KR20130085691A - Test device, system and method for temperature-pressure corrector - Google Patents

Abstract

PURPOSE: A temperature pressure corrector, a system, and a method are provided to easily inspect the status of the temperature pressure corrector at the field by simply carrying on portably, and are provided to have an effect of enabling an exact inspection in the short time. CONSTITUTION: A temperature pressure corrector comprises a temperature tank unit (230), a pressure tank unit (240), a temperature controller (280), a heater and cooler (250), a pressure controller (270), an on/off unit, a temperature detecting unit (210), a pressure detecting unit (220) and an information transceiving unit (290). The temperature controller controls the temperature of the temperature tank unit to reach to the predetermined temperature according to the control of a temperature pressure corrector inspection system. The heater and cooler heats or cools the temperature tank unit according to the control of the temperature controller. The pressure controller controls the pressure of the pressure tank unit to reach to the predetermined pressure according to the control of the temperature pressure corrector inspection system. The on/off unit controls to supply or eject the external pressure to the pressure tank unit according to the control of the pressure controller. The temperature detecting unit measures the temperature of the temperature tank unit and outputs by converting into an electric signal corresponding to the measured temperature. The pressure detecting unit measures the pressure of the pressure tank unit and outputs by converting into an electric signal corresponding to the measured pressure. [Reference numerals] (250) Heater and cooler; (270) Pressure controller; (280) Temperature controller; (290) Information transceiving unit; (400) Temperature compensation device, inspection system

Description

Test device, system and method for temperature-pressure corrector

TECHNICAL FIELD [0001] The present invention relates to temperature compensator testing equipment, and more particularly, to a portable temperature compensator testing apparatus, system and method.

In general, liquefied natural gas (Liquefied Natural Gas) is a liquid compressed in volume by liquefying at minus 162 ℃ to facilitate the storage and transportation of natural gas produced underground. This liquid is vaporized by the vaporization facility and supplied to the consumer through pipes as natural gas, which is called city gas.

This city gas is lighter than air and has a higher ignition temperature than other fuels, so it is not easily burned, and thus has a low risk of an accident such as a fire.

 City gas is supplied to each customer through a pipe, and each customer is provided with a meter for measuring the volume of city gas usage, and a charge is charged based on the volume measured by the meter.

 By the way, the volume with respect to the unit weight of the city gas depends on the size of the temperature and pressure. That is, the city gas supplier supplies the city gas to each customer at a predetermined reference temperature and reference pressure at the supply reference point where the constant pressure is installed, and the temperature / pressure of the city gas at the point where the city gas meter is installed is based on the reference point at the supply reference point. If it is different from the temperature / reference pressure, the volume value corresponding to the city gas weight exported from the supply reference point and the city gas volume value measured at each consumer meter will be different. These measurement errors are temperature, pressure, and compression factors. These three are referred to as 'temperature pressure errors'.

In Korea, the standard temperature and pressure are 0 ℃ and 1 atm, and the constant pressure is supplied at the required pressure for each customer. As the gas density changes under the influence of ambient temperature and atmospheric pressure during transportation of city gas to each customer through the pipe, the meter reading of the gas meter varies from day to night. The discrepancy between the temperature and pressure reference values applied by the city gas company when sending the city gas from the pressure regulator to each consumer and the actual temperature and pressure values at each consumer's gas meter are in error in the measured value of the city gas usage of each consumer. , Which causes suppliers or consumers to suffer economic losses. For example, the use of city gas in hot or high altitudes can lead to irrationalities that require the same cost to use less calories (calories are not proportional to volume, but moles) compared to cold or lowlands. have.

 In order to eliminate such unreasonability, on-pressure compensators have been proposed to correct errors in the measured values of city gas usage.

In addition, a compensator is proposed to calibrate the supercar of various meters to measure temperature or pressure.

However, when the temperature sensor or the pressure sensor applied to such a temperature pressure compensator is poor, the correction may not be performed properly.

Therefore, there is a need for a device for checking the on-pressure compensator.

In addition, it is necessary to test the performance of the on-pressure compensator when purchasing various on-pressure regulators or installing them on site.

