KR100872977B1 - Construct method of support of distributor box - Google Patents

Abstract

A method for implementing a foundation structure of a high voltage distribution box is provided to secure a footpath between the distribution box and a boundary wall of a road. A cutting sheet is comprised by cutting a width foundation structure(210) and a length foundation structure(220) to correspond to the bottom of a distribution box(100). A compensation foundation structure(400) is placed on the cutting sheet to support the distribution box. A reinforcement placing plate(500) is fixed in the remaining part to place the compensation foundation structure. An upper part of the reinforcement placing plate is mortar-molded and a block(40) is fixed on the mortar molded surface(50). A pedestrian space(20) is secured between a distribution box and a boundary wall(10) of a road.

Description

Constructing method of foundation of high voltage distribution box {Construct method of support of distributor box}

The present invention relates to a method of constructing a foundation of a high voltage distribution box for constructing a foundation by the dimensions of a new distribution box when replacing a distribution box installed around a road, and more particularly, an underground distribution line buried around a road. The underground line of the furnace is connected to the transformer on the ground through the manhole, and the transformer is mounted in the distribution box, and the distribution box is mounted on the concrete mortar-shaped foundation from the foundation floor of the manhole around the road. When the distribution box to be replaced has a smaller dimension than the existing mortar-shaped foundation base, the foundation base of the remaining portion when the distribution box is placed can be cut to a certain depth, and then the distribution box can be placed over the cut sheet. After installing the compensating base, and the remaining space of the compensating base to be fixed by mounting the reinforcement mounting plate, By allowing molding to be finished on the reinforcement mounting plate and finishing on the sidewalk block, etc., the size of the foundation can be directly changed to correspond to the smaller distribution box, and furthermore, between the distribution box and the boundary wall of the road. The present invention relates to a method for constructing a foundation of a high voltage distribution box that can be used as a sidewalk by widening the space of a space.

In general, power distribution supplied from a substation to a consumer is supplied to the consumer through high-voltage distribution lines of overhead lines and underground lines. The underground line uses underground distribution lines buried underground, and the underground distribution lines are installed in the vicinity of the road, and the underground lines of the underground distribution line and the ground transformers are connected through a manhole.

The manhole is connected to the transformer through the transformer, the transformer is installed in the distribution box. That is, the transformer connected to the underground line of the underground distribution line is fixed to the bracket in the distribution box, and the distribution box is often installed mainly on the side of the road.

That is, the underground line is connected to the ground transformer installed on the ground side of the road so that power is supplied, and the switch is installed in the ground transformer for opening and closing of the power supply.

In order to protect the switchgear of the ground transformer and to prevent safety accidents from high voltage, a distribution box is essential.

In order to install the distribution box on the ground of the roadside, the foundation floor is formed as concrete mortar in the manhole through which the underground distribution line passes, and then the foundation of the distribution box is formed again on the concrete mortar. In other words, in order to mold the foundation into concrete mortar, formwork is installed in accordance with the size or size of the foundation first, and then the concrete mortar is formed after the reinforcement or the wire mesh is embedded therein.

Since the distribution box is exposed to the air at the roadside, if the old time elapses after installation, the distribution box is replaced together with accessories such as a switch of a transformer.

Moreover, as the overall size is reduced and the size of the distribution box is also reduced by the development of accessories such as a switchgear of the transformer, the foundation floor is already formed as concrete mortar in the manhole, and then the distribution box is again on the concrete mortar. Work on refilling the space of the foundation due to the difference in the dimensions of the foundation and the smaller distribution box is to be carried out.

Usually, in the foundation of concrete mortar where the existing distribution box is mounted and fixed, the distribution box is small to crush the unnecessary mortar part, and then the concrete mortar is formed by the dimensions of the foundation of the new distribution box to the crushed mortar part. At the same time, the floor space, which is increased as the size of the base is smaller, also incorporates reinforcing bars or wire meshes to form concrete mortars.

Reinforce the wire or wire mesh to form a new foundation on the existing foundation floor and also on the existing foundation as the concrete mortar is formed on the base of the new distribution box again on the foundation floor where the existing distribution box is mounted and fixed as above. Forming work to form and also the curing time of the mortar is long, etc., there is a problem that the efficiency of the replacement work of the distribution box is reduced and also the air is long.

