KR20130069129A - Assembling type water tank - Google Patents

Abstract

PURPOSE: An assembling type water tank is provided to be easily and quickly form water tank with various capacities, and to be easily dissembled. CONSTITUTION: A reservoir space(900) with an open top is formed by forming a hollow wall column(200) is erected on a floor(100). wires(210) penetrating a body in a lateral direction are installed and coupled with each other. The wall column allows water to flow into the wall column by having a through hole(20) on a side which is contacted to water in the reservoir space. A sealing material(220) is formed between the wall column. A pair of installation rails(110) are parallelly formed along the spot where the wall columns are erected. An appearing and disappearing bolt(112) is formed and is mounted to the lower part of the wall column.

Description

Reservoir and construction method {Assembling type water tank}

The present invention relates to a storage tank and a construction method thereof, and in particular, a storage tank capable of storing water used for various purposes in addition to a large-capacity storage tank capable of controlling floods and the quantity of water by trapping rainwater or heavy rain. And a construction method thereof.

Traditionally, water tanks are used to store a certain amount of water and supply it to buildings that use a lot of water, such as residential apartments and business buildings.In recent years, heavy rainfall has occurred due to the rapid increase in precipitation during summer. It is also installed underground to store the rapidly increasing rainwater and to control the yield by sending it slowly.

On the other hand, the conventional water tank as described above is formed by pouring concrete or assembling the concrete block formed in a predetermined form as disclosed in the Republic of Korea Patent Publication No. 10-2005-0032939 (2005. 4. 8.) "Assembly type reservoir" Most of them were formed to finish a waterproof sheet to store a certain amount of water.

However, the water tank formed by using concrete as described above is not only very difficult to dismantle once installed, but also requires a long construction period due to the casting and curing when concrete is poured. Edo blocks had a disadvantage in that construction was difficult because of the large weight and size.

The present invention not only makes it possible to quickly form a reservoir of various capacities in a prefabricated manner, but also to obtain a reservoir that is relatively easy to dismantle when dismantling the reservoir as necessary.

In the present invention, the above object is achieved by forming a reservoir to hold water in a manner of forming a wall to form a wall so that the reservoir can be prefabricated.

According to the present invention, it is possible to obtain a water tank that can be easily and quickly installed as well as easy to maintain and dismantle.

1 to 6 is a process diagram showing the construction process of the reservoir according to the present invention in sequence,
7 is a cross-sectional view showing a state in which water is filled in the reservoir according to the present invention.

In the present invention, not only to be able to quickly form a variety of storage tanks in a prefabricated manner, but also to obtain a storage tank relatively easy to dismantle when dismantling the storage tank, if necessary, the interior of the hollow wall column on the floor in a closed curve By forming a wall to form a reservoir having an open top, it proposes a reservoir characterized in that it is formed to contain water in the reservoir space.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 7.

1 to 6 is a process diagram showing the construction process of the reservoir according to the present invention in sequence, Figure 7 is a cross-sectional view showing a state in which the water filled in the reservoir according to the present invention.

As shown, the water tank according to the present invention includes a wall pillar 200 that stands on the bottom 100 to form a wall. The wall pillar 200 stands on a closed curve on the bottom 100 to open the top. The reservoir 900 is formed.

The floor 100 is formed of a flat surface by pouring concrete or assembling a concrete block formed in a predetermined shape. A pair of mounting rails 110 are formed side by side along the point at which the wall pillars 200 are to be erected on the bottom 100 so that the wall pillars 200 are erected and fixed between the mounting rails 110.

The installation rail 110 may protrude to a certain height from the bottom and may be formed by fixing a metal bar having a cross-section 'b' shape to the floor. As if the two are arranged side by side at a predetermined interval, such as a rail, the wall pillar 200 is built therebetween.

The floor 100 may be formed in various ways, and when the size of the water tank according to the present invention is small, the floor 100 may be prepared by fixing the installation rail 110 to an upper surface of a concrete block, a metal plate, or a synthetic resin plate. The larger the size of the reservoir, the more concrete is poured.

The wall pillar 200 is erected by the bolt is fastened to the bottom between the installation rails (110). At this time, the wall pillar 200 can be erected using various configurations of bolts, but the mounting rail 110 is provided with a mounting bolt 112 that is resilient in the direction of the wall pillar 200 for convenience of the work. The bolt bolt 112 may be embedded in a hole formed in the lower end of the wall pillar (200).

The wall column 200 is provided with wires 210 penetrating the body in the transverse direction in a standing state and are bound to each other. The wire 210 may be selectively installed at the top and bottom and the interruption of the wall pillar 200, whereby the wall pillar 200 is firmly bound to each other.

It is preferable that the sealing material 220 is installed between the wall pillars 200. The sealing material 220 is formed of an elastic material such as silicone or rubber, and then the sealing material 220 is applied between the wall pillars 200 and strongly pulled by the wire 210 to maintain the airtightness. At this time, when the sealing member 220 is fitted between the wall pillar 200, its shape is determined to be in close contact with the outer surface of the wall pillar 200. For example, as shown, if the wall column 200 has a cylindrical shape, both sides are formed to be concave in the same shape as the cross section of the column.

