KR101171870B1 - the structure of field assembling type manhole for water supply - Google Patents

Abstract

The present invention relates to a water supply manhole including an exponential warfare, and more particularly, a bottom plate of an assembled form, which is divided when the manhole is installed by digging a periphery installed in the existing; A manhole body with an insertion groove formed so that the water supply pipe is inserted into both lower sides thereof; An upper plate seated on the upper part of the manhole body; Formed support plates for seating the manhole cover, each assembled with a bottom plate at the lower part of the excavated ground of the excavated ground, and then assembled and installed the manhole body, the top plate, the backing plate and the manhole cover sequentially By constructing the manhole structure, it is possible to reliably settle and install the split-formed bottom plate. Based on this, the manhole body, the top plate, the backing plate, and the manhole cover are assembled and installed in order to stably construct the water supply manhole so as not to flow and escape. The construction method is easy through the direct assembly method in the field, and the construction time and construction cost of the water supply manhole can be reduced. Configure it so that it does not leak.

Description

Prefabricated water supply manhole structure {the structure of field assembling type manhole for water supply}

The present invention relates to a water supply manhole including exponential warfare, and more specifically, to excavating the existing periphery of the existing exponential perimeter, when installing the manhole, the bottom plate of the manhole is prefabricated stably, and the upper part of the manhole main building By assembling the top plate and the supporting frame in sequence, the field assembly type water supply manhole structure, characterized in that the installation of the bottom plate of the water supply manhole including the index electric field in a prefabricated stable.

In general, waterworks are buried in the ground and supply water supply at regular intervals, and the waterworks serve as plugs to prevent water from running in the waterworks, such as repairs due to breakage or failure of waterworks, or arrears. It is used to stop the water supply.The exponential warfare is installed in the exponential warship room, which is a narrow space, and when necessary, it can be used to lock or open the exponential warfare while turning the valve before the exponent using a tool such as a wrench. .

Recently, by connecting various peripheral devices such as gauges and pressure gauges before the exponent, pressure measurement and leak detection function have been added through the exponential warfare to check the water pressure by region and area of the water supply frequently to solve the imbalance in the water pressure by region. It is a trend that uses various types of water expedients effectively, such as locking water on both sides of a certain section and measuring water pressure to check whether the water pressure decreases, and thus detecting water leakage. The exponential warfare room where the exponential warfare is installed has a very narrow space where people can enter and operate the exponential warfare by putting only various tools on the ground, so it is difficult to install more peripheral devices such as a meter and a pressure gauge.

For this reason, in order to install more peripheral devices such as a meter or a pressure gauge before the water supply, the water discharge chamber is removed, the surrounding water is further excavated, and a water supply manhole is installed there, thereby providing a water supply with various peripheral devices added to the water supply manhole. It facilitates the inspection and operation of the water stop as people enter and exit the water supply manhole.

By the way, when the water supply manhole is installed to the place where the water field is located, the bottom plate of the disc shape that closes the bottom of the water supply manhole has a problem that can not be located in the bottom of the existing water supply pipe and the water supply pipe. Water supply which is the lower part of the exponent is not able to be seated and installed at the bottom of the manhole. Accordingly, in the past, unit blocks have been installed along the outermost end of the lower part surrounding the exponent and have been installed thereon.

However, the above method requires a lot of construction time and construction cost, the block stacking is not accurate and stable, the problem of water supply manhole inclination or departure, etc. There are many problems, such as water infiltrating into the floor due to inflow or breakage of water before the index, but there is no way to solve this problem.

Therefore, the present invention has been devised to solve the above problems, divided form the bottom plate of the water supply manhole, and directly assembled and installed in the field, and assembled the manhole main building and the top plate and the supporting frame in order to the seated bottom plate By constructing a tap water manhole, the floor plate is installed stably in the field when installing the tap water manhole, reducing the construction time and construction cost of the tap water manhole, and installing it stably so that it does not flow and escape. Its purpose is to construct an on-site waterworks manhole structure that prevents spills.

