KR20070114249A - Breather valve test bench - Google Patents

Abstract

A test bench for a breather valve is provided to effectively test the valve by storing checked results in a database. A test bench for a breather valve comprises a drum body(10), an air compressor(30), a pressure transducer(40), a transmitter(60) installed on one side of the drum body and a data processing part(70). An upper end of the drum body communicates with a jig flange to which a breather valve is affixed. The air compressor is connected to one side of the drum body through a main pipe, thereby generating compressed air. The pressure transducer is provided between the drum body and the air compressor, and converts the air pressure to a positive or negative pressure. The transmitter outputs an electric signal corresponding to the measured pressure in the drum body. The data processing part generates a database on the basis of results obtained by receiving the output signal.

Description

Breather Valve Test Bench {Breather Valve Test Bench}

The present invention relates to a breather valve inspection apparatus, and more particularly, it is possible to easily inspect the breather valve at a desired place and to obtain an inspection result as digital data, so that the breather valve can accurately determine the abnormality of the breather valve It relates to an inspection apparatus.

In general, a plurality of tanks connected to various process lines or pressure vessels are installed in a plant of a petrochemical complex or a national industrial complex.

However, when the tank is completely enclosed, it is in a vacuum state and cannot control the materials inside the tank.In addition, when the pressure inside the tank is generated due to an increase in the internal heat, a dangerous phenomenon such as explosion or crushing may be encountered. do.

Therefore, such a tank is generally provided with a breather valve (Breather Valve) to adjust the pressure in the tank.

The breather valve is opened so that the outside air can be automatically circulated when the inside of the tank becomes positive pressure (+ pressure) higher than atmospheric pressure or negative pressure (-pressure) lower than atmospheric pressure, so that the pressure inside the tank is always adjusted to the same condition as the atmospheric pressure. In order to ensure safety, the breather valve must be regularly checked at regular intervals to ensure safety.

However, in the past, there is no separate device for checking the operating state of the breather valve. Usually, the breather valve to be inspected is dismantled from the tank at the site, disassembled, and the internal cleaning and parts are replaced. In most cases, the worker (inspector) records the values randomly after installation on site without inspection.

Therefore, it is difficult to know the accurate measurement value, it is difficult to make a reliable determination of the operation state of the inspection target breather valve, and thus there is a problem that it is difficult to secure the safety of the equipment.

The present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to easily and accurately measure the operating state of the tester breather valve, and also to test the database of the test results more efficient management of the valve It is to provide a breather valve inspection device that can be used.

Breather valve inspection apparatus according to an embodiment of the present invention for achieving the above object,

A hollow drum body in which a jig flange to which the inspection target breather valve is fixed is connected to an upper end, an air compressor connected to one side of the drum body through a main pipe to generate compressed air, and between the drum body and the air compressor. A pressure converter configured to be provided at the main pipe of the drum body to convert the pressure supplied to the drum body into a positive pressure (+) or a negative pressure (-), and connected to one side of the drum body so as to correspond to the measured pressure inside the drum body. And a data processor for outputting a signal, and a data processor for receiving an output signal of the transmitter and generating a database of test results.

In addition, the breather valve inspection apparatus according to an embodiment of the present invention may further include a manometer installed in the main pipe of the rear end of the pressure conversion unit to measure and display the pressure of the main pipe.

Here, the pressure converting portion, a branch pipe connected to the branch is connected to the double between the main pipe, a pair of opening and closing valves installed on both sides of the branch pipe and selectively opened and closed, and the rear end branch of the one open valve It includes a vacuum generator provided in the pipe for generating a negative pressure (-).

And the jig flange is preferably provided so that a plurality of having a different diameter is in communication with the top of the drum body.

In addition, the database is preferably formed as an Excel file including data on the inspection date, the specification of the breather valve to be inspected, the inspection pressure value, and the operating state of the valve.

Breather valve inspection apparatus according to the present invention,

By measuring whether or not the breather valve under test is operated at the test pressure, it is possible to accurately and reliably measure the abnormality of the breather valve.

In addition, there is an effect that helps to manage the history and characteristics of the valve to be inspected by storing the measured data in the database.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a conceptual diagram showing a schematic configuration of a breather valve inspection apparatus according to an embodiment of the present invention, Figure 2 is a block diagram of a pressure conversion unit according to an embodiment of the present invention, Figure 3 is a vacuum generator of Figure 2 Exemplary diagram illustrating the basic structure.

1, the breather valve inspection apparatus according to an embodiment of the present invention includes a drum body (10).

The drum body 10 is a hollow body, the bottom is provided with a pedestal 12 having a wheel 13 so as to be movable, the upper jig flange 11 for fixing and mounting the inspection target breather valve is provided It is formed in communication.

The inspection target breather valve is coupled to the jig flange 11 so as to be in communication with the drum body 10, the jig flange 11 is a diameter of a mutually different size so as to inspect a variety of sized breather valve It is preferable that a plurality is provided.

One side of the drum body 10 is connected to the main pipe 20, the air compressor 30 for generating pressure by compressing air is connected to the end of the main pipe 20 is installed.

A pressure converting portion 40 is provided between the drum body 10 and the air compressor 30 connected through the main pipe 20.

As shown in FIG. 2, the pressure converter 40 includes a branch pipe 41, a pair of on / off valves 42, and a vacuum generator 43.

The branch pipe 41 is a double pipe is branched from both sides of the main pipe 20 and then installed to be aerated in the main pipe 20 again, the on-off valve 42 is provided on both sides of the branch pipe (41) Is installed.

The on-off valve 42 is selectively opened and closed so that the flow path is formed on either side of the branch pipe 41.

