KR20210026925A - Desiccant Air Dryer - Google Patents

Abstract

The present invention relates to an adsorption-type air dryer with adjustable pressure. The present invention comprises: drying tanks provided with an adsorbent therein for adsorbing moisture in the air, having an adsorbent inlet port and an adsorbent outlet port, and disposed in pairs to be spaced apart from each other; a pair of lower connection pipes each connected to the drying tanks at the lower part of the drying tank; a purge muffler coupled to an end of the lower connection pipe, respectively; a three-way solenoid valve disposed between the pair of lower connection pipes and connected to a line to which compressed air to be dried is supplied; a pair of upper connection pipes each connected to the drying tanks at the upper part of the drying tank; a safety valve provided at a portion where the pair of upper connection pipes are connected; a pair of main check valves each coupled to the upper connection pipes and controlling the reverse flow of the air; a purge line connected to the upper connection pipe and discharging the dried air; a regulating valve unit coupled to an end of the purge line; and an air pressure adjustment unit provided in a connection region between the upper connection pipe and the purge line and adjusting the air pressure circulated through the drying tank, the upper connection pipe, and the purge line.

Description

Adsorption air dryer with pressure control {Desiccant Air Dryer}

The present invention relates to an adsorption-type air dryer capable of controlling pressure, and more particularly, a pressure that can prevent a phenomenon in which the adsorbent in the drying tank is corroded or turned into powder, and thus the drying function is deteriorated, since the pressure of the air can be controlled with a simple structure It relates to an adjustable adsorption air dryer.

In almost all industrial fields, such as semiconductor manufacturing, electronics, machinery, and chemical industries, compressed air, that is, compressed air under certain conditions, is used. Compressed air is produced from the compressor using air in the atmosphere.

On the other hand, the air in the atmosphere contains a certain amount of moisture, so the compressed air produced using it also contains moisture.

Compressed air containing moisture is difficult to use in precision industrial fields such as semiconductor manufacturing, electronics, machinery, and chemical industries because it generates rust on metals.

Therefore, it must be used to remove moisture from compressed air, and an adsorption-type air dryer is used to remove moisture from compressed air.

A conventional adsorption type air dryer removes moisture from compressed air using an adsorbent including alumina gel, silica gel, more cura sieve, sponge, and the like, and then supplies pure compressed air from which moisture is removed.

However, the existing adsorption-type air dryer only has the function to remove moisture from compressed air, but there is no means for controlling the air pressure, or even if there is, the structure is very complicated and practical application is difficult. In this case, drying Considering the fact that the adsorbent in the tank is corroded or turned into powder, the drying function is inevitably deteriorated.

Korean Intellectual Property Office Application No. 10-1997-0014034 Korean Intellectual Property Office Application No. 10-2006-0068552 Korean Intellectual Property Office Application No. 10-2007-0074075 Korean Intellectual Property Office Application No. 10-2008-0084691

An object of the present invention is to provide an adsorption-type air dryer capable of controlling pressure, which can prevent a phenomenon in which the drying function is deteriorated due to the corrosion of the adsorbent in the drying tank or turning into powder since it is possible to control the pressure of the air with a simple structure.

The above object is a drying tank provided in the interior of the adsorbent for adsorbing moisture of the air, and having an adsorbent inlet port and an adsorbent outlet port, and disposed in pairs to be spaced apart from each other; A pair of lower connecting pipes respectively connected to the drying tank from the bottom of the drying tank; A purge muffler coupled to an end of the lower connection pipe, respectively; A three-way solenoid valve disposed between the pair of lower connecting pipes and connected to a line through which compressed air to be dried is supplied; A pair of upper connecting pipes respectively connected to the drying tank from the top of the drying tank; A safety valve provided at a portion to which the pair of upper connecting pipes are connected; A pair of main check valves respectively coupled to the upper connection pipes and intercepting the reverse flow of air; A purge line connected to the upper connection pipe and through which the dried air is discharged; A regulating valve unit coupled to an end of the purge line; And an air pressure control unit provided in a connection region between the upper connection pipe and the purge line, and adjusting air pressure circulated through the drying tank, the upper connection pipe, and the purge line. It is achieved by an adsorption air dryer.