SUMMARY OF THE INVENTION The present invention has been made in an effort to improve the conventional inconvenience, and provides a pressure compensation device, a system and a method for easily checking the condition of the pressure compensation device in the field while simply carrying it.

The on-pressure compensator inspection device according to a feature of the present invention for solving this problem,

An on-pressure compensator inspection device that receives a temperature or pressure measurement measured by a temperature sensor and a pressure sensor of an external on-pressure compensator, and communicates with an external on-pressure compensator inspection system,

A temperature tank unit which is a space for measuring a temperature;

A pressure tank unit which is a space for measuring pressure;

A temperature control unit controlling the temperature of the temperature tank unit to be a predetermined temperature according to the control of the temperature-pressure compensator inspection system;

A heater and a cooler for heating or cooling the temperature tank unit under the control of the temperature control unit;

A pressure control unit controlling the pressure of the pressure tank unit to be a predetermined pressure according to the control of the on-pressure compensator inspection system;

An opening / closing unit controlling to supply or discharge external pressure to the pressure tank unit under the control of the pressure controller;

A temperature detector configured to measure the temperature of the temperature tank unit and convert the temperature into an electrical signal corresponding to the measured temperature;

A pressure detector which measures the pressure of the pressure tank unit and converts the pressure signal into an electrical signal corresponding to the measured pressure;

And a temperature transmitting and receiving unit for transmitting the temperature and pressure detected by the temperature detector and the pressure detector, and the temperature and pressure output from the temperature sensor and the pressure sensor of the on-pressure compensator to the on-pressure compensator inspection system.

The on-pressure compensator inspection device according to a feature of the present invention for solving this problem,

An on-pressure compensator inspection device that receives a temperature measured by a temperature sensor of an external on-pressure compensator, and communicates with an external on-pressure compensator inspection system,

A temperature tank unit which is a space for measuring a temperature;

A temperature control unit controlling the temperature of the temperature tank unit to be a predetermined temperature according to the control of the temperature-pressure compensator inspection system;

A heater and a cooler for heating or cooling the temperature tank unit under the control of the temperature control unit;

A temperature detector configured to measure the temperature of the temperature tank unit and convert the temperature into an electrical signal corresponding to the measured temperature;

And a temperature transmitting / receiving unit which transmits the temperature detected by the temperature detector and the pressure detector and the temperature output by the temperature sensor of the temperature-pressure compensator to the temperature-pressure compensator inspection system.

The on-pressure compensator inspection device according to a feature of the present invention for solving this problem,

An on-pressure compensator inspection device which receives a pressure measurement measured by a pressure sensor of an external on-pressure compensator and communicates with an external on-pressure compensator inspection system,

A pressure tank unit which is a space for measuring pressure;

A pressure control unit controlling the pressure of the pressure tank unit to be a predetermined pressure according to the control of the on-pressure compensator inspection system;

An opening / closing unit controlling to supply or discharge external pressure to the pressure tank unit under the control of the pressure controller;

A pressure detector which measures the pressure of the pressure tank unit and converts the pressure signal into an electrical signal corresponding to the measured pressure;

And an information transceiver for transmitting the pressure detected by the pressure detector and the pressure output from the pressure sensor of the on-pressure compensator to the on-pressure compensator inspection system.

The on-pressure compensator inspection system according to a feature of the present invention for solving this problem,

The control signal for controlling the temperature and pressure is transmitted to an external temperature corrector checking device, and the temperature or pressure measured by the temperature sensor and the pressure sensor of the temperature checking device from the temperature correcting device and the reference temperature measured by the temperature checking device. Or a pressure compensation test system for receiving pressure,

An input unit for receiving a selection of a user;

A display unit for displaying information;

A storage unit for storing a calculation formula corresponding to a compression coefficient calculation method, a set temperature, a set pressure and a temperature error range, and a pressure error range;

A compression signal calculation method, a set temperature, a set pressure, a temperature error range and a pressure error range are received from the user through the input unit and stored in the storage unit, and a control signal corresponding to the set temperature and the set pressure in the on-pressure compensator inspection device. A control unit configured to transmit the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator and the temperature and the pressure detected by the on-pressure compensator to be displayed on the display unit;

It includes a communication unit for performing a communication function under the control of the controller.

The control unit may calculate a compression coefficient according to a set compression coefficient calculation method and display the compression coefficient on the display unit.

