KR20170066956A - Apparatus for discharging air and measuring discharged air - Google Patents

Abstract

The present invention relates to a gas discharging device for gas measurement, comprising: a container having an inlet through which liquid flows and an outlet through which the introduced liquid flows; A bubble separating unit provided in the container and guiding the bubbles contained in the liquid flowing into the inlet to the inside of the container; A valve body coupled to an upper portion of the container, the valve body having an exhaust passage; An opening / closing unit for opening / closing the exhaust passage of the valve body; A sensing unit for sensing an amount of gas to be filled in the upper portion of the container; And a control unit for controlling the opening / closing unit according to a sensing signal of the sensing unit. According to the present invention, not only the efficiency of discharging the bubbles flowing together with the liquid inside the piping system but also the amount of discharged bubbles can be measured.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gas-

The present invention relates to a gas measurement and discharge device.

Domestic boilers, thermal power plants, plant facilities, and waterworks facilities are equipped with piping systems in which liquids such as water flow. The domestic boiler, the thermal power plant, and the plant facility each heat the water in the heating device (boiler) which heats the water, and transfer the heat while flowing through the piping system. The water supply facility supplies the purified water to the user through the piping system .

On the other hand, during the heating process of water in the heating apparatus for heating the water, due to the contraction and expansion of the volume due to the temperature change of the water, the bubbles are generated by oxygen separated by the water and oxygen, When you do, it flows together. In addition, water and oxygen are separated from the piping connected portion, the expanded portion and the shaft portion of the piping system to generate bubbles, and the bubbles flow together with the water. When the bubbles flow together when the water flows into the piping system, noise is generated as well as resistance to the flow of water is caused by the expanded bubbles, thereby increasing the water pressure. Particularly, in the case of the piping system of the domestic boiler, since the bubbles contained in the water, the heat transfer to the floor is not performed well, and the heating efficiency is lowered.

In Korean Utility Model Registration No. 20-0379648 (filed on March 03, 2005) (hereinafter referred to as "Prior Art"), a cylindrical body is connected to a pipe through which water flows, and a buoyant body is vertically An air vent device is disclosed which is movably coupled to allow the buoyant body to move up and down to exhaust air bubbles. However, the prior art is disadvantageous in that the air bubbles flow out between the inner peripheral surface of the main body and the outer surface of the buoyant body, so that the air bubbles contained in the water flowing into the piping can not be sufficiently discharged. In addition, there is a disadvantage that water flowing into the piping leaks outside through the flow path because the flow path through which the air escapes is always open to the upper part of the main body.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a discharging device for gas measurement which measures not only the efficiency of discharging bubbles flowing together with a liquid inside the piping system to the outside but also the amount of bubbles discharged.

Another object of the present invention is to provide a discharge device for gas measurement which prevents leakage of liquid inside the piping system together with bubbles to the outside.

In order to achieve the object of the present invention, there is provided a liquid container comprising: a container having an inlet through which liquid flows and an outlet through which liquid flows in; A bubble separating unit provided in the container and guiding the bubbles contained in the liquid flowing into the inlet to the inside of the container; A valve body coupled to an upper portion of the container, the valve body having an exhaust passage; An opening / closing unit for opening / closing the exhaust passage of the valve body; A sensing unit for sensing an amount of gas to be filled in the upper portion of the container; And a control unit for controlling the opening / closing unit according to a detection signal of the detection unit.

It is preferable that the opening / closing unit includes an opening / closing member for opening / closing the exhaust passage, and a solenoid for moving the opening / closing member under the control of the control unit so as to open / close the exhaust passage.

The sensing unit includes a sensing rod disposed vertically in the container, a float movable up and down on the sensing rod to move up and down along the liquid surface in the container, And a position sensing sensor for sensing the position of the control unit and generating a signal to the control unit.

The sensing unit may include a pressure sensor, a reed switch, or a capacitance meter for sensing the gas pressure on the container.

And a backflow prevention unit for preventing backflow of outside air to the exhaust passage.

The inlet and outlet of the vessel are preferably connected to the piping of the piping system.

It is preferable that the control unit measures the discharge amount of the gas in accordance with the time and the number of times the opening / closing unit opens the exhaust flow path.

