KR101566915B1 - Siphon Facility having siphon operation initiating unit - Google Patents

Abstract

The present invention relates to a siphon apparatus, and more particularly, to a siphon apparatus for transferring fluid from one side to the other side by a siphon operation, and to a siphon apparatus capable of rapidly transferring a large amount of fluid.
The present invention relates to an air conditioning system for an internal combustion engine, which comprises an inflow section provided in a water source which is high in water to be introduced, a discharge section provided in a discharge port in which the water introduced from the inflow section is discharged, A siphon part including a siphon tube; And a siphon control unit connected to the siphon tube and the atmosphere to control the operation of the siphon tube unit by controlling air suction into the siphon tube.

Description

[0001] Siphon Facility having a Siphon Operation Initiating Unit [

The present invention relates to a siphon apparatus, and more particularly, to a siphon apparatus for transferring fluid from one side to the other side by a siphon operation, and to a siphon apparatus capable of rapidly transferring a large amount of fluid.

A siphon device is a siphon device for transferring a fluid on one side to the other side by a siphon action, which means a device capable of rapidly transferring a large amount of fluid.

Siphon devices are installed in water sources such as reservoirs and dams. When drainage is required due to a rise in water level, siphon devices are used to regulate water levels in reservoirs and dams by discharging water from reservoirs and dams.

The conventional siphon device operates continuously once it is operated by the siphon principle and stops its operation only when the level of the dam, the reservoir, etc. becomes lower than the position of the air inflow hole of the air vent 210.

However, in the conventional siphon device, the operation is stopped only when the water level reaches the position of the air inflow hole of the air vent 210 after the operation, and there is no separate control means for controlling the operation of the siphon device, There is a problem that it is halved.

Also, in the conventional siphon device, when the water level reaches the position of the air inflow hole of the air vent 210 after the operation, and air is sucked through the air inflow hole of the air vent 210, a large noise is generated, Which causes noise pollution.

Meanwhile, the conventional siphon device is designed to operate a siphon in a siphon tube by being designed to overflow the siphon pipe during a high tide, or to operate the siphon in a siphon tube, or to bypass the bypass pipe And a siphon state is formed in the siphon pipe by the flow of the water through the bypass pipe.

However, as the bypass pipe for forced drainage is installed through the embankment, there is a problem that it is impossible to construct the embankment such as a dam or a reservoir already constructed.

Also, when a bypass pipe is installed in a bank or the like such as a dam or a reservoir, there is a problem in that the stability of the bank may be a problem when there is an unexpected accident such as a crack in the vicinity of the bypass pipe.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a siphon device capable of operating drainage through a siphon tube by forcibly forming a siphon state in a siphon tube.

The present invention has been made in order to achieve the above-mentioned object of the present invention, and it is an object of the present invention to provide an air conditioner comprising an inflow part installed in a water source having a high inflow water and a discharge part installed in a drainage And an upper portion extending upward from the inlet portion and a downstream portion extending upwardly from the inlet portion and a downstream portion connecting the inlet portion and the outlet portion and having an inverted 'U' shape and guiding water from the water source to the reservoir A siphon part including a siphon tube; A siphon irrigation closure disposed at the downstream portion to open and close the siphon tube; and a control unit configured to open the siphon irrigation cover to open the siphon irrigation culvert when the water level of the upstream portion is higher than the upper end of the upstream portion, And a siphon induction part for inducing a siphon state in the siphon tube to operate the siphon part by opening the siphon operating part.

The siphon induction unit may include a vacuum forming unit connected to the siphon pipe to suck air in the siphon pipe to form a vacuum state so that the water of the water source through the inlet unit forms the water level of the upstream part higher than the upper end of the upstream part .

Wherein the siphon opening portion extends upward from a portion connected to the siphon tube and the discharge portion and then horizontally or downwardly extended to a notch portion to prevent the notch portion from communicating with the atmosphere from the discharge portion through the siphon tube Some of the tubing can be blocked by the filled water.

The vacuum forming part includes a connection pipe having one end connected to a lower end portion of the transverse section of the sifting pipe and the other end connected to an upper end of a cross section of a sifting pipe of a neighboring sifting device; And a vacuum forming opening / closing valve for operating the neighboring siphon device when the air in the siphon pipe is to be sucked to form a vacuum state, and for opening the connecting pipe.