The controller calculates and displays a temperature error and a pressure error from the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature corrector and the temperature and pressure detected by the temperature corrector inspection device, respectively, and displays the temperature on the display unit. When the error and the pressure error is out of the standard temperature error range and pressure error range is characterized in that the display on the display.

The control unit receives a correction coefficient of the on-pressure compensator through the input unit, calculates a correction coefficient from the temperature, pressure and compression coefficient detected by the on-pressure compensator inspection apparatus, and if the difference between the correction coefficients is equal to or greater than a set reference difference value, the on-pressure Characterized in that the sensor failure of the compensator.

The on-pressure compensator test method according to a feature of the present invention for solving this problem,

The control signal for controlling the temperature and pressure is transmitted to an external temperature corrector checking device, and the temperature or pressure measured by the temperature sensor and the pressure sensor of the temperature checking device from the temperature correcting device and the reference temperature measured by the temperature checking device. Or a method for inspecting a pressure compensator for receiving pressure,

Receiving a compression coefficient calculation method, a set temperature, a set pressure, a temperature error range, and a pressure error range from a user through an input unit and storing them in a storage unit;

Transmitting, by a controller, a control signal corresponding to a set temperature and a set pressure to the on-pressure corrector inspection device;

Receiving, by the controller, the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator and the temperature and the pressure detected by the on-pressure compensator from the on-pressure compensator and displaying on the display unit;

And calculating, by the controller, a temperature error and a pressure error from the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature compensator and the difference between the temperature and the pressure detected by the temperature compensator test device, and displaying the temperature error and the pressure error. do.

Determining, by the controller, whether the temperature error and the pressure error deviate from a temperature error range and a pressure error range that are reference;

The controller may further include displaying a warning on the display unit when the temperature error and the pressure error deviate from the temperature error range and the pressure error range.

The control unit may further include calculating and displaying a compression coefficient on the display unit according to a compression coefficient calculation method.

The method comprises:

The control unit receiving a correction coefficient of a warm pressure corrector through the input unit;

Calculating, by the control unit, a correction coefficient from a temperature, pressure, and compression coefficient detected by the warm pressure corrector inspection device;

Determining whether a difference between the correction coefficient and the calculated correction coefficient of the on-pressure corrector is greater than or equal to a set reference difference value;

If the difference between the correction coefficient and the calculated correction coefficient of the on-pressure compensator is more than the set reference difference value, further comprising the step of notifying the sensor failure of the on-pressure compensator.

In an embodiment of the present invention, it is possible to provide a pressure compensation device, a system and a method for carrying out the test of the condition of the temperature pressure compensator easily in the field while simply carrying it.

In addition, in the embodiment of the present invention, accurate inspection is possible in a short time.

In addition, in the embodiment of the present invention, it is possible to perform an accurate inspection irrespective of the skill of the inspector.

1 is a view showing a connection state of the pressure compensation device and the system according to an embodiment of the present invention.
2 is a block diagram of an on-pressure corrector test apparatus according to an embodiment of the present invention.
3 is a block diagram of an on-pressure corrector inspection system according to an embodiment of the present invention.
4 is a flowchart illustrating a method for inspecting a warm pressure corrector according to an exemplary embodiment of the present invention.
5 to FIG. 5 are diagrams showing examples of screens displayed on the on-pressure compensator inspection system according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 is a view showing a connection state of the on-pressure compensator test apparatus and system according to an embodiment of the present invention.

Referring to FIG. 1, the on-pressure compensator inspection device 200 is connected to the on-pressure regulator 100, and the on-pressure compensator inspection system 400 is communicatively connected to the on-pressure regulator inspection device 200.

Here, the temperature sensor and the pressure sensor of the on-pressure compensator 100 are connected to measure the temperature and the pressure of the miso tank part and the pressure tank part in the on-pressure compensator inspection device 200, and separate the temperature sensor and the pressure sensor as necessary. It can also be measured.

2 is a block diagram of an on-pressure corrector test apparatus according to an embodiment of the present invention.