Since the container has an inlet and an outlet, and a bubble separating unit is provided inside the container, the liquid containing bubbles is introduced into the container through the inlet and the pressure is lowered, and the exposed area of the liquid to the upper portion of the container is increased Further, the bubbles contained in the liquid are sufficiently separated from the liquid by the bubble separating unit to move to the upper portion of the container, and only the liquid from which the bubbles have been removed is discharged to the outlet of the container. As a result, bubbles are removed from the liquid flowing out through the container, so that noise is prevented from occurring and flow resistance is reduced during the flow of the liquid through the piping system.

In addition, according to the present invention, when the air of the bubbles filled in the upper part of the container becomes the set pressure or more, the control unit controls the opening / closing unit to open the exhaust flow path to discharge the air inside the container to the outside, The opening / closing unit closes the exhaust flow path under the control of the control unit, so that the exhausted air is smoothly discharged into the container, and the amount of the exhausted air can be measured. It becomes possible to measure the amount of bubbles contained in the liquid of the present invention, so that it becomes possible to measure the amount of bubbles generated in the main portion of the piping system.

Further, according to the present invention, when the opening / closing unit always closes the exhaust flow path of the valve body, and when the opening / closing unit opens the exhaust flow path of the valve body, the air is filled in the upper part of the container at a predetermined amount or more, The opening / closing unit closes the exhaust passage of the valve body to prevent the liquid filled in the container from leaking through the exhaust passage.

1 is a front sectional view showing an embodiment of a discharging device for gas measurement according to the present invention,
2 is a front sectional view showing another embodiment of the bubble separating unit constituting one embodiment of the discharging device for gas measurement according to the present invention,
3 is a front sectional view showing a valve seat of an exhaust passage constituting an embodiment of a discharge device for gas measurement according to the present invention,
4 is a front sectional view showing another embodiment of the sensing unit constituting one embodiment of the discharging device for gas measurement according to the present invention,
5 is a front sectional view showing a backflow prevention unit constituting an embodiment of a discharge device for gas measurement according to the present invention,
6 is a front sectional view showing an exhaust state of a discharging device for gas measurement according to the present invention,
7 is a front sectional view showing a state where the exhaust gas passage is blocked by the discharge device for gas measurement according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a discharging device for gas measurement according to the present invention will be described with reference to the accompanying drawings.

1 is a front sectional view showing an embodiment of a discharging device for gas measurement according to the present invention.

As shown in Fig. 1, an embodiment of the gas measurement and discharge apparatus according to the present invention includes a container 10, a bubble separation unit 20, a valve body 30, an opening and closing unit 40, a sensing unit 50 ), And a control unit (60).

The vessel (10) is provided with an inlet (11) through which the liquid flows and an outlet (12) through which the introduced liquid flows out. It is preferable that the inlet 10 and the outlet 12 are provided on the side of the vessel 10 and are provided at positions facing each other. The inlet (11) and the outlet (12) of the vessel (10) are preferably located on a horizontal line. On the other hand, the inlet port 11 of the container 10 is provided on the side surface of the container 10 and the outlet port 12 of the container 10 may be provided on the bottom surface of the container 10, The inlet port 11 may be provided on the bottom surface of the container 10 and the outlet port 12 of the container 10 may be provided on the side surface of the container 10. The liquid inlet pipe P1 through which the liquid flows into the inlet 11 of the vessel 10 is connected and the liquid outlet pipe P2 is connected with the outlet 12 of the vessel 10. [ The material of the container 10 may be a metal, a non-metal, a plastic, or the like.

The bubble separating unit 20 is provided inside the vessel 10 and guides the bubbles contained in the liquid flowing into the inlet 11 into the interior of the vessel 10. That is to say, in the process of flowing the liquid that has flowed into the vessel 10 through the liquid inlet pipe P1 and the inlet port 11 and flows into the vessel 10 through the outlet port 12 and the liquid outlet pipe P2 The liquid flowing into the container 10 through the liquid inlet pipe P1 passes through the bubble separating unit 20 so that the bubbles contained in the liquid float in the vertical direction and move over the surface of the container 10. [ In an example of the bubble separating unit 20, the bubble separating unit 20 includes a plurality of cylinders 21. It is preferable that the cylindrical body is provided with slits. The plurality of cylinders are filled up to a set height in the interior of the vessel 10 and are filled higher than the inlet 11 and the outlet 12 of the vessel 10. In another embodiment of the bubble separating unit 20, the bubble separating unit 20 includes a mesh plate 22, as shown in Fig. It is preferable that the mesh plate 22 is bent. On the other hand, a plurality of mesh plates 22 may be used.

