accordingly, the plurality of earth leakage detection units 500 disposed in an annular shape along the circumference of the underground cable 1 for power distribution surrounds the circumference of the underground cable 1 for the power distribution and is located in the vicinity of the power distribution underground wire ( Even the small leakage current of 1) can be effectively detected.

As an embodiment of the present invention, the earth leakage detector 500 detects an input / output difference between currents by a zero phase current transformer (ZCT), amplifies the output signal of the image transformer, and cuts off the bimetal interval. It is preferable to include a resistive leakage current detection circuit chip (Igr Chip) to detect and operate by overload by the change.

Accordingly, the fixing bracket 100 can be used to prevent the occurrence of a safety accident due to a short circuit while completely blocking the gap of the connection portion by adopting a prefabricated joint method.

As illustrated in FIG. 7, the alarm unit 600 is provided to notify an alarm signal when a short circuit is detected by the earth leakage detector 500. The alarm signal generated by the alarm unit 600 may be of various kinds, such as an alarm light using an LED, an alarm sound using a buzzer, or a transmission signal sent to an administrator at a remote location.

As illustrated in FIG. 7, the controller 700 generates an alarm signal in the alarm unit 600 when it is determined that the leakage current value exceeds a preset value based on a result detected by the ground fault detecting unit 500. Control the alarm unit 600 to be.

More specifically, the control unit 700 detects the resistive leakage current Igr through the ground fault detecting unit 500, and when the detected resistive leakage current exceeds a predetermined value (for example, 30 mA), the alarm unit 600 may detect the resistance leakage current Igr. The alarm unit 600 is controlled to generate an alarm signal.

Accordingly, a short circuit occurs when a leakage current is generated in the underground cable 1 for power distribution even after the underground cable 1 for power distribution is connected and drawn into the underground power distributor 3 to ensure watertightness by the fixed bracket 100. The sensing unit 500 detects this to cut off the leakage current or the control unit 700 controls the alarm unit 600 to generate an alarm signal, thereby preventing the occurrence of a safety accident due to a short circuit.

Meanwhile, as another embodiment of the present invention, as shown in FIGS. 5 and 6, the fixing protrusion 320 of the grab guide means 300 is symmetrically retracted in the direction in which the underground line grab portion 420 is lifted. The auxiliary grab portion 321 may be further provided in the form.

Accordingly, the underground cable for power distribution 1 is pushed and pulled in the pulling or withdrawing direction after being introduced into the underground power distribution 3 by the fixed bracket 100 for stable connection of the underground cable for distribution according to the present invention. Even if an additional external force is applied, the underground cable 1 for distribution may be fixed without being deformed by the close grip of the underground line grab portion 420 and the auxiliary grab portion 321 with respect to the underground cable for distribution 1. .

In addition, as illustrated in FIGS. 5 and 6, an end of the auxiliary grab part 321 and an end of the underground grab part 420 may further include an elastic finger 323 made of an elastic material such as rubber.

Accordingly, the underground cable for power distribution 1 is pushed and pulled in the pulling or withdrawing direction after being introduced into the underground power distribution 3 by the fixed bracket 100 for stable connection of the underground cable for distribution according to the present invention. Even if an external force is additionally applied, the underground cable for power distribution 1 is held in close contact so as not to move any more and at the same time, the distribution underground wire 1 can be safely protected by an elastic finger 323 from damage caused by external force.

With this configuration, a process in which the distribution underground cable 1 is drawn into the underground distribution box 3 by the fixing bracket 100 for the stable connection of the distribution underground cable according to the present invention is shown in FIGS. The following description is made with reference to 4.

First, the underground cable 1 for power distribution is inserted into the underground line insertion hole 401 of the grab fastening means 400, and is inserted into the underground line through hole 301 of the grab guide means 300, It is inserted in the underground line receiving port 201 to allow the underground line 1 for power distribution into the underground distributor 3.

Next, the length of the distribution line 1 remaining on the outside of the underground distribution box 3 is adjusted so that the distribution line 1 is appropriately pulled out so that it does not hang or tangled outside the underground distribution box 3. Adjust the length of the underground cable (1) for distribution outside the underground power distributor (3).

Then, the fixing guide portion 320 of the grab guide means 300 is inserted into the projection receiving groove 210 of the underground pipeline adapter 200 so that the grab guide means 300 abuts on the underground pipeline adapter 200.

