KR101034191B1 - Manhole grounding structure - Google Patents

Abstract

PURPOSE: A manhole grounding structure is provided to replace a copper pipe terminal with a synthetic resin pipe which is an insulator, thereby drastically saving material costs. CONSTITUTION: The horizontal length of a manhole grounding structure is long and the vertical length of the manhole grounding structure is short. Coupling holes(215) are formed on the frontal/rear/right/left sides of the manhole grounding structure. A grounding fixing piece is fixed to the center of the manhole grounding structure. A metal mesh is protruded toward both upper parts of the grounding fixing piece.

Description

Manhole grounding structure

The present invention relates to a manhole grounding structure, and more particularly, by replacing a copper copper terminal made of metal on the lower wall of the manhole during the grounding work during manhole installation with a synthetic resin pipe which is an insulator, the ground lead wire is inserted from the outside of the manhole to the inside. This prevents safety accidents caused by the stride voltage around the manhole cover when an abnormal voltage flows into the ground lead wire, and at least four places from the concrete ground electrode to the ground point of the cable neutral line and ground equipment (earth transformer and ground breaker) in the manhole. By making the connection connection possible without the intermediate connection, it is possible to reduce the material cost of grounding work, improve the simplicity of construction and construction quality, and prevent material waste elements by standardizing the length of grounding lead wire according to the manhole size. Reduced ground construction costs and work by shortening the installation process of ground electrodes The present invention relates to a manhole grounding structure that can improve efficiency.

In general, when laying telecommunication cables and high-voltage power cables, in the case of aerial wiring on the ground, various safety accidents due to cutting due to various climatic conditions or contact with other objects are likely to occur. For example, in order to supply electricity stably and to improve the urban aesthetics, electric power facilities are gradually changing from processing distribution facilities to underground distribution facilities.

In the case of laying various cables in the ground like this, it is installed by wiring or connecting at the appropriate place. In such connection and separation place, a manhole is formed to secure a predetermined connection space, and the cable neutral line in the manhole is electrically connected with the earth. It is to be discharged to earth quickly when abnormal voltage flows in.

Ground equipment (ground transformers and ground breakers), which are essential for the construction of underground power distribution facilities, and power cable neutrals in the manholes are required to be grounded. It is desirable to maintain low ground resistance compared to overhead distribution systems.

Most of the grounding works of underground power distribution facilities are constructed when manholes are installed. Manholes are excavated about 6m wide, 4m long and 3.5m deep (for E type) on a part of the earth, and then install concrete ground electrodes, etc. Manholes will be installed.

Therefore, in order to perform grounding work at least 3.5m underground, there is a risk of burying accidents due to collapse, and there is a concern of difficulty in construction and subconstruction because work must be done in a narrow space next to the manhole.

1 is a cross-sectional view showing an embodiment of a conventional manhole grounding structure, Figure 2 is a cross-sectional view showing a coupling state of the copper lead terminal for ground lead wire to the wall fixing copper tube terminal of the conventional manhole lower wall, Figure 3 is a conventional concrete Connection diagram when two ground electrodes are installed.

As shown in Figures 1 to 3, the conventional grounding construction process when installing the manhole in one embodiment when the installation of two concrete grounding poles to excavate the manhole 10 to the ground on the road or other suitable place After forming an excavation hole for installation, the concrete ground electrode 20 is placed on the bottom surface of the excavation hole, and the ground lead wire connected to the ground fixing piece 23 of the concrete ground electrode 20 extends to the outside ( 21) and bare copper wires are connected to both ends of the ground lead wire 22, respectively.

Afterwards, the crimping copper tube terminal 24 is screwed out of the lower wall 11 using a tool such as a wrench to the wall fixing copper tube terminal 25 embedded in the lower wall 11 of the manhole 10. After the connection, cover the soil thereon and install the lower wall 11 of the manhole 10 as an upper portion of the concrete ground electrode 20.