The on-pressure compensator inspection device according to a feature of the present invention for solving this problem,

An on-temperature compensator inspection device that receives a temperature or pressure measurement measured by a temperature sensor and a pressure sensor of an external on-temperature compensator, and communicates with an external on-temperature compensator inspection system, the temperature measured by a temperature sensor and a pressure sensor of an external on-temperature compensator Or a pressure measuring device which receives a pressure measurement value and communicates with an external temperature correcting device inspection system, the temperature tank part 230, the pressure tank part 240, the temperature control part 280, the heater and the cooler 250, and the pressure. The control unit 270, the opening and closing unit 260, the temperature detector 210, the pressure detector 220, and the information transceiver 290.

The temperature tank unit 230 may be provided in various forms as a space for measuring the temperature.

The pressure tank unit 240 may be in various forms as a space for measuring the pressure.

The temperature controller 280 controls the heater and the cooler 250 to control the temperature of the temperature tank 230 to a set temperature according to the control of the temperature corrector inspection system 400.

The heater and the cooler 250 heat or cool the temperature tank unit 230 under the control of the temperature controller 280.

The pressure controller 270 controls the pressure of the pressure tank unit 240 to be a set pressure according to the control of the on-pressure compensator inspection system 400.

The opening and closing unit 260 controls to supply or discharge external pressure to the pressure tank unit 240 under the control of the pressure controller 270. In addition, the opening part 260 includes the valves 261 to 264, and includes the fast valves 261 and 263 and the slow valves 262 and 264, so that the pressure control can be speeded up or slowed down. That is, opening the fast valve 263 rapidly increases the pressure in the pressure tank 240, and opening the fast valve 261 quickly decreases the pressure in the pressure tank 240.

In addition, when the slow valve 264 is opened, the pressure in the pressure tank 240 is increased slowly, and when the slow valve 262 is opened, the pressure in the pressure tank 240 is decreased slowly.

The temperature detector 210 measures the temperature of the temperature tank 230, converts the temperature into an electrical signal corresponding to the measured temperature, and outputs the converted electrical signal to the information transceiver 290.

The pressure detector 220 measures the pressure of the pressure tank 240, converts the pressure into an electrical signal corresponding to the measured pressure, and outputs the converted electrical signal to the information transceiver 290.

The information transmitter / receiver 290 is configured to check the temperature and pressure detected by the temperature detector 210 and the pressure detector 220 and the temperature and pressure output from the temperature sensor and the pressure sensor of the temperature corrector. Send by At this time, the USB communication method may be applied, and various methods of communication are possible as necessary.

3 is a block diagram of an on-pressure corrector inspection system according to an embodiment of the present invention.

Referring to Figure 3, the on-pressure compensator test system according to an embodiment of the present invention,

The control signal for controlling the temperature and the pressure is transmitted to an external temperature-pressure compensator test device 200, and the temperature or pressure measured by the temperature sensor and the pressure sensor of the temperature-pressure compensator from the temperature-pressure compensator test device 200 and the temperature-pressure compensator test An on-pressure compensator inspection system 400 for receiving a reference temperature or pressure measured by a device, comprising an input unit 430, a display unit 410, a storage unit 450, a communication unit 440, and a control unit 420.

The input unit 430 receives a user's selection and may be in the form of a keyboard, a keypad, a mouse, a touch screen, and the like.

The display unit 410 displays information and may be implemented as a liquid crystal display or other display device.

The storage unit 450 may store a calculation formula corresponding to a compression coefficient calculation method, a set temperature, a set pressure and a temperature error range, a pressure error range, an input correction coefficient, and the like, as well as a control program or other information.

The communication unit 440 performs a communication function under the control of the control unit 420.

The controller 420 receives a compression coefficient calculation method, a set temperature, a set pressure, a temperature error range and a pressure error range from the user through the input unit 430, and stores the result in the storage unit 450, and the temperature compensation compensator test apparatus. The control signal corresponding to the set temperature and the set pressure is transmitted to the 200, and the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator 100 from the on-pressure compensator 200 and the on-pressure compensator The control unit 200 receives the temperature and pressure detected by the display unit 200 and displays it on the display unit 410.

The control unit 420 calculates and displays the compression coefficient on the display unit 410 according to the set compression coefficient calculation method. In addition, the controller 420 calculates a temperature error and a pressure error, respectively, from a difference between the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature corrector and the temperature and pressure detected by the temperature checker 200. The display unit 410 is displayed on the display unit 410. When the temperature error and the pressure error are out of the standard temperature error range and the pressure error range, a warning is displayed on the display unit 410.

