KR101301345B1 - Prefabricated rainwater storage tank - Google Patents

Abstract

PURPOSE: A prefabricated rainwater storage tank is provided to cleanly maintain a water storage space and to partially repair the storage tank by independently closing water storage blocks. CONSTITUTION: A prefabricated rainwater storage tank forms a water storage space by assembling and connecting a plurality of water storage blocks (10). The water storage block includes an inlet (11) and a down-stream circulation hole (12). The down-stream circulation hole is connected to an adjacent water storage block and is opened by a valve (13). The water storage space is expanded or is reduced by selectively using the water storage block. A transfer pipe connected to a pump is installed in each water storage block and independently discharges rainwater.

Description

Prefabricated rainwater storage tank

The present invention relates to a prefabricated rainwater storage tank, and more particularly, to a prefabricated rainwater storage tank in which the storage space is flexibly adjusted according to rainfall during rainy weather while the unused storage space is kept clean while the storage tank is partially maintained. will be.

Due to the increase in buildings and the increase of the surface pavement rate, flood damage is repeated every year as rainwater does not penetrate underground and flows into sewers or rivers on the contrary. As problems such as deterioration of water quality and drought damage due to lack of water occur, there is a need for a rainwater storage tank to temporarily store rainwater and release it when necessary to use it as a water resource.

Conventional rainwater storage tanks have been widely used in the field casting method to directly build concrete at the construction site, but a large amount of waste is generated during construction at the site, causing environmental pollution and also requiring a long construction period. Since there is a problem in the construction, the construction frequency of the prefabricated storage tank system for transporting and assembling the pre-fabricated concrete block is on the rise.

Patent registration No. 10-485742 is an example of the prefabricated storage tank described above, and as shown in FIG. 12, pillars are provided upright at right angles to four corners of front, rear, left, and right of the top plate and the bottom plate, respectively. A main body block having openings formed on four surfaces thereof; Except one or more of the four surfaces to take a closed form is proposed an excellent storage tank to form a storage space connected to each other by assembling the peripheral block having the same configuration as the body block.

However, the excellent storage tank after construction is completed, and the entire storage area is used as a storage tank regardless of precipitation, so the periodic cleaning area is expanded and maintenance costs are increased, and when the crack occurs due to poor construction or damage, The problem was that it could not be maintained without draining all the rainwater.

In addition, there is a problem that the utilization of rainwater falls because the foreign matter containing the earth and sand included in the rainwater flows as it is not reused without going through a separate purification device.

The present invention has been conceived to solve the above problems, it is possible to use the storage tank even during partial maintenance work by dividing the storage space to reduce the maintenance cost of the storage tank, separate the rainwater and stored foreign matter separate purification facilities It is an object of the present invention to provide a prefabricated rainwater reservoir that can be reused without rainwater.

In order to achieve this object, the present invention, the storage space (S) is formed by assembling and connecting a plurality of storage blocks 10, the storage space (S) through the inlet 11 is formed on one side rainwater input And, the storage block 10 is provided with a downstream circulation hole 12 at the bottom to communicate with the adjacent storage block 10, the downstream circulation hole 12 is opened and closed by a valve 13, the storage block ( It is characterized in that the storage space (S) is provided to expand / contract by selectively using 10).

At this time, each of the storage block 10 is characterized in that the transfer pipe connected to the pump is installed, so that the rainwater stored in each storage block can be discharged independently.

In addition, the storage block 10 is characterized in that the overflow circulation hole 15 is formed on the upper end so as to communicate with the adjacent storage block (10).

At this time, the downstream guide pipe 16 selectively bent down on the overflow circulation hole 15 is installed, so that the rainwater flowing through the overflow circulation hole 15 is circulated through the bottom of the storage block 10. It is characterized by.