Wherein the siphon irrigation closure part extends upward from a site connected to the siphon tube and the discharge part and then horizontally or downwardly extended; A notch connection pipe having one end connected to the notch portion and the other end connected to a notch portion of a neighboring siphon device; And a notch opening / closing valve for supplying water from a notch portion of the neighboring siphon device by opening the notch connection pipe when the air in the siphon pipe is to be sucked to form a vacuum state, . ≪ / RTI >

The siphon guide portion may include a pumping portion connected to the siphon tube and supplying water to the siphon tube to form a water level of the upstream portion higher than an upper end of the upstream portion to induce a vacuum.

Wherein the control irrigation closure includes a manual open / close pipe for connecting the atmosphere and the siphon pipe and an open / close valve for manually opening and closing the manual open / close pipe so that the operator can manually stop the rapid stop of the siphon device A manual opening / closing part may be additionally included.

The siphon device according to the present invention can perform forced drainage through a siphon pipe without forming a bypass pipe by forming a vacuum in the siphon pipe or supplying water to the siphon pipe to thereby maximize the utilization of the siphon device have.

Also, the siphon device according to the present invention can be forcedly drained through a siphon pipe without construction of a bypass pipe, and can be applied to an already constructed dam, a reservoir and the like.

Furthermore, since the construction of the bypass pipe is not required at the bank, there is an advantage that the entire construction cost can be remarkably reduced.

Further, the siphon device according to the present invention controls the operation of the siphon device by controlling the air suction to the siphon pipe, so that the operation can be stopped if necessary such as emergency stop, thereby maximizing the utilization of the siphon device There is an advantage to be able to do.

Further, the siphon device according to the present invention controls the suction of air into the siphon pipe, thereby controlling the flow rate discharged by the siphon pipe during operation of the siphon to prevent sudden discharge, There is an advantage that accidental accident can be prevented.

Further, the siphon apparatus according to the present invention further includes a noise reduction unit that can reduce noise generated when air is sucked into the siphon pipe, thereby minimizing noise generated during operation, thereby minimizing noise pollution around the facility .

1 is a conceptual diagram showing a sphin device according to the present invention.
2 is a conceptual diagram showing a modified example of the sphin device of FIG.
3 is a conceptual diagram showing another modification of the sphin device of FIG.
4 is a conceptual diagram showing a part of the siphon apparatus of FIG.

Hereinafter, a sphin device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram showing a sphin device according to the present invention, FIG. 2 is a conceptual view showing a modified example of the sphin device of FIG. 1, FIG. 3 is a conceptual view showing another modified example of the sphin device of FIG. FIG. 4 is a conceptual diagram showing a part of the siphon apparatus of FIG. 1, and FIG. 5A is a sectional view showing an example of a sphin control unit of the sphin apparatus of FIG.

As shown in FIGS. 1 to 4, the siphon device according to the present invention includes an inflow section 110 installed in a water source 10 having a high inflow water, And a siphon pipe 120 connecting the inlet 130 and the outlet 110 to guide the water from the water source 10 to the drainage 20, A siphon bud; And a siphon actuating part for inducing a siphon state in the siphon tube 120 to actuate the siphon part.

The water source 10 refers to a land to which water to be drained, such as a reservoir, a dam, a drainage passage, etc., is poured.

When the water source 10 is a reservoir, a dam, etc., the reservoir 20 can be a reservoir downstream, a dam downstream, and the reservoir 20 can be a water reservoir, In the case of a drainage path, the drainage paper 20 can be a downstream drainage line located at a lower level.

The siphon unit is configured to guide water from the water source 10 to the drainage pond 20 according to a siphon principle.

The inflow section 110 may have various structures such as a reservoir, a dam, or the like, to which the water to be drained flows, such as a front end of the siffon pipe 120, a pipe pipe coupled to the front end of the siffon pipe 120, A dam or the like at a predetermined water level.

The location of the inlet 110 is generally located at an appropriate depth of the water source 10 to facilitate drainage of the water.

The discharge unit 130 is configured to discharge the water discharged from the inflow unit 110 through the siphon pipe 120 to the rear end of the siphon pipe 120 and to the rear end of the siphon pipe 120 And the like.

Particularly, the discharge part 130 can be configured in various ways according to the operation principle of the siphon part, and can be installed so as to be submerged in the water of the drainage paper 20 when water is accumulated in the drainage paper 20.

The siphon pipe 120 may be configured to connect the inflow unit 110 and the discharge unit 130 with various configurations.

The siphon pipe 120 has an inverted 'U' shape extending upward from the inflow portion 110 and extending downwardly in correspondence with a cross-sectional shape of the bank 30 for maintaining the water level in a reservoir, a dam, An upstream portion 121 and an upstream portion 121 extending upward from the inlet portion 110 and connecting the inlet portion 110 and the outlet portion 130 as shown in FIG. RTI ID = 0.0 > 122 < / RTI >

The siphon tube 120 may further include a horizontal portion 123 which is substantially horizontal at a portion connecting the upstream portion 121 and the downstream portion 122.

