KR102613925B1 - Multi pressure test device - Google Patents

Abstract

The present invention relates to a multi-pressure test device. More specifically, the pressure required for the pressure test of the test vessel is generated using compressed air from an air compressor, and the incoming compressed air can be decompressed to a set pressure and output. Equipped with multiple pressure control regulators and a stage selection on/off valve, you can select the stage that suits the pressure range you want to test and precisely set the output pressure for each stage to perform various pressure tests with one device. Multi-pressure test It's about devices.
The multi-pressure testing device according to the present invention includes an air compressor that generates compressed air; an air inlet port connected to the air compressor; a pressure control regulator capable of reducing the pressure of compressed air flowing into the air inlet port to a set pressure and outputting it; an air discharge port connected to the test vessel to supply compressed air output from the pressure control regulator to the test vessel; a pressure sensor capable of measuring the pressure formed between the output terminal of the pressure control regulator and the air discharge port; It includes a plurality of pressure control regulators capable of independently setting each output pressure, and a step selection on/off valve connected to each output terminal of the plurality of pressure control regulators; a control unit that controls opening and closing of the stage selection valve so that one of the plurality of pressure control regulators can be connected to the air discharge port; It is characterized by including more.

Description

Multi pressure test device {Multi pressure test device}

The present invention relates to a multi-pressure test device. More specifically, the pressure required for the pressure test of the test vessel is generated using compressed air from an air compressor, and the incoming compressed air can be decompressed to a set pressure and output. Equipped with multiple pressure control regulators and a stage selection on/off valve, you can select the stage that suits the pressure range you want to test and precisely set the output pressure for each stage to perform various pressure tests with one device. Multi-pressure test It's about devices.

Pressure vessels such as welded structures, piping devices, air conditioners, and heating devices must be able to withstand pressure above a certain level, and if the fluid flowing inside leaks to the outside, it can cause many problems, so it is essential to use a pressure test device. and leakage testing are required.

The pressure test device according to the prior art performed a pressure test on the test vessel by adjusting the pressure to be tested using a manual pump and an analog pressure gauge.

However, in the case of manual pumps and analog pressure gauges, there was a problem in that it was difficult to precisely adjust the desired pressure and it required a lot of force.

In order to solve the problems of the prior art as described above, Republic of Korea Patent Publication No. 10-2003-0081702 (published on October 22, 2002) discloses a “tube pressure test device using air pressure” equipped with a pump operated as an air source and a pressure adjustment unit. has been proposed.

The above device is a device for testing the pressure of a specific tube, and has the limitation of not being able to test various test containers with different required pressure ranges with one device.

The present invention was created to solve the problems of the prior art as described above. The purpose of the present invention is to automatically supply the compressed air required for pressure testing and to perform various pressure tests by varying the output pressure with a single device. The purpose is to provide a multi-pressure testing device.

In order to achieve the above object, a multi-pressure test device according to the present invention includes an air compressor that generates compressed air; an air inlet port connected to the air compressor; a pressure control regulator capable of reducing the pressure of compressed air flowing into the air inlet port to a set pressure and outputting it; an air discharge port connected to the test vessel to supply compressed air output from the pressure control regulator to the test vessel; a pressure sensor capable of measuring the pressure formed between the output terminal of the pressure control regulator and the air discharge port; It includes a plurality of pressure control regulators capable of independently setting each output pressure, and a step selection on/off valve connected to each output terminal of the plurality of pressure control regulators; a control unit that controls opening and closing of the stage selection valve so that one of the plurality of pressure control regulators can be connected to the air discharge port; It is characterized by including more.

In addition, the multi-pressure testing device according to the present invention includes a pressure display unit capable of displaying pressure information including the pressure measured by the pressure sensor in real time; Additionally, the control unit determines that the pressure measured by the pressure sensor is normal if it maintains the set pressure difference range for a set time, and if it decreases beyond the set pressure difference range, it is determined to be a leak, and the pressure display unit determines this. It is characterized by controlling to display the results.

