KR20180000372A - Diagnostic apparatus and diagnostic method for compressed air - Google Patents

Abstract

Provided are a compressed air diagnostic device and a diagnostic method thereof. The compressed air diagnostic device according to an embodiment of the present invention includes: a compression vessel for housing compressed air therein; a connection conduit for connecting an air inlet of the compression vessel and a compressed air supply system; a supply control valve installed in the connection conduit and controlling an inflow of compressed air into the compression vessel; and a sensor installing portion provided in the compression vessel so as to install a sensor for diagnosing the compressed air inside the compression vessel.

Description

TECHNICAL FIELD [0001] The present invention relates to a compressed air diagnosis apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compressed air diagnosis apparatus and a diagnostic method that can be installed in a compressed air supply system to diagnose the state of compressed air.

Various industrial sites employ a compressed air supply system that supplies compressed air to various pneumatic equipment to operate pneumatic equipment. Compresses the atmosphere to produce compressed air, and transmits it to various pneumatic devices through a pipeline to operate the pneumatic device.

A typical compressed air supply system includes an air compressor that produces compressed air, a cooler that cools the compressed air, and an air tank that stores compressed air. It also includes a purifying device such as a filter or an air dryer that is installed in a supply pipe of compressed air to purify compressed air to finally supply compressed air of good quality to the user.

Moisture contained in the compressed air can cause corrosion or malfunction of pneumatic equipment, and in the winter, it can cause freezing to the supply pipe. Thus, the compressed air supply system needs to periodically check whether the air dryer to remove moisture is operating normally for the supply of good compressed air.

The performance diagnosis of the air dryer can be performed by measuring and comparing the dew point temperature of the compressed air upstream and downstream of the air dryer, respectively. However, in order to measure the dew point temperature of the compressed air, it is necessary to install the sensor in the compressed air supply line, and it is difficult to install the sensor in the existing supply line of the conventional compressed air supply system for inspection purposes. It was a difficult problem to diagnose compressed air by installing a sensor in a pipe line with a small diameter and high pressure.

An embodiment of the present invention is to provide a compressed air diagnosis apparatus and a diagnostic method that can be installed in a compressed air supply system to diagnose the state of compressed air.

According to an aspect of the present invention, there is provided an air conditioner comprising: a pressure vessel accommodating compressed air therein; A connection conduit connecting the air inlet of the pressure vessel and the compressed air supply system; A supply control valve installed in the connection pipe for controlling inflow of compressed air into the pressure vessel; And a sensor mounting portion provided in the pressure vessel for mounting the sensor for diagnosing the compressed air inside the pressure vessel.

The sensor mounting portion may be provided at a plurality of locations of the pressure vessel with different sizes.

The sensor mounting portion may include a sensor entrance port penetrating the inside and the outside of the pressure vessel, a sensor connection portion provided around the sensor entrance port, and a cap capable of closing the sensor entrance port if necessary.

The sensor may include a moisture detection sensor connected to the dew point meter.

The compressed air diagnosis equipment may further include a pressure gauge for measuring a pressure inside the pressure vessel.

The compressed air diagnostic equipment may further include a discharge control valve installed in the pressure vessel for discharging compressed air.

According to another aspect of the present invention, there is provided a method of manufacturing an airtight container, the method comprising: connecting a compressed air supply system and a sealable pressure vessel using a connecting pipe; A sensor installing step of installing a sensor in the pressure vessel for diagnosis of compressed air flowing into the pressure vessel; A compressed air inflow step of opening the valve of the connection pipe to introduce compressed air of the compressed air supply system into the pressure vessel; And a diagnostic step of diagnosing the state of the compressed air introduced into the pressure vessel using the sensor of the pressure vessel.

The compressed air inflow process may introduce compressed air into the pressure vessel until the pressure inside the pressure vessel equals the set pressure of the compressed air supply system.

In the sensor installation process, a moisture sensor connected to the dew point meter may be installed in the pressure vessel, and the dew point meter may be used to measure the dew point temperature of the compressed air in the pressure vessel.

The compressed air diagnosis apparatus according to the embodiment of the present invention can diagnose the state of the compressed air by connecting the pressure vessel to the supply pipe of the compressed air supply system and introducing the compressed air into the pressure vessel, It is possible to easily perform the diagnosis of compressed air even in a compressed air supply system which is difficult.

Since the compressed air diagnostic apparatus according to the embodiment of the present invention includes a plurality of sensor mounting portions different in size from each other in the pressure vessel, it is possible to mount a plurality of diagnostic sensors according to need, It is possible to mount the sensor.

1 shows a state in which a compressed air diagnosis apparatus according to an embodiment of the present invention is connected to a compressed air supply system.
FIG. 2 shows a configuration of a compressed air diagnosis apparatus according to an embodiment of the present invention.
3 is a sectional view showing in detail a pressure vessel of a compressed air diagnosis apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs, and the present invention is not limited thereto, but may be embodied in other forms. In order to clarify the present invention, it is possible to omit the parts of the drawings that are not related to the description, and the size of the components may be slightly exaggerated to facilitate understanding.

