KR101039263B1 - The transfer canal of the underground water which flows out - Google Patents

Abstract

The present invention is to transmit the unused outflowing groundwater that is always generated in the subway history to the history adjacent to the river to be discharged to the nearby river, and in the subway tunnel to supply fire extinguishing water for fire suppression in the event of a fire in the subway tunnel The present invention relates to a transport pipeline device for supplying effluent groundwater and supplying fire extinguishing water.

Outflow groundwater, water supply, transfer pipeline, waterproof valve, sewerage, fire extinguishing water supply

Description

The transfer canal of the underground water which flows out}

The present invention is to allow the discharge of unused outflowing groundwater that occurs at all times in the subway history to the catchment of the history adjacent to the river to be discharged to the nearby river, which is installed in the subway tunnel that can supply the fire extinguishing water in the underground tunnel It relates to a transport pipeline device for groundwater and fire extinguishing water.

The underground subway used by citizens is installed underground, so unused groundwater is continuously generated. The groundwater thus generated is treated according to the characteristics of each subway station. For example, where there is a river near the history, it is discharged into the river, or the history is discharged by using the sewer of Seoul.

With reference to FIG. 1, the conventional method of discharging unused effluent groundwater will be described. In FIG. 1 rotated 90 degrees counterclockwise, the left side shows the first subway history and the right side shows the second subway history.

That is, a method of discharging unused effluent groundwater in the first subway station and the second subway station in a state in which the inter-station transfer pipe 100 of FIG. 1 is not installed will be described.

On the left side of the first subway station, when the unused outflow groundwater collects in the first collection well 60, the water is extracted using the first drain pump chamber 40 connected to the first collection well 60. It is sent to the sewage transport pipe 15 connected to the first drainage pump chamber 40 to be sent to the sewer (10).

In addition, the second subway station on the right allows discharge of unused outflow groundwater to the river around the second subway station. When some unused outflow groundwater collects in the second collection well 70 of the second subway station, the water is extracted using the second drainage pump chamber 50 connected to the second collection well 70. The water is discharged to a nearby river discharge conduit 20 through a stream discharge transport pipe 25 connected to the second drainage pump chamber 50, and discharged to a stream near the second subway station.

However, from April 2007, the Seoul Metropolitan Government will charge a sewerage system fee for unused groundwater that is discarded by using the sewerage system. Therefore, a huge amount of sewage system usage fee will be generated. Therefore, the economic burden on the subway station and the business operating the subway using the sewerage increases.

The unused effluent groundwater naturally occurs at all times, and the amount of generation of sewage may not be artificially controlled.

The unused outflowing groundwater can be discharged directly into the river because it is unused water, but there is a problem that can not be directly discharged in the case of the subway station located far from the river.

In addition, there is a method of establishing other pipelines in the ground portion to discharge the unused outflow groundwater, but there is a problem in that it costs a lot because the road or excavated pipelines need to be buried.

In addition, since the unused outflowing groundwater is not used, it can be used as public water or building water (toilet washing water), etc., and it is not appropriate to discharge the waste water as it is in terms of recycling of resources.

The present invention is to solve the above problems,

It is an object of the present invention to provide a system for transporting effluent groundwater installed in a subway tunnel that can reduce the cost of discharging unused effluent groundwater generated in subway history to sewerage.

In addition, since the unused outflow groundwater is unused water, there is an advantage that can be used as public water and general building water separated from the general household sewage.

In addition, the present invention is to provide a effluent groundwater transport pipe system for transmitting the unused outflowing groundwater of relatively good water quality to the subway station adjacent to the river, to be discharged to the nearby river to prevent the drying of the river. do.

In addition, it is an object of the present invention to provide a transport pipeline for the outflowing groundwater to supply the fire extinguishing water through the connected waterway in the ventilation opening of the main line in case of emergency, such as a fire in the tunnel tunnel.

In order to achieve the above object, the present invention, in order to recycle the groundwater flowing out of the subway history, connected to the drain pump room of the first subway station and the second subway station in the tunnel in which the subway is going, 2 relates to a transport pipeline device for outflowing groundwater, characterized by transporting the groundwater in the subway station.

In addition, for the suppression of fire in the event of a fire in the subway tunnel, it is provided in the main line ventilation openings connected to the ground and may further comprise a connecting water inlet for receiving the fire extinguishing water from the ground and to be delivered to the transport pipe.

In addition, the transfer pipe is provided with an intermediate valve provided at regular intervals to control the extinguishing water, and a device for connecting a plurality of waterproof valves and the fire hose at regular intervals between the adjacent intermediate valves and the extinguishing water It may be configured to further include a fire suppression hose to be discharged to the place where the fire occurred.

