KR20120025184A - Separator of liquid discharge structure - Google Patents

Abstract

PURPOSE: The liquid discharging structure of a steam separator is provided to automatically open and close a valve by detecting liquid introduced from a water level sensor installed at the steam separator and a temporary storing bath. CONSTITUTION: The liquid discharging structure of a steam separator(10) includes a first valve(20), a temporary storing bath, a second valve(40), and an opening and closing unit(50). A liquid outlet is formed at the lower side of the steam separator. The first valve is formed at the lower side of the liquid outlet. The first valve adjusts the flux of liquid discharged from the steam separator. The temporary storing bath stores liquid discharged from the first valve. The second valve is arranged at the lower side of the temporary storing bath and adjusts the flux of liquid discharged from the temporary storing bath. The opening and closing unit is installed at the first valve and the second valve. The opening and closing unit controls the first valve and the second valve.

Description

Separator of liquid discharge structure

The present invention relates to a liquid discharge structure of the separator, and more particularly, to a liquid discharge structure of the separator to discharge the liquid separated in the separator by natural fall.

A general separator is a device that separates gas and liquid. Gas and liquid in the fluid process of the entire industry, such as suction and dehydration process of paper and textile process, dehydration of chemical process, gas-liquid separator of separation process or power plant, etc. It is used where it requires separation.

The separator is formed of an empty hollow inside, one side is formed with an inlet port through which steam or a water-water mixer is introduced, an outlet port through which only gas is discharged, and a lower side with gas A drain is formed to allow the separated liquid to exit.

In addition, the inside of the base separator is formed with a diaphragm to divide the inside in two longitudinal directions so that the inside of the separator is separated from the suction inlet and drain.

In the conventional separator, the steam or water-water mixer is hit on one side of the diaphragm in the separator when the steam or water-water mixer is introduced into the suction port of the separator. The steam or gas-water mixer then forms a liquid phase on the diaphragm on the diaphragm of the separator.

The liquid phase formed on the diaphragm as described above falls naturally due to its own weight and falls to the inner lower portion of the separator, and is stored in the separator. The gas is discharged to the outlet formed at the top of the separator by pressure and stored in the separator. Water is discharged to the outside through the outlet.

In the conventional liquid discharge structure of the separator, the discharge port is connected to the pump to discharge the liquid in the separator using the pressure of the pump to the outside, there was a problem that power consumption and noise generated by the driving of the pump. .

In addition, there is a problem that a lot of equipment costs occur because the pump is provided.

The present invention relates to a liquid discharge structure of the separator, it is to discharge the liquid by natural fall, not forced discharge by the pump, and the liquid discharge structure of the separator to automatically discharge the liquid by the valve and the water level sensor It aims to provide.

The present invention, the separator is formed in the lower portion of the liquid discharge port formed in the lower portion of the separator, the first valve for controlling the flow rate of the liquid discharged from the separator is provided in the lower portion of the first valve And a temporary storage tank for storing the liquid discharged from the first valve, and a lower valve provided at a lower portion of the temporary storage tank to control a flow rate of the liquid discharged from the temporary storage tank, and the first valve and the second valve. It is provided in the valve, and provides a liquid discharge structure of the water separator comprising an opening and closing means for controlling the opening and closing of the first valve and the second valve.

In addition, in the present invention, the inner lower end of the separator may be provided with a first water level sensor for opening and closing the first valve by sensing the liquid in the separator, the temporary storage tank the first valve and the second A second level sensor and a third level sensor may be provided to open and close the valve, and the second level sensor may be provided at an inlet side of the temporary storage tank, and the third level sensor may be at an outlet side of the temporary storage tank. It may be provided in, the solenoid valve or the DC electric motor may be used as the opening and closing means of the first valve and the second valve, the controller for controlling the opening and closing means further in the first valve and the second valve. May be included.

The liquid discharge structure of the water separator according to the present invention has the following effects.

First, since the pump is excluded from the existing liquid discharge structure, and using the drainage method by the natural fall, it is possible to reduce the installation cost.

Second, by excluding the pump can reduce power consumption and noise generated while the pump is running.

Third, the convenience of work is improved by detecting the liquid flowing from the water level sensor installed in the separator and the temporary storage tank automatically opening and closing the valve.

1 is a view schematically showing the configuration of the liquid discharge structure of the separator according to the embodiment of the present invention.
FIG. 2 is a view illustrating a state in which a liquid is stored in the temporary storage unit by opening the first valve and closing the second valve of FIG. 1.
3 is a view illustrating a state in which the liquid stored in the temporary storage part is discharged by closing the first valve of FIG. 1 and opening the second valve.
4 is a block diagram illustrating a process of operating the controller, the water level sensor, and the valve of FIG. 1.
5 is a flowchart illustrating a process of opening and closing a first valve and a second valve by the water level sensor of FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 3, the liquid discharge structure of the separator, the separator 10, the first valve 20, the temporary storage tank 30, the second valve 40, the opening and closing means ( 50).

The separator 10 has a cylindrical shape inlet 14 is formed on one side of the housing inlet to the mixture mixture, the upper portion of the housing is formed with a gas outlet 15 through which the separated gas is discharged, The lower portion is formed with a liquid discharge port 16 through which the separated liquid is discharged.

In addition, a diaphragm 17 is formed inside the housing of the separator 10 to separate gas and liquid, and a lower portion of the housing separator of the separator 10 detects liquid stored in the separator 10. One level sensor 12 is provided.

