WO2016209008A1

WO2016209008A1 - Water transfer apparatus capable of high-pressure discharge

Info

Publication number: WO2016209008A1
Application number: PCT/KR2016/006722
Authority: WO
Inventors: 박춘근
Original assignee: 박춘근
Priority date: 2015-06-25
Filing date: 2016-06-23
Publication date: 2016-12-29
Also published as: CN107912049A; MX2017017103A; EP3315672A1; JP2018520294A; EP3315672A4; KR101631030B1; US20180179740A1

Abstract

The present invention relates to a water transfer apparatus capable of high-pressure discharge, which allows for effectively transferring water to high-rise buildings or remote places which are difficult to supply water, or factories requiring a large amount of water, etc. by discharging water from a water tank at high pressure by means of a plurality of pressurized exhaust apparatuses. That is, the present invention comprises: a water tank in which water is stored; a plurality of pressurized exhaust apparatuses installed inside the water tank; a plurality of exhaust pipes connected to the outlets of the pressurized exhaust apparatuses; a water collection part, connected to the plurality of exhaust pipes, in which joined water is collected at high pressure and which has a shape tapering toward a discharge direction; and a discharge part, installed at the tapered end of the water collection part, through which high-pressure water is discharged, wherein the pressurized exhaust apparatuses comprise: storage parts in which the water in the water tank is held through an inlet port; pressurizing members which exhaust the water in the storage parts toward the outlets; and hydraulic operation parts configured to elevate the pressurizing members.

Description

Water transfer device capable of high pressure discharge

The present invention relates to a water transfer apparatus capable of high pressure discharge, and discharges the water of the tank at a high pressure through a plurality of pressure discharge device to effectively supply water to high-rise buildings or remote places or factories that require a large amount of water. The present invention relates to a water transfer device capable of high pressure discharging.

In general, all liquids, including water, are transferred through a pump, and a water transfer method using such a pump is widely used, and the capacity of the pump is increased according to the amount of water transferred.

However, the conventional pump is a method in which water is transferred while the impeller rotates by a motor therein. In other words, in order to transfer a large amount of water to the destination, a large number of high capacity pumps are used. In addition, in order to transfer the water to a far place there is a problem that the water pressure is insufficient to install a plurality of pumps connected at a predetermined interval on the path to the water is transferred.

In addition, in the conventional pump method, when the high pressure is to be conveyed through a narrow pipe or discharge port, the impeller and the motor may be overwhelmed by the pressure, which may cause a failure, and the impeller does not rotate smoothly as the water pressure increases. There was a problem that the transfer efficiency is lower than the power consumption.

As a related prior art, Patent No. 1439362 (integrated submersible pressure pump device) has an integrated submersible pressure pump device for a control box, an enclosed pressure station, an entrance, a suction pipe, a first connection pipe, a pressure pipe, a second connection pipe, a first discharge pipe, and a drainage pipe. It includes a pump, a second discharge pipe, the pressure pipe is provided with a submersible motor pump to move the fluid.

The prior art is a device for discharging a fluid in an enclosed space, such as a manhole, and the discharge principle is merely a conventional impeller rotation method because it is based on an underwater motor pump. Therefore, there is a limitation of the transfer pressure or the transfer amount of the fluid and there is a problem that such a device must be installed at a certain distance to transfer the fluid to a far distance.

As another prior art, Utility Model No. 467740 (water inline pressurized pump for water supply pressure) includes a first casing in which an impeller is installed, a second casing in which a cooling configuration and a driving unit are installed, and a third casing connected to the second casing. Although a technique for improving cooling efficiency has been proposed, the prior art is also an impeller-type pump, so the supply amount or supply pressure is limited in supplying water.

In order to solve the above problems, a plurality of pressure discharge devices are installed in a water tank, and water discharged from the plurality of pressure discharge devices is collected at a high pressure in a water collecting unit and then discharged, thereby requiring a large amount of water. Its purpose is to be able to supply water in one place and to discharge water at high places by enabling high pressure discharge.

In addition, even if the pressure member is lifted through a plurality of pressure discharge device by suction, discharge the water in the tank to transfer to high pressure, the device does not overdo the purpose of providing a water supply device with high transfer efficiency compared to power consumption.

The present invention is a water tank is stored, a plurality of pressure discharge device is installed in the water tank, the pressure discharge device is a storage unit for receiving the water in the tank through the suction port, and the water contained in the reservoir in the discharge port direction Comprising a pressure member for discharging, and a hydraulic operation unit for allowing the pressure member to move up and down, a plurality of discharge pipes connected to the discharge port of the pressure discharge device, the water joined in connection with the plurality of discharge pipes is collected at a high pressure And a collecting portion having a narrowing shape toward the discharge direction, and a discharge portion installed at a narrow end of the collecting portion to discharge the high pressure water.

In addition, the outlet is blocked when the inlet opening of the reservoir, the outlet is blocked, characterized in that the check valve is installed so that the outlet is open.

In addition, the pressure discharge device is composed of a single set that is connected to a plurality of pressure discharge device in one discharge pipe, it characterized in that the pressure discharge device is arranged to be arranged in front, rear, left and right by further configuring a single set in parallel.

