KR20150001029U - Humidity Indication Apparatus of Compressed Air - Google Patents

Abstract

The present invention relates to a device for recognizing the humidity of compressed air, and more particularly to a device for recognizing the humidity of compressed air flowing along a compressed air supply line in real time.
According to an aspect of the present invention, there is provided an apparatus for recognizing the humidity of compressed air, comprising: an inlet pipe extended from a compressed air supply line; a recognition panel connected to the inlet pipe; And a humidity recognizer for detecting the humidity of the compressed air introduced into the recognition panel through the inflow pipe in the compressed air supply line, and the compressed air passing through the humidity recognizer is recovered to the compressed air supply line through the discharge pipe .

Description

Humidity Indication Apparatus of Compressed Air

The present invention relates to a device for recognizing the humidity of compressed air, and more particularly to a device for recognizing the humidity of compressed air flowing along a compressed air supply line in real time.

Compressed air is often used in the industrial field. However, condensed water is generated during compression of air using a compressor.

The condensed water generated during the generation of the compressed air is a force majeure. Although a moisture adsorbent is used to remove the condensed water contained in the compressed air, condensed water may be included in the compressed air depending on the lifetime of the moisture adsorbent.

Therefore, the user checks the humidity of the compressed air from which the condensed water has been removed, thereby confirming whether or not the compressed air is used and whether the moisture adsorbent is replaced.

In order to confirm the humidity of the compressed air, conventionally, the discharged compressed air is collected and the collected compressed air is measured by a hygrometer to confirm the degree of the condensed water contained in the compressed air.

However, collecting the discharged compressed air and measuring the humidity is an intermittent test condition and has a disadvantage in that the humidity of the compressed air can not be confirmed in real time.

Also, since the supply line of the compressed air must be closed for collecting the discharged compressed air, the operation is interrupted, and the compressed air used for the test is lost.

Korean Patent Publication No. 10-2006-0008376 (published on Jan. 26, 2006)

The object of the present invention is to provide a device for recognizing the humidity of compressed air, which is installed in a compressed air supply line and configured to recognize the humidity of the compressed air flowing in real time, There is a purpose.

In addition, the present invention recognizes the humidity of the compressed air bypassed from the compressed air supply line and recovers the compressed air required for recognition to the compressed air supply line, thereby enabling the humidity recognition device of compressed air to recognize the humidity without loss of compressed air The purpose is to provide.

According to an aspect of the present invention, there is provided an apparatus for recognizing the humidity of compressed air, comprising: an inlet pipe extended from a compressed air supply line; a recognition panel connected to the inlet pipe; And a humidity recognizer for detecting the humidity of the compressed air introduced into the recognition panel through the inflow pipe in the compressed air supply line, and the compressed air passing through the humidity recognizer is recovered to the compressed air supply line through the discharge pipe .

According to a preferred embodiment of the present invention, the inlet supply line of the compressed air supply line and the outlet supply line of the compressed air supply line are respectively connected to both ends of the distributor, and the distributor is connected to the inflow pipe and the discharge pipe.

Further, according to a preferred embodiment of the present invention, the compressed air introduced along the inlet pipe flows to the outlet pipe after passing through the humidity recognizer.

In addition, according to a preferred embodiment of the present invention, the humidity recognizer is configured such that the perforated silica gel is filled in the perforated network, the side window is mounted on one side of the perforated network, the side window is mounted corresponding to one side of the recognition panel, And then flows into the discharge piping.

According to a preferred embodiment of the present invention, the periphery of the perforated network is surrounded by a metal mesh.

Further, according to a preferred embodiment of the present invention, the recognition panel is mounted on one surface with pressure gauges that indicate the pressure of the inlet side supply line and the pressure of the outlet side supply line.

As described above, the device for recognizing the humidity of the compressed air according to the present invention has an advantage in that the reliability of the quality of the compressed air can be ensured by realizing the humidity of the compressed air flowing along the compressed air supply line in real time.

