KR101435426B1 - Air chamber with negative pressure prevent - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air chamber provided with a negative pressure preventing means for automatically activating a solenoid valve by detecting a water pressure and a water level of a storage tank.
The conventional air chamber has a problem in that it needs to be enlarged in size in accordance with the specifications such as the length, diameter, and shape of the pipeline, or to install a plurality of air chambers on the pipeline. Wherein one end of the second water pipe (20a) is inserted into the storage tank (1) so that fluid can be transferred to the inside of the storage tank (1), and the other end of the second water pipe (20a) Pressure device (100) or an air valve (10), which is drawn out to the outside of the vacuum chamber (1).
Therefore, the present invention can reduce the capacity of the storage tank by preventing the negative pressure generated by the negative pressure preventing device or the air valve in the air chamber, reduce the number and capacity of the air valve installed in the pipeline, There is a more economical effect.

Description

[0001] The present invention relates to an air chamber with negative pressure prevention means,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air chamber, and more particularly, to an air chamber provided with negative pressure preventing means for automatically activating a solenoid valve by detecting a water pressure and a water level of a storage tank.

In general, the water pipe used for the water supply and drainage water supply, the water purification plant, the hydraulic pump, the water supply, the water supply, and the water supply pipe is supplied with a large amount of fluid by the pump drive, so that a predetermined hydraulic pressure is applied to the water supply pipe. A water shock phenomenon occurs which causes abrasion and breakage of the pump and the water pipe due to the back flow of the fluid at the time of stopping.

The water shock phenomenon is a phenomenon in which the kinetic energy of the fluid is converted into the pressure energy as the fluid suddenly stops moving when the fluid moves along the pipeline, or the pressure in the pipe increases or decreases due to the sudden change in flow rate of the fluid when the valve is opened or closed. So that high-pressure vibrations and impact sounds are generated on the pump and valve sides, thereby damaging and abrading them.

In order to solve this problem, a negative pressure is formed and controlled by a sufficiently large air chamber. Due to economical / technological difficulties, an air valve is additionally installed in the air chamber.

For example, in a water pipe system equipped with a conventional water pressure regulating device, a water reservoir on the upstream side, which is supplied with water from a water reservoir for storing water, by driving the pump, a water pipe connecting the water reservoir and the reservoir, And an air chamber and an air valve.

When the negative pressure due to the reverse flow occurs in the water pipe due to the stop of the pump due to the power failure during the operation, the gas inside the air chamber expands and liquid contained therein flows into the water pipe to absorb and mitigate the water impact.

As a result, when the water pressure is abruptly raised or lowered due to a water impact applied to the pump and the valve in the water pipe, the gas inside the air chamber is compressed It is possible to prevent the pump and the valve from being worn and damaged by absorbing the water shock.

Such an air chamber has a problem in that it is necessary to increase the size or to install a plurality of air chambers according to the specifications of the pipeline length, diameter, shape, etc., and the air valve is not operated even if the water pressure is lowered, There is a problem that this occurs.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an air conditioner which can be applied regardless of the capacity of a pipeline and is capable of reducing the capacity and the number of storage tanks to be installed, And an air chamber provided with a preventing means.

The air chamber provided with the negative pressure preventing means according to the present invention is an air chamber configured to allow the fluid of the main pipe to be transferred to the storage tank through the connection pipe. One end of the water pipe is provided inside the storage tank, And the other end of the water pipe is drawn out to the outside of the storage tank, so that any one or more of the negative pressure preventing device or the air valve is coupled.

According to the air chamber provided with the negative pressure preventing means according to the present invention, it is possible to reduce the capacity of the storage tank by preventing the negative pressure generated by the negative pressure preventing device or the air valve in the air chamber, And the capacity can be reduced, so that the manufacturing cost is reduced, which is more economical.