The lower wall 11 of the manhole 10 is installed to the upper portion of the concrete ground electrode 20 and then the crimped copper pipe terminal screwed to the wall fixing copper tube terminal 25 of the lower wall 11 of the manhole 10 ( 24 is connected to the ground fixing piece 23 of the concrete ground electrode 20, and the other side of the ground lead wire 21 extending outwards is inserted together with the bare lead wire, and then crimped and connected to each other. Since the lead wire insertion hole for connection connection of the ground lead wire 21 formed in FIG. 9) is much larger than the diameter of the ground lead wire 21, a bare copper wire 35 mm2 is additionally inserted into the lead wire insertion hole and pressed.

As described above, the ground lead wire 21 is inserted into the crimping copper tube terminal 24 together with the bare lead copper wire, and then crimped, and then the upper wall 12 of the manhole 10 is disposed on the upper surface of the lower wall 11 of the manhole 10. The manhole 10 is installed so that the upper and lower walls 11 and 12 are integrally formed.

After the installation of the manhole 10 is completed, the crimping copper tube terminal 24 is screwed into the wall fixing copper tube terminal 25 embedded in the lower wall 11 using a tool such as a wrench. Connect.

Thereafter, the ground lead wire 26 connected to the cable neutral wire and the ground equipment ground terminal to the crimped copper pipe terminal 24 connected by screwing to the wall fixing copper pipe terminal 25 is connected in the same manner as the ground lead wire 21. Earthing work at the time of manhole 10 installation is completed by inserting with bare copper wire, crimping, connecting, and measuring ground resistance.

In this way, the copper tube terminal 25 for fixing the wall is embedded in the lower wall 11 of the manhole 10 during the grounding work at the time of installing the manhole 10, and the crimping copper tube terminal 24 is used with a tool such as a wrench. After screwing and connecting the buried wall fixing copper tube terminal 25, the ground lead wires 21 and 26 are inserted into the insertion hole of the crimping copper tube terminal 24 and pressed to connect the concrete ground electrode. It is the same as connecting the upper and lower walls 11 and 12 of the manhole 10. Since the manhole 10 made of concrete is viewed as a conductor in a wet state, an abnormal voltage may flow into the ground lead wire. In particular, the problem that there is a risk of a safety accident due to the stride voltage around the manhole cover 13 and the current grounding material is excessively generated grounding cost, and if necessary, ground lead wire (21) (26) Since the grounding work is cut by the predetermined length, the same Even if the grounding work is carried out in the manhole 10 of the size, the length of the ground lead wires 21 and 26 is different depending on the place, so that the work process is de-standardized and the cable in the manhole 10 from the concrete ground electrode 20. There was a problem in that the connection point of the ground lead wires 21 and 26 was unnecessarily generated up to the ground point of the ground wire of the neutral wire and the ground equipment.

The present invention was devised to solve the above problems, and replaces the conventional metal copper tube terminal installed in the lower wall of the manhole with a synthetic resin tube which is an insulator in the manhole from the multi-directional concrete grounding electrode installed below or to the side of the manhole A manhole that prevents safety accidents caused by the stride voltage around the manhole cover when an abnormal voltage flows into the ground lead wire by inserting and passing a ground lead wire from the outside of the manhole to the ground point of the cable neutral line and the ground terminal of the ground equipment. The purpose is to provide a grounding structure.

Another object of the present invention is to provide a manhole grounding structure that can significantly reduce the material cost by replacing the metal copper tube terminal installed in the lower wall of the manhole with a synthetic resin tube as an insulator.

Another object of the present invention is to simplify the connection connection of the ground lead wire from the multi-directional concrete ground electrode to the ground point in four directions without an intermediate connection, and according to the manhole size, the ground according to the parallel and parallel connection between the multi-directional concrete ground electrode and the multi-directional concrete ground electrode It is to provide a manhole grounding structure that can reduce the manhole grounding construction cost by enabling the standardization of lead wires.

