KR101180275B1 - Pipe Fittings For Underground Transmission Lines - Google Patents

Abstract

PURPOSE: A pipe connecting device for underground distribution is provided to safely protect an underground wire from flooding by using a floating body installed on a base plate and a flooding detection sensor installed on an external body. CONSTITUTION: A housing support(400) includes a guide rod. A flooding detection sensor(500) is installed on the bottom surface of a second main body. The flooding detection sensor outputs a flooding detection signal by a floating body(420). A controller(600) outputs an emergency signal by receiving the flooding detection signal from the flooding detection sensor. A transmitter(700) transmits the emergency signal to the outside.

Description

Pipe Fittings For Underground Transmission Lines

The present invention relates to underground pipeline connections.

In general, power lines are usually installed in the telephone poles or buried underground to supply power. As described above, the method of laying on the ground and the air has advantages in that the construction is easier and more economical than the method of laying in the ground when considering construction properties, required construction cost, and construction period. However, it is not only very difficult to install in places where buildings are very crowded, such as urban areas, but also after the installation, there is a problem of damaging the surrounding landscape.In places requiring high currents, it is impossible to install things such as steel towers in the city center. For this reason, they prefer to bury underground. On the other hand, in the case of underground embedding, most of the distribution lines adopt the method of simply connecting the interconnections with the wires inserted into the manholes. When a strong tensile force is generated between the distribution lines, such as the distribution lines are severely shaken from side to side due to natural disasters, there is a problem in that the connection portions of the distribution lines are easily shorted. In particular, when there is a lot of rain, such as during the rainy season, rainwater is easily introduced into the manhole even though the manhole is covered by the cover. There was a problem happening like accident.

The present invention has been made in order to solve the above problems, it is an object of the present invention to provide an underground pipeline connection that can safely protect the underground cable from flooding and interconnecting the pipeline and underground cable through the manhole. .

According to an aspect of the present invention,

Receiving portion opening to one side, the female member hole formed on one side and communicate with each other on the basis of the receiving portion, the male member supporting hole formed on the other side and communicated with each other based on the receiving portion, and formed on both ends and connected to the pipeline A non-conductive material housing comprising a first and second body parts having a branch and detachably coupled to each other via a coupling groove and a coupling protrusion:

One end is equipped with a wire fixing part to which the underground wire is press-fitted and fixed, and a mobile body having one side movably inserted into the receiving portion of the housing and the other side movably installed in the female member hole, and having a semi-circular groove, An arm member composed of a conductor inserted and fixed inwardly; It has a wire fixing part in which the underground cable is press-fitted and fixed at one end, and is rotatably fixed by the male supporting hole and inserted into the semicircular groove of the female member, and inserted into the inside of the rotating body so that the inner surface of the semicircular groove and Connections with male members consisting of conductors in electrical contact with each other:

An elastic body built into the housing to elastically move the moving body of the arm member in one direction:

A base plate having a guide rod installed on the bottom surface of the second body portion and fixed to the bottom surface of the manhole; The housing support, which is installed on the guide rod and can be lifted up and down by water, includes:

Immersion detection sensor is installed on the bottom of the second body portion and operated by a support body to output a submersion detection signal:

Control unit for receiving the flood signal from the flood sensor and output the emergency signal:

Receiving an emergency signal from the control unit characterized in that it comprises a transmitter for transmitting to the outside.

According to a preferred embodiment of the present invention, since it is possible to easily connect the pipelines and underground wires penetrating the inside of the manhole through one connection device, there is an advantage that the operation is very convenient.

In addition, there is an advantage that can safely protect the underground wire from the electric short circuit due to the flooding through the submerged sensor installed on the base plate and the floating body to be elevated on the base plate.

1 is a view showing the installation state of the underground pipeline connection port according to the present invention.
Figure 2 is a perspective view of the combined underground pipeline fittings in accordance with the present invention.
Figure 3 is an exploded perspective view of the pipeline connection for underground distribution according to the present invention.
Figure 4 is a cross-sectional view of the coupling of underground pipeline connections.
5 is a view showing a mutual relationship between the components in the underground pipe joints according to the present invention.
6 is a view showing the operation relationship of the underground pipeline connection connector according to the present invention.

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

In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 to 4, the underground connection pipe connector according to the present invention, the housing 100 and the connector 200, the elastic body 300, the housing support 400, the immersion sensor 500, the control unit ( 600) and the transmitter 700 to interconnect the pipeline 3 and the underground cable (L1, L2).

The housing 100 is a box of a known synthetic resin material (insulation) that is separated / coupled, and in the present embodiment, the first body part 110 and the second body part 120 are connected to each other and are electrically connected therein. It serves to protect the 200 from external forces and at the same time interconnect a pair of conduits 3 passing through the manhole 1.