In addition, one to eight of the storage block 10 is set to the initial storm water purification space (S1), the downstream circulation hole 12 adjacent the storage blocks 10 constituting the initial storm water purification space (S1) is By closing, it is characterized in that the rain is provided so that the rainwater flows through the circulation hole (15).

In addition, the monthly flow circulation hole 15 is characterized in that the filter member (15a) is provided.

And, the management hole 21 is selectively provided on the plurality of storage blocks 10 forming the storage space (S).

In addition, the storage space (S) is constructed around the river or river, the water gate 10a is formed so that one side of the storage block 10 is connected to the river or the river, characterized in that it is provided to store the rain poured in the rain do.

According to the above configuration and action, according to the present invention, the downstream circulation hole connecting the plurality of storage block valves to communicate with each other is provided to be opened and closed by the valve, so that the storage space is flexibly adjusted according to the rainfall during rain, and thus the unused storage space is always kept clean. In addition, each storage block can be closed independently, so that partial maintenance of cracks and breakages is easy even during operation of the storage tank.

In addition, rainwater is circulated through the monthly circulation hole in the storage process, and a large amount of oxygen is supplied into the water, thereby improving water quality by natural purification.

1 is a block diagram showing the overall prefabricated rainwater storage tank according to the present invention.
Figure 2 is a block diagram showing a storage block of the prefabricated rainwater storage tank according to the present invention.
Figure 3 is a block diagram showing the construction of the prefabricated rainwater storage tank according to the present invention.
Figure 4 is a block diagram showing a combined state of the prefabricated rainwater storage tank according to the present invention.
5 is a block diagram showing a storage volume of the prefabricated rainwater storage tank according to the present invention.
Figure 6a to 6b is a block diagram showing a state in which the pump and the inlet pipe is coupled to the prefabricated rainwater storage tank according to the present invention.
Figure 7 is a block diagram showing the storm filtration structure using the monthly inflow portion of the prefabricated rainwater storage tank according to the present invention.
Figure 8 is a block diagram showing an embodiment provided with a discharge pipe to the inlet portion of the prefabricated rainwater storage tank according to the present invention.
Figure 9 is a block diagram showing an embodiment of a prefabricated rainwater storage tank according to the present invention.
10 is a block diagram showing another embodiment of the prefabricated rainwater storage tank according to the present invention.
Figure 11 is a block diagram showing a state in which the storage space of the prefabricated rainwater storage tank according to the present invention is controlled by a sensor.
12 is a block diagram showing a conventional rainwater storage tank as a whole.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a prefabricated rainwater storage tank, wherein the prefabricated rainwater storage tank is configured to include a storage block 10 and a downstream circulation hole 12 to allow the normal use of the storage tank even during partial repair work by dividing the storage space.

1 to 4 show the storage block and the construction state of the prefabricated rainwater storage tank according to the present invention, the storage space (S) is formed by assembling and connecting a plurality of storage blocks (10), the storage space (S) ) Is rainwater is introduced through the inlet 11 formed on one side, the storage block 10 is provided with a downstream circulation hole 12 at the bottom to communicate with the adjacent storage block 10, the downstream circulation hole ( 12 is opened and closed by the valve 13, it is provided so that the storage space (S) is expanded / contracted by using the storage block 10 selectively.

The storage block 10 is buried in the construction site is completed dig, as shown in Figure 3 to form a storage space (S) in a square or rectangular shape, or "L, T, T depending on the terrain of the construction location "Combinations are possible in irregular shapes, including shapes.

In this case, the inlet 11 may be selectively formed in any one of the plurality of storage blocks 10 or may be individually provided for each storage block 10, and separate to prevent the inflow of foreign substances including soil in the landfill state. It is preferable that a cover is provided.

On the other hand, the storage block 10 is made of concrete or high-strength synthetic resin with excellent durability to support the load of the soil in the buried state on the site and the downstream circulation hole 12 is provided at the bottom.