Meanwhile, the siphon tube 120 may further include a notch 160 extending upwardly from a portion connected to the discharge portion 130 and then horizontally or downwardly extended.

The notch 160 maintains the state of water in the notch 160 to keep the siphon tube 120 isolated from the atmosphere so that the siphon function can be smoothly performed when the siphon is operated .

On the other hand, the siphon unit may be provided with an air vent 210 having an air inflow hole to adjust its operating water level.

1, the air vent 210 is cut off when the pressure in the siphon pipe 120 is lowered when a flow of water (overflow) is generated in the siphon pipe 120 during the high tide of the water source 10 Or when the air inflow hole is located lower than the water level of the water source 10, the inflow of air is blocked so that the siphon section is operated.

In addition, when the water level of the water source 10 is lower than the position of the air inflow hole due to continuous water discharge, air is introduced through the air vent 210, thereby stopping the operation of the siphon.

Here, the air vent 210 can adjust the operation level by changing the installation position of the air inflow hole on the water source 10.

On the other hand, the siphon unit needs to drain water from the water source 10 as needed in addition to the high-water level.

Accordingly, the siphon apparatus according to the present invention includes a siphon operating oil spout for operating the siphon unit by inducing a siphon state in the siphon pipe 120.

The siphon operation inducing unit includes a siphon irrigation unit installed at the downstream part 122 to open and close the siphon pipe 120 and a siphon irrigation unit installed in the downstream part 122 to open and close the siphon pipe 120, And a siphon inducing unit 520 for generating a siphon state from the siphon tube 120 by opening the siphon irrigation shell after the upper end of the siphon tube is formed higher than the upper end of the upstream portion 121.

The siphon induction unit 520 may be configured to induce a siphon state in the siphon tube 120 and may have various configurations.

For example, the siphon induction unit 520 may be connected to a siphon pipe 120 to suck air in the siphon pipe 120 to form a vacuum state, and the pressure of the siphon pipe 120 The water of the water source 10 forms a flow higher than the upper end of the upstream portion 121, that is, the water flows from the upstream portion 121 to the downstream portion 122, Forming portion.

As shown in FIG. 1, the vacuum forming unit may include a connecting pipe 521, a connecting pipe 521, and a connecting pipe 522. The connecting pipe 521 may be formed of any material that can form a vacuum state by sucking air in the siphon pipe 120. [ And a connected vacuum pump 522. On the other hand, the vacuum forming part may be a neighboring siphon tube itself as well as a vacuum pump as described later.

The siphon irrigation closure may be provided in the downstream portion 122 to open and close the siphon pipe 120, and various configurations are possible.

For example, when the siphon induction portion includes a vacuum pump 522, the siphon opening portion may include an opening / closing valve for opening / closing the pipe of the siphon pipe 120 as shown in Fig. 1, As shown in FIG. 2, the irrigation closure may include a notch 160 extending upward from a site connected to the siphon tube 120 and the discharge unit 130, and then horizontally or downwardly extended.

At this time, a portion of the tube should be blocked by the filled water to prevent the notch 160 from communicating with the atmosphere from the discharge part 130 to the sifforer pipe 120.

As shown in FIG. 2, the vacuum forming unit may be provided at a boundary portion between the upstream portion 121 and the downstream portion 122 of the siphon pipe 120, and one end of the vacuum forming portion may be connected to the lower end of the cross section of the siphon pipe 120 And a connection pipe 531 connected to the upper end of the transverse section of the siphon pipe 120 of the adjacent siphon device. And a vacuum forming opening / closing valve 532 for operating the neighboring siphon device and opening the connecting pipe 531 when the air in the siphon pipe 120 is to be sucked to form a vacuum state.

As described above, for example, the siphon irrigation closure may include an opening / closing valve for opening / closing the pipe of the siphon pipe 120, or the siphon induction part may include a vacuum pump 522 The siphon irrigation closure part may extend upward from a portion connected to the siphon pipe 120 and the discharge part 130 and then extend horizontally or downwardly and may be formed as a notch part 160.

The notch connecting pipe 161 has one end connected to the notch 160 and the other end connected to the notch 160 of the adjacent siphon device. When the air in the siphon pipe 120 is to be sucked to form a vacuum state, the neighboring siphon device is operated and the notch connection pipe 161 is opened to draw water from the notch 160 of the neighboring siphon device And a notch opening / closing valve 162 that is supplied.