The valve body 30 is coupled to an upper portion of the container 10, and an exhaust passage F is provided. It is preferable that the valve body 30 seal the spout of the container 10. The exhaust passage F includes an opening and closing space portion 31 provided at an upper portion of the valve body 30 and a valve portion 31 for communicating the inside of the container 10 with the opening and closing space portion 31 And a second flow path 33 communicating the outside space of the valve body 30 with the open / close space portion 31. [ It is preferable that one side of the second flow path 33 is communicated with the bottom surface of the open / close space portion 31 and the other side of the second flow path 33 is communicated with the side surface of the valve body 30. It is preferable that a valve seat 34 in which a hole rim of the second flow path 33 on the bottom surface of the opening / closing space portion 31 is annularly protruded is provided.

The opening / closing unit (40) opens and closes the exhaust passage (F) of the valve body (30). The opening and closing unit 40 includes an opening and closing member 41 for opening and closing the exhaust passage F and an opening and closing member 41 for opening and closing the exhaust passage F. [ And a movable opening and closing member driving unit (42). Closing member 41 opens and closes the exhaust passage F by opening and closing the second passage 33 of the exhaust passage F while moving in the exhaust passage F opening and closing space portion 31 of the valve body 30. [ Closing member 41 is brought into contact with the valve seat 34 provided on the bottom surface of the openable and closable space portion 31, the second flow path 33 is blocked and the opening and closing member 41 is closed And the second flow path 33 is opened when it is separated from the bottom surface. The opening and closing member driving unit 42 preferably includes a solenoid for moving the opening and closing member 41 under the control of the control unit 60. [ The opening and closing member driving unit 42 is preferably coupled to the upper portion of the valve body 30.

The sensing unit 50 senses the amount of gas to be filled in the upper portion of the vessel 10. The sensing unit 50 includes a sensing rod 51 positioned vertically in the interior of the container 10 and a sensing unit 50 disposed on the sensing rod 51, And a position sensing sensor 53 sensing a vertical position of the float 52 and generating a signal to the control unit 60. The position sensing sensor 53 senses the vertical position of the float 52, The detection rod 51 is preferably coupled to the valve body 30. The upper end of the sensing rod 51 is engaged with the valve body 30 so that the sensing rod 51 is vertically positioned inside the container 10. The float 52 is preferably formed in a ring shape. The float 52 is coupled to the sensing rod 51 so that the sensing rod 51 is inserted into the inner hole of the float 52. The position sensor 53 includes a lower sensor S1 and an upper sensor S2 and a lower sensor S1 is disposed such that the float 52 is positioned between the lower sensor S1 and the upper sensor S2. The sensor rod 51 is provided at the lower end of the sensing rod 51 and the upper sensor S2 is positioned above the float 52. The upper sensor S2 is positioned on the sensing rod 51 so that the upper surface of the float 52 and the upper sensor S2 are separated by a predetermined distance while the float 52 is in contact with the lower sensor S1 .

When the amount of air to be filled in the upper portion of the vessel 10 increases and the surface of the liquid (liquid level) filled in the vessel 10 becomes lower due to an increase in the air pressure thereupon, The amount of the air filled in the upper portion of the container 10 is reduced and the pressure of the liquid filled in the container 10 due to the decrease in the air pressure therethrough When the water level (liquid level) becomes higher, the float 52 moves upward along the sensing rod 51 and contacts the upper sensor S2.

The control unit (60) controls the opening / closing unit (40) in accordance with the detection signal of the sensing unit (50). That is, when the amount of air to be filled in the upper portion of the vessel 10 is increased and the float 52 contacts the lower sensor S1 due to an increase in the air pressure in the upper portion of the vessel 10, The opening and closing unit 40 opens the exhaust flow path F of the valve body 30 and the exhaust flow path F of the valve body 30 is opened so that the air filled in the upper part of the vessel 10 flows into the exhaust flow path F to reduce the air pressure in the upper portion of the vessel 10 and thereby to transmit the detection signal to the control unit 60 when the float 52 is in contact with the upper sensor S1, ) Close the exhaust passage (F) of the valve body (30). The control unit 60 controls the solenoid of the opening / closing unit 40. It is preferable that the display unit 70 is connected to the control unit 60. [ The control unit 60 converts the number of times the opening and closing unit 40 opens and closes the exhaust passage F of the valve body 30 into data and outputs the data to the inside of the container 10 through the display unit 70 Display (display) the amount of air to be discharged. When the number of times that the opening / closing unit 40 opens and closes the exhaust passage F of the valve body 30 for a unit time is inputted in advance by inputting the amount of air discharged once when the opening / closing unit 40 is opened and closed, And the amount of the air discharged is the amount of air generated inside the container 10. [0050] On the other hand, the control unit 60 can display the amount of air discharged by converting the number of times the opening and closing unit 40 opened the exhaust passage and the number of times the exhaust passage F was opened and closed for a unit time.