The present invention for solving the above problems, in the water supply manhole, the assembled base plate having a divided form; A manhole body with an insertion groove formed so that the water supply pipe is inserted into both lower sides thereof; An upper plate seated on the upper part of the manhole body; Formed support plates for seating the manhole cover, each assembled with a bottom plate at the lower part of the excavated ground of the excavated ground, and then assembled and installed the manhole body, the top plate, the backing plate and the manhole cover sequentially Configure the manhole structure.

Through this, it is possible to reliably settle and install the split-formed bottom plate when constructing the water supply manhole in the excavated ground around the exponential ground. Based on this, the manhole body, the top plate, the backing plate, and the manhole cover are sequentially assembled and installed. Water supply manhole can be stably constructed so as not to deviate, and the construction method is easy through the direct assembly method in the field, thereby reducing the construction time and construction cost of the water supply manhole, and perfecting the water supply manhole It has the effect of preventing foreign matter from entering or foreign matter such as water outflow.

1 is a perspective view of a water supply manhole according to an embodiment of the present invention.
Figure 2 is an assembled perspective view of the water manhole according to the embodiment of the present invention.
Figure 3 is an assembled perspective view of the bottom plate according to the embodiment of the present invention.
4 is a cross-sectional view of the water supply manhole according to the embodiment of the present invention.
FIG. 5 is a sectional view taken along line AA ′ of FIG. 4; FIG.

The present invention relates to a structure of a water supply manhole including an exponential warfare, to form a subdividable assembling bottom plate, to be assembled with each bottom plate in the bottom of the excavated ground of the excavated ground, and to the upper part of the manhole body By constructing the field-assembled water supply manhole structure, which assembles and installs the top plate, the backing plate, and the manhole cover in order, the dividing bottom plate can be reliably seated and installed when the manhole is installed by excavating the existing periphery of the existing water supply. As a basis, the manhole body, top plate, support plate, and manhole cover can be assembled and installed in order to prevent the flow and departure of the water supply manhole stably, and the construction method is easy through the direct assembly method in the field. Reduces construction time and construction cost, and completes the water supply manhole, allowing foreign substances to flow from the outside, To be configured to prevent foreign matter spill.

The field-assembled tap water manhole of the present invention having the above characteristics will be described in more detail with reference to the embodiment shown in each drawing.

The present invention relates to a structure of a field-assembled water supply manhole 100 installed in the ground installed with the water field 200 connected to the water pipe 300, which is largely assembled from the bottom of the water field 200. The manhole body 120, the upper plate 130, the support plate 140 and the manhole cover 150 are sequentially assembled and installed at the upper portion thereof to form a normal manhole.

Looking at the shape of each component of the water supply manhole 100 configured in this way in more detail, first, the prefabricated bottom plate 110 is formed in a form that can be assembled by dividing the portion forming a conventional manhole bottom portion, Figure 1 or As shown in FIG. 3, the disk-shaped bottom plate constituting the water supply manhole 100 according to the present invention having the embodiment having a cylindrical shape is constituted by a pair of prefabricated bottom plates 110 divided into semi-circular shapes. The semi-circular prefabricated bottom plate 110 is positioned below the exponent 200 without being disturbed by the 200 and the water pipe 300, and then a pair of prefabricated bottom plates 110 are assembled and seated. To help.

In order to assemble a pair of prefabricated bottom plate 110 formed as described above, both side surfaces of the side in contact with each other to form a fastening portion 111 protruding outward, respectively, the center of each fastening portion 111 adjacent to each other By forming the bolt fastening holes 112 through the same line, a pair of prefabricated bottom plate 110 is in contact with each other and then through the fastening bolt 113 through each bolt fastening hole 112 fastening nut 114 Bolt-to-nut coupling method to fasten the prefabricated bottom plate 110 to be easily and accurately assembled in a circle.

At this time, the side surfaces of the prefabricated bottom plate 110 are formed to form an index ring fitting groove 116 having a narrow groove along the width direction, when the prefabricated bottom plate 110 is assembled, each prefabricated bottom plate 110. The water-expandable index ring 117 of rubber material is inserted therebetween to fix the water ring fitting groove 116 into the inside, thereby further improving the watertightness of the assembled baseplate 110 to be assembled.