In the center of the first body portion 110 is formed an accommodating portion 111 to be movable to the arm member 210 of the connector 200, the arm member 210 on one side based on the accommodating portion 111. Female member moving hole 112 is installed integrally to the wire fixing portion (211a) of the movable), the other side relative to the receiving portion 111, the male member 220 of the connector 200 can be rotated The male member supporting hole 113 fixed to be securely formed is integrally formed, and the flange portion 114 which is connected to each other in the longitudinal direction with a flange (not shown) of the conduit 3 is connected through a fastening means (not shown). ) Is integrally formed.

In addition, the first body portion 110 is formed integrally with the 'c' shaped coupling groove 115, where the coupling groove 115 is a coupling protrusion (the second body portion 120 to be described later) 125).

The second body portion 120 has a receiving portion 121 in which the arm member 210 of the connector 200 is movable in the center is formed, the arm member 210 on one side based on the receiving portion 121. Arm member moving hole 122 is installed integrally to the wire fixing portion (221a) of the movable), the other side relative to the receiving portion 121, the male member 220 of the connector 200 can be rotated The male member supporting hole 123 fixed to be securely formed is integrally formed, and flange parts 124 connected to each other in the longitudinal direction by a flange (not shown) of the conduit 3 are connected to each other via a fastening means (not shown). ) Is integrally formed.

In addition, the second body part 120 is integrally formed with a 'c' shaped coupling protrusion 125 that is mutually coupled with the coupling groove 115 of the first body part 110.

The connection port 200 is a pivot type connection port. In the present embodiment, the underground wires L1 and L2 that are press-fitted and fixed at both ends are composed of a female member 210 and a male member 220. It is the function of interconnecting.

The arm member 210 is composed of a moving body 211 and a conductor 212 is inserted into the receiving portions 111 and 121 of the housing 100 so as to be movable.

Here, the movable body 211 is a synthetic resin through which no electricity flows, and the conductor 212 is a metal through which electricity flows.

The movable body 211 forms a piston-like shape as a whole. At one end, the ground wire L1 may be press-fitted and fixed, and the wire fixing part 211a may be integrally formed. The wire L1 was not easily separated.

In addition, the underground wire L1 press-fitted into the wire fixing part 211a of the movable body 211 is secondarily fixed through the binding member T, that is, a known tie band, as shown in FIG. 4. .

Thus, once fixed underground wire (L1) can be easily prevented from being separated it becomes possible to more stable electrical connection.

The conductor 212 is electrically connected to the underground wire L1 built into the moving body 211 and press-fitted and fixed to the wire fixing part 211a.

Particularly, a semicircular groove 212a is formed at one end of the conductor 212, and the semicircular groove 212a is rotatably surface-contacted with the conductor 222 of the male member 220 to be described later.

For reference, the method of manufacturing the movable body 211 and the conductor 212 may be manufactured by insert molding or the movable body 211 and the conductor 212 may be combined with each other separately.

The male member 220 is composed of a rotating body 221 and a conductor 222, which is rotatably fixed by the male member supporting holes 113 and 123 of the housing 100 and is in electrical contact with the female member 210. It serves to electrically connect underground cables L1 and L2.

Here, the rotor 221 is a synthetic resin through which no electricity flows, and the conductor 222 is a metal through which electricity flows.

The rotating body 221 is formed in the form of a known lollipop as a whole, the wire fixing part 221a is integrally formed so that the underground wire (L2) is press-fitted at one end, forming a plurality of protrusions around The press-fitted underground wire L2 was not easily separated.

In addition, the underground wire L2 press-fitted into the wire fixing part 221a of the rotating body 221, as shown in FIG. 4, is secondarily fixed through the binding member T, that is, a known tie band. do.

Thus, once fixed underground wire (L2) can be easily prevented from being separated it becomes possible to more electrically connected electrically.

The conductor 222 is installed in the rotating body 221 and is electrically connected to the underground wire L2 press-fitted and fixed to the wire fixing part 221a.

In particular, one end of the conductor 222 has a hemispherical shape, and is inserted into the semi-circular groove 212b of the arm member 210 mentioned above, and is in surface contact with the rotatable surface.

The method of manufacturing the rotating body 221 and the conductor 222 may be manufactured by combining the separately manufactured or by insert molding the rotating body 221 and the conductor 222.

The elastic body 300 is a well-known coil spring, and in the present embodiment, is installed in the receiving portions 111 and 121 of the housing 100 to project the movable body 211 of the female member 210 in one direction toward the male member 220. Supporting function

The housing support 400 is composed of a base plate 410 and a support 420 to support the housing 100 installed into the manhole 1.

The base plate 410 is a plate having a predetermined thickness, the upper surface is formed with a plurality of guide rods 411 fixed to the bottom of the second body portion 120 integrally, in this embodiment manhole (1) It is fixed to the bottom surface of the second body portion 120 to support the spaced apart from the bottom surface of the manhole (1) by a predetermined interval.

The support body 420 is a plate having a predetermined thickness that floats easily in water. In this embodiment, the support body 420 is installed to be elevated on the guide rod 411 of the base plate 410. According to this embodiment, when rainwater flows into the manhole 1, the floating body 420 is floated by rainwater, and thus the immersion detection sensor 500 installed on the bottom of the second body part 120 is It is operated by the supporting body 420 to output the immersion detection signal to the control unit 600.