In addition, the apparatus for recognizing the humidity of compressed air according to the present invention bypasses a part of the compressed air flowing along the compressed air supply line to recover the compressed air supply line after recognizing the humidity, so that the loss of compressed air required for humidity recognition There is an advantage that the supply of compressed air due to the collection of compressed air is not necessary, and the state of supplying compressed air continuously can be maintained.

In addition, since the compressed air humidity sensing device according to the present invention does not use electric power at low cost and electricity unlike an expensive humidity measuring device, it does not need a power line, does not need periodical calibration and calibration work, And it is advantageous to manage the definition of the compressed air majors by installing it freely on the piping for every necessary part.

1 is a conceptual diagram showing a device for recognizing the humidity of compressed air according to the present invention,
FIG. 2 is a conceptual diagram showing an example of the humidity recognizer shown in FIG. 1,
FIG. 3 is a conceptual view showing an internal silica gel through a sight window of the humidity recognizer shown in FIG. 2,
4 is a conceptual diagram showing the recognition panel shown in Fig.

Best Mode for Carrying Out the Invention Hereinafter, preferred embodiments of the humidity recognition device for compressed air according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual view showing an example of a humidity recognizer shown in FIG. 1, and FIG. 3 is a schematic diagram showing a configuration of a humidity recognizer shown in FIG. 2, FIG. 4 is a conceptual view showing the recognition panel shown in FIG. 1. FIG.

As shown in FIGS. 1 and 2, the humidity recognition apparatus 100 for compressed air is installed in the compressed air supply line 110. A distributor 120 is installed between the inlet side supply line 111 and the outlet side supply line 112 and the inlet pipe 131 and the discharge pipe 132 are connected to the distributor 120, The bypassed compressed air passes through the humidity recognizers 141a and 141b of the recognition panel 140 and is recovered to the distributor 120 through the discharge pipe 132. [

Therefore, after a part of the compressed air flowing from the compressed air supply line 110, that is, the inlet side supply line 111 to the outlet side supply line 112, is bypassed through the inflow pipe 131, humidity detection devices 141a and 141b Is recovered through the discharge piping 132 and supplied to the industrial equipment along the outgoing supply line 112.

Hereinafter, the compressed air humidity sensing device constructed as described above will be described in detail.

An input side supply line 111 is connected to one side of the distributor 120 and an output side supply line 112 is connected to the other side of the distributor 120. 1, the female thread 121 is formed on both sides of the distributor 120 and the male thread 113 is formed on the inlet side feed line 111 and the outgoing side feed line 112 and screwed together. However, They can be connected using a coupler or through a flange.

The first through hole 123a is formed on one side of the distributor 120 and the second through hole 123b is formed on the other side of the distributor 120. The first through hole 123a and the second through- The inlet pipe 131 and the outlet pipe 132, which are made of a copper pipe, are respectively connected to the outlet pipe 123b. The first through hole 123a and the second through hole 123b are respectively fitted with a connecting hole 125 and the inlet pipe 131 and the exhaust pipe 132 are connected to the connecting holes 125 respectively.

Meanwhile, the inflow pipe 131 and the discharge pipe 132 are connected to the humidity recognizers 141a and 141b of the recognition panel 140, respectively. The compressed air introduced through the inflow pipe 131 passes through the humidity recognizers 141a and 141b and is discharged to the distributor 120 through the discharge pipe 132 and is recovered to the outgoing supply line 112. [

By configuring the compressed air to pass through the humidity recognizers 141a and 141b, the humidity recognizers 141a and 141b can recognize the condensed water or humidity included in the compressed air. As shown in FIG. 1, the humidity recognizer may be a humidity recognizer 141a coated with a paint whose color changes according to humidity, or may be filled with a color fading silica gel therein as shown in FIGS. 2 and 3, And the humidity recognizer 141b may be mounted. Both the humidity recognizer 141a coated with the paint and the humidity recognizer 141b accommodating the color-changing silica gel are discolored according to the humidity of the compressed air and the user recognizes the humidity of the compressed air through the degree of discoloration of the humidity recognizers 141a and 141b .