It is still another object of the present invention to provide a manhole grounding structure capable of supplying high-quality electric power by preventing excessive occurrence of unnecessary connection points of the ground lead wires and secondary holes due to the narrow work place during the manhole grounding work.

Manhole grounding structure according to the present invention for solving the above problems, the concrete ground electrode and the ground lead wire is connected to the bottom surface of the excavation hole formed in the ground, the manhole after installing the manhole to the top or side of the concrete ground electrode In the manhole grounding structure which grounds the cable neutral wire and the grounding equipment ground terminal in the ground terminal wire, it becomes a flat plate of a certain width and thickness, and the length is formed long in the horizontal direction and the length is short in the vertical direction. Joining holes are formed on the front, rear, left, and right bent downwards, respectively, and the lower ends are pointed in a triangular shape and cross-crossed in a cross shape so that the center is fixed by welding and the center of the ground fixing piece A metal wire mesh positioned to protrude outwardly on both sides of the upper surface, and the ground fixing piece and the metal wire mesh are embedded therein. The multi-directional concrete ground electrode is formed in the longitudinal direction having a predetermined thickness by the conductive concrete in a state in which the engaging hole portion formed in the ground fixing piece is exposed downward and seated on the bottom surface of the excavation hole for manhole installation, Lead wire terminals are bolted from the outside to the inside through a coupling hole formed in the ground fixing piece of the multi-directional concrete ground electrode fastened with a nut, and the lead wire terminals are connected to both ends, so that the multi-directional concrete ground electrode and the multi-directional concrete ground electrode The ground and lead wires, which are electrically connected and connected, are connected to one end of the parallel and ground lead wires, and the lead wire terminals are connected to the multi-directional concrete ground electrode, and the other end is electrically connected to the cable neutral wire in the manhole and the ground equipment ground terminal. And inclined to both side walls of the manhole lower wall The ground lead wire is connected to the multi-directional concrete ground electrode connected to the wall fixing synthetic resin pipe that is inserted into and passed through from the outside of the manhole lower wall, and the support cap coupling groove of the wall fixing synthetic resin pipe is pressed into the wall fixing It characterized in that it comprises a synthetic resin support cap for supporting and fixing the ground lead wire passed through the synthetic resin pipe for.

The metal ground fixing piece is characterized by being formed of a stainless steel with high corrosion resistance.

The lead wire terminal and the connection connection portion between the serial / parallel ground lead wire and the ground lead wire may be finished with a heat shrink tube to prevent moisture penetration.

The wall fixing synthetic resin pipe is characterized in that it is buried at an angle of 20 ° to prevent water from entering the manhole in the lower wall of the manhole.

The ground lead wire insertion hole of the synthetic resin support cap is characterized in that the ground lead wire is fastened to be fixed by tightening and at the same time formed in the form of the upper and lower light in order to prevent water from flowing into the manhole.

According to the manhole grounding structure according to the present invention, a wall which is embedded with a conductor for connection of a ground lead wire connected to a cable neutral wire in a manhole and a ground point of a grounding device ground terminal to a conventional manhole lower wall from a multidirectional concrete grounding electrode outside the manhole By replacing the fixed copper pipe terminal with synthetic resin pipe for fixing the wall, and inserting the ground lead wire, it is insulated from the manhole even if abnormal voltage flows into the ground lead wire, so it is possible to prevent safety accidents by the stride voltage around the manhole cover. Even if multiple multi-directional concrete grounding electrodes are installed, the connection between the multi-directional concrete grounding electrode and the multi-directional concrete grounding electrode can be easily connected in 4 directions by screwing the lead wire terminal connected to the serial and parallel grounding lead wires and the grounding lead wire without any intermediate connection. This makes it possible to It is possible to supply high-quality electric power by damaging it, and it is possible to standardize the serial and parallel ground lead wires and ground lead wires according to the manhole size, which can prevent material waste elements and greatly shorten the installation process of the ground electrode by the multi-directional concrete ground electrode. This can be a very useful effect to reduce the earth construction cost and improve the work efficiency.

