KR102193800B1 - Water level calibration tank - Google Patents

Abstract

The present invention relates to a water level correction tank. More specifically, the water level correction tank comprises: a water tank storing water of which a level will be measured; an inlet unit where the water is introduced into the water tank; a discharge unit discharging the water from the water tank; and a water level measurement unit provided on the water tank and measuring the water level of the water tank in real time. Therefore, the water level correction tank can monitor and correct a state of a level gauge based on water level information measured by the water level measurement unit.

Description

Water level calibration tank

The present invention relates to a water level calibration tank, and more particularly, to a water level calibration tank that can be corrected so that the level gauge for measuring the water level in a power plant can be checked and the level gauge can more accurately measure the water level.

Level gauges are being used to obtain water level information to indicate drainage levels in the power plant's drainage system and to trigger pump start, stop, and main control room alarms.

The information obtained from the level gauge is used to increase the reliability and safe operation efficiency of the power plant, but it is difficult to check and correct the state of the level gauge in the power plant drainage system where the level gauge is used. After going through the test to confirm the condition, calibration work is in progress to increase the precision.

However, as a device for checking and calibrating the state of the level gauge has not been developed properly, the state check and calibration work of the level gauge is not effectively performed.

Therefore, there is a need for a device that enables the level gauge to be checked and calibrated efficiently.

Patent Document 1) Domestic Registration Patent No. 10-0753774 (Name: Standard calibration device and calibration method for water level gauge: 2007.08.23)

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide a water level calibration tank that can further increase the reliability and safe operation efficiency of a power plant by efficiently performing the status check and calibration work of the level gauge. To provide.

A water level calibration tank according to the present invention for achieving the above object includes: a tank 100 in which water, which is a water level measurement object, is stored; An inlet part 200 through which water flows into the water tank 100; A discharge unit 300 through which water on the water tank 100 is discharged; And a water level measuring unit 400 provided on the water tank 100 to measure the real-time water level of the water tank 100.

In addition, the water tank 100 is formed by connecting a plurality of water tank units (100A),

It characterized in that it comprises a connecting portion 110 connecting the water tank unit (100A).

In addition, the connection part is formed on one or more of both sides in the longitudinal direction of the tank unit (100A) and connects the flange portion 111 having a diameter wider than that of the tank unit 100A, and the flange portion 111 facing each other. And a gasket 113 disposed between the connecting member 112 and the flange portion 111 to limit water leakage.

In addition, the water level measurement unit 400 is characterized in that it includes a water level ruler 410 displayed on the water tank 100.

In addition, the water level measurement unit 400 receives a light irradiation unit 420 provided on the water tank 100 to irradiate light with water stored in the water tank 100, and the light irradiated from the light irradiation unit 420 It characterized in that it comprises a light receiving unit 430.

In addition, the water level measurement unit 400 receives the location information irradiated by the light irradiation unit 420 and the irradiation angle information of the light, and the location information and incident angle information of the light received by the light receiving unit 430 and receives the water tank ( 100) characterized in that it comprises a water level derivation unit 440 for deriving the real-time water level of the water stored on the bed.

In addition, the water level measurement unit 400 includes a flow rate measurement unit that measures the flow rate of water flowing into the water tank 100, a temperature measurement unit that measures the temperature of water located on the water tank 100, and the flow rate measurement Detects the volume of water located on the water tank 100 based on the flow information of water received from the unit and the temperature information of the water received from the temperature measuring unit, and the volume information of the detected water and the volume information of the stored water tank 100 It characterized in that it includes an auxiliary water level calculator for calculating the level of water located in the water tank 100 by using.

In addition, it characterized in that it further comprises a supply unit 500 for supplying water to the water tank 100 through the inlet unit 200.

The water level calibration system according to the present invention for achieving the above object further includes a level gauge 600 that is input to the water tank 100 to measure the level of water and is a target for calibration, and the water level measurement unit 400 ), the level gauge 600 receives the water level information received from the level gauge 600 and the water level information received from the level gauge 600, based on the information received from the water level measurement unit 400 when the received information is different from each other. It characterized in that it further comprises a water level correction unit 700 for correcting the water level measurement error of.

In addition, the water level calibration system receives the water level information received from the water level derivation unit 440 and the water level information received from the level gauge 600, and when the received information is different from each other, the water level derivation unit 440 It characterized in that it further comprises a water level correction unit 700 for correcting the water level measurement error of the level gauge 600 based on the information received at.

The present inventors' water level calibration tank with the configuration as described above can check the real-time water level of the water tank through the water level measurement unit, so it is possible to grasp the state of the level gauge based on the information obtained through the water level measurement unit, and the level gauge is not accurate. If it is determined that it is, there is an advantage that it is possible to correct the error of the level gauge.

In addition, since the water level of the tank can be accurately measured in various ways through a ruler, light, etc., there is an advantage of being able to measure the water level more accurately in various environments.