The present invention is to solve the above problems, the cutting sheet is formed by cutting the small horizontal and vertical foundation in accordance with the bottom surface of the newly manufactured distribution box in the concrete mortar-shaped foundation on the base of the manhole In this case, the cutting sheet is intended to cut with a dimension that can be fixed to the compensation base that can support the distribution box. In another aspect, the present invention is to ensure that the reinforcement mounting plate is placed in the remaining space of the base on which the compensation base is placed, side by side with the base on which the compensation base is placed, the sidewalk block on the mortar forming and also mortar-molded surface on the reinforcement mounting plate By fixing it, it aims to be able to secure the space of the sidewalk between the distribution box and the boundary wall of the road.

The present invention in fixing the distribution box mounted on the concrete mortar-shaped foundation base on the base of the manhole on the road side, cutting sheet by cutting the horizontal transverse and vertical foundation in accordance with the bottom surface of the newly produced distribution box After constructing, to put the compensation base on the cutting sheet to support the power distribution box, and then the reinforcement mounting plate can be fixed to the remaining space on which the compensation base is mounted, and then mortar-molded on the reinforcement mounting plate and the It is a basic feature to secure the space of the sidewalk between the distribution box and the boundary wall of the roadside by fixing the sidewalk block on the mortar-molded surface.

In addition, the cutting sheet for cutting the transverse and vertical foundation of the present invention, the compensation base is cut into the dimensions of the height and width that can be inserted below the power distribution box.

In addition, the compensating base of the present invention is a granite block having a square cross section.

In addition, the reinforcement angles are fixed to the bottom surface of the compensating base and the reinforcement mounting plate fixed across the cutting sheet of the present invention.

As described above, the present invention allows the underground line of the underground distribution line buried around the road to be connected to the ground transformer through the manhole, and the transformer is mounted in the distribution box, and the distribution box is located from the base of the manhole around the road. In the case where the new distribution box is smaller in size than the existing mortar-formed foundation, in the fixed mortar-formed foundation, the foundation base of the part remaining when the distribution box is placed is cut to a certain depth. After that, a compensation base for installing the distribution box over the cut sheet is installed, and the remaining space of the compensation base is fixed to the reinforcement mounting plate, and then the molding treatment on the reinforcement mounting plate and the press on it. By finishing with blocks, etc., the size of the foundation can be directly changed to correspond to the smaller distribution box. It may be used, and further widen the space between the boundary wall of a distribution box and the road can be used as a press.

Detailed examples of the present invention will be described below with reference to the accompanying drawings.

1 is a perspective view of a distribution box fixed by a method of constructing the base of the high voltage distribution box of the present invention, and FIG. 2 is a longitudinal cross-sectional view of the distribution box mounted on the base of the existing roadside and fixed. 4 is a vertical cross-sectional view of a distribution box fixed by the method of constructing the base of the high voltage distribution box of the present invention, and FIGS. 4A, B, C, D, E, F, G, and H are the construction of the base of the high voltage distribution box of the present invention. 5A, B, C, and D are cross sectional views of an embodiment of a method for constructing the foundation of a high voltage distribution box of the present invention, and FIGS. 6A, B are a reinforcing frame of the present invention. It is a perspective view of the formed example.

1 and 3, a pedestrian space 20 for pedestrians to walk between the distribution box 100 and the boundary wall 10 installed on the roadside by the method of constructing the foundation of the high voltage distribution box of the present invention. ) Can be secured widely.

FIG. 2 illustrates a concrete mortar-shaped foundation frame 200 on which the existing high voltage distribution box 100 is connected to an underground distribution line (not shown) where underground road lines (not shown) are buried. In this example, the distribution box 100 is installed, and the inside of the distribution box 100 is a sidewalk block 40 is used as a sidewalk, and is also installed at a predetermined distance from the boundary wall 10 of the sidewalk. It is constructed as a small space to be used as. A high voltage transformer switch (not shown) is mounted in the distribution box 100.

Since the power distribution box 100 is exposed to the air at the roadside, if a long time passes after installation, the power distribution box 100 is also replaced with accessories such as a switch of a transformer.

 By the way, the development of accessories such as the switchgear of the transformer is reduced in size as well as the size of the distribution box.

The present invention is characterized in that the base plate is compensated for by the dimensions of the distribution box 100 as it is without newly forming the existing foundation base in response to the newly developed small distribution box 100. .