In another embodiment of the sensing unit 50, the sensing unit 50 includes a pressure sensor 54 sensing the gas pressure above the vessel 10. It is preferable that the pressure sensor 54 is provided on the lower surface of the valve body 30 so as to be located inside the container 10 as shown in Fig. On the other hand, the pressure sensor may be mounted on the upper portion of the container 10. When the pressure sensed by the pressure sensor 54 becomes equal to or higher than the set pressure, the sensing signal is sent to the control unit 60. When the pressure sensed by the pressure sensor becomes lower than the set pressure, . The control unit 60 opens and closes the opening / closing unit 40 in accordance with a sensing signal transmitted by the pressure sensor 54. [

It is preferable that the backflow prevention unit 80 for preventing the backflow of the outside air to the exhaust passage F of the valve body 30 is provided. 5, the backflow prevention unit 80 is formed in the first flow path 32 of the exhaust flow path F with a prolonged hole portion 35 formed to have an inner diameter larger than the inner diameter of the first flow path 32, A stopper member 81 connected to the opening / closing space portion 31 side of the enlarged opening portion 35 and having a through hole therein, and a stopper member 81 movably positioned in the extended hole portion 35, And the ball member 82 of the second embodiment. A plurality of protrusions 81a are provided at the edge of the through hole of the stopper member 81 so that when the air on the container 10 side is pressurized, the ball member 82 moves toward the stopper member 81, The air flows through the space between the projections 81a in the supported state and when the external air flows into the second flow path 33 and the opening and closing space portion 31, And the first flow path 32 is blocked so that the outside air is prevented from being introduced into the container 10.

The liquid inlet pipe P1 and the liquid outlet pipe P2 respectively connected to the inlet 11 and the outlet 12 of the vessel 10 are respectively connected to a piping system or a liquid flow or circulation flow. That is, the liquid inflow pipe P1 is connected to one side of the piping of the discharge system, the liquid outflow pipe P2 is connected to the other side of the piping, and the liquid flowing through the piping of the piping system flows through the liquid inflow pipe P1 (10) and flows into the piping of the piping system through the liquid outlet pipe (P2). The piping system may be a piping system for a domestic boiler, a piping system for a thermal power plant, a waterworks piping system, a sewage discharge piping system, and the like.

Hereinafter, the operation and effects of the discharging device for gas measurement according to the present invention will be described.

The liquid flowing through the piping system flows into the interior of the vessel 10 through the liquid inlet pipe P1 and the bubbles in the vessel 10 The liquid flowing into the vessel 10 through the liquid inlet pipe P1 flows into the vessel 10 through the liquid outlet pipe P2 while passing through the unit 20 as shown in Fig. The bubbles contained in the liquid are caught by the bubble separation unit 20 and floated to the upper side of the vessel 10 to be filled in the upper part of the vessel 10 through the bubble separation unit 20 . As the air bubbles fill the upper part of the vessel 10, the amount of air increases and the air pressure at the upper part of the vessel 10 increases, so that the level of the liquid filled in the vessel 10 is lowered. When the float 52 of the sensing unit 50 moves down and contacts the lower sensor S1 as the level of the liquid filled in the container 10 decreases, a sensing signal is sent to the control unit 60, The control unit 60 moves the opening and closing member 41 of the opening and closing unit 40 according to the signal to open the exhaust passage F of the valve body 30. [ The air of the bubbles filled in the vessel 10 is exhausted to the outside through the exhaust passage F as the exhaust passage F of the valve body 30 is opened.