Here, the plurality of pressure control regulators are provided with different output pressure ranges that can be set step by step in the direction in which the output pressure increases, and the control unit performs a test for one of the stages matched to each of the plurality of pressure control regulators. If it is judged to be normal, the opening and closing of the step selection valve is controlled to automatically enable the next step of the test.

Due to the above configuration, the multi-pressure test device according to the present invention has the advantage of being able to generate the pressure necessary for the pressure test of the test vessel using the compressed air of the air compressor, and adjusts the incoming compressed air to each set pressure. Equipped with a plurality of pressure control regulators that can output by reducing pressure and a stage selection on/off valve, you can select the stage that suits the pressure range you want to test and precisely set the output pressure for each stage to perform various pressure tests with one device. There are advantages to this.

1 is a configuration diagram of a multi-pressure testing device according to an embodiment of the present invention.
Figure 2 is a conceptual diagram showing the configuration according to air flow of a multi-pressure test device according to an embodiment of the present invention.
Figure 3 is a conceptual diagram showing a pressure display unit and operation button according to an embodiment of the present invention.

Figure 1 is a configuration diagram of a multi-pressure testing device according to an embodiment of the present invention, Figure 2 is a conceptual diagram showing the configuration according to air flow of a multi-pressure testing device according to an embodiment of the present invention, and Figure 3 is This is a conceptual diagram showing a pressure display unit and operation button according to an embodiment of the present invention.

Looking at Figures 1 to 3, the multi-pressure test device according to an embodiment of the present invention includes a case (1), an air compressor (10), a pressure control regulator (20), a step selection on/off valve (30), It includes a pressure sensor 40, a pressure display unit 50, and a control unit 60.

The case (1) forms the outline of the device according to the present invention, and other components are connected or built in, including an air inlet port (P1), an air outlet port (P2), an air drain port (P3), An air gun connection port (P4) is formed.

An air compressor (10) is connected to the air inlet port (P1) to allow compressed air to flow in, and a test vessel (O) is connected to the air discharge port (P2) to perform a pressure test with the test vessel (O). Air adjusted to the required pressure is discharged.

Meanwhile, the air drain port (P3) is open to the outside, and an air gun (G) is connected to the air gun connection port (P4).

The pressure test is usually performed by filling the test container (O) with water, an incompressible fluid, and the air gun (G) cleans the measuring part of the test container (O) or removes the water remaining inside after the test is completed. It can be used for drying purposes.

In addition, an air inlet valve (V1) is provided in the airline leading from the air inlet port (P1), an air discharge valve (V2) is provided in the airline before the air discharge port (P2), and the air drain port ( The air line before P3) is equipped with an air drain valve (V3).

The air inlet valve (V1), air outlet valve (V2), and air drain valve (V3) are opened and closed by the user's operation of the operation button (B), and their usage method and operating sequence will be described later.

The air compressor (10) is operated by receiving power and automatically generates compressed air, and is connected to the air inlet port (P1) to provide compressed air required for the pressure test.

The compressed air generated by the air compressor 10 and supplied into the device according to the present invention is filtered by first passing through the air filter 11 as soon as it passes the air inlet port P1, as shown in FIG. 1. It is advisable to use it accordingly.

The pressure control regulator 20 is configured to reduce the pressure of compressed air flowing into the air inlet port (P1) through the air compressor 10 to a set pressure and output it.

The pressure control regulator 20 according to an embodiment of the present invention is provided in plural numbers 21, 22, 23, and 24 and is configured to independently set each output pressure. The plurality of pressure control regulators (21, 22, 23, 24) have different output pressure ranges that can be set step by step in the direction of increasing output pressure.

More specifically, the plurality of pressure control regulators 21, 22, 23, and 24 are composed of regulators with different mutual capacities, and as shown in FIG. 3, the first pressure control regulator 21 has a pressure of 0.5 to 2 Kg/Cm², 2 The pressure control regulator (22) is within the pressure range of 2~4Kg/Cm², the third pressure control regulator (23) is within the pressure range of 4~6Kg/Cm², and the fourth pressure control regulator (22) is within the pressure range of 6~9Kg/Cm². It is configured to adjust the output pressure, and is configured to finely set the set pressure through the user's dial operation.