1 is a sectional view showing an air chamber provided with a negative pressure preventing means according to the present invention,
2 is a cross-sectional view showing an air chamber of the present invention,
3 is a sectional view showing a negative pressure protection device of the present invention,
FIG. 4 is a sectional view showing the operation state of the negative pressure protection device according to the present invention,
5 is a cross-sectional view illustrating an operation process of the negative pressure prevention device according to the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the air chamber provided with the negative pressure preventing means of the present invention is provided with a storage tank 1 in which a fluid is stored, and a main pipe 2 The storage tank 1 and the main pipe 2 are connected to each other by a connection pipe 3.

A check valve is generally installed in the main pipe 2 and the connecting pipe 3 to adjust the amount and pressure of the fluid to be transferred and a water level meter 4 is installed in the storage tank 1.

The water level meter 4 is installed outside the storage tank 1 so that the water level inside the storage tank 1 can be confirmed by numerical values and the stem 5 connected to the water level meter 4 is stored in the storage tank 1, And a float 6 capable of moving up and down by the buoyant force of the fluid is coupled to the stem 5.

The present invention effectively prevents the negative pressure that may be generated in the air chamber by providing at least one of the air valve 10 and the negative pressure protection device 100 on the upper side of the storage tank 1 of the air chamber thus configured, This is to reduce the capacity and the number of storage tanks.

One end of the second water pipe 20a is vertically inserted into the storage tank 1 and the other end of the second water pipe 20a is connected to the inside of the storage tank 1, And is connected to the negative pressure protection device 100. [

The second water supply pipe 20a extends to an inner lower end of the storage tank 1 so that the fluid can be transferred inwardly. The air valve 10 is provided on the upper side of the negative pressure protection device 100, 1 water pipe 10a.

2, the first water pipe 10a must always have a fluid. Therefore, if there is air in the air valve 10, the float 13 The first hole 11 and the second hole 12 are closed. In this case, the first hole 11 and the second hole 12 are closed.

The air flowing into the air passage 14 and the first and second holes 11 and 12 flows into the float 13 through the air hole 14 and the first and second holes 11 and 12, So that the float 13 descends to allow more air to enter the first water pipe 10a.

3, the negative pressure preventing device 100 according to the present invention is installed between the storage tank 1 and the air valve 10 to prevent a malfunction of the air valve 10, .

The apparatus for preventing negative pressure 100 of the present invention comprises a main body 20, an upper pipe 21 and a lower pipe 22, and a water level measuring pipe 30.

First, the main body 20 is formed so as to communicate with the inside of the main body 20 and penetrates the side surface of the main body 20 so that the upper and lower pipes 21 and 22 are horizontally .

A shutoff valve 23 is provided at the middle portion between the upper pipe 21 and the lower pipe 22 so as to transfer or block the fluid. At the ends of the two pipes, Are vertically formed.

A float switch 33 is provided on the lower side of the level measuring pipe 30 so as to discharge the fluid inside and a float switch 33 configured to move up and down according to a change in the water level. As shown in Fig.

Therefore, the float switch 33 ascends and descends in accordance with the change of the water level inside the water level measuring pipe 30 configured to maintain the water level equal to the water level of the main body 20, and when the water level of the main body 20 reaches a predetermined reference value It is switched to 'on', and a predetermined electric signal is transmitted to a solenoid valve 50 to be described later.

Meanwhile, a pressure sensor 40 is provided in the pipe connected between the shut-off valve 23 of the lower pipe 22 and the water level measuring pipe 30 so as to measure the water pressure inside the negative pressure preventing device, A solenoid valve 50 for introducing or interrupting the outside air and a plurality of check valves 51 for preventing the back flow of the fluid are provided in the pipeline connected between the shutoff valve 23 of the main body 21 and the level measuring pipe 30 .

The solenoid valve 50 is electrically turned on and off, and a plurality of solenoid valves 50 may be provided so as to correspond to the number of the check valves 51 provided in the plurality of branch pipes, and the solenoid valves 50 may be separately controlled.