In addition, the control unit 420 receives the correction coefficient of the on-pressure compensator through the input unit 430, calculates the correction coefficient from the temperature, pressure and compression coefficient detected by the on-pressure compensator inspection apparatus 200, the correction If the difference in coefficient is equal to or more than the set reference difference value, it is determined that the sensor failure of the on-pressure compensator 100.

The operation of the on-pressure compensator inspection system having such a configuration will be described below.

4 is a flowchart illustrating a method for inspecting a pressure corrector according to an exemplary embodiment of the present invention, and FIGS. 5 to 11 are views illustrating an example of a screen displayed on the apparatus for inspecting a pressure corrector according to an exemplary embodiment of the present invention.

First, the on-pressure compensator 100, the on-pressure compensator inspection apparatus 200, and the on-pressure regulator inspection system 400 are connected in the same state as in FIG. 1.

Then, referring to FIG. 4, the user inputs basic information, and the controller 420 inputs a compression coefficient calculation method, a set temperature, a set pressure, a temperature error range, and a pressure error range from the user through the input unit 430. Received and stored in the storage unit 450 (S410).

Here, the adjustment range, the rise time, the fall time, the adjustment range of the pressure control unit, the stability, etc. of the temperature control unit supported by the on-pressure calibrator inspection apparatus 200 are illustrated in FIG. 5.

In addition, the temperature reference, pressure reference, and compression coefficient type and size are also shown in FIG. 5, and these specifications can be modified as necessary.

An example of the basic information input screen is shown in FIGS. 6 to 8.

Referring to FIG. 6, there is a part for setting a test pattern, selecting a compression coefficient and a tolerance, and inputting information of a compensator and information of a requesting institution.

In addition, referring to FIG. 7, the measurement temperature and the operating state, the measurement pressure and the operating state, the manual adjustment of the pressure valve, the contents regarding the measurement temperature / pressure setting, and the like are displayed.

In addition, referring to FIG. 8, a temperature stabilization condition setting, a pressure stabilization condition setting, and a test report issuing condition setting screen may be displayed on the screen.

The screens of FIGS. 6 to 8 may be variously modified, and may be implemented as various screens instead of one screen.

Thereafter, the controller 420 transmits a control signal corresponding to the set temperature and the set pressure to the on-pressure compensator inspection apparatus 200 in the basic information (S420).

Then, the temperature control unit 280 that receives the control signal through the information transmitting and receiving unit 290 is a heater and cooler to set the temperature of the temperature tank 230 to the set temperature under the control of the on-pressure compensator inspection system 400. Control 250. The heater and the cooler 250 heat or cool the temperature tank unit 230 under the control of the temperature controller 280.

In addition, the pressure control unit 270 that receives the control signal through the information transmission and reception unit 290 controls the pressure of the pressure tank unit 240 to be a set pressure under the control of the on-pressure compensator inspection system 400. In addition, the opening and closing unit 260 controls to supply or discharge external pressure to the pressure tank unit 240 under the control of the pressure controller 270.

Then, the temperature detector 210 measures the temperature of the temperature tank 230, converts the electric signal corresponding to the measured temperature, and outputs the signal to the information transceiver 290.

In addition, the pressure detection unit 220 measures the pressure of the pressure tank unit 240 and converts it into an electrical signal corresponding to the measured pressure and outputs it to the information transmitting and receiving unit 290.

Thereafter, the information transmitting / receiving unit 450 transmits the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator 100 and the temperature and pressure detected by the on-pressure compensator testing device 200 to the on-pressure compensator testing system 400. Send.

Then, the controller 420 controls the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator 100 and the temperature and pressure detected by the on-pressure compensator 200 from the on-pressure compensator 200. It receives and displays on the display unit 410 (S430).

In addition, the controller 420 calculates a temperature error and a pressure error from the difference between the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature pressure compensator 100 and the temperature and pressure detected by the temperature pressure compensator test device, respectively. The display is displayed on the display unit 410 (S440).

