KR200201256Y1 - A siphon system - Google Patents

Abstract

The siphon-type transfer device of the medium-large building structure underground spring water according to the present invention is a water collecting well, and an arc reservoir is formed at one end of the water collecting well so as to collect the eluted groundwater into the water collecting well and discharges the groundwater. It extends from the crystal and the other end is the siphon main pipe which is extended to the underground sewage tank where the largest amount of effluent is eluted and the suction pipe is bent, and the other end is connected to the siphon main pipe, and the other end is the respective sub underground water tank where the ground water which is eluted from the underground is collected. It consists of a plurality of siphon pipes extending and the suction pipe is bent and having a lower drain surface than the siphon main pipe, the siphon operation valve is installed on the siphon main pipe adjacent to the arc-shaped reservoir pipe and check the air inflow prevention on each ground water tank Each valve is installed and eluted from the underground of a large building or large structure. By using the siphon structure, the groundwater can be pumped quickly and at low cost, thereby reducing the waterproofing and management costs of the underground structure, and the groundwater discharged in large quantities can be used as tap water or heavy water, thereby efficiently using scarce water resources. It is possible to utilize.

Description

Siphon Transfer System for Medium and Large Building Structures Spring Water {a siphon system}

The present invention relates to a siphonic transfer device for underground large-scale construction structures that can be used as a water resource such as tap water or heavy water, which is naturally leached from the basement of a large building or large structure. Underground water discharged naturally from the underground structure of large structures is transported and stored in a single collection tank with no power, filtered by the primary filtration tank, and transferred to a water storage tank to be used as water supply or heavy water. It is possible to use efficiently, and the waterproofing cost and maintenance cost of large buildings to prevent leakage by underground leaching water are reduced, and the waterproofing is effectively applied to the underground spring water for medium and large building structures, which extends the service life of the building. It relates to a siphon type transfer device.

In general, a large building or a large structure is excavated by a few ten meters of underground, so a large amount of groundwater is eluted from the basement, and this discharged groundwater is mostly lifted by a motor pump and discharged directly into the sewer so that relatively clean groundwater is discharged. The situation is wasted without any use. However, on the planet, there are many countries that are in starvation or great difficulty due to the depletion of water resources, and the water resources are depleted all over the world, and Korea is also classified as a water shortage country for many years. There is a situation.

The purpose of the present invention is to solve this problem, and it is possible to quickly pump the groundwater eluted from the basement of a large building or a large structure using a siphon structure at a low cost, so that the waterproofing and management costs of the underground structure are reduced. It is to provide a siphonic transfer device for the medium-large building structure underground leaching water which can efficiently utilize the scarce water resources because the reduced and large amount of groundwater can be used as tap water or heavy water.

This object of the present invention is to form a catchment well located in the lowest place so that the drop has a large potential energy, and an arc-shaped reservoir which is located in the catchment well to discharge the groundwater to the catch well and discharges groundwater And the other end of the siphon main tube extending to the well-known sewage tank in which the largest amount of elution water is eluted and the suction pipe is bent, and the first end is in communication with the siphon main tube, and the other end collects groundwater which is eluted from the basement. The suction pipe is bent and formed into a plurality of siphon pipes having a drainage surface lower than the siphon main pipe, and a siphon operation valve is installed adjacent to the arc-shaped reservoir pipe on the siphon main pipe. Medium-large gun according to the present invention, each having an inflow check valve It is achieved by the siphon type conveying device of the football water underground.

With reference to the accompanying drawings, the siphon-type transfer device of the medium-large building structure underground spring water according to the present invention will be clearly understood its features and advantages by the embodiments described below.

1 is a schematic diagram of a siphon-type transfer apparatus for underground large-scale building structure spring water according to an embodiment of the present invention

FIG. 2 is a schematic longitudinal sectional view taken along line I-I of FIG.

Figure 3 is a schematic longitudinal sectional view of the underground reservoir.

Explanation of symbols on the main parts of the drawings

1. Sumphouse 2. Siphon Main Building

3,3 '. Groundwater Tank 4. Siphon Tube

5. Check Valve 6. Filtration System

7. Water reservoir 21. Arc reservoir

22,41. Suction line 23 siphon operated valve

31. Branch pipe 32. Guide pipe

The siphon-type transfer device (A) of the medium-large building structure underground spring water according to an embodiment of the present invention is a water collecting well (1) located at the lowest place so that the drop has a large potential energy, and the eluted groundwater One end is located in the sump (1) to collect water (1) is formed arc-shaped reservoir pipe 21 is discharged from the ground water and extends from the sump (1), the other end of the underground where the largest amount of effluent is eluted The siphon main pipe 2 extending into the well-known sewage tank 3 and the suction pipe 22 is bent, and one end of the siphon main pipe 2 is connected to the siphon main pipe 2, and the other subground water tank 3 collects groundwater eluted from the basement. ') And the suction tube 41 is bent and formed of a plurality of siphon tube (4) having a drain surface lower than the siphon main tube (2), on the siphon main tube (2) the arc reservoir (21) The siphon actuation valve 23 is installed adjacent to the Each of the ground water tank (3, 3 ') formed on the air inflow preventing check valve (5) can be respectively installed.