In addition, the plurality of pressurized discharge devices included in the single set may be sequentially pressurized to allow the water in the storage unit to be continuously discharged to the discharge pipe.

In addition, the plurality of pressure transfer member included in the single set is characterized in that composed of at least three or more.

In addition, it is characterized in that it further comprises a recovery passage that is connected to the tank so that water can be introduced from the outside.

According to the present invention, a plurality of pressure discharge devices are installed in a water tank, and water discharged from the plurality of pressure discharge devices is collected at a high pressure in a water collecting unit and then discharged, thereby easily supplying to a factory requiring a large amount of water. There is.

In addition, high pressure discharge is possible, so there is an advantage in that water can be efficiently transported to a high-rise building or a distant place without additional facilities.

In addition, since the pressure member is raised and lowered by a plurality of pressurizing and discharging devices, the suction and discharging process is performed, rather than the conventional impeller rotating method, so that the device does not suffer even if it is transported at high pressure, and transfer efficiency compared to power consumption. This has a high effect.

1 is a view showing the overall configuration of the present invention

Figure 2 is a plan view showing an example in which a plurality of pressure discharge device of the present invention is installed

3 to 4 is a view showing a process in which each of the pressure discharge device is a pressure action sequentially in the set (S) consisting of a plurality of pressure discharge device of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Water transfer apparatus capable of high pressure discharge of the present invention is a water tank 100 is stored as shown in Figures 1 and 2, the pressure discharge device 200 is installed in a plurality in the water tank 100, and the pressure A plurality of discharge pipe line 300 is connected to the discharge port 212 of the discharge device 200, the water collecting unit of the form that is connected to the plurality of discharge pipe line 300 is collected at a high pressure and narrowed toward the discharge direction ( 400, the discharge portion 500 is installed in the narrow end of the water collecting portion 400 is discharged high pressure water,

The pressurized discharge device 200 is pressurized to discharge the water contained in the storage unit 210 and the water contained in the storage unit 210 in the direction of the discharge port 212, the water in the water tank 100 is received through the suction port 211. The member 220 and the pressure member 220 is characterized in that it consists of a hydraulic operation unit 230 so that the lifting operation.

The water tank 100 is installed in a place where a large amount of water (water), such as an intake station, is installed on a relatively large scale so that a large amount of water can be stored, and a plurality of pressurized discharge devices 200 are provided in the water tank 100. It is installed so that a large amount of water stored in the water tank 100 can be discharged under high pressure. In addition, the water tank 100 may be connected to the recovery flow path 600 to replenish the water is introduced from the outside.

The pressurized discharge device 200 is composed of a storage unit 210, a pressurizing member 220, the hydraulic operation unit 230 is a device for sucking and discharging water in a cylindrical manner, the hydraulic operation unit 230 is a water tank 100 is fixed to the upper reciprocating movement is made by the hydraulic pressure supplied through the hydraulic motor is installed separately, the pressing member 220 is in a state in which water is sucked into the storage unit 210 in close contact in the storage unit 210 Or the lifting operation so as to be discharged to the discharge pipe line 300, the storage unit 210 is fixedly spaced apart from the bottom of the tank 100 so as to be submerged in the water of the tank 100, the storage unit ( An inlet 211 is formed at the lower portion of the 210, so that water is directly introduced into the storage 210 to be temporarily received and discharged to the outlet 212.

The storage unit 210 of the present invention is not directly connected to the water tank 100 by a separate pipe, as it is directly installed in the water tank 100 as described above, when the water is sucked through the pressure member 220 tank Water of (100) can be quickly introduced and filled and to simplify the installation structure. In addition, the storage unit 210 is installed in a form submerged in water so that the water of the water tank 100 can be directly introduced, the hydraulic operation unit 230 that is substantially pressurized by the hydraulic pressure of the water tank 100 Since it is fixed outside the water, there is no problem of water failure.

In addition, the inlet port 211 and the outlet port 212 of the storage unit 210 is provided with a check valve 240, respectively, the outlet port 212 is blocked when opened, the outlet port 212 when the inlet port 211 is blocked. Should be opened. The check valve 240 is to be the opposite direction to each other blocking direction so that the intake and discharge process can be made smoothly alternately.

Figure 2 shows an embodiment in which a plurality of pressure discharge device 200 is installed in the present invention, the pressure discharge device 200 is a plurality of pressure discharge device 200 is connected to one discharge pipe (300) Composed of a single set (S), the single set (S) further configured in parallel may be installed so that the pressure discharge device 200 is arranged in front, rear, left and right. That is, the discharge pipe line 300 connected to each of the plurality of sets (S) is connected to one water collecting unit 400 is to join a large amount of water is collected at high pressure.

As shown in FIGS. 3 to 4, the plurality of pressurized discharge devices 200 connected to one discharge line 300 constituting the single set S are sequentially pressurized to provide water in the storage unit 210. It can be continuously discharged to the discharge pipe (300). If the pressing member 220 of the pressure discharge device 200 connected to the one discharge pipe line 300 is made in the same position at the same time as the lifting operation, the suction and discharge operation is made at the same time can not be discharged continuously As it occurs, the pressurizing action of the pressure discharge device is sequentially discharged at a constant pressure.