3, the siphon guide portion may be connected to the siphon pipe 120 to supply water to the downstream portion 122 of the siphon pipe 120, And a pump unit 540 which is higher than the upper end of the lower part 121 and higher than the lowermost part of the connected part of the upstream part 121 and the downstream part 122 to induce the vacuum.

The pumping unit 540 may be any structure as long as it can supply water to the siphon pipe 120. For example, the pump unit 540 may include a pump for sucking water from the water source 10 and supplying the water to the siphon pipe 120 .

The siphon apparatus according to the present invention may further include a siphon control unit for controlling the operation of the siphon tube unit by controlling air suction to the siphon tube 120 by connecting the siphon tube 120 and the atmosphere.

The siphon control unit controls the operation of the siphon tube by connecting the siphon tube 120 and the atmosphere to control air suction into the siphon tube 120. The siphon control unit connects the siphon tube 120 and the atmosphere, Any configuration can be used as long as it can control the air suction to the indoor unit 120.

As shown in FIG. 4, the sphin control unit includes a siphon control pipe 390 connected to the siphon pipe 120 and communicating with the atmosphere. When the siphon tube portion is operated so that water flows in the siphon tube 120 by the siphon principle, the siphon control tube 390 is closed to block the air suction from the atmosphere to the siphon tube 120, And a control irrigation closure part 300 for opening the siphon control pipe 390 so that air can be sucked into the siphon pipe 120 from the atmosphere when the operation of the control irrigation pipe 390 is stopped.

The siphon control pipe 390 is connected to the siphon pipe 120 and communicates with the atmosphere.

The control irrigation closure part 300 may be configured to open and close the siphon control pipe 390 in various configurations.

1 and 4, the control irrigation closure part 300 is provided with a manual open-close valve (not shown) for connecting the atmosphere and the siphon pipe 120 so as to be manually stopped when a rapid stop of the siphon device is required, A manual opening / closing part 230 including an opening / closing valve 232 for manually opening / closing the manual opening / closing tube 231, and the like.

Meanwhile, the siphon apparatus according to the present invention can be installed in one or a plurality of siphon, dam or the like depending on the amount of drainage.

Needless to say, the plurality of siphon devices may be installed at different positions of the air suction holes of the air vents 210.

Hereinafter, the operation of the siphon apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

First, the siphon device according to the present invention operates as follows: 1) when reaching the water level of the water source 10 at the air suction hole of the air vent 210 and reaching the full water level set in the siphon device, 2) Can be explained separately.

In the first case, when the water level of the water source 10 reaches the water level of the water source 10 at the air intake hole of the air vent 210 and reaches the water level set in the siphon device, the following operation is performed.

When water reaches the high water level set in the siphon device in the water source 10, a flow of water that flows through the U-shaped siphon pipe 120 occurs.

The water flow in the siphon pipe 120 is transferred to the drainage paddle 20 so that the siphon pipe 120 is locked in the air inlet hole of the air vent 210 by the water source 10, Thereby reducing the pressure within the chamber. At this time, the siphon control unit also maintains a closed state in which air can not be sucked from the atmosphere.

The pressure drop in the siphon tube 120 induces the suction of water through the inlet 110 installed in the water source 10 and the water sucked through the inlet 110 flows through the siphon tube 120 130 to the reservoir 20.

The suction of the water in the inflow section 110 and the drainage of the water to the discharge section 130 are continued through the siffon pipe 120 so that all the air is discharged through the discharge section 130 into the inside of the siffon pipe 120, Water is sucked in the inflow part 110 and the water is drained into the discharge part 130 through the siphon pipe 120 by the fern principle.

On the other hand, the siphon device also operates by the siphon operating oil. Here, the air vent 210 is kept closed to prevent air suction.

When the siphon operation inducing part is operated first, as shown in FIGS. 1 to 3, when the water level of the upstream part 121 becomes higher than the upper end of the upstream part 121, the water flows naturally to the downstream part 122.

When the siphon tube 120 opens the siphon tube 120, the siphon tube 120 flows into the siphon tube 120 and the siphon tube 120 is discharged through the discharge port 130 through the discharge port 130. At this time, when the water is discharged through the discharge part 130, a part of the air in the siphon pipe 120 is also discharged to the discharge part 130 by the air bubbles, and a pressure drop is generated in the siphon pipe 120.