The prefabricated bottom plate 110 formed as described above forms a main body fitting groove 115 which is grooved in a circular shape so as to fit the lower end of the manhole body 120 along the outer side of the upper surface when assembled, and the assembled prefabricated bottom plate 110. (110) Fit the manhole body 120 to the upper?

Next, as shown in FIG. 1 or 2, the prefabricated bottom plate 110 is assembled with a conventional manhole body 120 having a pipe shape. At this time, both sides of the lower manhole body 120 face each other. By forming a grooved insertion groove 121 long to be inserted into the water supply pipe 300 to a certain height, when the manhole body 120 is seated on the prefabricated bottom plate 110, the water supply pipe 300 is It is inserted into the insertion groove 121 so as not to prevent the manhole body 120 is seated.

The manhole body 120 has a lower end portion inserted into the main body fitting groove 115 of the prefabricated bottom plate 110, the 'L' shaped fastening bracket 122 of the prefabricated bottom plate 110 and the manhole body 120 ) Can be contacted to the outside to fasten them together.

The upper part of the manhole body 120 formed as described above is assembled with the upper plate 130 and the supporting plate 140 in sequence as shown in FIG. 4, and the manhole cover 150 is seated to form a water supply manhole 100 finished. It will be described below in detail the structure and advantages through the construction method of the present invention field prefabricated drinking water manhole 100.

First, when excavating a predetermined range for installing the water supply manhole 100 around the exponent 200, the water supply pipe 300 and the exponent 200 connected to the excavated portion is exposed, such as As the excavated site, first, a pair of prefabricated bottom plate 110 is inserted into the bottom of the water stop 200 without interference between the water stop 200 and the water pipe 300.

Each prefabricated bottom plate 110 seated in this way is provided with a water expansion index ring 117 into the water ring fitting groove 116 while being positioned to be accurately assembled below the water discharge 200 as shown in FIG. The fastening part 111 is in contact with each other through the fastening bolt 113 through each bolt fastening hole 112 of each prefabricated bottom plate 110 and fastened with a fastening nut 114 to make the prefabricated bottom plate 110 in a circular shape. Assemble

At this time, as shown in Figure 5 by forming a non-shrink mortar portion 118 cured by pouring non-shrink mortar that is not contracted even if contact with water between the surfaces of the assembled assembled base plate 110, While making the connection of the assembled base plate 110 more secure and stronger, the watertightness of the connected portion is improved.

When the prefabricated bottom plate 110 is stably assembled and installed in the lower part of the water stop 200 through the above method, the manhole body 120 is assembled to the upper part thereof, as shown in FIG. 2 or 5. The water supply pipe 300 is inserted into the 121 and the manhole body 120 is moved downward so as not to be disturbed, and the lower end thereof is brought into close contact with the main body fitting groove 115 of the prefabricated bottom plate 110 to be seated, and then fastened. The bracket 122 is in contact with the outer surface of the manhole body 120 and the upper surface of the prefabricated bottom plate 110 at the same time and fastened and fixed to the fastening bolts 123, respectively, thereby integrating the prefabricated bottom plate 110 and the manhole body 120. Connect with

In addition, when connecting the manhole body 120 to the top of the prefabricated bottom plate 110 as described above, as shown in Figure 4 or 5, the body fitting groove 115 of the prefabricated bottom plate 110 inside the rubber material By further including the water expansion index ring 124 of the, the watertightness between the prefabricated bottom plate 110 and the manhole body 120 is further improved.

After connecting the manhole body 120 to the upper part of the prefabricated bottom plate 110, as shown in FIG. 4, the upper plate 130 is seated on the upper manhole body 120 as in the conventional manhole, and the upper plate 130 is disposed. In the) manhole body 120 to install the ladder 131 for access to the inside, by connecting the support plate 140 to the upper plate 130, the manhole cover 150 is seated, the water supply manhole 100 of the present invention Will be configured.