The step selection on/off valve 30 is connected to each of the output terminals of the plurality of pressure control regulators 21, 22, 23, and 24, and can be operated manually by the user using the operation button B or automatically controlled by the control unit 60. It is a configuration that is opened and closed by .

More specifically, in the case of manual operation, the step selection opening/closing valve 30 allows the user to set the pressure range required for the pressure test of the test container O as shown in FIG. 3 by pressing the operation buttons B of MODE 1 to 4. As the selection is made, one of the plurality of stage selection valves (31, 32, 33, 34) is opened and closed.

The pressure sensor 40 is configured to measure the pressure formed between the output terminal of the pressure control regulator 20 and the air discharge port (P2).

The pressure sensor 40 can measure the set pressure of compressed air passing through the pressure control regulator 20 when the air discharge valve (V2) is closed, and the air discharge valve (V2) is open. In this case, it is possible to measure the discharge pressure discharged into the test container (O).

The pressure display unit 50 is configured to display pressure information including the pressure measured by the pressure sensor 40 in real time.

In one embodiment of the present invention, the pressure display unit 50 includes an inlet pressure display unit 51, a set pressure display unit 52, and an discharge pressure display unit 53.

The inlet pressure display unit 51 is configured to measure and display the pressure of compressed air flowing into the interior through the air compressor 10. In one embodiment of the present invention, the air compressor 10 and the pressure control regulator ( 20) It consists of an analog pressure gauge mounted on the airline.

The set pressure display unit 52 is configured to display the pressure of compressed air that has passed through the pressure control regulator 20. In one embodiment of the present invention, the set pressure display unit 52 is a digital device capable of displaying the pressure measured by the pressure sensor 40. It consists of a pressure gauge.

The user checks the pressure value displayed as a digital number and sets the set pressure by finely adjusting the pressure control regulator 20, making it possible to set the set pressure more accurately than with an analog pressure gauge.

The discharge pressure display unit 53 is configured to display the pressure discharged to the test container (O), and in one embodiment of the present invention, it is mounted on the airline between the air discharge valve (V2) and the air discharge port (P2). It consists of an analog pressure gauge.

As described above, the pressure sensor 40 can measure the set pressure of compressed air passing through the pressure control regulator 20 when the air discharge valve V2 is closed, and the air discharge valve ( When V2) is open, the discharge pressure discharged to the test container (O) can be measured, so the set pressure display unit 52 can substantially perform the role of the discharge pressure display unit 53.

However, in one embodiment of the present invention, providing a separate analog discharge pressure display unit 53 as described above allows the user to respond to the change in pressure by moving the needle when pressure leakage occurs in the test container (O). This is to enable immediate confirmation and use of this device for educational purposes.

Below, we will first look at how to use this device through manual operation.

With the air compressor 10 connected to the air inlet port (P1) and the test vessel (O) connected to the air discharge port (P2), first, the main power is turned on using the operation button (B) shown in FIG. 3. The switch is pressed, and in this case, the air inlet valve (V1) is opened and the compressed air of the air compressor (10) flows into the inside of the device, and the pressure gauge of the inlet pressure display unit (51) is displayed on the air compressor (10). ) displays the pressure of the compressed air flowing in.

Next, the user presses the MODE switch as the operation button (B) shown in FIG. 3 according to the pressure value to be tested, and in this case, the stage selection on/off valve (31 or 32 or 33 or 34) corresponding to the selected MODE is opened. The set pressure display unit 52 displays the pressure of the compressed air that has passed through the stage selection valve.

The user checks the set pressure displayed as a digital number on the set pressure display unit 52 and sets the desired set pressure by finely adjusting the pressure control regulator (21 or 22 or 23 or 24) corresponding to the selected mode.