When the drainage of water and the pressure drop in the siphon pipe 120 are performed by the siphon irrigation closure part, the flow of water through the inlet part 110 and the siphon pipe 120 gradually occurs, As the water is drained to the discharge part 130 through the suction of the suction pipe and the siphon pipe 120, all the air is discharged through the discharge part 130 into the inside of the siphon pipe 120, And drainage of water to the discharge portion 130 is continuously performed through the siphon pipe 120.

In the case where the siphon operation inducing portion includes a vacuum forming portion (when connected to a vacuum pump and a neighboring siphon), as shown in FIGS. 1 and 2, air is sucked in the siphon pipe 120 The water is gradually increased from the water source 10 to the upstream portion 121 side through the inlet portion 110 connected to the siphon pipe 120 so that the water level of the upstream portion 121 becomes higher than the upstream portion 121, ≪ / RTI >

3, when the siphon operation inducing portion includes a positive water portion, water is supplied in the siphon tube 120 to be supplied to the upstream portion 121 and the downstream portion 122 in the siphon tube 120, The water level is increased and the water level of the upstream portion 121 rises and becomes higher than the upper end of the upstream portion 121.

On the other hand, the operation of the siphon device is as follows: 1) it is located above the water level of the water source 10 on the air suction hole of the air vent 210 in accordance with the lowering of the water level of the water source 10; 2) In case it stops its operation.

When the air suction hole of the air vent 210 is exposed to the atmosphere, the suction of the air from the atmosphere into the siphon tube 120 rapidly increases the pressure inside the siphon tube 120, With air pressure formation, the operation according to the siphon principle stops abruptly.

Also, by operating the manual opening / closing part 230 of the siphon control part, the pressure in the siphon pipe 120 is rapidly increased by air suction from the atmosphere by the siphon pipe 120, and the air pressure in the siphon pipe 120 , The operation according to the siphon principle is abruptly stopped. At this time, the manual opening / closing part 230 may be configured as one with the air vent 210 by an operator elevating the air suction hole of the air vent 210 out of the water level of the water source 10. [

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: Suwon 20: Reservoir
300: control irrigation lobe

Claims (7)

An outlet portion provided in a drainage pipe through which water introduced from the inlet portion is drained; an upstream portion connecting the inlet portion and the outlet portion and extending upward from the inlet portion; A siphon unit including a siphon tube having an inverted 'U' shape including the upstream portion and the downstream portion extending downward and guiding water from the water source to a drainage pipe;
A siphon irrigation closure disposed at the downstream portion to open and close the siphon tube; and a flow control unit for controlling the flow of the water flowing through the inlet from the upstream portion to the downstream portion in a state where the siphon tube is closed by the siphon irrigation closure, And a siphon induction part including a siphon induction part for opening the siphon irrigation part to induce a siphon state in the siphon tube to operate the siphon part,
The siphon guide portion
A vacuum connected to the siphon tube to suck air in the siphon tube to form a vacuum state to raise the water level at the inlet side to form a flow in which the water of the water source flows from the upstream portion to the downstream portion through the inlet portion, Forming portion,
The vacuum forming part
A connection pipe installed at a boundary portion between an upstream portion and a downstream portion of the siphon tube and having one end connected to a lower end portion of the transverse section of the siphon tube and the other end connected to an upper end portion of a cross section of a siphon tube of a neighboring siphon apparatus;
And a vacuum forming on / off valve for operating the neighboring siphon device and opening the connection pipe when the air in the siphon pipe is to be sucked to form a vacuum state. Fun device. delete The method according to claim 1,
Wherein the siphon irrigation closure part extends upward from a site connected to the siphon tube and the discharge part and then horizontally or downwardly extended to a notch part,
Wherein a portion of the tube is blocked by the filled water to prevent the notch from communicating with the atmosphere from the discharge portion through the siphon tube. delete The method according to claim 1,
The siphon irrigation closure
A notch portion extending upward from a portion connected to the siphon tube and the discharge portion and then horizontally or downwardly extended;
A notch connection pipe having one end connected to the notch portion and the other end connected to a notch portion of a neighboring siphon device;
And a notch opening / closing valve for supplying water from a notch portion of the neighboring siphon device by opening the notch connection pipe when the air in the siphon pipe is to be sucked to form a vacuum state, And a siphon operating oil spout having a siphon operating oil spout. delete The method according to any one of claims 1 to 7,
A manually opened / closed pipe for connecting the atmosphere to the siphon pipe and an open / close valve for manually opening / closing the manually opened / closed pipe manually so that the siphon device can be stopped manually when the rapid stop of the siphon device is required Wherein the siphon operating oil spout is provided with a siphon operating oil spout.

Images