1 shows a state in which a compressed air diagnosis apparatus according to an embodiment of the present invention is connected to a compressed air supply system.

Referring to Figure 1, a compressed air supply system 10 includes an air compressor 11, a cooler 12, an air tank 13, a first filter 14, an air dryer 15, a second filter 16, Respectively. The compressed air that has passed through the second filter 16 can be supplied to a plurality of destinations through the branch pipe 18.

The air compressor (11) sucks in air to produce compressed air, and the cooler (12) cools hot air discharged from the compressor (11) and separates moisture. The air tank 13 stores compressed air, removes pulsation generated from the compressor 11, and corresponds to a fluctuation of the air consumption amount generated in the supply path 18 downstream thereof.

Since the air dryer 15 may not sufficiently remove water during the passage through the cooler 12 or the air tank 13, the air dryer 15 forcibly removes moisture to lower the dew point in the compressed state. The first filter 14 removes foreign matter such as dust contained in the compressed air in a state before it is introduced into the air dryer 15 and the second filter 16 removes foreign matter such as dust contained in the compressed air finally supplied to the use place Remove foreign matter such as dust.

The compressed air diagnosis apparatus 100 according to the present embodiment can diagnose the state of the compressed air by connecting to the compressed air supply pipe 18 of the compressed air supply system 10. [ For example, it is possible to diagnose the dew point temperature of the compressed air passed through the air dryer 15 and the like.

2, the compressed air diagnosis apparatus 100 includes a pressure vessel 110 for receiving compressed air therein, an air inlet 111 for the pressure vessel 110 and a supply pipe for the compressed air supply system 10, A supply control valve 130 installed in the connection pipe 120 for controlling inflow of compressed air into the pressure vessel 110 and a pressure control valve 130 for discharging the compressed air, 152 and 153 provided in the pressure vessel 110 for mounting the discharge control valve 140 installed in the pressure vessel 110 and the sensor 161 diagnosing the compressed air introduced into the pressure vessel 110.

The pressure vessel 110 is designed to withstand the pressure of the set air pressure (about 8 kg / cm 2 or more) of the compressed air supply system 10, and a bulky diagnostic sensor 161 can be installed therein Sized inner space. The pressure vessel 110 may be provided in a substantially cylindrical shape, and a support portion 112 may be provided at a lower portion to prevent a cloud.

The connection pipe 120 is provided with a coupling pipe 121 capable of bending and a coupling part 122 provided at the tip of the coupling pipe 121 and capable of being fastened to a pressure gauge mounting part of the compressed air supply pipe 18. That is, as shown in FIG. 2, the connection pipe 120 may be formed in such a manner that the pressure gauge 19 provided in the supply pipe passage 18 of the existing compressed air supply system 10 is removed, To the compressed air supply system (10). The air inlet 111 of the pressure vessel may be provided with a supply control valve 130 and the rear end of the connection pipe 121 may be connected to the supply control valve 130.

The supply pipe 18 and the pressure vessel 110 of the compressed air supply system 10 are connected to each other through the connection pipe 120 and then the valve 20 and the pressure vessel 110 side of the supply pipe passage 18 are connected to each other. When the supply control valve 130 is opened, the compressed air in the supply line 18 may enter the pressure vessel 110 and be filled therein. In this case, a separate supply control valve 130 is provided on the side of the pressure vessel 110. However, if there is a valve 20 for controlling the supply of compressed air to the supply pipe path 18, It is also possible to exclude the supply control valve 130 of the pressure vessel 110 because the valve 20 may replace the function of the supply control valve 130.

The discharge control valve 140 may be installed on the side of the pressure vessel 110. The discharge control valve 140 maintains the closed state at the time of introducing the compressed air into the pressure vessel 110 and at the time of diagnosing the compressed air introduced into the pressure vessel 110, 110 can be discharged. The discharge control valve 140 may regulate the pressure of the compressed air in the pressure vessel 110 by discharging the compressed air through a part of the opening when the pressure inside the pressure vessel 110 is excessively high.

As shown in FIG. 2, a pressure gauge for measuring the internal pressure may be installed on the side surface of the pressure vessel 110. The pressure gauge may include a pressure sensor 171 coupled to the pressure vessel 110 and a pressure gauge 172 electrically connected to the pressure sensor 171.

The sensor mounting portions 151, 152, and 153 may be provided at a plurality of locations around the pressure vessel 110 in different sizes. That is, the pressure vessel 110 may be provided with a plurality of sensor mounting portions 151, 152, 153 having mutually different sizes. As shown in FIG. 3, each of the sensor mounting portions 151, 152, and 153 includes sensor entrance ports 151a, 152a, and 153a penetrating the inside and the outside of the pressure vessel 110, 152c and 153c which can close sensor engagement portions 151b, 152b and 153b and, if necessary, sensor entrance openings 151a, 152a and 153a.