Next, the user presses the start switch using the operation button (B) shown in FIG. 3. In this case, the air discharge valve (V2) is opened and the compressed air set to the set pressure is supplied to the test container (O). The pressure gauge of the discharge pressure display unit 53 displays the pressure of the compressed air discharged into the test container (O).

In this state, if it is confirmed that the pressure displayed on the set pressure display unit 52 or the discharge pressure display unit 53 decreases to a certain level below the initial set pressure, it can be determined that a leak has occurred in the test container (O). will be.

When the pressure test is completed, the user presses the stop switch using the operation button (B) shown in FIG. 3. In this case, the drain valve (V3) is opened and the compressed air inside is discharged to the outside.

In some cases, the user can use the air gun (G) as needed by pressing the air gun switch as the operation button (B) shown in FIG. 3.

In the above, we looked at how to use this device through manual operation, and below we look at how to operate this device through automatic operation.

The control unit 60 is required for automatic operation of the device.

The control unit 60 controls the opening and closing of the air inlet valve (V1), the air discharge valve (V2), and the drain valve (V3), and any one of the plurality of pressure control regulators (21, 22, 23, and 24) It is a configuration that controls the opening and closing of the stage selection on/off valve (30) so that the pressure control regulator (21 or 22 or 23 or 24) of can be connected to the air discharge port (P2).

In addition, the control unit 60 determines that the pressure measured by the pressure sensor 40 is normal when it maintains the set pressure difference range for a set time, and determines it to be a leak when it decreases beyond the set pressure difference range. The pressure display unit 50 is configured to control the display of the determination result.

In addition, the control unit 60 automatically enables the next stage of the test when it is determined to be normal in the test for any stage among the stages matched to each of the plurality of pressure control regulators 21, 22, 23, and 24. It is configured to control the opening and closing of the step selection on/off valve (30).

The multi-pressure test device described above and shown in the drawings is only one example for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is determined only by the matters stated in the claims below, and improved and changed embodiments without departing from the gist of the present invention are obvious to those skilled in the art to which the present invention pertains. It will be said to fall within the scope of protection of the present invention.

1 case
P1 air inlet port V1 air inlet valve
P2 air discharge port V2 air discharge valve O Test container
P3 air drain port V3 drain valve
P4 air gun connection port G air gun
10 Air compressor
11 Air filter
20 Pressure control regulator
30 level selection on/off valve
40 pressure sensor
50 pressure display
51 Inlet pressure display
52 Set pressure display
53 Discharge pressure display
60 control unit

Claims (3)

An air compressor that generates compressed air; an air inlet port connected to the air compressor; a pressure control regulator capable of reducing the pressure of compressed air flowing into the air inlet port to a set pressure and outputting it; an air discharge port connected to the test vessel to supply compressed air output from the pressure control regulator to the test vessel; a pressure sensor capable of measuring the pressure formed between the output terminal of the pressure control regulator and the air discharge port; Including,
The pressure control regulator is provided in plural pieces so that each output pressure can be set independently,
a stage selection on/off valve connected to each output terminal of the plurality of pressure control regulators;
a control unit that controls opening and closing of the step selection valve so that one of the plurality of pressure control regulators can be connected to the air discharge port; Contains more,
The plurality of pressure control regulators have different output pressure ranges that can be set step by step in the direction of increasing output pressure,
The output terminals of the stage selection valves are all connected through one air discharge valve to discharge compressed air through the air discharge port,
a pressure display unit capable of displaying pressure information including the pressure measured by the pressure sensor in real time; Including more,
The control unit determines that the pressure measured by the pressure sensor is normal if it maintains the set pressure difference range for a set time, and if it decreases beyond the set pressure difference range, determines it to be a leak and causes the pressure display unit to display the determination result. control,
The control unit controls the opening and closing of the stage selection valve to automatically enable testing of the next stage when it is determined to be normal in the test for any stage among the stages matched to the plurality of pressure control regulators. Pressure testing device. delete delete