Subsequently, the immersion detection sensor 500, the controller 600, and the transmitter 700 will be described with reference to FIG. 5.

The immersion detection sensor 500 is a known switch, in the present embodiment is installed on the bottom surface of the second main body 120 and operated by a support body 420 supported by rainwater to control the immersion detection signal 600 It outputs with).

The control unit 600 receives the immersion detection signal from the immersion detection sensor 500 and outputs the immersion warning signal to the transmitter 700.

The transmitter 700 is installed to be exposed to the ground and transmits the flood warning signal transmitted from the controller 600 to the outside.

According to an embodiment of the present invention, when the rain falls a lot, such as during the rainy season, even if the manhole 1 is covered by the cover 2, rainwater is easily introduced into the inside of the manhole (1), thereby the manhole (1) Is slowly locked.

In this way, when the rainwater rises, the floating body 420 is floated by the rainwater, and when the floating body 420 rises and the immersion detection sensor 500 is pressed, the immersion detection sensor 500 is operated, thereby causing the flooding detection signal. The controller 600, which receives the submerged detection signal from the submerged sensor 500, outputs the submerged warning signal to the transmitter 700, and transmits the submerged warning signal from the controller 600. 700 transmits the danger signal to the central control room where the manager resides.

Therefore, the manager who resides in the central control room recognizes that the inside of the manhole 1 is in danger of flooding through the flood warning signal received, and can promptly take necessary measures. The wires L1 and L2 can be protected.

Looking at the operation of the present invention made of the configuration as described above are as follows.

As shown in FIG. 6, when the rain falls a lot, such as during the rainy season, even if the manhole 1 is covered by the cover 2, rainwater is easily introduced into the inside of the manhole 1, whereby the manhole 1 is excellent. Is slowly locked.

When the excellent rises as described above, the support 420 rises and falls along the guide rod 411 of the base plate 410 by the excellent, and when the support 420 rises, the submerged sensor 500 is pressed. As a result, the immersion detection sensor 500 is operated to output an immersion detection signal, and the controller 600 receiving the immersion detection signal from the immersion detection sensor 500 outputs an emergency signal and transmits it to the transmitter 700. The transmitter 700 receiving the emergency signal from the control unit 600 transmits the emergency signal to the central control room where the manager resides.

Therefore, the manager who resides in the central control room recognizes that the inside of the manhole 1 is at risk of flooding through the received flood warning signal, and the necessary measures, for example, using the pump, are applied to the inside of the manhole 1. By quickly discharging the flowing water to the outside, it is possible to safely protect the underground wires (L1, L2) from the electric short circuit caused by flooding.

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 present invention as defined by the appended claims.

1: manhole 2: cover 100: housing
110: first body portion 120: second body portion 200: connection port
210: arm member 220: male member 300: elastic body
400: housing support 410: base plate 420: support body
500: immersion detection sensor 600: control unit 700: transmitter

Claims (1)

Receiving parts (111,121) to be opened to one side, formed on one side with respect to the receiving parts (111,121) and the mutually communicated arm member moving holes (112,122), and formed on the other side based on the receiving parts (111,121) and communicated with each other The male member supporting holes 113 and 123, and flanges 114 and 124 formed at both ends and interconnected with the conduit 3, are detachably coupled to each other via the coupling groove 115 and the coupling protrusion 125. Nonconductive housing 100 composed of first and second body portions 110 and 120:
Equipped with a wire fixing portion (211a) in which the underground wire (L1) is press-fitted at one end, one side is movably inserted into the receiving portion (111, 121) of the housing 100 and the other side is moved to the arm member moving hole (112, 122) An arm member 210 having a movable body 211 which is installed to be possible and a semicircular groove 212a, and a conductor 212 inserted into and fixed to the inner side of the movable body 211; Once equipped with a wire fixing part 221a in which the underground wire L2 is press-fitted and fixed at one end, it is rotatably fixed by the male support holes 113 and 123 and inserted into the semicircular groove 212a of the arm member 210. A connection port 200 having a male member 220 composed of a whole 221 and a conductor 222 inserted into an inner side of the rotating body 221 to be in electrical contact with the inner surface of the semicircular groove 212a:
An elastic body 300 which is installed in the housing 100 and emits the moving body 211 of the arm member 210 in one direction:
A base plate 410 having a guide rod 411 installed on the bottom of the second body portion 120 and fixed to the bottom surface of the manhole 1; The housing support 400, which is installed on the guide rod 411 and is liftable by water, includes a support body 420 that is lifted and lifted by water.
The submerged sensor 500 is installed on the bottom of the second body portion 120 and is operated by the buoy 420 to output the submerged detection signal:
Control unit 600 for receiving an immersion detection signal from the immersion detection sensor 500 and outputs an emergency signal:
Underground pipeline connection connector characterized in that it comprises a transmitter for receiving the emergency signal from the control unit 600 and transmits to the outside.

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