The level of the sump (1) is located at a position slightly lower than the lower ground floor of the building structure so as to have a large potential energy of dropping to enable the siphon operation. The diameter of the siphon tube 4 is formed to be at least two times smaller than the diameter of the siphon main tube 2 so as to cause the siphon operation, and the arc-shaped reservoir tube 21 is larger than the diameter of the siphon main tube 2. Use piping to facilitate the discharge of eluate. The distal end of the arc-shaped reservoir tube 21 is curved in a semi-circular shape to flow out the air in the siphon main pipe to the outside and block the inflow of external air. The drainage surface of the siphon tube 4 is located lower than the drainage surface of the siphon main tube 2 and functions as a siphon-inducing tube. In the lower part of the ground water tank (3, 3 '), the eluate is collected through the induction pipe (32) attached to the left and right directions of the branch pipe (31) in which a plurality of holes in each direction are drilled. The siphon operation valve 23 fills the water in the siphon main pipe 2 until the siphon operation is induced to cause the siphon operation. The check valve 5 installed at the lower ends of the suction pipes 22 and 41 of the siphon main pipe 2 and the siphon pipe 4 has a water level lower than a certain water level so as to facilitate siphon induction when the siphon is reactivated. It is closed to prevent the ingress of air and to open when the water level rises. Siphon transfer device (A) according to the present invention having such a structure is a filtration device (6) for filtering the groundwater supplied from the sump (1), and the groundwater filtered by the filtration device and stores the tap water or It is transferred to a water reservoir (7) for dispensing where it is needed for use as a heavy water.

The siphon-type transfer device (A) of the medium-large building structure underground spring water according to the present invention having such a configuration locks the siphon operation valve 23 installed on the siphon main pipe 2 to induce siphon operation. In this way, if the eluted water is filled in the underground reservoir 3 'with the siphon operation valve 23 locked, the siphon main pipe 2 is filled while the elution water flows through the siphon tube 4. When the siphon main pipe 2 is filled with the elution water and the elution water passes through the suction pipe 22 of the siphon main pipe 2, the siphon operation can be induced. When the siphon operation valve 23 is opened, the siphon main pipe 2 is filled. Elution water is discharged to the outside through the arc reservoir 21, and thus induces siphon operation. Elution water filled in each underground reservoir 3, 3 'is collected into the sump 1 through the siphon main pipe 2. Therefore, the leaching water eluted from the basement of the building will be quickly collected into the sump. In this way, if a certain amount of the discharged water is discharged and the storage volume of each of the underground reservoirs 3, 3 'is kept below a certain level, the check valve 5 is blocked to prevent the inflow of air through the suction pipes 22 and 41 and the underground reservoir The siphon operation is stopped until the amount of effluent is collected, and the siphon operation valve 23 is locked again. When the amount of the effluent is collected, the effluent is filled back into the siphon main pipe 2 through the siphon tube 4. Thereafter, the siphon operation is caused again in the above-described manner. A feature of the present design is that the siphon tube 4 has a function of inducing tube which is connected to the siphon main tube 2 to siphon induction as the diameter is at least 1/2 or less than the diameter of the siphon main tube.

Thus, the effluent collected in the sump (1) is transferred to the filtration device (6), and the effluent filtered through the filtration device (6) is transferred to a reservoir used as a water or heavy water so that it can be used as water or heavy water. It will be used as water.

In the present embodiment, the siphon type transfer device for transferring the underground leaching water of one building has been described, but the present invention is not limited thereto, and underground reservoirs are formed in the basement of several building structures and connected to one siphon main building. Of course, the number transfer key can also be used.

As described above, the siphon-type transfer device for underground large-sized building structure water discharged according to the present invention includes a sump and an arc reservoir in which the groundwater is discharged at one end of the sump to collect the eluted groundwater into the sump. And the other end of the siphon main tube extending to the well-known sewage tank in which the largest amount of elution water is eluted and the suction pipe is bent, and the first end is in communication with the siphon main tube, and the other end collects groundwater which is eluted from the basement. The suction pipe is bent and formed into a plurality of siphon pipes having a drainage surface lower than the siphon main pipe, and a siphon operation valve is installed adjacent to the arc-shaped reservoir pipe on the siphon main pipe. Each inflow check valve is installed to support large buildings or large structures. It is possible to promptly pump the groundwater that is naturally leached out at the low cost by using the siphon structure, thereby reducing the waterproofing and management costs of the underground structure and using the groundwater discharged in large quantities as tap water or heavy water. It is possible to utilize this effectively.

Claims (1)

A water collecting well positioned at the lowest position to have a large potential energy, and an arc reservoir formed at one end of the water collecting well so as to collect the eluted groundwater into the water collecting well and is discharged from the water collecting well. And the other end is extended to the underground sewage tank in which the largest amount of effluent is eluted and the suction pipe is bent, and one end is connected to the siphon main pipe, and the other end is extended to each auxiliary underground water tank where the groundwater eluted from the underground is collected. This siphon is formed of a plurality of siphon tube having a drainage surface lower than the siphon main pipe, the siphon main pipe is installed adjacent to the arc-shaped reservoir pipe on the siphon main pipe, each of the ground water tank has a check valve for preventing the air inflow Underground water for medium and large-sized building structures, which are installed Siphon Feeder