The wall pillar 200 may be adopted that the interior is empty. If sufficient strength is secured, the interior is empty, so that not only the material forming the wall pillar 200 can be saved, but also the weight can be lightened to increase the convenience of construction.

In the case where the wall pillar 200 having an empty interior is adopted, a through hole 202 is formed at a surface in contact with the water contained in the reservoir space 900 in the wall pillar 200. This allows water to flow through the through hole 202 into the wall pillar 200 to increase the storage capacity.

As described above, when the wall pillars 200 are formed in succession to form a wall, the outer surface of the wall may be attached to the finishing material 230. Finishing material 230 is to serve to protect the wall surface and to maintain the airtight, it is preferable to select a material that can absorb the impact. Furthermore, when the reservoir is buried underground or installed in harsh environments such as cold or cold areas, a material that can protect the wall pillar 200 may be selected.

As described above, when the wall pillar 200 is erected to form a wall to form a constant reservoir 900, water is stored in the reservoir 900. At this time, the reservoir 900 is open to the upper bar, the reservoir according to the present invention may further include a cover covering the inlet of the reservoir 900.

The cover is seated on the top of the wall pillar 200 to cover the inlet of the reservoir 900, when the area of the reservoir 900 is wide, the width of the lid must also be large, so that the reservoir to properly support the lid The intermediate column 250 is erected in the space 900.

The intermediate column 250 may be any type as long as the cover supports the cover, but similar to the wall pillar 200, the inside of the intermediate pillar 250 is empty but is installed on the floor by adopting a plurality of through holes 252. The lower end can be installed detachably mounted on the column support 120 is coupled. Through this, even in the middle column (250), the water is introduced into the inside, while supporting the cover can also increase the low capacity.

The cover may be installed in a prefabricated manner including a cover frame 310 mounted on the top of the wall pillar 200 and a cover plate 320 coupled to the cover frame 310. Here, in the present invention, the cover frame 310 is installed as a lattice inside the edge rod 312 and the edge rod 312 which is seated along the top of the wall pillar 200, and is supported by the intermediate pillar 250. It is formed including the rod 314. This will be able to construct the cover frame 310 in a prefabricated manner.

When the cover frame 310 is formed as described above, the intermediate column 250 is installed to support the point where the inner rod 314 intersects to support the cover more securely.

The middle pillar 250 and the upper edge of the edge bar 312 may be fitted with a seating cap 330 supporting the cover frame 310. The seating cap 330 has a groove optimized for supporting the respective points at the point where the edge rod 312 and the inner rod 314 passes and the intersection of the edge rod 312 and the inner rod 314 respectively. Is formed. Therefore, the cover frame 310 is naturally assembled while seating the rim bar 312 and the inner hole 314 along the groove formed in the seating cap 330, and the assembled state is completed even after the assembly of the cover frame 310 is completed. It will not be dismantled.

The cover cap 310 formed as described above may cover the support cap 340. Covering the rim rod 312 and the inner rod 314, the upper surface is formed in a flat configuration for allowing the cover plate 320 to be seated smoothly. The support cap 340 is a configuration that does not need to be adopted if the shape that can safely seat the cover plate 320 in consideration of the cross-sectional shape of the edge bar 312 and the inner rod 314 forming the cover frame 310. Of course.

The reservoir according to the present invention having the structure as described above can be provided with a pipe (not shown) that can be in charge of the inflow and discharge of water at an appropriate position. For example, the inlet pipe can be connected by making a hole in a part of the cover, and the outlet pipe can be connected by making a hole in the bottom of the wall formed by the column pillar 200. It is to form a reservoir to control the outflow to store the incoming water and discharge it at a suitable time.

Hereinafter, the installation process of the reservoir according to the present invention.

First, as shown in FIG. 1, the concrete is poured and then cured to form a flat bottom 100 and fix the installation rail 110 and the column support 120 on the bottom 100. At this time, the pillar support 120 is to be selectively installed as needed. The floor 100 can also be formed by assembling the concrete block bar, as long as it has a flat enough strength, of course, can be formed in any way.

When the installation of the installation rail 110 is completed, as shown in Figure 2, the wall pillar 200 in a row along the installation rail 110 and then through the wire 210 to form a wall. At this time, the intermediate pillar 250 may be installed in advance on the column support 120.

Thereafter, the wall pillar 200 and the intermediate pillar 250 are poured into a predetermined thickness. The thickness of the concrete to be poured is preferably set to a thickness covering the installation rail (110). By pouring concrete as described above, the wall pillar 200 supports the bottom and maintains airtightness.

When the casting of the concrete is completed, the wall pillar 200 is attached to the finishing material 230 in sequence to the outside of the wall formed by standing up and down. As a result, the reservoir 900 having an upper entrance is formed.

