KR100612249B1 - Clean water structure with concrete tank for rainwater - Google Patents

Abstract

The present invention relates to a prefabricated concrete water tank capable of rainwater purification, the main object of the invention is to complete the reservoir tank with a concrete box that is easy to manufacture and install, the partition of the new assembly structure partitioning two or more interior spaces, and the partition wall The purpose is to provide a low-cost concrete water tank capable of purifying rainwater by providing a purification structure that allows rainwater to be purified.

Characteristic configuration of the present invention for achieving the above object has a rectangular or cylindrical circumference in any size while having a protruding assembly section 11 on one side and a concave assembly section 12 on the other side. A plurality of reservoir tank members 10, and interposed between the reservoir tank members 10 to partition the internal space (10a), one side of the concave inlet type to fit the projecting assembly cross-section (11) A partition member 20 having a rim surface 22 and a protruding rim surface 21 adapted to the concave assembly section 12 on the other side thereof, and the protruding type of the water reservoir component member 10 described above. A front finishing member 30a having a finishing edge surface 1 (31) corresponding to the assembly cross section 11, and a finishing edge surface 2 (32) matching the concave-type assembly cross section 12 of the water reservoir component member 10 described above. Assembling a rear finishing member (30b) to form a reservoir Is having.

Description

CLEAN WATER STRUCTURE WITH CONCRETE TANK FOR RAINWATER}

1 is a block diagram of a concrete concrete tank of the present invention

2 is a block diagram of a reservoir component member of the present invention

3 is a block diagram of a partition member of the present invention

Figure 4 is a block diagram showing the finishing members of the present invention

5 is a cross-sectional view showing a state of use of the present invention

<Code Description of Main Parts of Drawing>

10: reservoir component 10a: internal space

11: projecting assembly section 12: concave assembly section

13 rainwater inlet 14 rainwater outlet

15: sediment collection unit 16: through hole

20: partition member 20a: partition wall member for upward drainage

20b: bulkhead member for downward drainage 21: protruding edge

22: concave edge surface 23: drain groove

24: drain hole 30a: front finishing member

30b: rear finishing member 31: finishing edge surface 1

32: finish edge surface 2 40: circulation pump

41: hose

The present invention relates to a prefabricated concrete water tank capable of rainwater purification, and more particularly, to produce a water tank using a prefabricated concrete box, characterized in that it is configured to enable the purification and long-term storage of rainwater during rainwater storage.

In general, the purpose of the installation of the reservoir is to establish a stable distribution system and to solve the problem of drinking and living water in case of emergency, and mandatory installation of buildings of a certain size. Therefore, a water tank using a concrete box is also provided. As a recent improved structure, there may be mentioned, for example, Utility Model Registration No. 20-0336354 (prefabricated water tank).

On the other hand, in recent years, because of the lack of water is the trend to store rainwater in addition to the water of tap water to use as living water.

Rainwater can be collected by rainwater reservoirs through the gutters installed on the catchment surface. Although it is known that it can be used as washing water for the bathroom, landscaping water in the garden, or washing water without any special treatment, the rainfall is about 0.5 to 2.0. The water quality is not stable in case of rainwater collected from exposed surfaces such as roofs because water is washed up to mm, so direct use should be avoided.

The most basic and simple way to purify rainwater is to deposit it in the reservoir for a period of time. However, this precipitation method is difficult to neutralize the acid rain, and the quality of the stored rainwater is worse because the decay begins when the particles are small or floating contaminants or microorganisms mixed in the rainwater into the reservoir.

In order to solve such a problem, the proposed techniques are known as Utility Model Registration No. 20-0287647 (rainwater purification device using a reservoir), and as an effective purification method in a state where water flow is guaranteed. -0007256 (drainage structure).

As a result, when the water tank is manufactured using the prefabricated concrete box, it does not have a purification function because it does not have a structure capable of finely controlling the flow of water due to the characteristics of the concrete box and the panel, and provides a custom rainwater reservoir and purifies the rainwater. In the latter case with facilities, the installation costs of the various facilities are very high, and thus there is a conflicting problem that the facilities are not easily installed.