4, when the water pressure inside the water pipes 10a and 20a rises, the fluid flows into the main body 20, and the main body 20 Flows into the lower pipe 22 and the upper pipe 21 and the air valve 10 in succession and the fluid flowing into the lower pipe 22 and the upper pipe 21 flows into the water level measuring pipe Flows into the inside of the float switch 30, thereby turning the float switch 33 on.

When the water pressure of the water pipes 10a and 20a is lowered due to the negative pressure, air flows into the inside of the air valve 10 and the float 13 descends. However, due to malfunction of the air valve 10, When the fluid is not discharged, the water pressure remains low but the water level remains high. (The negative pressure control function of the air valve 10 is lost)

In order to prevent this, in the present invention, when the water pressure sensed by the pressure sensor 40 is equal to or lower than the set value and the float switch 33 is on, the solenoid valve 50 is automatically operated to supply air at atmospheric pressure, Thereby performing a lowering operation.

That is, as the solenoid valve 50 is opened, air is introduced through the check valve 51 and the pressure inside the negative pressure preventing device is raised. As a result, the fluid in the main body 20 flows toward the second water pipe 20a .

5, when the water pressure measured by the pressure sensor 40 is lower than the set value and the water level of the level measuring pipe 30 is lower than the set value in the state where the power of the negative pressure- When the float switch 33 is turned ON when the float switch 33 is not less than the set value, the automatic control operation for opening the solenoid valve 50 proceeds.

If the water pressure measured by the pressure sensor 40 is equal to or higher than the set value or the level of the level measuring pipe 30 is equal to or lower than the set value and the float switch 33 is turned off, the solenoid valve 50 is also turned off (OFF) so that the inflow of air is blocked.

The air chamber provided with the negative pressure preventing means of the present invention thus constructed not only can reduce the capacity of the storage tank 1 by preventing negative pressure generated in the air chamber by the negative pressure preventing device 100, The number and capacity of the valve 10 can be reduced, and manufacturing cost is reduced, which is more economical.

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. will be.

10: air valve 10a: first water pipe
11: 1st hole 12: 2nd hole
13: float 14: air passage
20: main body 20a: second water pipe
21: upper pipe 22: lower pipe
23: Isolation valve
30: Level measuring pipe 31: Drain valve
32: guide 33: float switch
40: Pressure sensor 50: Solenoid valve
51: Check valve 100: Negative pressure prevention device

Claims (4)

In the air chamber,
A main pipe 2 for transferring fluid is provided at one side of a storage tank 1 in which fluid is stored and the storage tank 1 and the main pipe 2 are connected to each other through a connection pipe 3, And a stem 5 connected to the level meter 4 extends vertically to the inside of the storage tank 1. The stem 5 is provided with a buoyancy of fluid A float 6 capable of moving up and down is combined to constitute an air chamber,
One end of the second water pipe 20a is inserted into the storage tank 1 and formed vertically on the inside of the storage tank 1 and the other end of the second water pipe 20a is connected to the inside of the storage tank 1 And is connected to the negative pressure protection device 100,
The second water supply pipe 20a extends to the inner lower end of the storage tank 1 so that the fluid can be transferred inward. The air valve 10 is connected to the first water supply pipe (10a) to suck or discharge air into the inside of the negative pressure protection device (100).
The method according to claim 1,
The negative pressure protection device 100 includes a main body 20 having an internal passage formed therein so that fluid can communicate therewith;
An upper pipe (21) and a lower pipe (22) inserted into and bonded to the main body (20) at upper and lower intervals;
A water level measuring pipe 30 having a float switch 33 vertically formed at an end so that the upper pipe 21 and the lower pipe 22 communicate with each other and having a float switch 33 capable of moving up and down according to a change in water level; ;
The main body 20 is connected to the upper pipe 21 and receives or blocks external air according to an electrical signal transmitted from the pressure sensor 40 of the float switch 33 and the lower pipe 22, A solenoid valve 50 for adjusting the water level;
Wherein the negative pressure preventing means is provided with the negative pressure preventing means.
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