As the air of the bubbles filled in the container 10 is exhausted to the outside through the exhaust passage F, the amount of air inside the container 10 becomes small and the air pressure drops, so that the liquid level of the liquid filled in the container 10 Will rise. 7, when the float 52 moves upward as the level of the liquid filled in the container 10 increases, the detection signal is sent to the control unit 60 when the liquid contacts the upper sensor S2, The control unit 60 moves the opening and closing member 41 of the opening and closing unit 40 to block the exhaust passage F of the valve body 30 according to the detection signal. As the exhaust passage (F) of the valve body (30) is closed, air in the bubbles is filled in the container (10).

The bubbles contained in the liquid flowing along the piping of the piping system are exhausted to the outside of the piping system while repeating such operations.

On the other hand, not only is it possible to measure the amount of air discharged from the piping system for a unit time by converting the number of times of opening and closing the opening / closing unit 40 for a unit time in the control unit 60, .

Since the container 10 is provided with the inlet 11 and the outlet 12 and the container 10 is provided with the bubble separating unit 20 so that the liquid containing the bubbles flows into the container 10 through the inlet The pressure is lowered as the liquid flows into the container 10 and the area of exposure of the liquid to the upper portion of the container 10 is widened and the bubbles contained in the liquid are sufficiently separated from the liquid by the bubble separating unit 20 to move to the upper portion of the container 10 Only the liquid from which the bubbles have been removed is discharged to the outlet 12 of the vessel 10. Accordingly, the bubbles are removed from the liquid passing through the vessel 10, so that the noise is prevented from being generated and the flow resistance is reduced during the flow of the liquid through the piping system.

When the air of the bubbles filled in the upper portion of the vessel 10 is equal to or higher than the set pressure, the opening / closing unit 40 opens the exhaust passage F under the control of the control unit 60, When the internal air of the container 10 is exhausted and the internal pressure of the container 10 becomes lower than the set pressure, the control unit 60 controls the opening / closing unit 40 to open the exhaust passage F, It is possible to measure the amount of the discharged air as well as smooth the discharge of the air filled in the container 10. The present invention makes it possible to measure the amount of bubbles contained in a liquid as it is possible to measure the amount of bubbles generated in a main portion of the piping system.

When the opening and closing unit 40 always closes the exhaust passage F of the valve body 30 and the opening and closing unit 40 opens the exhaust passage F of the valve body 30, When the air is filled in the upper portion of the container 10 and the liquid level of the liquid filled in the container 10 is lowered, the air escapes through the exhaust passage F and the air in the upper portion of the container 10 becomes the set amount or less The opening and closing unit 40 closes the exhaust passage of the valve body 30 and prevents the liquid filled in the container 10 from leaking through the exhaust passage F. [

10; Vessel 20; Bubble separation unit
30; Valve body 40; Opening / closing unit
50; Sensing unit 60; The control unit

Claims (7)

A container having an inlet through which the liquid flows and an outlet through which the introduced liquid flows;
A bubble separating unit provided in the container and guiding the bubbles contained in the liquid flowing into the inlet to the inside of the container;
A valve body coupled to an upper portion of the container, the valve body having an exhaust passage;
An opening / closing unit for opening / closing the exhaust passage of the valve body;
A sensing unit for sensing an amount of gas to be filled in the upper portion of the container;
And a control unit for controlling the opening / closing unit according to a detection signal of the detection unit. The exhausting apparatus according to claim 1, wherein the opening / closing unit includes an opening / closing member for opening / closing the exhaust passage, and a solenoid for moving the opening / closing member under the control of the control unit so as to open / close the exhaust passage. The apparatus according to claim 1, wherein the sensing unit comprises: a sensing rod disposed vertically inside the container; a float movable up and down the sensing rod to move up and down along the liquid surface in the container; And a position sensing sensor for sensing a vertical position of the float to generate a signal to the control unit. The exhaust measurement apparatus as claimed in claim 1, wherein the sensing unit includes a pressure sensor for sensing gas pressure on the container. The exhaust measurement apparatus according to claim 1, further comprising a backflow prevention unit for preventing backflow of outside air to the exhaust passage of the valve body. 2. The apparatus according to claim 1, wherein the inlet and outlet of the vessel are connected to the piping of the piping system. The gas measurement and discharging apparatus according to claim 1, wherein the control unit measures the amount of exhaust of the gas in accordance with the number of times the opening / closing unit opens the exhaust passage.

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