This allows the sensor mounting portion to be installed in consideration of the size of the sensor mounted on the pressure vessel 110, and a plurality of diagnostic sensors can be installed in the pressure vessel 110 as required. In addition, the sensor mounting part where the sensor is not mounted can be closed by using a cap. 2 shows a state in which the sensor 161 is installed in one of the plurality of sensor mounting portions 151, 152 and 153 of the pressure vessel as an example. The sensor 161 may be a moisture detecting sensor for sensing the moisture contained in the compressed air, and the dew point measuring device 162 may be connected to the moisture detecting sensor. The remaining sensor mounting portions 152 and 153 can be closed by the caps 152c and 153c.

The compressed air diagnosis apparatus 100 connects the pressure vessel 110 to the supply line 18 of the compressed air supply system 10 to diagnose the state of the compressed air in a state where the compressed air is introduced into the pressure vessel 110 It is possible to easily perform the diagnosis of the compressed air even in the compressed air supply system 10 in which the sensor is difficult to install. That is, as shown in FIG. 2, a sensor 161 for detecting moisture in the pressure vessel is provided, and the temperature of the compressed air dew point downstream of the air dryer 15 can be measured with the dew point measuring device 162 connected thereto.

Next, a method for diagnosing compressed air using the compressed air diagnosis apparatus 100 will be described.

When it is desired to diagnose the compressed air condition of the compressed air supply system 10, the supply line 18 of the compressed air supply system 10 is connected to the pressure vessel 110 by using the connection line 120, The sensor 161 is installed in the pressure vessel 110 to diagnose the compressed air flowing into the pressure vessel 110. The sensor 161 mounted in the pressure vessel may be a moisture detection sensor for measuring the dew point temperature.

The sensor 161 is installed in the pressure vessel 110 and the valve 20 and the supply control valve 130 of the supply line 18 are opened after the connection line 120 is connected to the compressed air supply system 10 ) Into the pressure vessel (110). That is, in a state where the discharge control valve 140 is closed, the supply control valve 130 is opened to allow the compressed air to flow into the pressure vessel 110.

When the compressed air is introduced into the pressure vessel 110, compressed air is introduced into the pressure vessel 110 until the pressure inside the pressure vessel 110 becomes equal to the set pressure of the compressed air supply system 10. The pressure of the pressure vessel 110 is kept equal to that of the compressed air supply system 10 so that the measurement conditions of the compressed air are the same as when the sensor is installed directly in the compressed air supply system 10. [

The state of the compressed air introduced into the pressure vessel 110 can be diagnosed by using the sensor 161 after the compressed air flows into the pressure vessel 110. The dew point temperature of the compressed air can be measured when the sensor 161 is a moisture detection sensor connected to the dew- Here, the case of measuring the dew point temperature is shown as an example. However, a temperature sensor, a foreign matter sensor, and the like may be selectively installed on the sensor mounting portions 151, 152, and 153 to measure the temperature of the compressed air,

After diagnosing the compressed air in the compressed air supply system 10, the diagnostic equipment 100 may be detached and mounted at another position, and the compressed air may be diagnosed in the same manner.

10: compressed air supply system, 18: compressed air supply pipe,
100: Compressed air diagnosis equipment, 110: Pressure vessel,
120: connection pipe, 130: supply control valve,
140: exhaust control valve, 151,152,153: sensor mount,
161: Sensor.

Claims (9)

A pressure vessel housing compressed air therein;
A connection conduit connecting the air inlet of the pressure vessel and the compressed air supply system;
A supply control valve installed in the connection pipe for controlling inflow of compressed air into the pressure vessel; And
And a sensor mounting portion provided in the pressure vessel for mounting a sensor for diagnosing compressed air in the pressure vessel. The method according to claim 1,
Wherein the sensor mounting portion is provided at a plurality of locations of the pressure vessel at mutually different sizes. 3. The method of claim 2,
Wherein the sensor mounting portion includes a sensor entry port penetrating the inside and the outside of the pressure vessel, a sensor connection portion provided around the sensor entry port, and a cap capable of closing the sensor entry port if necessary. The method according to claim 1,
Wherein the sensor includes a moisture detection sensor connected to the dew point meter. The method according to claim 1,
And a pressure gauge for measuring a pressure inside the pressure vessel. The method according to claim 1,
Further comprising a discharge control valve mounted in said pressure vessel for discharge of compressed air. A connecting process for connecting a compressed air supply system and a sealable pressure vessel using a connecting conduit;
A sensor installing step of installing a sensor in the pressure vessel for diagnosis of compressed air flowing into the pressure vessel;
A compressed air inflow step of opening the valve of the connection pipe to introduce compressed air of the compressed air supply system into the pressure vessel; And
And diagnosing the state of the compressed air introduced into the pressure vessel by using the sensor of the pressure vessel. 8. The method of claim 7,
Wherein the compressed air inflow step introduces compressed air into the pressure vessel until the pressure inside the pressure vessel becomes equal to the set pressure of the compressed air supply system. 9. The method according to claim 7 or 8,
The sensor installation process may include installing a moisture sensor connected to the dew point meter in the pressure vessel,
Wherein the diagnostic step measures the dew point temperature of the compressed air in the pressure vessel using the dew point measuring instrument.

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