The intermediate valve may be provided at intervals of 200 meters, and the waterproof valve may be provided at intervals of 50 meters.

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The present invention having the above configuration,

As the underground station is installed underground, it is possible to reduce the cost of discharging unused outflow sewage into the sewer.

In addition, since the unused effluent groundwater is not discharged to sewage, it can be separated from general living sewage and used as public water and general building water, thereby reducing the recycling of underground resources.

In addition, by discharging the unused outflow groundwater to the river, it is possible to prevent the drying of the river, and contribute to the creation and improvement of the river environment.

In addition, by installing the transport pipe for transporting the unused outflow groundwater in the tunnel in which the subway is running, there is an effect that can be installed at a low installation cost. In particular, when a fire occurs in the tunnel by using the transport pipe installed in the tunnel, the fire extinguishing effect is possible in the tunnel through a waterproof valve installed at regular intervals by supplying fire extinguishing water through a connected water inlet in the main air vent. There is.

Hereinafter, the configuration and method of the present invention will be described with reference to the embodiments illustrated in the accompanying drawings.

1 is a view showing a state in which the transport pipeline device for outflow groundwater according to the present invention is connected to the drain pump chamber of the first subway station and the second subway station.

Conventionally, unused effluent groundwater is discharged to sewage or nearby river discharge pipelines by using a sump well, a drainage pump chamber, and a sewage transfer pipeline separately in each history.

The present invention provides an unused outflow groundwater of the subway station which is discharged to the sewer by installing a transfer pipeline 100 of underground water between the stations that connects the drain pump chambers 40 and 50 separately installed in each station as described above. The groundwater is to be transferred to the subway station discharged to the nearby river. Therefore, when the unused outflow groundwater is transferred to the subway station discharged to the nearby river, the unused outflow groundwater is discharged to the neighboring river, thereby reducing the sewage fee.

The present invention is connected to the drain pump chamber (40, 50) of the first subway station and the second subway station history, to transfer the underground pipeline groundwater transfer pipe 100 for transferring unused outflow groundwater from the first subway station to the second subway station. It is a conveying pipeline device for containing outflow groundwater.

The underground pipeline transfer pipe 100 is provided in a subway tunnel in which the subway goes to recycle underground water flowing out of the subway station, and connects the drain pump rooms 40 and 50 of the first subway station and the second subway station. It is provided to.

In other words, the underground pipe transport route 100 is installed to be fixed to a part of the subway tunnel that the subway, and connects the drain pump chambers 40 and 50 of the first subway station and the second subway station.

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The operation of the present invention will be described with reference to [FIG. 2]. Figure 2 is a view showing in detail the pipeline system for transporting unused outflow groundwater according to the present invention.

The present invention collects the unused outflow ground water flowing out of the first subway station in the first collection well (60), is extracted by using the first drain pump chamber 40 connected to the first collection well (60), It is to be transmitted to the second collection well 70 through the second drain pump chamber 50 of the second subway station through the transport pipe 100 of the interground groundwater.

The unused outflowing groundwater collected in the second collection well 70 is discharged to a stream flowing around the second subway station. That is, when the unused outflow groundwater collects to some extent in the second collection well 70 of the second subway station, water is extracted using the second drainage pump chamber 50 connected to the second collection well 70. The water is discharged by being discharged to a nearby river discharge conduit 20 through a stream discharge transfer conduit 25 connected to the second drainage pump chamber.

The arrow shown in FIG. 2 shows that the unused outflow groundwater collected in the first catchment 60 of the first subway history is transferred to the second catchment 70 of the second subway history.

In addition, the underground pipe transport route 100 connected to the first drainage pump chamber 40 of the first subway station and the second drainage pump room 50 of the second subway station has a fire in a subway tunnel. It is provided in the main line ventilation port 300 connected to the ground to quickly suppress and is connected to the connecting water outlet 120 for receiving the fire extinguishing water to be delivered to the transfer pipe (100).

The connection waterway 120 is connected to the fire engine 200 on the ground to supply fire extinguishing water in the subway tunnel when a fire occurs in the subway tunnel and urgently need to supply fire extinguishing water.

That is, when a fire occurs in the subway tunnel, the fire engine 200 on the ground is connected to the connection waterway 120 provided in the main ventilator 300 to supply fire extinguishing water to the transport pipe 100.