1 is a conceptual diagram showing a water level calibration tank connected to a plurality of tanks.
2 is a conceptual diagram showing a water level calibration tank in which a level gauge as a test object is located.
3 is a conceptual diagram showing a water level calibration tank including a supply unit for supplying water to the tank.
Figure 4 is a conceptual diagram showing the measurement of the water level of the water level calibration tank using refraction of light.

Advantages and features of the embodiments of the present invention, and a method of achieving them will become apparent with reference to the embodiments described later in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

Hereinafter, with reference to the accompanying drawings will be described with respect to the water level calibration tank 1000 according to the present invention.

1 is a conceptual diagram showing a water level calibration tank 1000 according to the present invention, FIG. 2 is a conceptual diagram showing that a level gauge is provided in the water level calibration tank,

Referring to FIGS. 1 and 2, the water level calibration water tank 1000 according to the present invention includes a water tank 100 in which water, which is a water level measurement object, is stored, an inlet 200 through which water flows into the water tank 100, and the A discharge unit 300 for discharging water in the water tank 100, and a water level measurement unit 400 provided on the water tank 100 to measure the real-time water level of the water tank 100, and the water level measurement unit ( 400) may include a water level ruler 410 displayed on the water tank 100.

In detail, the power plant uses a level gauge to measure the water level of the drainage system, but it is not possible to arbitrarily adjust the water level of the power plant's drainage system to check the status of the level gauge, so after checking the level of the level gauge at regular intervals, the level gauge When a problem occurs, a test is made to replace the level gauge or correct the error of the level gauge.

Conventionally, there is no device capable of performing such a test more efficiently, so that the status check and error correction of the level gauge has not been efficiently performed. Therefore, in the present invention, the water in the water tank 100 After filling, the level of the level gauge 600 is determined by comparing the water level in the water tank 100 checked by the water level ruler 410 with the water level of the level gauge 600 injected into the water tank 100, and When the water level measured by the gauge 600 is not accurate, it is possible to correct the water level measurement error of the level gauge 600 based on the water level information checked by the water level ruler 410.

At this time, for the test, the water level in the water tank 100 must be variously adjusted as necessary, so water may be supplied to the water tank 100 through the inlet part 200, and the discharge part 300 It goes without saying that the water in the water tank 100 can be discharged to the outside through.

In order to check the status of the level gauge 600 in a wider range (height of the water level), the water tank 100 may have a structure in which a plurality of water tank units 100A are connected to the connection part 110, The connection part 110 includes a flange part 111 formed on one or more of both sides in the longitudinal direction of the tank unit 100A and having a diameter wider than that of the tank unit 100A, and the flange part 111 facing each other. It may include a connecting member 112 to connect and a gasket 113 disposed between the flange portions 111 facing each other to prevent water from leaking.

In detail, in order to more accurately determine the state of the level gauge 600, the range of the water level measured by the level gauge 600 must be greater than or equal to a certain range specified by the regulation. In order to reproduce such a wide water level, the water tank 100 ), it is difficult to manufacture because the height of the tank must be very high, and after stacking a plurality of the tank units (100A), the flange portions 111 facing each other are connected with the connecting member 112 to have a very long height. Implementing (100), sealing between the flanges 111 of the tank unit (100A) facing each other with a gasket (113) having a high sealing ability such as rubber or silicone, when stacking the tank unit (100A) The connection part of (100A) prevents water from leaking.

3 is a conceptual diagram showing that the supply unit 500 is connected to the water level calibration tank 1000 according to the present invention.

Referring to FIG. 3, the water level calibration tank 1000 according to the present invention may further include a supply unit 500 supplying water to the water tank 100.

In detail, since the water level calibration tank 1000 has to vary the water level of the water tank 100 for more accurate testing of the level gauge 600 as described above, in the present invention, through the supply unit 500 It supplied water necessary for the water tank 100.

4 is a conceptual diagram showing another embodiment of the water level calibration tank 1000 according to the present invention.

Referring to FIG. 4, the water level measuring unit 400 includes a light irradiation unit 420 provided on the water tank 100 to irradiate light with water stored in the water tank 100, and irradiation from the light irradiation unit 420 Receives the light receiving unit 430 for receiving the light, the location information irradiated by the light irradiation unit 420 and the light irradiation angle information, and the location information and incident angle information of the light received by the light receiving unit 430 It may further include a water level derivation unit 440 for deriving the real-time water level of the water stored in the water tank 100.

In detail, when grasping the water level in the water tank 100 through the water level ruler 410, the water level of the water tank 100 is determined differently according to the measurer, and this problem is caused by the determination of the state of the level gauge 600 and the correction test. Since it acts as a factor that lowers the reliability, in the present invention, by deriving the correct water level in the water level derivation unit 440 using the principle that the light irradiated by the light irradiation unit 420 is refracted at the interface between air and water, the tester The state of the level gauge 600 is more accurately identified and then corrected.

In this case, the water level derivation unit 440 uses the principle that the position at which the light receiving unit 430 receives light and the incident angle of the received light vary according to the position at which the light irradiated by the light irradiation unit 420 is refracted. It goes without saying that the level of water is determined, and data of water level information according to the angle of incidence and location information at which light is received are stored in order to determine the level of water.