In addition, the control unit 420 calculates the compression coefficient according to the set compression coefficient calculation method, the input of the correction coefficient of the on-pressure corrector through the input unit 430 and the temperature, pressure detected by the on-pressure compensator inspection apparatus 200 And a correction coefficient is calculated from the compression coefficient and displayed on the display unit 410 (S450, S460). Since the compression coefficient and correction coefficient calculation method is well known in the art, detailed description thereof will be omitted.

An example of such a display screen is shown in FIG.

Referring to FIG. 9, temperature and pressure related data are displayed, correction coefficients, etc. are displayed, and temperature and pressure measurement values may be confirmed through a graph.

10, the inspection pattern may be defined in advance, and inspection may be performed in various patterns.

In addition, the measurement data display screen may be configured as shown in FIG. 11, and the measurement data may be displayed by date and time zone.

Such a specific data screen may also be variously modified, and various information may be additionally displayed as necessary.

Thereafter, the controller 420 determines whether the temperature error and the pressure error deviate from the reference temperature error range and the pressure error range (S470), and determines the temperature error range and the pressure error range where the temperature error and the pressure error are the reference. In case of deviation, the display is warned (S480).

In addition, the controller 420 determines whether the difference between the correction coefficient and the calculated correction coefficient of the on-pressure compensator is greater than or equal to the set reference difference value (S470), and the reference difference value is set to the difference between the correction coefficient and the calculated correction coefficient of the on-pressure compensator. If abnormal, it indicates that the sensor of the on-pressure compensator (S480).

Such sensor abnormality determination may be variously modified as necessary, and may be performed in parallel or alone.

The warning display or notification method can also be modified in various ways, and if necessary, a notification can be displayed by sound.

The embodiments of the present invention described above are not only implemented by the apparatus and method but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded, The embodiments can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (11)