In addition, the plurality of pressure discharge device 200 included in the single set (S) is preferably composed of at least three or more, which is composed of two pressure discharge device 200 is discharged continuously by crossing the lifting direction with each other At least three or more may be installed in order to minimize the delay time because a slight delay occurs at the end of the suction and discharge of each other.

The water collecting unit 400 of the present invention is connected to the plurality of discharge pipes 300 to be collected at a high pressure and become narrower toward the discharge direction, so that water is discharged at a high pressure through the discharge unit 500 so that a large amount of water is discharged. It is easy to transport the water to a distant place.

Referring to the operation of the high-pressure discharging water transfer apparatus according to this embodiment is configured as follows.

As shown in FIG. 1, when the water stored in the water tank 100 is filled in the storage unit 210 through the suction port 211 of the pressure discharge device 200, the hydraulic operation unit 230 is used to transfer water. The pressure member 220 is lowered through the pressure member 220 while the pressure member 220 is pushed down to the outlet 212 in a state in close contact with the inner wall of the storage unit 210 while being lowered and discharge pipe 300 connected to the rear end of the outlet 212. To be discharged. At the time of discharge, the inlet 211 is blocked by the check valve 240 and the check valve 240 of the outlet 212 is in an open state.

As described above, when the pressure member 220 reaches the bottom of the storage unit 210 and all the water in the storage unit 210 is discharged, the pressure member 220 in close contact with the water rises again while the pressure member 220 rises again. Through the storage unit 210 is filled. At this time, the check valve 240 of the inlet 211 is opened and the check valve 240 of the outlet part is closed and closed. As described above, the pressing member 220 performs the reciprocating motion so that the water in the water tank 100 can be collected into the water collecting part 400 along the discharge pipe 300. The pressurized discharge device 200 in which such reciprocation is performed is installed in plurality in the water tank 100 so that a large amount of water can be transferred.

In addition, the plurality of pressure discharge device 200 is made of a single set (S) consisting of three or more as shown in Figure 2 and the discharge port 212 of the pressure discharge device 200 included in such a set (S) Is communicated with a single discharge pipe line 300, the set (S) is installed in four more places in parallel, the pressurized discharge device 200 is finally installed to be arranged back and forth, left and right, a plurality of connected to each set (S) The discharge passage 300 is to be connected to the collecting unit 400.

And the pressure discharge device 200 included in the set (S) is sequentially pressurized as shown in Figures 3 to 4 so that the water in the storage unit 210 can be continuously discharged to the discharge pipe (300) do. That is, the plurality of discharge pipes 300 are all discharged in a state in which the water is moved to a constant pressure to be collected at high pressure in the water collecting unit 400 and further increased through the water collecting unit 400 of a narrowing shape toward the discharge direction. 500 will be discharged.

In addition, the water level sensor is installed at a predetermined height to allow the external water to be replenished to the water tank 100 through the recovery flow path 600 and to prevent the water from overflowing or lacking in the water tank 100. It is possible to control the water replenished through the recovery flow path (600).

The present invention made as described above can transfer a large amount of water that can not be implemented by a pump made of a conventional impeller method at a high pressure, it can be referred to as a technology of high transfer efficiency of water to power.

In the above, the present invention has been described with reference to the above embodiments, but various modifications are possible within the technical scope of the present invention.

Claims

Water tank 100 in which water is stored,

The pressure discharge device 200 is installed in the water tank 100,

The pressurized discharge device 200 is pressurized to discharge the water contained in the storage unit 210 and the water contained in the storage unit 210 in the direction of the discharge port 212, the water in the water tank 100 is received through the suction port 211. The member 220 and the hydraulic member 230 is configured to allow the pressing member 220 to move up and down, but the storage unit 210 is a water tank 100 to be submerged in the water of the tank 100. Is fixedly spaced apart from the bottom of the), the hydraulic operation unit 230 is fixedly installed outside the water of the tank 100,

A plurality of discharge pipe line 300 is connected to the outlet 212 of the pressure discharge device 200,

The water collecting part 400 connected to the plurality of discharge pipes 300 is collected at high pressure and narrowed toward the discharge direction.

It is installed in the narrowed end of the water collecting unit 400 is made of a discharge unit 500 for discharging high pressure water,

The pressure discharge device 200 is composed of a single set (S) is connected to a plurality of pressure discharge device 200 to one discharge pipe 300, a single set (S) further configured in parallel to the pressure discharge device While the 200 is installed to be arranged in front, rear, left and right,

The plurality of pressurized discharge devices 200 included in the single set (S) are pressurized sequentially so that the water of the storage unit 210 can be continuously discharged to the discharge pipe line 300. Water feeder
The method of claim 1,

A plurality of pressurized discharge device 200 included in the single set (S) is a high-pressure dispensing water transfer device, characterized in that consisting of at least three or more
The method of claim 1,

The high-pressure discharging water transfer device is characterized in that it further comprises a recovery flow path 600 is connected to the water tank 100 so that water can be introduced from the outside.