A tank connection bracket connecting the pair of drying tanks; An input unit mounted on the tank connection bracket and configured to set a series of input values for drying compressed air; And a controller for controlling an operation of a three-way solenoid valve for drying compressed air based on the input signal of the input unit.

The pneumatic pressure control unit, a unit valve; A connection part connected to the unit valve and connecting the unit valve to the upper connection pipe and the purge line side; And an orifice plate mounted in the unit valve and having an orifice.

The orifice plate may be provided to be replaceable in the unit valve.

According to the present invention, since it is possible to control the pressure of the air with a simple structure, there is an effect of preventing a phenomenon in which the adsorbent in the drying tank is corroded or turned into powder and the drying function is deteriorated.

1 is a front view of an adsorption air dryer capable of adjusting pressure according to an embodiment of the present invention.
Figure 2 is a side view of Figure 1;
3 is an enlarged view of a main part of FIG. 1.
4 is an enlarged view of a main part of FIG. 2.
5 is a structural diagram of an area of a pneumatic pressure control unit.
6 is a plan view of an orifice plate.
7 is a control block diagram of the adsorption type air dryer capable of adjusting the pressure of FIG. 1.
8 and 9 are modified embodiments of the pneumatic pressure control unit.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments to be described later in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to completely inform the scope of the present invention to those of ordinary skill in the art to which the present invention pertains. And the invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

The same reference numerals refer to the same elements throughout the specification. In addition, the terms used in the present specification (referred to) are for explaining the embodiments and are not intended to limit the present invention.

In the present specification, the singular form also includes the plural form unless specifically stated in a written phrase. In addition, components and actions (actions) referred to as'comprising (or having)' do not preclude the presence or addition of one or more other components and actions.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used with meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs.

In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless they are defined.

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

1 is a front view of an adsorption-type air dryer capable of adjusting pressure according to an embodiment of the present invention, FIG. 2 is a side view of FIG. 1, FIG. 3 is an enlarged view of the main part of FIG. 1, and FIG. 4 is an enlarged view of the main part of FIG. FIG. 5 is a structural diagram of an area of an air pressure control unit, FIG. 6 is a plan view of an orifice plate, and FIG. 7 is a control block diagram of an adsorption-type air dryer capable of adjusting pressure of FIG. 1.

Referring to these drawings, the adsorption type air dryer capable of controlling the pressure according to the present embodiment has a simple structure and can control the pressure of the air, so that the adsorbent in the drying tank 110 can be prevented from being corroded or turned into powder, and the drying function is deteriorated. I made it so.

The pressure-controllable adsorption air dryer according to the present embodiment that can provide such an effect may be set in a structure as shown in FIGS. 1 and 2. First, the pressure-controllable adsorption air dryer according to the present embodiment includes a drying tank 110.

The drying tank 110 is provided with an adsorbent containing an adsorbent, for example, alumina gel, silica gel, more curable, sponge, etc. that adsorbs moisture in the air.

The drying tank 110 is provided with an adsorbent inlet port 111 and an adsorbent outlet port 112 for filling and discharging the adsorbent. In addition, a lug 113 is coupled to the drying tank 110 for handling of the drying tank 110 having a considerable weight.

In this embodiment, the drying tanks 110 are arranged in pairs to be spaced apart from each other, that is, they have a dual structure. Therefore, even if one drying tank 110 is replaced, the other drying tank 110 can be used, so that the operation of drying the compressed air can be performed without interruption.

A pair of lower connecting pipes 121 are connected to the lower portion of the drying tank 110. The pair of lower connection pipes 121 are respectively connected to the corresponding drying tank 110 at the bottom of the drying tank 110.

A purge muffler 123 is coupled to the ends of the lower connection pipes 121, respectively.

In addition, a three-way solenoid valve 125 is disposed between the pair of lower connection pipes 121. Two of the three-way solenoid valves 125 are connected to a pair of lower connecting pipes 121, and the other is connected to a line (not shown) to which compressed air to be dried is supplied. Accordingly, the compressed air may be circulated to a selected one of the pair of drying tanks 110 according to the action of the three-way electromagnetic valve 125.

A pair of upper connecting pipes 131 are connected to the upper part of the drying tank 110. The pair of upper connecting pipes 131 are also connected to the drying tank 110 at the top of the pair of upper connecting pipes 131, like the lower connecting pipe 121.