1 is a cross-sectional view showing an embodiment of a conventional manhole ground structure,
Figure 2 is a cross-sectional view showing a coupling state of the ground lead wire copper tube terminal to the wall fixing copper tube terminal of the conventional manhole lower wall;
3 is a connection diagram when installing two conventional concrete grounding electrodes,
4 is a cross-sectional view showing an embodiment of a manhole grounding structure according to the present invention;
5 is a perspective view of a multi-directional concrete ground electrode according to the present invention,
6 is a longitudinal sectional view of FIG. 5;
7 is a side elevational view of FIG. 5;
8 is an excerpted longitudinal sectional view showing a coupling state of a multi-directional concrete ground electrode and a lead wire terminal according to the present invention;
9 is an excerpted longitudinal sectional view showing the installation state of the ground lead wire in the synthetic resin pipe for fixing the wall of the lower manhole wall according to the present invention;
10 is a plan view schematically illustrating a connection configuration when installing two multi-directional concrete ground electrodes according to one embodiment of the present invention;
11 is a plan view schematically illustrating a connection configuration when installing four multi-directional concrete ground electrodes according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the manhole grounding structure of the present invention.

First, the embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below, and the same members in the drawings are denoted by the same reference numerals. It should be noted that detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Figure 4 is a cross-sectional view showing an embodiment of a manhole grounding structure according to the present invention, Figure 5 is a perspective view of a multi-directional concrete grounding electrode according to the invention, Figure 6 is a longitudinal cross-sectional view of Figure 5, Figure 7 is a side view of Figure 5 8 is a longitudinal sectional view showing the coupling state of the multi-directional concrete ground electrode and the lead wire terminal according to the present invention, Figure 9 is a ground lead wire installed in the synthetic resin pipe for fixing the wall of the manhole lower wall according to the present invention Figure 10 is a longitudinal sectional view showing the state, Figure 10 is a plan view schematically showing a connection configuration when installing two multi-directional concrete ground electrode according to an embodiment of the present invention, Figure 11 according to another embodiment of the present invention This is a plan view schematically showing the connection structure when installing four multi-directional concrete ground electrodes.

Manhole grounding structure according to the present invention, the concrete ground electrode and the ground lead wire is connected to the bottom surface of the excavation hole formed in the ground, the manhole to the top or side of the concrete ground electrode, and then the cable neutral wire and ground equipment ground terminal in the manhole In a manhole grounding structure that is grounded with a ground lead wire,

A flat plate having a constant width and thickness is formed to have a long length in the horizontal direction and a short length in the vertical direction, and the coupling holes 215 are formed at the front, rear, left, and right sides that are bent downward in a "c" shape. A lower ground portion formed in a triangular shape, each of which is crossed in a cross shape and overlapped with a metal ground fixing piece 211 and 212 having a center fixed by welding;

A metal wire mesh 213 positioned to protrude outwardly to both sides of the upper surface fixing piece 211;

The ground fixing pieces 211 and 212 and the metal wire mesh 213 are embedded therein, and a portion of the coupling hole 215 formed in the ground fixing pieces 211 and 212 is exposed downward to the conductive concrete. And a multi-directional concrete ground electrode 200 formed in a rectangular shape having a predetermined thickness and seated on the bottom surface of the excavation hole for installing the manhole 10,

The lead wire terminal 230 is fastened by a nut 235 by inserting the bolt part 232 from the outside to the inside through the coupling hole 215 formed in the ground fixing pieces 211 and 212 of the multi-directional concrete ground electrode 200. )Wow,

The lead wire terminal 230 is connected to both ends thereof, and the parallel / parallel ground lead wire 220 and the lead wire terminal 230 are electrically connected between the multi-directional concrete ground electrode 200 and the multi-directional concrete ground electrode 200. A ground lead wire 250 connected to one end and connected to the multi-directional concrete ground electrode 200, and the other end electrically connected to a cable neutral wire and a grounding device ground terminal in a manhole;

The ground lead wire 250 which is embedded obliquely on both side walls of the lower wall 110 of the manhole 100 and connected to the multi-directional concrete ground electrode 200 is inserted into the interior from the outside of the lower wall 110 of the manhole 100. And synthetic resin pipe for fixing the wall 300,

And a synthetic resin support cap 400 press-fitted into the support cap coupling recess 320 of the wall fixing synthetic resin pipe 300 to support and fix the ground lead wire 250 passed through the wall fixing synthetic resin pipe 300. It is configured by.