The separator 10 is widely used in the market, the configuration and detailed description thereof will be omitted.

A first valve 20 is provided below the liquid outlet formed at the bottom of the separator 10, and the first valve 20 controls the flow rate of the liquid discharged from the separator 10. Do it.

The first valve 20 is provided with an opening and closing means 50 and a controller 60, the opening and closing means 50 serves to control the opening and closing of the first valve 20, the opening and closing means 50 ), DC electric motor is used.

A temporary storage tank 30 is provided below the first valve 20, and the liquid discharged from the first valve 20 is temporarily stored in the temporary storage tank 30.

The temporary storage tank 30 is formed with an inlet 32 through which the liquid discharged from the first valve 20 flows in and an outlet 34 through which the stored liquid flows out into the second valve 40. 32 and the outlet 34 are formed to have a different height, so that the liquid flowing from the inlet 32 is discharged to the outlet 34 by a natural fall.

In addition, the temporary storage tank 30 is provided with a second level sensor 36 and the third level sensor 38, the second level sensor 36 and the third level sensor 38 is the first valve 20 serves to open and close the second valve 40.

The second water level sensor 36 is provided at the inlet 32 side of the temporary storage tank 30, and the third water level sensor 38 is provided at the outlet side of the temporary storage tank 30.

The second valve 40 is also provided with the opening and closing means 50 and the controller 60 in the same manner as the first valve 20, the opening and closing means 50 controls the opening and closing of the second valve (40). As the opening and closing means 50, a DC electric motor is used as in the first valve 20.

As the controller 60 for controlling the opening and closing means 50, a PCB board or the like is used, and when the controller 60 sends a signal to the opening and closing means 50, the first opening is opened by the opening and closing means 50. The valve 20 and the second valve 40 are automatically opened and closed.

Referring to the process of the liquid is discharged from the water separator according to an embodiment of the present invention.

The brackish mixture is introduced into the inlet formed at one side of the separator 10, and separated into liquid and gas by the diaphragm 17 formed inside the separator 10.

The separated gas is discharged through the gas outlet 15 formed on the top of the separator 10, and the separated liquid is stored and changed in the separator 10.

The liquid stored in the separator 10 is discharged to the liquid discharge port 16 formed in the lower portion of the separator 10, the lower portion of the liquid discharge port 16 is provided with a first valve (20).

The first valve 20 is formed with a temporary storage unit 30 for temporarily storing the liquid discharged from the water separator 10, the lower portion of the temporary storage unit 30, the second valve 40 is It is provided.

In addition, a first water level sensor 12 is provided at an inner lower end of the water separator 10. When the first water level sensor 12 detects a liquid stored in the water separator 10, the first valve ( 20 is opened and closed to discharge the liquid inside the separator 10 through the first valve 20 to the temporary storage unit 30.

The first valve 20 and the second valve 40 are not opened and closed at the same time. When the first valve 20 is opened, the second valve 40 is closed and the second valve 40 is closed. When opened, the first valve 20 is closed.

The temporary storage unit 30 is provided with a second water level sensor 36 and a third water level sensor 38. When the third water level sensor 38 detects a liquid flowing into the temporary storage unit 30, The second valve 40 is closed to temporarily store the liquid in the temporary storage unit 30.

When the second water level sensor 36 detects the liquid stored in the temporary storage unit 30, the second water level sensor 36 seals the first valve 20 while opening the second valve 40 to store the temporary storage. The liquid stored in the unit 30 is discharged.

Therefore, by eliminating the pump from the existing liquid discharge structure, using the drainage method by natural fall, it is possible to reduce the equipment cost, and by excluding the pump to reduce the power consumption and noise generated while the pump is running In addition, the convenience of work is improved by automatically opening and closing the valve by detecting the liquid flowing from the water level sensor installed in the separator and the temporary storage tank.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: separator separator 12: first water level sensor
14 inlet 15 gas outlet
16: liquid outlet 17: diaphragm
20: first valve 30: temporary storage unit
32: inlet 34: outlet
36: second level sensor 38: third level sensor
40: second valve 50: opening and closing means
60: controller

Claims (6)

In the separator,
A first valve formed at a lower portion of the liquid discharge port formed at the lower portion of the separator, and controlling a flow rate of the liquid discharged from the separator;
A temporary storage tank provided below the first valve and storing liquid discharged from the first valve;
A second valve provided at a lower portion of the temporary storage tank to adjust a flow rate of the liquid discharged from the temporary storage tank; And
The liquid discharge structure of the separator is installed on the first valve and the second valve, and including an opening and closing means for controlling the opening and closing of the first valve and the second valve.
The method according to claim 1,
The inner bottom of the separator, the liquid discharge structure of the separator is provided with a first water level sensor for opening and closing the first valve by detecting the liquid in the separator.
The method according to claim 1,
The temporary storage tank, the liquid discharge structure of the water separator is provided with a second level sensor and a third level sensor for opening and closing the first valve and the second valve.
The method according to claim 3,
The second water level sensor is provided on the inlet side of the temporary storage tank, the third water level sensor is a liquid discharge structure of the water separator is provided on the outlet side of the temporary storage tank.
The method according to claim 1,
The liquid discharge structure of the water separator using a solenoid valve or a DC electric motor as the opening and closing means of the first valve and the second valve.
The method according to claim 5,
And a controller for controlling the opening and closing means in the first valve and the second valve.

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