A safety valve 133 is coupled to a portion to which the pair of upper connection pipes 131 are connected. Therefore, safety such as gas explosion can be achieved.

A pair of main check valves 135 for controlling the reverse flow of air are respectively connected to the upper connection pipe 131.

It is connected to the upper connection pipe 131, and the purge line 140 through which the dried air is discharged is connected. In addition, a regulating valve unit 141 is provided at an end of the purge line 140. Compressed air that has been dried through the regulating valve unit 141 may be directed to the process.

On the other hand, the air pressure control unit 150 is provided in the adsorption type air dryer capable of controlling the pressure according to the present embodiment.

The air pressure control unit 150 is provided in the connection area between the upper connection pipe 131 and the purge line 140, and controls the air pressure circulated through the drying tank 110, the upper connection pipe 131, and the purge line 140. It plays a role in regulating.

The pneumatic pressure control unit 150 includes a unit valve 151 and a connection part 154 connected to the unit valve 151 and connecting the unit valve 151 to the upper connection pipe 131 and the purge line 140 side, It is mounted in the unit valve 151 and includes an orifice plate 152 having an orifice 153.

The orifice plate 152 is provided to be replaceable in the unit valve 151, and the application of the orifice plate 152 makes it possible to adjust the air pressure. That is, by selectively applying orifice plates having different sizes of the orifices 153, the desired air pressure can be adjusted. In particular, this method has the advantage of being able to easily adjust the air pressure without major structural changes.

Meanwhile, a tank connection bracket 115 connecting them is provided between the pair of drying tanks 110, and the input unit 160 and the controller 170 may be mounted on the tank connection bracket 115.

The input unit 160 is mounted on the tank connection bracket 115 and is a part for setting a series of input values for drying compressed air. The input unit 160 may be in the form of a touch screen.

The controller 170 controls a series of operations for drying compressed air based on an input signal from the input unit 160.

In particular, the controller 170 controls the operation of the three-way solenoid valve 125 for drying compressed air based on the input signal from the input unit 160. When the operation of the three-way solenoid valve 125 is controlled, the compressed air to be dried may be dried through any one of the drying tanks 110 and then discharged through the upper connection pipe 131 and the purge line 140.

The controller 170 performing this role may include a central processing unit 171 (CPU), a memory 172 (MEMORY), and a support circuit 173 (SUPPORT CIRCUIT).

The central processing unit 171 may be one of various computer processors that can be industrially applied to control a series of operations for drying compressed air based on an input signal from the input unit 160 in this embodiment.

The memory 172 (MEMORY) is connected to the central processing unit 171. The memory 172 may be installed locally or remotely as a computer-readable recording medium, and can be easily used such as random access memory (RAM), ROM, floppy disk, hard disk, or any digital storage type. It may be at least one or more memories.

The support circuit 173 (SUPPORT CIRCUIT) is combined with the central processing unit 171 to support the typical operation of the processor. The support circuit 173 may include a cache, a power supply, a clock circuit, an input/output circuit, a subsystem, and the like.

In this embodiment, the controller 170 controls the operation of the three-way solenoid valve 125 for drying compressed air based on the input signal of the input unit 160, and such a series of control processes are stored in the memory 172. Can be saved. Typically software routines may be stored in memory 172. Software routines can also be stored or executed by other central processing units (not shown).

Although the process according to the present invention has been described as being executed by a software routine, it is also possible that at least some of the processes of the present invention are performed by hardware. As such, the processes of the present invention may be implemented by software executed on a computer system, or by hardware such as an integrated circuit, or by a combination of software and hardware.

According to this embodiment, which works based on the structure as described above, it is possible to control the pressure of the air with a simple structure, so that the adsorbent in the drying tank 110 can be prevented from being corroded or turned into powder and the drying function is deteriorated. .

8 and 9 are modified embodiments of the pneumatic pressure control unit.

Unlike the above-described embodiments, the pneumatic pressure control units 250 and 350 shown in these drawings are applied in a modular form. Therefore, it can be easily removed or replaced.

First, referring to FIG. 8 first, the pneumatic pressure control unit 250 according to the present embodiment is screwed to the unit valve 251 at both sides of the unit valve 251 and the unit valve 251, but a dummy pipe ( 253) is attached to a pair of both pipe screw coupling nut 252 and a connector 254 connected to the pipe joint screw coupling nut 252 to be coupled to the upper connection pipe 131 and the purge line 140, and , It is mounted in the unit valve 251, and is disposed between the orifice plate 255 having an orifice 256, and the orifice plate 255 and the screw coupling nut 252 for both piping and riding the orifice plate 255. It includes an elastic support member 257 for sexually supporting.