Preferably, the metal ground fixing pieces 211 and 212 are formed of stainless steel having high corrosion resistance, and the coupling hole 215 is positioned in four directions, namely, front, rear, left and right sides. The parallel / parallel connection between the multi-directional concrete ground electrode 200 or the plurality of multi-directional concrete ground electrodes 200 becomes possible in any direction.

The metal wire mesh 213 is embedded in the multi-directional concrete ground electrode 200 to reinforce the strength of the multi-directional concrete ground electrode 200, the concrete portion when carrying or installing the multi-directional concrete ground electrode 200 This is to prevent the breakage.

Forming of the multi-directional concrete ground electrode 200 is the same as the method of manufacturing a general concrete molding, the material of the multi-directional concrete ground electrode 200 is made of conductive concrete mixed with water to form, the ground fixing piece 211 The ground fixing pieces 211 and 212 are embedded inside the coupling hole 215 formed in the bottom portion 212 to be molded into a molding apparatus (not shown).

Preferably, the size of the multi-directional concrete ground electrode 200 is about 800 mm wide, 180 mm long, and 30 mm high, and the ground fixing pieces 211 and 212 are exposed to the lower portion of the coupling hole 215. The cross is arranged in a cross shape from the bottom of the multi-directional concrete ground electrode 200 is formed in the same height so that the four are simultaneously embedded in the ground.

The conductive concrete used as a grounding resistance reducing material is to be used on the market, and the multi-directional concrete grounding electrode 200 to absorb and discharge moisture to maintain a constant resistance value so that the secular variation of the grounding resistance is reduced In order to achieve this, it is most preferable to use a product containing finely processed mineral water absorbent and a product containing carbon fiber.

The lead wire terminal 230 and the connection line of the parallel / parallel ground lead wire 220 and the ground lead wire 250 in which the copper wire is crimped and fixed are closed with a heat shrink tube 240 to prevent copper wire from being corroded due to moisture infiltration. Processing.

In the installation of the heat shrink tube 240, the heat shrink tube 240 cut into a predetermined length is inserted in the parallel / parallel ground lead wire 220 and the ground lead wire 250, and the parallel and parallel ground lead wire 220 is disposed. And exposing the copper wire part by peeling the end of the ground lead wire 250, and then inserting the copper wire part into an insertion groove formed in the lead wire terminal 230, and pressing the upper end of the lead wire terminal 230 from the outside. Press and fix it, and then cover about half of the heat shrink tube 240 inserted in the serial / parallel ground lead wire 220 and the ground lead wire 250 to the outer circumferential surface of the lead wire terminal 230, and then The outer surface of the heat shrink tube 240 is heated at a constant distance so that the heat shrink tube 240 is connected to the outer circumferential surface of the serial / parallel ground lead wire 220 and the ground lead wire 250 and the lead wire terminal 230. At the same time it is contracted on the outer circumference That he will.