By using the humidity recognizers 141a and 141b which change color according to humidity, it is possible to have a low cost and a non-power source characteristic, and since electricity is not used, a power line is not required, , There is no fear of failure, and it is used semi-permanently, and it is advantageous to manage the definition of the compressed air major by installing it freely on the piping for each necessary part.

Also, the humidity of the compressed air can be recognized in real time through the compressed air bypassed in the compressed air supply line 110, thereby confirming whether the compressed air humidity supplied through the compressed air supply line 110 is suitable.

Hereinafter, the configuration of the humidity recognizer 141b shown in Figs. 2 and 3 will be described in detail.

The humidity recognizer 141b is filled with the discoloring silica gel 243 inside the perforated network 245 and the perforated network 245 is disposed so as to be orthogonal to the circumferential compressed air. The color-changing silica gel 243 is a color-changing silica gel whose color changes gradually while coming in contact with water. The silica gel 243 is discolored depending on the amount of condensed water contained therein while the bypassed compressed air passes through the silica gel 243.

More specifically, the silica gel 243 is accommodated in the cylindrical perforated network 245, and the perforated network 245 is positioned in a direction perpendicular to the direction of the compressed air. A viewing window 247 is mounted on both ends of the perforated network 245 and a viewing window 247 is mounted corresponding to both sides of the recognition panel 140. Therefore, the operator can check the color of the color-changing silica gel 243 located inside through the viewing window 247 corresponding to the recognition panel 140 and can check the humidity of the compressed air according to the color change of the silica gel 243. Meanwhile, the viewing window 247 is mounted and fixed by flanges 249 in correspondence with both sides of the recognition panel 140, and a packing or a sealing member is interposed between the flange 249 and the recognition panel 140, .

In addition, although not shown in the drawing, a fine metal mesh is wrapped around the perforation network 245 according to the particle size of the silica gel 243, so that even when the silica gel 243 is broken, the broken silica gel 243 is discharged outside the metal mesh Can be configured.

4, the recognition panel 140 includes an inlet pressure gauge 145a indicating the pressure of the inlet supply line 111 and an outlet pressure gauge 145 indicating the pressure of the outlet supply line 112 The viewer 244 of the humidity recognizer 141b is positioned at the front of the recognition panel 140 and the operator confirms the color of the color change silica gel 243 through the sight window 247, Lt; / RTI > Also, in the case of the humidity recognizer 141a coated with the paint shown in FIG. 1, the portion coated with the paint is exposed on one side of the recognition panel 140, so that discoloration of the paint can be confirmed.

100: Humidity recognition device of compressed air
110: compressed air supply line
111: Input side supply line
112: Exit supply line
120: Dispenser
123a, 123b: through-hole
125: End connector
131: inlet piping
132: discharge pipe
140: Aware panel
141a, 141b: Humidity recognizer
145a, 145b: pressure gauge
243: silica gel
245:
247:
249: Flange

Claims (6)

An inlet pipe extending from the compressed air supply line,
A recognition panel to which the inflow pipe is connected,
A discharge line extending from the recognition panel to the compressed air supply line,
And a humidity recognizer for detecting the humidity of the compressed air introduced into the recognition panel through the inflow pipe in the compressed air supply line,
And the compressed air passing through the humidity recognizer is recovered as compressed air supply line through the discharge piping.
The method according to claim 1,
Wherein the inlet supply line of the compressed air supply line and the outlet supply line of the compressed air supply line are respectively connected to both ends of the distributor and the distributor is connected to the inlet pipe and the discharge pipe.
3. The method according to claim 1 or 2,
Wherein the compressed air flowing along the inflow pipe flows to the discharge pipe after passing through the humidity recognizer.
The method according to claim 1,
Characterized in that the perforated silica gel is filled in the inside of the perforated network, the perforated window is mounted on one side of the perforated network, the perforated window is mounted corresponding to one surface of the perception panel, and the compressed air flows into the exhaust pipe via the perforated network. Air humidity sensing device.
5. The method of claim 4,
And the periphery of the perforated network is surrounded by a metal mesh.
3. The method of claim 2,
Wherein the recognition panel is mounted on one surface with pressure gauges for indicating the pressure of the inlet side supply line and the pressure of the outlet side supply line.

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