In addition, the transfer pipe 100 is provided with an intermediate valve 110 at regular intervals to control the water for fire extinguishing from the connection waterway 120. The intermediate valve 110 is provided to be equal to the length of a quantity in a subway car, it is preferably provided at intervals of 200 meters.

The intermediate valve 110 allows the fire extinguishing water to be intensively supplied only to the location where the fire occurred when the subway vehicle is in the tunnel between the history and the history.

In addition, a plurality of dogs are provided at regular intervals between the adjacent intermediate valves 110, and a waterproof valve 130 is provided to discharge the extinguishing water to a place where a fire occurs. The waterproof valve 130 is ideally provided at intervals of 50 meters.

The waterproof valve 130 is to be able to extinguish the fire by using the plurality of waterproof valve 130 when it is difficult to specify the location even in the event of a fire caused by the amount of the subway vehicle.

In addition, the waterproof valve 130 is provided with a device (not shown) that can be connected to the fire hose, so that the fire water can be discharged to the place where the fire occurs and connected to the waterproof valve 130 using the device. A fire suppression hose (not shown) is provided.

The operation at the time of fire will be described with reference to [FIG. 3]. 3 is a view showing a state of using the outflow groundwater transport pipeline device in accordance with the present invention in an emergency.

In the event of a fire in a subway tunnel, fire extinguishing water is supplied from the fire truck 200 on the ground into the tunnel through the connection waterway 120 to the transfer pipe 100.

When a fire occurs in the subway tunnel, after stopping the operation of the drainage pump for transporting unused outflow groundwater, the fire engine 300 on the ground is connected to the connection water supply port 120 provided in the main ventilator 300 to extinguish water To supply.

The fire extinguishing water supplied through the connection water port 120 passes the water inside the transfer pipe 100 of the interground groundwater and sends the fire extinguishing water to a place located close to the place where the fire occurred.

In FIG. 3, when a fire occurs between the second and third intermediate valves 110 located to the left from the connecting water port 120, the second intermediate valve 110 is closed to extinguish the fire. Prevent water from being pumped back to the first subway station, and provide fire-fighting water to the location of the fire.

At the same time, the intermediate valve 110, which is located first to the right of the connection waterway 120, is also closed so that the fire water can be supplied intensively to the location where the fire occurred while preventing the fire water from being transferred to the second subway station. To help.

In addition, the fire hose is connected to the waterproof valve 130 provided between the second and third intermediate valve 110 to the left from the connecting water outlet 120 so that the fire water can be discharged into the tunnel. To extinguish the fire. That is, since it is possible to supply fire extinguishing water to the fire place intensively, there is an advantage that can quickly extinguish the fire.

In the foregoing, certain preferred embodiments of the present invention have been shown and described. However, the present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention attached to the claims. will be.

1 is a view showing a state in which the discharge pipeline for outflow groundwater according to the present invention installed between the stations.

Figure 2 is a view showing in detail the pipeline system of the outflow groundwater according to the present invention.

Figure 3 is a view showing a state using the transport pipeline device for outflow groundwater according to the present invention in an emergency.

<Explanation of symbols for main parts of the drawings>

10: sewer 15: sewage transfer pipeline

20: nearby river discharge pipeline 25: river discharge transfer pipeline

40: first drain pump chamber 50: second drain pump chamber

60: first collection modification 70: second collection modification

80: first submersible pump 90: second submersible pump

100: conveying line 110: intermediate valve

120: connection water outlet 300: the main line vent

Claims (5)

It is provided in the subway tunnel for recycling the groundwater flowing out of the subway history, and is connected to the drainage pump room of the first subway station and the second subway station, and transfers the groundwater from the first subway station to the second subway station. ; And In order to extinguish fire in the subway tunnel, it is provided in the main line ventilation port connected to the ground and connected to the transport pipe, the connection water supply port for receiving the fire extinguishing water from the fire truck on the ground and transported to the transport pipe; Transfer pipeline device for the transfer of outflow groundwater and the supply of extinguishing water. delete The method of claim 1, The transfer pipe has an intermediate valve provided at regular intervals to control the extinguishing water, A device is provided for connecting a plurality of waterproof valves and a fire hose at a predetermined interval between the adjacent intermediate valves, and further includes a fire suppression hose to discharge the fire water to a place where a fire has occurred. Transfer pipeline device for the transfer of groundwater and the supply of extinguishing water, characterized in that the outflow. The method of claim 3, wherein The intermediate valve is 200 meters apart, the water-sealing valve is 50 meters apart, characterized in that the transfer pipe system for the transfer of the discharged groundwater and the supply of fire water. delete

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