KR20110126093A - Siphon - Google Patents

Abstract

PURPOSE: A non-power siphon hold unit is provided to stably maintain the siphon without a separate external power and sub facility using a siphon principle even if the water is not provided. CONSTITUTION: A non-power siphon hold unit comprises a siphon portion(30), a U-shaped control pipe(40), a water level control pipe(41) and a discharge guide pipe(42). The siphon portion comprises a horizontal pipe(32), an inflow pipe(31) and an outflow pipe(33). In the U-shaped control pipe, one side is respectively combined in the bottom of the inflow pipe and inlet tube and the other side is opened. The water level control pipe is connected to the opened other side of the U-shaped control pipe connected to the inflow pipe of the siphon portion and adjusts the length according to the administration water level.

Description

Non-powered siphon retainer {Siphon}

The present invention relates to a siphon for inducing high-level water in a storage facility such as a dam or a beam to the low-level side. The present invention relates to a non-powered siphon holding device which prevents air inflow and prevents water inside the siphon from leaking out to keep the siphon.

Siphon is a phenomenon in which liquid rises to gravity when water or other liquid rises above a certain height. At this time, the liquid rises and falls again due to the cohesive force pulling each other. It can be found representatively in the toilet of. These siphon phenomena can be separated and mixed, liquid movement, small-scale power generation, reservoir level control, etc. without providing a special external power, so the economic scope is increasing in various areas. However, in spite of the economic characteristics of the siphon, the siphon cannot be used because air is introduced into the siphon and the cohesive force of the water is weakened if a fluid such as water is not supplied due to a decrease in the level of the siphon inflow observation.

In order to solve the problem of the siphon as described above, by installing additional auxiliary equipment such as a motor in the inlet pipe of the siphon when the water level of the high water level rises again, the method of regenerating the siphon by forcing the steel material with the motor, or the inlet pipe And additional facilities for the opening and closing of pipelines and storage tanks for level control have been devised, but auxiliary facilities, additional facilities, and storage tanks have increased initial costs, and continuous maintenance and peripheral facilities. There was a problem that you should always be prepared for a malfunction or malfunction.

The present invention is to actively solve the above problems, by using the principle of siphon (Siphon) to guide the water of the high water level to the low water level of the external power or auxiliary equipment even if the water supply is stopped due to the low water level The main purpose of the present invention is to maintain the siphon function by simultaneously blocking the inflow of air into the siphon and the external outflow of the water inside the siphon.

The present invention, in order to solve the above problems, the horizontal pipe 32 constituting the siphon portion 30 and the inlet pipe 31 and the outlet pipe 33 connected to both sides;

One side is coupled to the bottom of the inlet pipe 31 U-shaped control pipe 40;

A non-powered siphon holding device having a U-shaped control pipe 40 coupled to one side at the bottom of the outlet pipe 33 is provided.

According to the non-powered siphon holding device according to the present invention, by installing the U-shaped control pipe 40 at the inlet and outlet of the siphon portion 30, so that the siphon can always be stably maintained even when the water is no longer supplied. It is effective.

In addition, according to the non-powered siphon holding device according to the present invention, by connecting the water level control pipe 41 to the U-type control pipe 40 can easily control the water level of the high water level, there is an effect that water resource management is much easier.

In addition, according to the non-powered siphon holding device according to the present embodiment, since the auxiliary equipment for pumping water is not required to regenerate the siphon, the running cost is low and the economic efficiency can be improved.

In addition, according to the non-powered siphon holding device according to the present embodiment, the inlet and outlet of the siphon portion 30 is exposed to the air to prevent the phenomenon that the air flows into the siphon additional facilities and storage for opening and closing the inlet and outlet No need for a tank, so simple configuration makes maintenance easy.

1 is a perspective view showing a first embodiment of a non-powered siphon holding device to which the present invention is applied
2 is a perspective view of a non-powered siphon holding device
3 is a perspective view showing the concept of a non-powered siphon holding device
Figure 4 is a perspective view showing a second embodiment of the non-power siphon holding device to which the present invention is applied

The technical scope of the present invention should be determined based on the description of the claims, and is not limited to the following examples. In description of drawing, the same code | symbol is attached | subjected to the same element, and the overlapping description is abbreviate | omitted.