Finally, the wrap fastening means 400 wraps and wraps the underground pipeline adapter 200 and the grab guide means 300. At this time, the inside of the grab fastening means 400, the ground wire grab portion 420 is in contact with the grab insertion guide portion 310 of the grab guide means 300 and deformed so as to closely grip the underground wire (1) for distribution At the same time, the ground fault detecting unit 500 is inclined to the inner side of the ground line grabbing unit 420 and is disposed vertically toward the underground power line 1 for the power distribution. It is in the state arrange | positioned at annular form symmetrically mutually along the perimeter of 1).

Therefore, according to the present invention, regardless of the length of the underground cable (1) for distribution, the underground cable (1) for distribution of the underground power distribution (3) by the fixing bracket 100 for the stable connection of the underground cable for distribution The space efficiency can be increased outside the underground distribution box 3 by allowing the inside of the underground distribution box 3 to fit inside without sagging or tangling from the outside, while adopting a prefabricated joint method to block the gap of the connection part. It is possible to prevent the occurrence of a safety accident due to a short circuit.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

200: underground pipeline adapter 201: underground cable receiving port
210: projection receiving groove 300: grab guide means
301: underground line through hole 310: grab insertion guide portion
320: fixing projection 400: grab fastening means
401: underground line insertion hole 410: guide insertion hole
420: underground line grab part 421: incision
500: leakage detection unit 600: alarm unit
700:

Claims (1)

The underground distribution line 3 into which the underground distribution line 1 for distribution is provided is formed in a cylindrical shape, and an underground distribution port 201 through which the underground distribution line 1 for distribution is passed is formed, and the underground distribution line 3 Underground pipeline adapter (200) formed with a male thread over the entire outer circumferential surface exposed to the outside;
It is disposed in contact with the underground pipeline adapter 200, and is provided in a cylindrical shape formed with a male thread over the entire outer circumferential surface is formed inside the underground line through-hole 301 communicating with the underground line receiving port 201, the underground A grab guide having a grab insertion guide 310 formed therein such that an inner diameter of the underground line through hole 301 gradually decreases from an end oriented to a conduit adapter 200 toward an end contacting the underground conduit adapter 200. Means 300;
A guide insertion hole 410 having a female thread formed on an entire inner circumferential surface of the underground pipe adapter 200 and the grab guide means 300 is formed in a cylindrical shape to communicate with the underground line through hole 301. The underground line insertion hole 401 is formed, and before being fastened to the grab guide means 300, the inside of the guide insertion hole 410 is horizontal along the longitudinal direction, and the grab guide means 300 is the guide insertion hole. Grab fastening means having a ground line grab portion 420 formed therein to form the ground line insertion hole 401 to be deformed by contact with the grab insertion guide portion 310 as it is gradually fastened into the interior of the (410) ( 400);
The underground line grab portion 420 of the grab fastening means 400 is provided toward the inside of the underground line insertion hole 401, and is provided in plural numbers so as to be symmetrically disposed along the circumference of the underground line 1 for power distribution. An earth leakage detector 500 for detecting a leakage current of the underground wire 1;
An alarm unit 600 provided to notify an alarm signal when a short circuit is detected by the earth leakage detector 500; And
A controller for controlling the alarm unit 600 to generate an alarm signal in the alarm unit 600 when it is determined that the leakage current value exceeds a preset value based on a result detected by the ground fault detecting unit 500 ( 700);
Lt; / RTI >
The grab guide means 300 protrudes from the end contacting the underground pipeline adapter 200 toward the underground pipeline adapter 200, and a plurality of fixing protrusions symmetrically formed along the circumference of the underground line through hole 301. And 320
The underground pipe line adapter 200 is formed with a plurality of protrusion receiving grooves 210 in the inner circumferential surface corresponding to the fixing protrusion 320 along the circumference of the underground line receiving port 201,
The ground line grab portion 420 of the grab fastening means 400 has an outer diameter smaller than the inner diameter of the guide insertion hole 410 inside the guide insertion hole 410 and is in contact with the grab insertion guide part 310 first. A plurality of cutouts 421 in the fixed bracket for a stable connection of the underground cable for distribution, characterized in that formed along the circumference of the underground line insertion port 401 mutually symmetrical.

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