Water supply manhole 100 of the present invention configured as described above is assembled by directly inserting the prefabricated bottom plate 110 in the field below the water pipe (200) connected to the water supply pipe 300 without dismantling or damage of the water supply pipe (300). After having been securely seated and installed, it has a structure of assembling and installing the manhole main body 120, the upper plate 130, the support plate 140, and the manhole cover 150 in order based on the upper part thereof. Manhole 100 completely wraps and protects the water-proof war 200, and the foundation formed of the prefabricated bottom plate 110 is strong so that it is stably constructed so as not to flow and escape even when various external forces or loads are applied, and prefabricated on site Easy construction has the advantage of effectively reducing the construction time and construction cost.

In addition, the prefabricated bottom plate 110 is not limited to a semi-circular shape, and may be formed in a number of pieces in various forms in consideration of the shape of the water supply manhole 100 and the positions of the water supply pipe 300 and the water field 200. This not only makes the assembly easy and secure, but also the water-expansion index ring 117 and the non-contraction mortar portion 118 between the prefabricated bottom plate 110 improve the water tightness of the connected portion while making the connection more secure and strong. Has

Although the above has been illustrated and described with respect to the preferred embodiment of the present invention, the present invention is not limited to the above-described embodiment, any one of ordinary skill in the art to which the present invention belongs, various modifications and embodiments Of course, such changes are intended to fall within the scope of the claims set forth.

100: water manhole 110: prefabricated bottom plate 111: fastening portion
112: fastening bolt 113,123: fastening bolt 114: fastening nut
115: main body fitting groove 116: water ring fitting groove 117,124: water expansion index ring
118: non-contraction mortar 120: manhole body 121: insertion groove
122: fastening bracket 130: top plate 131: ladder
140: base plate 150: manhole cover 200: before the index
300: water pipe

Claims (8)

delete delete In the water supply manhole is installed in the water pipe 200 is connected to the water supply pipe 300,
The prefabricated bottom plate 110 of the divided form to form, but the grooves along the side of the prefabricated bottom plate 110 is formed along the sides of the index ring fitting groove 116, the index ring fitting groove 116 ) Insert and fix the rubber expansion ring 117 inside,
On both sides of the side that is in contact with each other is formed in the form protruding outward, the fastening portion 111 having a bolt fastening hole 112 penetrated to the center portion, through the fastening bolt 112 through the fastening bolt 113 Assemble the assembled bottom plate 110 integrally by bolt-nut coupling method for fastening the fastening nut 114 and then,
The prefabricated bottom plate 110 is positioned below the water stop 200, and then the support plate 140 is placed in order to set the manhole body 120, the top plate 130, and the manhole cover 150 thereon. By configuring the water manhole 100,
Field prefabricated water supply manhole structure characterized by improving the watertightness of the prefabricated bottom plate and the assemblability in the field, and at the same time easy to install. The method of claim 3, wherein
The divided prefabricated bottom plate 110,
By assembling, by forming the non-condensed mortar portion 118 cured by pouring non-condensed mortar between the surfaces in contact with each other,
A field-assembled tap water manhole structure, which ensures the connection of the connection part and improves the watertightness.
delete delete delete The method of claim 3, wherein
In the prefabricated bottom plate 110, a main body fitting groove 115 is formed to fit the lower end of the manhole body 120 into the upper surface thereof during assembly, and the water expansion index of the rubber material into the main body fitting groove 115 is formed. Further provided with a ring 124,
As the lower portion of the manhole body 120 that is fitted and assembled into the body fitting groove 115 of the prefabricated bottom plate 110, by further forming an insertion groove 121 into which the water pipe 300 can be inserted up to a predetermined height, By simply fitting the assembly of the manhole body 120 to the top of the assembled base plate 110 without being affected by the position of the buried water pipe 300,
An on-site prefabricated water supply manhole structure characterized by improving the assemblability in the field and further improving the watertightness between the prefabricated bottom plate and the manhole body.

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