In addition, the water level measurement unit 400 may measure the water level of the water tank 100 based on the flow rate of the incoming water and the temperature information of the water in addition to the method using light.

In one embodiment, the water level measurement unit 400 includes a flow rate measurement unit that measures the flow rate of water flowing into the water tank 100, a temperature measurement unit that measures the temperature of water located on the water tank 100, and The volume of water located on the water tank 100 is detected based on the flow information of water received from the flow rate measurement unit and the temperature information of water received from the temperature measurement unit, and the volume information of the detected water and the stored water tank 100 It may include an auxiliary water level calculator that calculates the level of water located in the water tank 100 by using the volume information.

In addition, the water level calibration system 1 of the present invention further includes a level gauge 600 that is input to the water tank 100 to measure the water level and is a calibration target, and is received from the water level measurement unit 400 When the water level information and the water level information received from the level gauge 600 are received, and the received information is different from each other, the water level measurement error of the level gauge 600 based on the information received from the water level measuring unit 400 It may further include a water level correction unit 700 for correcting.

In one embodiment, the water level calibration system 1 of the present invention receives the water level information received from the water level derivation unit 440 and the water level information received from the level gauge 600, and when the received information is different from each other. A water level correction unit 700 for correcting a water level measurement error of the level gauge 600 based on the information received from the water level derivation unit 440 may be further included.

In detail, after the tester directly determines the state of the level gauge 600 using the information received from the water level ruler 410 and/or the water level derivation unit 440, a lot of manpower and time are required to correct the error. Therefore, in the present invention, the level gauge 600 can be calibrated based on the received information.

In the above description, various embodiments of the present invention have been presented and described, but the present invention is not necessarily limited thereto, and those of ordinary skill in the technical field to which the present invention pertains, within the scope of the technical spirit of the present invention. It can be seen that branch substitution, modification, and change are possible.

100: water tank 100A: water tank unit
110: connection part 111: flange part
112: connecting member 113: gasket
200: inlet
300: discharge part
400: water level measuring unit 410: water level ruler
420: light irradiation unit 430: light receiving unit
440: water level derivation unit
500: supply
600: level gauge
700: water level correction unit

Claims (7)

A water tank 100 in which water to be measured is stored;
An inlet part 200 through which water flows into the water tank 100;
A discharge unit 300 through which water on the water tank 100 is discharged; And
In the water level calibration water tank including; a water level measuring unit 400 provided on the water tank 100 to measure the real-time water level of the water tank 100,
The tank 100 is formed by connecting a plurality of tank units (100A),
Including a connecting portion 110 connecting the water tank unit (100A),
The connection part 110 includes a flange part 111 formed on one or more of both sides in the longitudinal direction of the tank unit 100A and having a diameter wider than that of the tank unit 100A, and the flange part 111 facing each other. It includes a connecting member 112 to connect, and a gasket 113 disposed between the flange portion 111 to prevent water from leaking,
The water level measuring unit 400 includes a water level ruler 410 displayed on the water tank 100,
The water level measurement unit 400 includes a light irradiation unit 420 provided on the water tank 100 to irradiate light with water stored in the water tank 100; A light receiving unit 430 for receiving the light irradiated by the light irradiating unit 420; And real-time water level of water stored in the water tank 100 by receiving location information and irradiation angle information of light irradiated by the light irradiation unit 420, and location information and incident angle information of light received by the light receiving unit 430 Including a water level derivation unit 440 to derive,
The water level measurement unit 400 includes a flow rate measurement unit that measures the flow rate of water flowing into the water tank 100, a temperature measurement unit that measures the temperature of water located on the water tank 100, and the flow rate measurement unit. Detects the volume of water located on the water tank 100 based on the flow rate information of the water received and the temperature information of the water received from the temperature measuring unit, and uses the volume information of the detected water and the volume information of the stored water tank 100 It includes an auxiliary water level calculator that calculates the level of water located in the water tank 100,
After filling the water tank 100 with water, the water level information received from the water level measuring unit 400 is compared with the water level information received from the level gauge 600 injected into the water tank 100, and received water level information When is different from each other, the water level calibration tank, characterized in that correcting the water level measurement error of the level gauge 600 based on the water level information received from the water level measurement unit (400).
delete delete delete delete The method of claim 1,
A water level calibration water tank, characterized in that it further comprises a supply part 500 for supplying water to the water tank 100 through the inlet part 200.
In the water level calibration system using the water level calibration tank of claim 1,
A level gauge 600 which is put into the water tank 100 to measure the level of water and which is a calibration target; And
The water level information received by the water level measuring unit 400 and the water level information received by the level gauge 600 are received, and when the received water level information is different from each other, the water level information received by the water level measuring unit 400 is A water level calibration system comprising a water level correction unit 700 for correcting a water level measurement error of the level gauge 600 based on the level gauge.

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