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

3 is a perspective view for explaining the concept of the non-power siphon holding device, the test tube 60 filled with water in the water tank 63 in which water is stored upside down, and the entrance of the test tube 60 to the water of the tank 63 When submerged in the water tank 63, due to the atmospheric pressure acting on the surface of the water tank 63 and the cohesive force of the water inside the test tube 60, the height of the water inside the test tube 60 does not change until the height of about 10 m. Likewise, when the two inlets of the U-shaped tube 61 are simultaneously immersed in the water of the water tank 63 like the test tube 60 while the U-shaped tube 61 is filled with water, U due to the atmospheric pressure and the cohesion force of the water The water level inside the mold pipe 61 also does not change in water height until the height is about 10 m. That is, it can be seen that the water inside does not flow out to the outside unless additional conditions such as external pressure are applied to the stop surface of the same height at which atmospheric pressure acts and the closed tube of about 10 m or less. Therefore, in the case of the W-shaped tube 62 shown in Fig. 3, the same height as in the above-mentioned condition is satisfied, so that when the water filled inside the tube is filled with water, the water does not flow beyond the stop surface, Air does not enter the tube.

Next, the configuration of the present invention described above will be described in detail with reference to the accompanying drawings.

2 is a perspective view of the non-power siphon holding device, the inlet tube 31 and the outlet tube 33 are connected to both sides of the horizontal tube 32 constituting the siphon portion 30, the inlet tube 31 and the outlet tube (33) One side of the U-shaped control tube 40 is coupled to each of the lower end and the other side is opened, the overall shape is a non-power siphon holding device similar to the W-shaped tube 62 of FIG.

Water level control pipe 41 of Figure 2 is connected to the other side of the U-shaped control pipe 40 connected to the siphon part 30, the inlet pipe 31 of the above, adjust the length according to the management level, but water is sucked in Inlet can be added a filtration function such as a wire mesh or filter to prevent blockage by suspended matter.

The discharge induction pipe 42 of Figure 2 is connected to the other open side of the U-shaped control pipe 40 connected to the siphon portion 30, the outlet pipe 33, the angle so as to adjust the flow direction of the outflow water It is preferable to adjust the 90 degree angle as shown in FIG.

The air valve 50 of FIG. 2 is installed on the upper portion of the horizontal tube 32, and is installed to inject air into the tube to emergencyly stop the siphon phenomenon.

The discharge valve 51 of Figure 2 is installed in the lower portion of the U-shaped control pipe 40, the water must be removed in order to prevent damage due to freezing of water, such as in winter or when all the water inside to remove for maintenance It is installed for the case.

Next will be described in detail with reference to the accompanying drawings the operation and operation of the present invention configured as described above.

The general siphon portion 30 is composed of an inlet tube 31, an outlet tube 33 and a horizontal tube 32, the inlet of at least one of the inlet tube 31 and the outlet tube 33 is exposed to the air Since the cohesion of water is disturbed when air is introduced into the air, the siphon phenomenon is no longer generated, and thus the movement of water does not occur due to the water level fluctuation. However, as shown in FIG. 31) and the bottom of each of the outlet pipe 33 by additionally coupled to the U-shaped control tube 40, the stop surface at the inlet of each U-shaped control tube 40 opened as shown in the W-shaped tube 62 of FIG. When the siphon is generated and the inside of the siphon becomes a closed tube from the stop water surface, the inflow of the siphon inside the air through the stop surface of the inlet of the U-shaped control pipe 40 and the outflow of the water inside the siphon are not generated, thereby achieving a non-powered siphon holding device. In this state, the water level on the inlet pipe 31 side When the water level is higher than the outlet pipe 33 side, the flow of water occurs to the outlet pipe 33 side, it is possible to control the power generation and water level using this flow.

1 is a perspective view showing a first embodiment of a non-powered siphon holding device according to the present invention, the overall configuration is schematically shown in FIG. 1 and the non-powered siphon holding device and siphon of FIG. It can be seen that the generator unit 20 installed in the horizontal tube 32 of the unit 30 is organically coupled.