The lead / parallel ground lead wire 220 connected to both ends of the lead wire terminal 230 is used for electrical connection between the multi-directional concrete ground electrodes 200, and the lead wire terminal 230 is connected to only one end of the ground. The lead wire 250 is connected to the multi-directional concrete ground electrode 200, and the other end of the ground lead wire 250 to which the lead wire terminal 230 is not connected is connected to the cable neutral wire and the ground apparatus in the manhole 100 (not shown). Ground transformer and ground breaker) are connected to the ground terminal. Therefore, when the grounding work is performed when the manhole 100 having the same size is installed, the lengths of the serial / parallel ground lead wire 220 and the ground lead wire 250 are uniformly standardized (for example, the parallel / parallel ground lead wire 220 is 1500 mm to 4000 mm, the ground lead wire 250 is 1500 mm to 3000 mm) so that the connection connection of the multi-directional concrete ground electrode 200 can be performed without an intermediate connection. In this case, the connection between the lead wire terminal 230, the parallel and parallel ground lead wire 220 and the ground lead wire 250 is made before the manhole 100 grounding construction to be used, the multi-directional concrete ground electrode 200 The installation process can be greatly shortened.

In the coupling hole 215 of the ground fixing pieces 211 and 212, the bolt part 232 of the lead wire terminal 230 connected to the serial / parallel ground lead wire 220 and the ground lead wire 250 is connected to the ground fixing piece. Inserted from the outside of the (211) (212) to be fastened and fixed with a nut (235). At this time, the nut 235 is fastened to the bolt part 232 in a state where the cutting surface 231 of the lead wire terminal 230 is fixed with a tool such as a spanner, thereby connecting the serial / parallel ground lead wire 220 and the ground. The lead wire terminal 230 is fixed to the ground fixing pieces 211 and 212 while being prevented from being twisted due to the rotation of the lead wire 250. At this time, the cutting surface 231 of the lead wire terminal 230 is preferably formed of any one of both sides, four sides, six sides.

The wall fixing synthetic resin pipe 300 is embedded inclined on both side walls of the lower side of the manhole lower wall 110 in order to prevent the moisture from outside the manhole 100 penetrates into the manhole 100. The wall fixing synthetic resin pipe 300 is buried at the time of forming the lower wall 110 of the manhole 100, and is molded into a polyvinyl chloride (PVC, polyvinyl chloride) which is excellent in insulation, and is buried at an angle of 20 °. Most preferred.

The ground lead wire insertion hole 310 of the wall fixing synthetic resin pipe 300 is formed to be somewhat larger than the diameter of the ground lead wire 250, the support cap coupling groove 320 of the upper is formed in the ordinary light narrowing form, which is a synthetic resin This is to facilitate the press-fitting when the support cap 400 is coupled.

The synthetic resin support cap 400 is a ground lead wire 250 connected to the multi-directional concrete ground electrode 200 is drawn into the manhole 100 through the ground lead wire insertion hole 310 of the wall fixing synthetic resin pipe 300 After being inserted into the ground lead wire 250 to be fixed by pressing the support cap coupling groove 320 of the synthetic resin pipe 300 for fixing the wall. At this time, the outer circumferential surface of the ground lead wire 250 is firmly adhered by the ground lead wire insertion hole 410 formed through the synthetic resin support cap 400 in the form of upper and lower beams so that the ground lead wire 250 is supported and fixed. Moisture outside the manhole 100 is prevented from flowing into the manhole 100.

Hereinafter, the grounding process of the manhole grounding structure according to the present invention will be described.

First, the excavation hole for installing the manhole 100 is formed by digging in the ground of the road or other suitable place, and further digging a depth of about 25 cm to facilitate the multi-directional concrete ground electrode 200 is embedded. .

Then, the multi-directional concrete ground electrode 200 is seated on the bottom surface of the excavation hole to be located on the bottom surface of the lower wall 110 of the manhole 100. At this time, when installing one of the multi-directional concrete grounding electrode 200 is connected to the multi-directional concrete grounding electrode 200 using a grounding lead wire 250 is connected to the lead wire terminal 230 at one end, Figure 10 and 11 When installing two or more multi-directional concrete ground electrode (200) as shown in the multi-directional concrete ground electrode (200) in series and in parallel by using a series and parallel ground lead wire 220 is connected to both ends of the lead wire terminal 230 ) Is connected and connected to the multi-directional concrete ground electrode 200 by using the ground lead wire 250 connected to the lead wire terminal 230 is connected to one end. At this time, when connecting the connection between the multi-directional concrete ground electrode 200, the lead wire terminal connected to the parallel and parallel ground lead wire 220 connected to both ends thereof by the coupling hole 215 of the ground fixing piece 211, 212 at the shortest distance Screwing and connecting the nut 230 with the nut 230 may reduce the consumption of the length of the serial and parallel ground lead wires 220.