The downstream circulation hole 12 is for the movement between the storage block 10 is formed through the bottom of the wall adjacent to the bottom surface of the storage block 10 and another downstream circulation hole 12 provided in the adjacent storage block (10) ) Are interlocked with each other. Each adjacent storage block 10 is connected to each other by the downstream circulation hole 12 to form a storage space (S) and is excellent even at a low water level as it is formed through the bottom adjacent to the bottom surface of the storage block (10) The movement is made smoothly.

The downstream circulation hole 12 is opened and closed by the valve 13 to selectively use the storage block 10. The valve 13 provided in the downstream circulation hole 12 is opened and closed by the control unit so that the movement of rainwater is controlled.

At this time, the valve 13 has a simple opening structure and a large opening / closing area, such as a butterfly valve, in order to prevent clogging of the downstream circulation hole 12 due to foreign substances contained in the rainwater and smooth circulation of the rainwater. It is preferable that the easy structure is applied and inserted into the downstream circulation hole 12 while being installed in a separate pipe member to facilitate maintenance in the event of breakage or blockage.

5 shows a state of use of controlling the storage space (S) of the rainwater storage tank by opening and closing the valve (13), the valve 13 connected to the section generated when the leakage of rainwater stored due to partial breakage of the rainwater storage tank ) To partially isolate the storage space (S) to prevent the outflow of water to the damaged section and to maintain normal operation of the rainwater storage tank other than the isolation section. Become.

At this time, each of the storage block 10 is provided with a transfer pipe (P1) connected to the pump (P) as shown in Figure 6a to 6b, it is possible to discharge the rainwater stored in each storage block 10 independently It is provided. The transfer pipe (P1) may be separately provided with a pump (P) to operate independently for each storage block 10, each transfer pipe (P1) as shown in Figure 6a for the convenience of cost reduction and maintenance To each other and then operate the on-off valve (v1) provided in the transfer pipe (P1) to open and close the transfer pipe (P1) independently by using a single pump (P) to separate rainwater from the plurality of storage blocks (10) It is desirable to be discharged to.

Therefore, when partial repair is required due to breakage of the storage block 10 as described above, the valve v of the remaining transport pipe P1 except for the transport pipe P1 connected to the damaged storage block 10 is blocked. It is possible to discharge only the rainwater stored in the breakage block 10 to be able to quickly repair.

For reference, the rainwater discharge structure using a single pump (P) is difficult to achieve the normal rainwater discharge of the transfer pipe far from the pump due to the increase in the volume of the transfer pipe (P1) when the construction length of the storage block 10 is long. Since there is a problem, it is provided with a separate auxiliary valve (v2) for dividing the feed pipe (P1) at a predetermined distance as shown in Figure 6b to adjust so that the volume of the feed pipe does not exceed the effective output range of the pump (P) desirable. At this time, if a separate pump (P) is installed for each divided section, there is an effect that can be discharged more quickly.

The valve 13, the pump P, and the transfer pipe P1 are controlled by an external control device provided separately, and the external control device includes a water level sensor installed separately in each storage block 13. Receiving a signal from the same sensing means can automatically control the operation of the valve 13 and the pump, this control structure is a conventional one, so the detailed description is omitted.

On the other hand, the storage block 10 is formed on the upper end of the circulation circulation hole 15 to communicate with the adjacent storage block (10). As shown in FIG. 7, the overflow circulation hole 15 is provided at the upper end of the wall of the storage block 10 and is selectively used with the downstream circulation hole 12. The downstream circulation hole is formed by the valve 13 described above. (12) is blocked so that the foreign matter contained in the rainwater flowing into the storage space (S) in the state in which each storage block (10) is partitioned is precipitated to the bottom of the storage space (S), only the rainwater is separated foreign matters Through the overflow circulation hole (15) to the adjacent storage block 10 to filter the sediment is to be made of rainwater flowing into the storage space (S) is stored in a purified state it is easy to recycle the stored rainwater. For reference, FIGS. 1 to 4 illustrate a state in which the upper end of the wall of the storage block 10 is cut as an embodiment of the overflow circulation hole 15, but is not limited thereto and may be formed as a circular or polygonal through hole.