Therefore, the present invention has been made in view of the conventional problems as described above, the main object of the invention is a new assembly structure for partitioning two or more interior spaces, while completing the reservoir with a concrete box that is easy to manufacture and install The purpose of the present invention is to provide an inexpensive concrete water tank capable of purifying rainwater by having a bulkhead and a purifying structure that allows rainwater to be purified while crossing the bulkhead.

A characteristic configuration of the present invention for achieving the above object is a plurality of reservoir tank member having a rectangular or cylindrical circumference in any size and having a protruding assembly section on one side and a concave assembly section on the other side, And interposed between the reservoir tank member to partition the internal space, one side is provided with a concave-type rim surface to fit the protruding assembly section, the other side protruding to fit the concave assembly section A partition member having a border surface, a front closure member having a finish border surface 1 corresponding to the protruding assembly section of the reservoir component member, and a finish border surface 2 matching the recessed assembly section of the reservoir component member. It is to assemble a water tank by assembling the rear finishing member.

At this time, the partition member is interposed between the water tank constituent members, the assembly is an upward drainage partition wall member having drainage grooves near the upper ceiling, and a downward vessel provided with a drainage hole near the lower floor. The receiving bulkhead member is alternately intervened so that the water flow is caused by the up and down zigzag.

In addition, the reservoir member may include one having an initial rainwater inlet and a later rainwater outlet.

In addition, the reservoir component member having the rainwater inlet has a deposit collection portion at its bottom.

And the through tanks for coupling wires or coupling bolts are formed at the edges of the reservoir components, the partition members, and the front and rear closure members.

In addition, the prefabricated concrete water tank is provided with a circulation pump including a hose so that water can flow back from the rear space to the front space.

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

1 is a block diagram of a completed concrete water tank of the present invention, Figure 2 is an enlarged cross-sectional view of the main portion of the present invention, Figure 3 is a block diagram of a partition plate of the present invention.

As shown in the drawing, the present invention includes a plurality of reservoir component members 10, partition member members 20 between them, and a front closure member 30a that blocks both ends of the reservoir component members 10. ) And rear finishing members 30b.

The reservoir components 10 have a rectangular (or cylindrical) circumference at any size, as shown in Figure 2, and has a protruding assembly section 11 on one side and a concave assembly section on the other side ( 12) to have.

In addition, the partition member 20 is to be interposed between the reservoir tank member 10 as shown in Figure 3 to partition the internal space (10a), one side of the projecting assembly cross-section ( 11) is provided with a concave edge face 22 to fit, and the other side is provided with a protruding edge face 21 to fit the concave assembly end face 12.

In this case, the partition wall members 20 are preferably manufactured separately from the upward drain partition wall member 20a and the downward drain partition wall member 20b so as to induce the flow of water to the upper and lower zigzag to prevent corruption. The upward drain partition member 20a forms drainage grooves 23 near the upper ceiling, and the downward drain partition member 20b forms the drain hole 24 near the bottom bottom.

And after assembling the partition member (2) between the reservoir components as described above 10 to assemble the front closing member (30a) and the rear closing member (30b) to seal both sides.

The front closing member (30a) is a front outer surface is a flat plate, and the inner side has a finishing edge surface 1 (31) to fit the protruding assembly cross-section 11 of the reservoir component member (10).

In addition, the rear finishing member (30b) is a rear outer surface of the plate-like, the inner surface has a finishing edge surface 2 (32) to fit the concave-type assembly end surface 12 of the reservoir component member (10). .

In addition, the reservoir component member 10 sealed by the front closure member 30a among the reservoir component members 10 is to include the first rainwater inlet 13, and is sealed by the rear closure member 30b. The reservoir tank member 10 is assumed to have a later rainwater outlet 14.

At this time, the rainwater inlet 13 may be provided with a filtering net (not shown) in a conventional manner, and the first reservoir member 10 having the rainwater inlet 13 is formed deeper at the bottom thereof. It is provided with the deposit collection part 15.

Meanwhile, the reservoir component members 10 and the partition member 20 and the front and rear finishing members 30a and 30b, which are assembled as described above, pass through the bolt or wire to secure their assembly state along the edge thereof. The through holes 16 are formed.

Reference numeral 50 in the drawings is a packing member, 60 is a conventional concrete structure coupling configuration that can be applied in the present invention as a caulking groove.

The following describes the use state of the present invention configured as described above.

First, the rainwater collected from the roof or the yard of the house is filled with the first reservoir through the rainwater inlet 13 described above.