The method for constructing the foundation of the high voltage distribution box of the present invention corresponds to the bottom surface of the newly manufactured distribution box 100 in mounting and fixing the distribution box on a concrete mortar-shaped foundation on the roadside. After cutting the reduced horizontal base plate 210 and the vertical base plate 220 to configure the cutting sheet 300, and put the compensation base plate 400 on the cutting sheet 300 to support the distribution box 100 Then, the reinforcement mounting plate 500 may be fixed to the remaining space on which the compensation base 400 is mounted, and then mortar-molded on the reinforcement mounting plate 500 and on the mortar-molded surface 50. The sidewalk block 40 is mounted and fixed to secure a walking space 20 between the distribution box 100 and the boundary wall 10 of the roadside.

The compensating base 400 and the reinforcement mounting plate 500 are held by the reinforcing angles 600, 700, 800, 900 and anchor bolts 60 in the transverse base 210 and the longitudinal base 220.

Example 1

As shown in FIG. 2, the existing high voltage distribution box 100 is provided on the distribution box 100 on a concrete mortar-shaped foundation base 200 on the foundation floor of the manhole 30 on the roadside.

As the width of the newly manufactured distribution box 100 becomes smaller, it cannot directly rest on the concrete mortar-shaped foundation 200.

4A and 5A, the transversal invitation 210 and the longitudinal invitation 220 that are smaller corresponding to the bottom surface of the newly manufactured distribution box 100 are cut by a cutting saw or a grinding machine. The cutting sheet 300 is constructed by cutting using a mechanism.

The cutting sheet 300 is a cutting depth, the compensation base plate 400 and the reinforcement mounting plate 500 to be described later on the upper surface of the cutting sheet 300, the mortar-molded surface on the reinforcement mounting plate 500 ( 50 is formed, and the sidewalk block 40 is mounted on the mortar-shaped surface 50 and is cut into dimensions that can be fixed and accommodated.

In addition, the anchor bolt 60 is put on both ends of the position where the reinforcement angle 600 is installed so that the compensating base 400 is placed on the cutting sheet 300 of the distribution box 100 so as to be maintained without shaking.

4B and 5B, the vertical foundation 220 includes a “b” shaped reinforcement angle 600 which can wrap and hold the edge of the compensating foundation 400 on the cutting sheet 300. Across the field.

In addition, as shown in Figures 4c and 5c, mounted on the reinforcement angle 600 of the cutting sheet 300 across the compensating base 400 of the substantially rectangular granite material. At this time, in the state in which the distribution box 100 is slightly lifted up, the compensation base 400 can support the distribution box 100, and the support width of the distribution box 100 supported by the compensation base 400 is conventional. The width of the same size as that of the base 200 is matched so that there is no fluctuation in the apparent width of the base which maintains the four sides of the distribution box 100.

Further, as shown in FIGS. 4D and 5D, the “b” shaped reinforcement angle 700 is placed on the cutting sheet 300 so as to keep the compensating base 400 wrapped around an edge. Across the field. Then, the anchor bolt 60 is put on the vertical support bed 220 at both ends of the reinforcement angle 700 so that the reinforcement angle 700 can be maintained without flow.

Next, the remaining space a installed in the cutting sheet 300 of the manhole 30 is compensated by mounting the reinforcement mounting plate 500 to be described later.

As shown in 4e, the "b" shaped reinforcement angle 800 is mounted across the longitudinal bases 220 in contact with the "b" shaped reinforcement angle 700.

In addition, as shown in FIG. 4F, one side of the flat reinforcement mounting plate 500 is placed on the “b” shaped reinforcement angle 800. The other side of the reinforcement mounting plate 500 is supported by the "b" shaped reinforcement angle 900 as shown in Figure 4g.

Then, as shown in FIG. 4h, the anchor bolt 60 is driven into the transverse induction zones 210 at both ends of the reinforcement angle 900 so as to be maintained without shaking.

As a result, the remaining space a on which the compensating base 400 is mounted is closed by the reinforcement mounting plate 500.

And, as shown in Figure 3 mortar-molded on the reinforcement mounting plate 500 and the sidewalk block 40 is fixed on the mortar-shaped surface 50, the boundary wall between the distribution box 100 and the roadside It becomes possible to secure the walking space 20 between (10).