The downstream guide pipe 16 selectively bent downward is installed on the overflow circulation hole 15 so that rainwater flowing through the overflow circulation hole 15 is circulated through the bottom of the storage block 10.

The downstream guide tube 16 is installed on the overflow circulation hole 15 formed at the edge of the storage block 10 forming the initial excellent purification zone, the storage block constituting the initial excellent purification zone as shown in FIG. As the rainwater flowing through the monthly circulation hole 15 of (10) is transferred to the bottom surface of the adjacent storage block 10 through the downstream guide pipe 16, the rainwater flows in via the bottom of the storage space S. It is circulated and prevents the accumulation of sediment at the bottom of the storage space and mixes the stored rainwater so that the oxygen supply is smooth, so that the natural purification function is performed to prevent the accumulation of sediment, thereby preventing the accumulation of foreign matter deposited on the inner wall of the storage block 10. Regular cleaning for removal can be reduced.

Figure 9 shows an embodiment of the storm storage tank according to the present invention, 1 to 8 of the storage block 10 is set to the initial storm water purification space (S1), and constitutes an initial storm water purification space (S1) The circulating holes 12 adjacent to each other of the storage blocks 10 are provided to be closed so that the rainwater overflows through the overflow circulation hole 15. Looking at the operation state with reference to the drawings, each of the storage block 10 adjacent to the inlet 11, the downstream circulation hole 12 is closed in the process of flowing to the adjacent storage block 10 through the overflow circulation hole 15 Separation of rainwater and sediment deposited on the bottom of the storage space is achieved. At this time, the rainwater that is filtered through the first storage block 10 and a plurality of storage blocks 10 adjacent to each other repeatedly is introduced into the storage space (S) connected to each other via the above-described downstream guide pipe (16). Is stored for reuse.

At this time, the wall circulation hole 15 is provided with a filter member (15a). The filter member 15a is formed in a structure such as a screen filter, an aggregate filling filter, and an ocher ball so as not to reduce the flow of rainwater. The filter member 15a is attached to the inner surface of the wall so that floating foreign matters that do not settle in the storage space S are overflowed. Through 15 blocks the passage to the adjacent storage block (10).

The management hole 21 is selectively provided on the plurality of storage blocks 10 forming the storage space S. The management hole 21 is provided in the cover 20 formed integrally or detachably with the storage block 10 for maintenance of the storage block 10 and exposed to the outside, and is individually installed for each storage block 10. It can be installed or divided one per two to four, and separate openings such as manholes are attached to the storage space (S) to prevent direct entry of foreign matter, including earth and sand. As the management hole 21 is provided, it is possible for the manager to directly enter the respective storage blocks 10 and easily perform internal damage inspection and repair. For reference, the management hole 21 may be used for the purpose of replacing the inlet 11 in addition to the above-described maintenance purposes.

In addition, as an embodiment of the construction according to the present invention, the storage space (S) is constructed around the river or river, the water gate 10a is formed so that one side of the storage block 10 is connected to the river or river, rainy weather It is equipped to store the blown rainwater.

10 is a view showing a modified use of the prefabricated storage tank according to the present invention according to the above-described configuration, as one side of the prefabricated storage tank is constructed to be in contact with one side of the stream, so that the flow of the stream is directly flowed into the storage tank When rainfall increases in rain or rainy season, and the level of rivers or rivers increases, the rainwater is stored in the storage space S in large quantities to reduce flooding of the rivers. It is discharged by and used as general industrial water, and during the drought period when water is scarce, it is re-discharged to rivers or rivers to help drought.