In this filled first reservoir space, heavy impurities not filtered out of the filtering network are settled down and accumulated in the sediment collecting unit 15, and the upper water is next along the upper drain groove 23 of the partition member 20 for upward drainage. Go to the second reservoir of.

The water filled in the second reservoir space is moved from the lower half to the third reservoir space along the drain hole 24 formed in the downward drainage partition wall member 20, and fine foreign matters are also settled to the bottom.

The water filled in the third reservoir space is again passed to the fourth reservoir space along the drainage groove 23 formed in the next upstream partition member 20.

Repeating the up and down zigzag flows like this, foreign matters in the water settle down and are gradually purified, so that only clear water is filled in the final reservoir.

In the final reservoir space, water is sent to the necessary place through the rainwater outlet 14 formed in the reservoir component member 10.

On the other hand, if the water in the reservoir does not flow in the state that the rain water is not supplied for a long time there is a risk that the water is decay, in this case provided with a circulation pump 40 as shown in Figure 5 to circulate the water from time to time.

That is, the circulating pump 40 including the hose 41 to circulate water from the last storage space with the rainwater outlet 14 to the front space to circulate, but all 100% of the water There is no need to circulate, and if you run the pump to circulate only about 20% of the water, it doesn't have to consume a lot of energy because the water flow transfers the flow to all parts.

For example, when 30 days of dry season have elapsed, it is enough to circulate 20% of water once every 10 days.

For reference, in this case, the water in the first storage space having the rainwater inlet 13 may be discharged from the sediment collector 15 so that all of the sediment may rise again, and it is preferable to circulate the water to the reservoir of the next position.

The present invention, as described in detail above, completes the reservoir tank member with a concrete box that is easy to manufacture and install, and partitions two or more internal spaces, and partitions of a new assembly structure having up and down drain grooves and drain holes, and Rainwater purification is possible because the bulkhead flows through the top and bottom zigzag.

In particular, the water tank of the present invention is advantageous because it can be installed using the concrete boxes of the models and specifications that are already produced.

Therefore, there is an advantage that can use rainwater as living water without expensive purification equipment as in the prior art, and also because the price is low, it is widely adopted and installed in office buildings or apartments, etc. to solve the water shortage problem. .

Claims (6)

A plurality of reservoir components 10 having a rectangular or cylindrical circumference with an arbitrary size and a protruding assembly section 11 on one side and a concave assembly section 12 on the other side; While interposed between the reservoir component members 10 to partition the internal space (10a), one side is provided with a concave-shaped border surface 22 to fit the protruding assembly cross-section 11, the other On the side, the partition member 20 having a protruding edge 21 for fitting the recessed end face 12, Front finishing member 30a having a finishing edge surface 1 (31) to fit the projecting assembly cross-section 11 of the reservoir component member 10, Prefabricated rainwater prefabricated concrete, characterized in that to complete the water tank by assembling the rear finishing member 30b having a finishing edge surface 2 (32) to fit the concave-type assembly cross-section 12 of the water reservoir component member 10 water tank. The method of claim 1, The partition member 20 is interposed between the reservoir components 10, and assembled, but the upper partition wall member 20a having drainage grooves 23 near the upper ceiling and the bottom near the bottom Prefabricated concrete water tank that can be rainwater purification, characterized in that the flow of water is caused by the zigzag up and down by alternately interfering with the downward drainage partition wall member (20b) provided with a drain hole (24). The method of claim 1, Prefabricated concrete tank of the rainwater purification member, characterized in that the water storage tank member (10) having the first rainwater inlet 13, and later having a rainwater outlet (14). The method of claim 3, wherein Prefabricated concrete tank with rainwater purification, characterized in that the reservoir component member 10 having the rainwater inlet 13 is provided with a sediment collector 15 at its bottom portion. The method of claim 1, The through hole 16 for the coupling wire or the coupling bolt in the edge portion of the reservoir member 10, the partition member 20, the front closure member 30a and the rear closure member 30b. Rainwater purification prefabricated concrete tank characterized in that it was provided with). The method of claim 1, The prefabricated concrete water tank is a prefabricated concrete water tank, characterized in that provided with a circulation pump 40 including a hose (41) so that water can flow back from the space of the rear to the space of the front.

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