In addition, the multi-directional concrete ground electrode 200 seated on the bottom surface of the excavation hole penetrates the soft soil by the lower portion of the ground fixing piece 211, 212 is formed in a triangular shape to the bottom of the bottom surface by its own weight At the same time deeply inserted, flow does not occur and helps to quickly flow to the ground when the abnormal voltage is introduced.

When the multi-directional concrete ground electrode 200 is seated on the bottom surface of the excavation hole as described above to cover the soil of about 20 cm on the upper surface of the multi-directional concrete ground electrode 200 in order to maximize the contact area with the soil.

Then, the other end of the ground lead wire 250 having no lead wire terminal is inserted from the outside of the lower wall 110 through the ground lead wire insertion hole 310 of the wall fixing synthetic resin pipe 300 to the inside of the lower wall 110. After drawing out, the lower wall 110 of the manhole 100 is installed above the multi-directional concrete ground electrode 200.

After installing the lower wall 110 of the manhole 100 to the upper side or the side of the multi-directional concrete ground electrode 200 and then apply a one-component adhesive to the upper surface of the lower wall 110 of the manhole 100 and then the manhole ( The manhole 100 is installed so that the upper and lower walls 110 and 120 are integrally formed by mounting the upper wall 120 of the upper wall 120.

When the manhole 100 is installed above the multi-directional concrete ground electrode 200 as described above, the multi-directional concrete ground electrode 200 can be reliably maintained in contact with the earth by the weight of the manhole 100.

After the manhole 100 is installed, the synthetic resin support cap 400 is inserted through the ground lead wire insertion hole 410 into the ground lead wire 250 drawn from the inside of the manhole 100 to the inside of the lower wall 110. It is pressed into the support cap coupling groove 320 of the wall fixing synthetic resin pipe 300 embedded in (110). In this case, the synthetic resin support cap 400 may be fitted to the ground lead wire 250 after the lower wall 110 of the manhole 100 is installed above the multi-directional concrete ground electrode 200.

Thereafter, the ground lead wire 250 is connected to the cable neutral wire and the grounding device ground terminal in the manhole 100, and the grounding work is completed when the manhole 100 is installed by measuring the ground resistance.

Therefore, the manhole grounding structure according to the present invention naturally expands the contact area with the soil as the lead wire terminal 230 and the nut 235 having the anti-corrosion treatment structure together with the multi-directional concrete grounding electrode 200 are embedded in the soil at the same time. Therefore, it is possible to greatly reduce the grounding resistance, thereby obtaining excellent grounding effects even if the size is smaller than the size of the conventional concrete grounding electrode 20, and a plurality of grounding fixing pieces exposed to the lower side of the multi-directional concrete grounding electrode 200 As the (211) 212 is buried in the soil at the same time, it is possible to not only disperse the abnormal current quickly, but also semi-permanent life by minimizing the secular variation of the ground resistor.

In addition, the ground lead wire 250 connected to the multi-directional concrete ground electrode 200 is inserted into the inside of the manhole 100 from the outside of the manhole 100 through the wall fixing synthetic resin pipe 300 is an insulator, The manhole cover 130 is insulated from the manhole 100 even when an abnormal voltage flows into the ground lead wire 250 connected to the cable neutral wire and the ground equipment (ground transformer and ground switch) ground terminal (not shown) in the manhole 100. It is possible to prevent safety accidents caused by the surrounding stride voltage.