An on-pressure compensator inspection device that receives a temperature or pressure measurement measured by a temperature sensor and a pressure sensor of an external on-pressure compensator, and communicates with an external on-pressure compensator inspection system,
A temperature tank unit which is a space for measuring a temperature;
A pressure tank unit which is a space for measuring pressure;
A temperature control unit controlling the temperature of the temperature tank unit to be a predetermined temperature according to the control of the temperature-pressure compensator inspection system;
A heater and a cooler for heating or cooling the temperature tank unit under the control of the temperature control unit;
A pressure control unit controlling the pressure of the pressure tank unit to be a predetermined pressure according to the control of the on-pressure compensator inspection system;
An opening / closing unit controlling to supply or discharge external pressure to the pressure tank unit under the control of the pressure controller;
A temperature detector configured to measure the temperature of the temperature tank unit and convert the temperature into an electrical signal corresponding to the measured temperature;
A pressure detector which measures the pressure of the pressure tank unit and converts the pressure signal into an electrical signal corresponding to the measured pressure;
And a temperature transmitting / receiving unit for transmitting the temperature and pressure detected by the temperature detector and the pressure detector, and the temperature and pressure output from the temperature sensor and the pressure sensor of the on-pressure compensator to the on-pressure compensator inspection system. An on-pressure compensator inspection device that receives a temperature measured by a temperature sensor of an external on-pressure compensator, and communicates with an external on-pressure compensator inspection system,
A temperature tank unit which is a space for measuring a temperature;
A temperature control unit controlling the temperature of the temperature tank unit to be a predetermined temperature according to the control of the temperature-pressure compensator inspection system;
A heater and a cooler for heating or cooling the temperature tank unit under the control of the temperature control unit;
A temperature detector configured to measure the temperature of the temperature tank unit and convert the temperature into an electrical signal corresponding to the measured temperature;
And a temperature transmitting / receiving unit for transmitting the temperature detected by the temperature detector and the pressure detector and the temperature output from the temperature sensor of the temperature corrector to the temperature corrector inspection system. An on-pressure compensator inspection device which receives a pressure measurement measured by a pressure sensor of an external on-pressure compensator and communicates with an external on-pressure compensator inspection system,
A pressure tank unit which is a space for measuring pressure;
A pressure control unit controlling the pressure of the pressure tank unit to be a predetermined pressure according to the control of the on-pressure compensator inspection system;
An opening / closing unit controlling to supply or discharge external pressure to the pressure tank unit under the control of the pressure controller;
A pressure detector which measures the pressure of the pressure tank unit and converts the pressure signal into an electrical signal corresponding to the measured pressure;
And a pressure transmitter / receiver for transmitting the pressure detected by the pressure detector and the pressure output from the pressure sensor of the on-pressure compensator to the on-pressure compensator inspection system. The control signal for controlling the temperature and pressure is transmitted to an external temperature corrector checking device, and the temperature or pressure measured by the temperature sensor and the pressure sensor of the temperature checking device from the temperature correcting device and the reference temperature measured by the temperature checking device. Or a pressure compensation test system for receiving pressure,
An input unit for receiving a selection of a user;
A display unit for displaying information;
A storage unit for storing a calculation formula corresponding to a compression coefficient calculation method, a set temperature, a set pressure and a temperature error range, and a pressure error range;
A compression signal calculation method, a set temperature, a set pressure, a temperature error range and a pressure error range are received from the user through the input unit and stored in the storage unit, and a control signal corresponding to the set temperature and the set pressure in the on-pressure compensator inspection device. A control unit configured to transmit the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator and the temperature and the pressure detected by the on-pressure compensator to be displayed on the display unit;
On-pressure compensator inspection system including a communication unit for performing a communication function under the control of the controller. 5. The method of claim 4,
And the control unit calculates a compression coefficient according to a set compression coefficient calculation method and displays the compression coefficient on the display unit. The method according to claim 4 or 5,
The controller calculates and displays a temperature error and a pressure error from the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature corrector and the temperature and pressure detected by the temperature corrector inspection device, respectively, and displays the temperature on the display unit. And a warning display on the display unit when the error and the pressure error are outside the reference temperature error range and the pressure error range. The method according to claim 6,
The control unit receives a correction coefficient of the on-pressure compensator through the input unit, calculates a correction coefficient from the temperature, pressure and compression coefficient detected by the on-pressure compensator inspection apparatus, and if the difference between the correction coefficients is equal to or greater than a set reference difference value, the on-pressure The on-pressure compensator inspection system, characterized in that determined by the sensor failure of the compensator. The control signal for controlling the temperature and pressure is transmitted to an external temperature corrector checking device, and the temperature or pressure measured by the temperature sensor and the pressure sensor of the temperature checking device from the temperature correcting device and the reference temperature measured by the temperature checking device. Or a method for inspecting a pressure compensator for receiving pressure,
Receiving a compression coefficient calculation method, a set temperature, a set pressure, a temperature error range, and a pressure error range from a user through an input unit and storing them in a storage unit;
Transmitting, by a controller, a control signal corresponding to a set temperature and a set pressure to the on-pressure corrector inspection device;
Receiving, by the controller, the temperature and pressure detected by the temperature sensor and the pressure sensor of the on-pressure compensator and the temperature and the pressure detected by the on-pressure compensator from the on-pressure compensator and displaying on the display unit;
And calculating, by the controller, a temperature error and a pressure error from the temperature and pressure detected by the temperature sensor and the pressure sensor of the temperature compensator and the difference between the temperature and the pressure detected by the temperature compensator test device, and displaying the temperature error and the pressure error. How to check the temperature pressure compensator 9. The method of claim 8,
Determining, by the controller, whether the temperature error and the pressure error deviate from a temperature error range and a pressure error range that are reference;
And displaying a warning on the display unit when the controller is out of a temperature error range and a pressure error range in which the temperature error and the pressure error are reference. 10. The method of claim 9,
And calculating, by the control unit, a compression coefficient and displaying the compression coefficient on the display unit in accordance with a predetermined compression coefficient calculation method. The method of claim 10,
Receiving, by the control unit, a correction coefficient of a warm pressure corrector through the input unit;
Calculating, by the control unit, a correction coefficient from a temperature, pressure, and compression coefficient detected by the warm pressure corrector inspection device;
Determining whether a difference between the correction coefficient and the calculated correction coefficient of the on-pressure corrector is greater than or equal to a set reference difference value;
And notifying a sensor failure of the on-pressure compensator if the difference between the correction coefficient and the calculated compensation coefficient of the on-pressure compensator is equal to or greater than a set reference difference value.

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