Example 2

Compensation base 400 in installing the compensating base 400 and the reinforcement mounting plate 500 in the cutting sheet 300 cut the transverse base 210 and the longitudinal base 220 of the manhole 30 of the present invention In the formation of the reinforcement angle (600,700,800,900) and the reinforcement mounting plate 500 is mounted on the cutting sheet 300 to be fixed without flow, the reinforcement angle (600,800) and the reinforcement angle (700,900) as shown in Figure 6a Cut to the dimensions that can be placed on the 300, and also to maintain the width of the compensating base 400 and the reinforcement mounting plate 500, and also the compensator on both the reinforcement angle (600,800) and reinforcement angle (700,900) The holding angles 70 and 70 are welded to a length portion of the first 400 and the reinforcement mounting plate 500 to form a rectangular reinforcement frame.

Then, the holes 80 of the dimension through which the anchor bolt 60 can pass through the reinforcement angles 600 and 800 and the reinforcement angles 700 and 900, that is, the four sides of the reinforcement frame.

Therefore, the reinforcement frame manufactured as described above is directly placed on the cutting sheet 300 as shown in FIGS. 3 and 6A, and the anchor bolt 60 is driven into the holes 80 in all directions to shake the reinforcing frame in the cutting sheet 300. By maintaining without this, it is possible to mount the compensating base 400 and the reinforcement mounting plate 500 to the reinforcement frame.

In addition, the present invention, as shown in Figure 6b reinforcement angle (600,800) and reinforcement angle (700,900) cut into the dimensions that can be placed on the cutting sheet 300, and also the compensation base 400 and reinforcement mounting plate 500 ) To maintain the width that can be mounted, and also the maintenance angle (70, on the length of the reinforcement base 400 and the reinforcement mounting plate 500 on both sides of the reinforcement angle (600,800) and reinforcement angle (700,900) 70) to form a rectangular reinforcement frame by welding is the same as described above.

However, in fixing the reinforcement frame to the cutting sheet 300 without flow, the reinforcement angles 600 and 800 and the reinforcement angles 700 and 900 of the reinforcement angles 600 and 800 do not form holes, respectively. The end may be fixed without flow by anchor bolts 60 fixed to the cutting sheet 300.

1 is a perspective view of a distribution box fixed by the method for constructing the base of the high voltage distribution box of the present invention;

Figure 2 is a longitudinal cross-sectional view of a state in which the distribution box is mounted on the base of the existing roadside fixed;

3 is a longitudinal sectional view of a distribution box fixed by a method of constructing a base of a high voltage distribution box of the present invention;

Figure 4a, b, c, d, e, f, g, h is a longitudinal cross-sectional view of an embodiment of a method of constructing the base of the high voltage distribution box of the present invention,

Figure 5a, b, c, d is a cross-sectional view of an embodiment of a method of constructing the base of the high voltage distribution box of the present invention,

6A and 6B are perspective views of an example in which the reinforcing angle of the present invention is formed as a reinforcing frame.

Explanation of symbols on the main parts of the drawings

10: boundary wall 20: walking space

30: manhole 40: sidewalk block

50: mortar-molded surface 60: anchor bolt

70: holding angle 80: hole

100: power distribution box 200: foundation

210: landscape invitation 220: new invitation

300: cutting sheet 400: compensation base

500: reinforcement mounting plate 600,700,800,900: reinforcement angle

Claims (4)

In fixing the distribution box on the concrete mortar-shaped foundation base on the base floor of the manhole on the side of the road, After cutting the horizontal cross base 210 and the vertical base 220 to correspond to the bottom surface of the newly manufactured distribution box 100 to form a cutting sheet 300, the compensation sheet (300) 400 to support the distribution box 100, and then the reinforcement mounting plate 500 can be fixed to the remaining space on which the compensating base 400 is placed, and also of the reinforcement mounting plate 500 Mortar-molding on and by fixing the sidewalk block 40 on the mortar-shaped surface 50, to ensure a walking space 20 between the distribution box 100 and the boundary wall 10 of the roadside. A method of constructing the base of a high voltage distribution box, characterized in that. The cutting sheet 300 for cutting the horizontal base plate 210 and the vertical base plate 220 has a height and a width at which the compensating base 400 can be inserted below the power distribution box 100. Construction method of the base of the high-voltage distribution box, characterized in that cut to the dimensions of. 2. The method of claim 1, wherein the compensating base 400 is a square granite block having a square cross section. The base of the high voltage distribution box according to claim 1, wherein the reinforcement angles 600, 700, 800, and 900 are supported by the lower surface of the compensating base 400 and the reinforcement mounting plate 500 fixed across the cutting sheet 300. How to build.

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