The elastic support member 257 may be applied as a spring having corrosion resistance or an elastic rubber.

The pneumatic pressure control unit 250 of this structure has the advantage of being very convenient for installation or maintenance work because it can be coupled to one side of the air dryer through the connector 254.

In particular, it is possible to provide an excellent effect in that the orifice plate 255 is a built-in structure, and the orifice plate 255 can be easily replaced by loosening the surrounding structure.

Next, referring to FIG. 9, the pneumatic pressure control unit 350 according to the present embodiment also has substantially the same configuration as that of FIG. 8.

That is, the air pressure control unit 350 of FIG. 9 is also screwed to the unit valve 251 at both sides of the unit valve 251 and the unit valve 251, but a pair of pipes with a dummy pipe 253 attached to one side It is connected to the dual screw coupling nut 252 and the pipe joint screw coupling nut 252, and is mounted in the unit valve 251 and the connector 254 for coupling with the upper connection pipe 131 and the purge line 140. An orifice plate 255 having an orifice 256, and an elastic support member 257 disposed between the orifice plate 255 and the screw coupling nut 252 for both pipes and elastically supporting the orifice plate 255 ).

However, in the pneumatic pressure control unit 350 of this embodiment, the orifice reduction disk 359 is further interposed between the orifice plate 255 and the elastic support member 257.

Since the orifice reduction disk 359 has a hole 359a that is smaller than the orifice 256 of the orifice plate 255, the orifice 256 can be further reduced even if the built-in orifice plate 255 is not replaced. There is an advantage.

Of course, in order to enlarge the orifice 256, the orifice plate 255 itself can be replaced.

Even if the above-described modified embodiments are applied, since the pressure of the air can be controlled with a simple structure, it is possible to prevent a phenomenon in which the adsorbent in the drying tank 110 is corroded or turned into powder, resulting in a decrease in the drying function.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

110: drying tank 111: adsorption inlet port
112: adsorption outlet port 113: lug
115: tank connection bracket 121: lower connector
123: purge muffler 125: 3-way solenoid valve
131: upper connector 133: safety valve
135: main check valve 140: purge line
141: regulating valve unit 150: pneumatic pressure control unit
151: unit valve 152: orifice plate
153: orifice 154: connection
160: input unit 170: controller

Claims (4)

A drying tank provided therein with an adsorbent for adsorbing moisture of the air, having an adsorbent inlet port and an adsorbent outlet port, and disposed in pairs to be spaced apart from each other;
A pair of lower connecting pipes respectively connected to the drying tank from the bottom of the drying tank;
A purge muffler coupled to an end of the lower connection pipe, respectively;
A three-way solenoid valve disposed between the pair of lower connecting pipes and connected to a line through which compressed air to be dried is supplied;
A pair of upper connecting pipes respectively connected to the drying tank from the top of the drying tank;
A safety valve provided at a portion to which the pair of upper connecting pipes are connected;
A pair of main check valves respectively coupled to the upper connection pipes and intercepting the reverse flow of air;
A purge line connected to the upper connection pipe and through which the dried air is discharged;
A regulating valve unit coupled to an end of the purge line; And
An adsorption type capable of controlling a pressure, comprising an air pressure control unit provided in a connection region between the upper connection pipe and the purge line and for adjusting air pressure circulated through the drying tank, the upper connection pipe, and the purge line. Air dryer.
The method of claim 1,
A tank connection bracket connecting the pair of drying tanks;
An input unit mounted on the tank connection bracket and configured to set a series of input values for drying compressed air; And
And a controller for controlling an operation of a three-way solenoid valve for drying compressed air based on the input signal of the input unit.
The method of claim 1,
The air pressure control unit,
Unit valve;
A connection part connected to the unit valve and connecting the unit valve to the upper connection pipe and the purge line side; And
And an orifice plate mounted in the unit valve and having an orifice.
The method of claim 3,
Pressure-controllable adsorption air dryer, characterized in that the orifice plate is provided to be replaceable in the unit valve.

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