The prosthesis portion 10 has a plurality of catches 14 for introducing water into the beam to maintain the water of the high water level in the management level and the inside of the prosthesis portion 10 to store the collected water. The reservoir 11 configured, a plurality of partitions 16 to trap sediment of water stored in the reservoir 11, an inner wall 17 separating the reservoir 11 and the management tube 12, and the reservoir It consists of a plurality of drain holes 15 to maintain the same level of the water level and the management wing 12, and a plurality of maintenance holes 13 installed on the upper portion of the beam for maintenance.

In the first embodiment of FIG. 1, the power generation sequence is such that water at the high water level is stored in the reservoir 11 through the catch 14 of the prosthesis portion 10, and the water level of the water stored in the reservoir 11 is controlled. When the water rises above the inlet of the pipe 41, the water passes through the U-shaped control pipe 40 through the water level control pipe 41, passes through the inlet pipe 31, and passes through the horizontal pipe 32. Through the power generation portion, such as the outlet pipe 33, the U-shaped control pipe 40 passes through the discharge induction pipe 42 to the low water level side is the development of the first embodiment is made. At this time, the size of the catch 14 is preferably configured to be smaller than the diameter of the water level control pipe 41 and the U-shaped control pipe 40 to be suspended in advance. In addition, it is preferable to install the partition wall 16 to submerge the suspended matter contained in the water stored in the reservoir 11. In addition, it is preferable to provide the inner wall 17 so that the water of the reservoir 11 does not escape directly to the reservoir level through the management cavity 12. In addition, it is preferable that the management dong 12 has an effect of increasing the internal self weight of the prosthesis 10 by maintaining the water level and the same water level by installing the drain port 15.

4 is a perspective view showing a second embodiment of the non-power siphon holding device according to the present invention, the inner wall 17 of the beam structure portion 10 of FIG. 1 and the non-power siphon holding device and siphon portion 30 of FIG. It can be seen that the generator unit 20 installed in the horizontal tube 32 of the organic coupling is made, which shows a preferred method of applying the present invention to the existing installed structure as shown in FIG. The flow of water for power generation through the water level control pipe 41 to the discharge induction pipe 42 is applied in the same manner as in the first embodiment. In this case, the non-powered siphon holding device and the generator unit 20 of FIG.

The generator unit 20 may be installed at any position of the inlet tube 31, the horizontal tube 32, and the outlet tube 33 of the siphon unit 30, but in order to enhance the convenience of installation and maintenance. 1 and 4, it is preferable to install in a horizontal tube, it may be configured as a device that can maintain the sealing effect of the siphon portion (30).

10: beam structure 11: reservoir dong 12: management dong 13: maintenance hall
14 water collecting port 15 drain port 16 bulkhead 17 inner wall
20: generator portion 30: siphon portion 31: inlet tube 32: horizontal tube
33: outflow pipe 40: U type control pipe 41: water level control pipe 42: discharge induction pipe
50: air valve 51: discharge valve 60: test tube 61: U-shaped tube
62: W pipe 63: Tank

Claims (5)

A horizontal tube 32 constituting the siphon portion 30 and an inlet tube 31 and an outlet tube 33 connected to both sides thereof;
One side is coupled to the bottom of the inlet pipe 31 U-shaped control pipe 40;
Non-powered siphon holding device, characterized in that consisting of the U-shaped control pipe 40 is coupled to one side of the bottom of the outlet pipe (33).
The method of claim 1,
Horizontal tube 32 is a non-powered siphon holding device, characterized in that the air valve 50 is coupled to the top.
The method of claim 1,
U-shaped control pipe 40 is a non-power siphon holding device, characterized in that the discharge valve 51 is coupled to the bottom.
The method of claim 1,
Non-powered siphon holding device, characterized in that the other open side of the U-shaped control pipe 40 connected to the inlet pipe 31 is coupled to the water level control pipe (41).
In the first aspect,
Non-powered siphon holding device, characterized in that the other open side of the U-shaped control pipe (40) connected to the outlet pipe 31 is coupled to the discharge induction pipe (42).

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