When the formation of the reservoir 900 is completed as described above, a cover is installed at the inlet of the reservoir 900. 3 to 5, the cover is covered with a seating cap 330 on the top of the middle column 250 and the rim bar 312, and then the rim bar 312 and the inner rod along the seating cap 330. 314 to form a cover frame 310, and then cover the support cap 340 on the upper cover frame 310 and finally by seating and fixing the cover plate 320 on the upper surface of the support cap 340 Cover the cover. This allows the cover to be installed prefabricated at the construction site.

As described above, the water tank as shown in FIG. 6 is completed through the above process, and thus, all the processes can be carried out prefabricated at the construction site, thereby obtaining a water tank that is convenient and easy to assemble and disassemble.

When the water tank is completed as described above, the water is filled in the reservoir space 900 as shown in FIG. 7, and the through holes 202 and 252 are also provided in the wall pillar 200 and the intermediate pillar 250. As water is stored through inflow, it can be widely used as a storage facility of rainwater or a storage facility for various types of water.

100: floor, 110: mounting rail,
112: the bolt bolt, 120: pillar support,
200: wall pillar, 202: through hole,
210: wire, 220: sealing material,
250: middle pillar, 252: through hole,
310: cover frame, 312: edge bar,
314: inner rod, 320: cover plate,
330: seating cap, 340: support cap,
900: reservoir space.

Claims (20)

The interior of the wall pillar 200 is formed in a closed curve on the floor 100 to form a wall to form a reservoir 900 with an open top, characterized in that it is formed to hold water in the reservoir 900 Water tank. The method according to claim 1,
The wall pillar (200) is a water tank, characterized in that the wire 210 is installed to penetrate the body in the transverse direction in a standing state to bind to each other. The method according to claim 1,
The wall pillar (200) is a reservoir, characterized in that the through-hole 202 is formed in contact with the water contained in the reservoir space 900 to increase the storage capacity by allowing water to flow into the wall pillar (200). The method according to claim 1,
The water tank, characterized in that the sealing member 220 is installed between the wall pillars 200 to maintain the airtightness. The method according to claim 1,
A water tank, characterized in that the finishing material 230 is installed along the outer wall of the wall pillar 200 is formed in succession to protect the wall surface and maintain airtightness. The method according to claim 1,
The floor 100 has a pair of installation rails 110 are formed side by side along the point where the wall pillars 200 are erected, and the wall pillars 200 are fixed between the installation rails 110 to be fixed. Reservoir. The method of claim 6,
The mounting rail 110 has a wall bolt 200 is retracted elastically in the direction and is formed on the lower end of the wall pillar 200 is driven bolt 112 is characterized in that to fix the wall pillar 200 Reservoir. The method according to claim 1,
Reservoir tank further comprises a cover for covering the inlet of the reservoir (900). The method of claim 8,
Reservoir tank, characterized in that standing in the middle pillar (250) to support the cover. 10. The method of claim 9,
The intermediate column (250) is empty inside, but a plurality of through-holes (252) is formed so that the water flows into the intermediate column (250) by storing water, characterized in that to increase the low capacity. 10. The method of claim 9,
The cover is a water tank, characterized in that it is installed prefabricated including a cover frame 310 is mounted on top of the wall pillar (200) and a cover plate 320 coupled to the cover frame (310). 12. The method of claim 11,
The cover frame 310 has an inner rod 314 that is installed as a lattice in the rim rod 312 and the rim rod 312 that is seated along the top of the wall pillar 200 and is supported by the intermediate pillar 250. Reservoir, characterized in that it comprises. The method of claim 12,
The intermediate column 250 is a reservoir, characterized in that installed to support the point where the inner rod (314) intersects. The method of claim 13,
The seating cap 330 is coupled to the upper end of the middle column 250 and the edge rod 312,
The seating cap 330 is a water reservoir, characterized in that the groove is formed to the intersection of the edge bar 312 and the inner rod 314, respectively. Install the mounting rail 110 on the bottom of the closed curve,
After forming the wall by successively standing the column pillar 200 along the installation rails 110 to form a reservoir 900 with an open top,
Reservoir construction method comprising the step of installing a cover at the inlet of the reservoir (900). The method of claim 15,
A water tank construction method, characterized in that to support the wall pillar (200) to maintain the airtight by pouring concrete to a certain thickness on the floor on which the wall pillar (200) is built. 17. The method of claim 16,
The concrete is a water tank construction method characterized in that the pouring to the thickness covering the installation rail (110). The method of claim 15,
The water tank construction method characterized in that the binding to each other by passing through the wire 210 to the wall pillar (200). The method of claim 15,
The cover seats the rim bar 312 along the top of the wall pillar 200, and then forms the cover frame 310 by installing the inner rod 314 inside the rim bar 312 as a grid, Water tank construction method characterized in that the cover plate 310 is formed by assembling the cover plate (320). 20. The method of claim 19,
The pillar support 120 is further installed on the bottom and the intermediate pillar 250 is erected on the pillar support 120,
The pillar support 120 is a water tank construction method characterized in that to support the cover to stand at the point where the inner rod (314) intersect.

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