At this time, the sluice gate (10a) of the prefabricated storage tank is provided with a filter member of the same configuration as the monthly circulation hole 15 to prevent the inflow of foreign substances including earth and sand to filter the foreign substances contained in the flow of water first, the filter The flowing water passing through the member is passed through the overflow circulation hole 15 as in the above-described embodiment, and the foreign matter is stored in a purified state after the second filtration.

On the other hand, as shown in Figure 11, the sensor 10b on the inlet 11 is provided with a control unit for detecting the rainfall inflow amount, and opening and closing the valve 13 on the basis of the rainfall inflow amount to adjust the storage space (S) Is provided. As described above, the storage space S may be adjusted in consideration of the average amount of rain inflow in the initial stage of the present invention, and the storage space S may be adjusted according to the amount of rain inflow during use. It is composed. The detection sensor 11b is provided on the inner wall of the storage block 10 as shown to detect the level of rainwater flowing in. When the water level is reached and reaches 80 to 90% of the initial capacity, the valve 13 is opened. It is further opened to automatically expand the storage space (S). The rainwater flows to the adjacent storage block 10 through the open downstream circulation hole 12, and even if it is additionally introduced while the water level is leveled, overflow of the rainwater is prevented, so that the storage space S is stably expanded. have.

At this time, in addition to the above-described embodiment, the detection sensor 11b may be installed at the rainwater inlet side to calculate the rainwater flow rate per unit area passing through the inlet 11 or to measure the rainwater flow rate such as sensing the increase or decrease of the total weight of the storage space. It is possible to apply variations in various forms.

10: storage block 12: downstream circulation hole
13: valve 15: overflow circulation
15a: filter 16: downstream guide
20: cover 21: management hole
P: Pump P1: Transfer Pipe
S: storage space

Claims (9)

The storage space (S) is formed by assembling and connecting a plurality of storage blocks (10),
The storage space (S) is the rain is introduced through the inlet 11 formed on one side,
The storage block 10 is provided with a downstream circulation hole 12 at the bottom to communicate with the adjacent storage block 10,
The downstream circulation hole 12 is opened and closed by a valve (13), prefabricated rainwater storage tank, characterized in that the storage space (S) is provided to be expanded / contracted by using the storage block (10) selectively. The method of claim 1,
Each storage block 10 is a prefabricated rainwater storage tank, characterized in that the transfer pipe (P1) connected to the pump (P) is installed, so that the rainwater stored in each storage block (10) can be discharged independently. 3. The method according to claim 1 or 2,
The storage block 10 is a prefabricated rainwater storage tank, characterized in that the overflow circulation hole 15 is formed on the upper end so as to communicate with the adjacent storage block (10). The method of claim 3, wherein
The downstream circulation hole 15 is provided with a downstream guide tube 16 bent downward, and the rainwater flowing through the monthly circulation hole 15 is circulated and transported through the bottom of the storage block 10. Prefabricated reservoir tank. The method of claim 3, wherein
One to eight of the storage blocks 10 are set to an initial rainwater purification space S1, and the lower circulation holes 12 adjacent to each other of the storage blocks 10 constituting the initial stormwater purification space S1 are closed. , Prefabricated rainwater storage tank, characterized in that the rainwater is provided to the moon through the circulation hole (15). The method of claim 3, wherein
Prefabricated rainwater storage tank, characterized in that the filter member (15a) is provided in the overflow circulation hole (15). 3. The method according to claim 1 or 2,
Prefabricated rainwater storage tank, characterized in that the management hole 21 is provided in a plurality of storage blocks (10) forming the storage space (S). 3. The method according to claim 1 or 2,
The storage space (S) is constructed around the river or river, the prefabricated rainwater storage tank, characterized in that the water gate (10a) is formed so that one side of the storage block (10) is connected to the river or river. 3. The method according to claim 1 or 2,
Prefabricated rainwater, characterized in that the inlet 11 is provided with a sensor 10b to detect the rainwater inflow amount, and to control the storage space (S) by opening and closing the valve 13 based on the rainwater flow rate Reservoir.

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