As described above with reference to the accompanying drawings for the preferred embodiment of the present invention, the present invention is not limited by the above-described specific embodiments, those of ordinary skill in the art to which the present invention belongs It is apparent that various modifications and changes can be made without departing from the spirit and scope of the appended claims.

100: manhole 110: lower wall
120: upper wall 130: manhole cover
200: multi-directional concrete ground electrode 211, 212: ground fixing piece
213: metal wire mesh 215: bonding hole
220: serial / parallel ground lead wire 230: lead wire terminal
231: cutting surface 232: bolt portion
235 nut 240 heat shrink tube
250: ground lead wire 300: wall fixing synthetic resin pipe
310, 410: ground lead wire insertion hole 320: support cap coupling groove
400: synthetic resin support cap

Claims (5)

In the manhole grounding structure which connects the concrete ground electrode and the ground lead wire to the bottom surface of the excavation hole formed in the ground, inserts the manhole into the upper part of the concrete ground electrode, and grounds the cable neutral wire in the manhole and the ground terminal ground terminal with the ground lead wire. ,
A flat plate having a constant width and thickness is formed to have a long length in the horizontal direction and a short length in the vertical direction, and the coupling holes 215 are formed at the front, rear, left, and right sides that are bent downward in a "c" shape. A lower ground portion formed in a triangular shape, each of which is crossed in a cross shape and overlapped with a metal ground fixing piece 211 and 212 having a center fixed by welding;
A metal wire mesh 213 positioned to protrude outwardly to both sides of the upper surface fixing piece 211;
The ground fixing pieces 211 and 212 and the metal wire mesh 213 are embedded therein, and a portion of the coupling hole 215 formed in the ground fixing pieces 211 and 212 is exposed downward to the conductive concrete. And a multi-directional concrete ground electrode 200 formed in a rectangular shape having a predetermined thickness and seated on the bottom surface of the excavation hole for installing the manhole 10,
The lead wire terminal 230 is fastened by a nut 235 by inserting the bolt part 232 from the outside to the inside through the coupling hole 215 formed in the ground fixing pieces 211 and 212 of the multi-directional concrete ground electrode 200. )Wow,
The lead wire terminal 230 is connected to both ends thereof, and the parallel / parallel ground lead wire 220 and the lead wire terminal 230 are electrically connected between the multi-directional concrete ground electrode 200 and the multi-directional concrete ground electrode 200. A ground lead wire 250 connected to one end and connected to the multi-directional concrete ground electrode 200, and the other end electrically connected to a cable neutral wire and a grounding device ground terminal in a manhole;
The ground lead wire 250 which is embedded obliquely on both side walls of the lower wall 110 of the manhole 100 and connected to the multi-directional concrete ground electrode 200 is inserted into the interior from the outside of the lower wall 110 of the manhole 100. And synthetic resin pipe for fixing the wall 300,
And a synthetic resin support cap 400 press-fitted into the support cap coupling recess 320 of the wall fixing synthetic resin pipe 300 to support and fix the ground lead wire 250 passed through the wall fixing synthetic resin pipe 300. Manhole grounding structure, characterized in that configured to. The method of claim 1,
The metal ground fixing piece (211) (212) is a manhole grounding structure, characterized in that formed of a strong corrosion resistance stainless steel material. The method of claim 1;
The lead wire terminal 230 and the connection connection portion between the parallel and parallel ground lead wire 220 and the ground lead wire 250 is a manhole ground structure, characterized in that the finish treatment with a heat shrink tube (240) to prevent moisture penetration. The method of claim 1,
The wall fixing synthetic resin pipe 300 is a manhole ground structure, characterized in that the manhole 100 is inclined at an angle of 20 ° to prevent water from flowing into the manhole 100 in the lower wall 110 The method of claim 1,
The ground lead wire insertion hole 410 of the synthetic resin support cap 400 is formed to penetrate through the upper and lower beams in order to prevent the water from flowing into the manhole 100 while simultaneously supporting and fixing the ground lead wire 250. Manhole grounding structure, characterized in that.

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