The vacuum generator 43 is installed in the rear branch pipe 41 of the on-off valve 42 of any one of the on-off valve 42 for selectively opening and closing the flow path as described above.

3 shows the basic structure of the vacuum generator 43. Referring to this, the vacuum generator 43 is a diffuser 43b after the compressed air from the air compressor 30 passes through the nozzle 43a. When the air is passed through the nozzle 43a, the speed of air is increased and the pressure is lowered. Therefore, the air of the vacuum port 43d is introduced into the chamber 43c where the pressure is lowered, and together with the diffuser 43b. As it is sucked out, a vacuum is formed on the vacuum port 43d side.

Accordingly, the pressure conversion unit 40 supplies the positive pressure (+) to the drum body 10 by simply passing compressed air in the air compressor 30 by the selective opening and closing of the on / off valve 42, or by generating a vacuum generator ( 43) to convert the pressure to supply a negative pressure (-).

A manometer 50 is installed in the rear main pipe 20 of the pressure conversion unit 40 having the above configuration.

The manometer 50 is a measuring device that measures and displays the pressure of the main pipe 20, and is made of a U-shaped scale is marked from the top to the bottom, so that the operator can check the pressure of the main pipe 20 with the naked eye. To be.

However, since the measured value may vary depending on the field of view and angle of the operator viewing the scale, the manometer 50 may have a transmeter 60 on one side of the drum body 10 to secure a more accurate and reliable measured value. ) Is installed connected.

The transmitter 60 measures the pressure inside the drum body 10 and outputs an electrical signal corresponding to the measured pressure, and transmits the electrical signal to the data processor 70 to be described later.

Since the transformer 60 senses the pressure and converts it into an electrical signal, an accurate measured value of the pressure can be obtained.

The electrical signal for the pressure converted by the transformer 60 is received in real time by the data processor 70.

The data processor 70 digitizes the test result of the breather valve according to the received signal to generate a database.

The database includes data on the inspection date of the breather valve, the specification of the breather valve, the test pressure value, and the operating state of the breather valve.

In addition, it is preferable that the database includes the inspection company, the inspection participant, the measurement date, the detailed information of the breather valve, etc., so that all these databases can be stored as an Excel file to efficiently manage the history of the inspection results (History). It is desirable to provide.

Briefly describing the operation of the breather valve inspection device having a configuration as described above as follows.

To inspect the breather valve, first, check whether or not each connection part of the main pipe 20 is leaked.

If there is no abnormality after the check, check the size of the breather valve to be inspected and mount the inspection target breather valve on the drum body 10 by coupling to the jig flange 11 of the corresponding size. In this case as well, it is desirable to check whether the flange is connected to the leak so that it can be accurately inspected.

After mounting the breather valve as described above, the on-off valve 41 of the pressure conversion unit 40 is operated according to the inspection type. First, if the positive pressure (+) occurs in the equipment, it is determined whether the breather valve is operating correctly. For inspection, the on / off valve 42 on the branch pipe 41 side in which the vacuum generator 43 is installed is closed, and the on / off valve 42 on the other side is opened to open.

Then, the air compressor 30 is operated to supply compressed air to the drum body 10 through the main pipe 20 to inspect the operating state of the mounted breather valve.

At this time, the inspection pressure can be checked with the naked eye through the manometer (50), it is also possible to manage the digital data through the transmitter 60 and the data processing unit (70).

On the other hand, when a negative pressure (-) is generated in the facility, when checking whether the breather valve is operating correctly, the open / close valve 42 is closed and the on / off valve of the branch pipe 41 on which the vacuum generator 43 is installed. After opening (42), operate the air compressor (30).

Then, the compressed air of the air compressor 30 is introduced into the vacuum generator 43, and a negative pressure (-) is generated inside the drum body 10 by the action of the vacuum generator 43. You can check the operating status.

In this case, the inspection pressure can be visually confirmed through the manometer 50, and also can be managed as digital data through the transmitter 60 and the data processor 70.

Although the present invention has been described above, the technical scope of the present invention is not limited to the above-described embodiments and the contents described in the drawings, and is provided by those skilled in the art in order to carry out the same purposes of the present invention. Modified or modified equivalent configuration will be said to be within the scope of the technical idea of the present invention.

1 is a conceptual diagram showing a schematic configuration of a breather valve inspection apparatus according to an embodiment of the present invention,

2 is a configuration diagram of a pressure conversion unit according to an embodiment of the present invention;

3 is an exemplary view illustrating a basic structure of a vacuum generator in FIG. 2.

Claims (5)

A hollow drum body in which a jig flange for fixing a breather valve to be inspected is in communication with an upper end thereof; An air compressor connected to one side of the drum body through a main pipe to generate compressed air; A pressure conversion unit provided in the main pipe between the drum body and the air compressor to convert the pressure supplied to the drum body into a positive pressure or a negative pressure; A transformer connected to one side of the drum body and outputting an electrical signal corresponding to a measurement pressure in the drum body; And And a data processor configured to receive an output signal of the transmitter to generate a database of test results. The method of claim 1, And a manometer which is installed in the main pipe at the rear end of the pressure converting unit and measures and displays the pressure of the main pipe. The method according to claim 1 or 2, The pressure conversion unit, Branch pipes are branched and connected in a double between the main pipe; A pair of on / off valves installed on both sides of the branch pipe and selectively opened and closed; And And a vacuum generator provided at a rear branch pipe of the one-side open / close valve to generate a negative pressure (−). The method of claim 1, The jig flange is a breather valve inspection device, characterized in that a plurality of having a different diameter is provided to communicate with the top of the drum body. The method of claim 1, The database is Breathing valve inspection apparatus, characterized in that formed into an Excel file including the date of inspection, specifications of the inspection target breather valve, the inspection pressure value, the operating state of the valve.

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