KR20030033687A - Air drier and method drying compressed hot air of using the air drier - Google Patents

Abstract

PURPOSE: Provided are an air drier using compressed hot air and a method for drying the compressed air using the same air drier, the method being capable of increasing regeneration efficiency of a dry tower and yields of compressed air generation, and ensuring operation accuracy of the air drier. CONSTITUTION: The method comprises the steps of auxiliary-heating compressed air from an air compressor(10) by an auxiliary heater(24), heat-regenerating a second dry tower by passing the heated compressed air through the second dry tower, wherein dehumidifying agent therein is dried by the heated air, cooling the heated compressed air passing out the second dry tower by a cooler(75), separating condensed moisture from the condensed air by a separator(76), drying the compressed air passing out the separator(76) by passing it through a first dry tower(50), exhausting the dried compressed air, changing three-way director valves to dry compressed air by sequentially passing it through the cooler(75), the separator(76) and the first dry tower(50), exhausting the dried air to blow out dried hot air, returning a portion of the dried air exhausted from the first dry tower(50) to the second dry tower(60) to absorb moisture of the dehumidifying agent in the second dry tower(60), thereby regenerating the second dry tower(60), exhausting the compressed air with moisture, changing a dry tower regeneration mode to a compressed air drying mode by changing direction of the three-way director valves(20,30,80) and four way director valves(40,70).

Description

Air drier and method drying compressed hot air of using the air drier}

The present invention relates to an adsorptive air dryer for drying compressed air by using a dehumidifying material, and more particularly, to an air dryer using compressed heat for more precisely and smoothly drying the compressed air and regenerating a drying tower. .

In general, the adsorption-type air dryer compresses air and inhales the saturated water vapor through the air compressor to compress the air, and then cools the compressed air with a cooler to remove moisture condensed first.

Refers to a device that removes moisture of wet air containing saturated steam that is not condensed by adsorption of a desiccant,

It uses two identical drying towers each containing a dehumidifying material, and one drying tower performs the drying process while passing compressed air through the dehumidifying material therein, while the other drying tower carries out the drying air from the drying process. Regeneration process is performed while being supplied with a portion of the internal drying tower and passing through it.

As a result, the two drying towers convert the drying process and the regeneration process at regular intervals to produce dried compressed air continuously.

However, the conventional air dryer has a problem in that the two drying towers are connected by a complicated pipe line, and a lot of equipment costs are required according to the configuration of the system.

In addition, since the pipelines are complicatedly connected, there is a problem that causes frequent failures.

In addition, by generating the drying tower by the heat of compression of the compressed air flowing out of the air compressor, there is a problem that it is impossible to reproduce the accurate and precise drying tower.

In addition, since it is impossible to regenerate the accurate drying tower, there is a problem that the production of dried compressed air has a problem.

Accordingly, the present invention has been made to solve the conventional problems as described above,

The purpose is to provide a method for drying the compressed air of the air dryer using the heat of compression is made by the auxiliary heating step is set in the air dryer using the heat of compression, the more accurate and smoother drying of the compressed air and regeneration of the drying tower.

In addition, an object of the present invention is that the air dryer using the heat of compression is provided with a three-way valve and a four-way valve, the compressed heat to maximize the amount of compressed air dried while minimizing the amount of compressed air discharged to the outside in a simple structure To provide a used air dryer.

In addition, an object of the present invention is to provide an air dryer using a compressed heat for selectively applying heat to the compressed air to be introduced, since the auxiliary heater is provided in the air dryer using the compressed heat.

In addition, an object of the present invention is to control the valve and the auxiliary heater of the air dryer using the compressed heat by the control box, to provide an air dryer using the compressed heat to control the opening and closing of the valve and the operation of the auxiliary heater automatically. Is in.

In order to achieve the above object, the present invention is the first step of the secondary heating is selectively applied to the compressed air discharged from the air compressor by the auxiliary heater; A second step of performing heat regeneration as the compressed air heated in the first step passes the second drying tower; A third step in which the compressed air passing through the second drying tower in the second step is cooled while passing through the cooler and the separator to separate condensed water content and flow into the first drying tower to dry the compressed air; A fourth step of discharging and supplying the compressed air dried in the third step; After the fourth step, the three-way valve is switched so that the compressed air discharged from the air compressor is cooled while passing through the cooler and the separator, condensed water is removed, and the compressed air is introduced into the first drying tower to dry the compressed air; A sixth step of discharging and supplying most of the compressed air dried in the fifth step; A seventh step in which a part of the dried compressed air discharged in the sixth step flows into the second drying tower to absorb and cool the moisture of the dehumidifying material to perform cooling and regeneration of the second drying tower; An eighth step of absorbing and cooling the moisture of the second drying tower in the seventh step and discharging the compressed air to the outside; After the discharge to the outside in the eighth step is to change the direction of the three-way valve and the four-way valve is characterized in that it consists of a ninth step of switching and regeneration of the drying tower.

In addition, there is provided a pair of drying towers filled with a dehumidifying material, the adsorption-type air dryer for drying the compressed air by the continuous alternating of the drying tower; A first three-way valve connected to an inflow pipe for introducing compressed air discharged from an air compressor, a first distribution pipe connected to the other side, and a second distribution pipe connected to one side corresponding to the first distribution pipe; The second end of the first distribution pipe is connected to one side, the third distribution pipe is connected to the other side, the fourth distribution pipe which is provided with the orifice and the opening and closing valve sequentially connected to one side corresponding to the first distribution pipe Three-way valve; An end of the third distribution pipe is connected to one side, and a fourth distribution pipe is connected to the other side thereof, and a discharge pipe connected to the end of the fourth distribution pipe is connected to one side corresponding to the third distribution pipe, and the fourth distribution pipe. A first four-way valve having a fifth distribution pipe connected to one side corresponding to the first four-way valve; A first drying tower having an upper side connected to an end of the fifth distribution pipe, and a sixth distribution pipe connected to the lower side thereof; A second drying tower having an upper side connected to an end of the fourth distribution pipe, and a seventh distribution pipe connected to the lower side thereof; The other end of the seventh distribution pipe is connected to one side, the discharge pipe and the discharge pipe is provided on the other side is connected, the end of the sixth distribution pipe is connected to one side corresponding to the seventh distribution pipe, the discharge pipe A second four-way valve having an eighth flow pipe having a cooler and a separator sequentially connected to one side thereof; A third three way is connected to one end of the ninth distribution pipe connected to the discharge pipe, the other end of the eighth distribution pipe is connected to the other side, the end of the second distribution pipe is connected to one side corresponding to the ninth distribution pipe It is characterized by consisting of a valve.

In addition, an auxiliary heater is provided on the first flow pipe connecting the first three-way valve and the second three-way valve.

In addition, the valve and the auxiliary heater is characterized in that the control box is provided for its control.

1 is a block diagram showing a compressed air drying method of the air dryer according to the present invention;

2 is a flow chart showing a compressed air drying method of the air dryer according to the present invention,

3 is an overall configuration diagram of an air dryer according to the present invention;

4 is a configuration diagram showing a heating state of the air dryer according to the present invention,

5 is a configuration diagram showing a cooling state of the air dryer after FIG. 4;

6 is a configuration diagram showing a heating state of the air dryer after FIG. 5;

7 is a configuration diagram showing a cooling state of the air dryer after FIG. 6;

8 is a block diagram showing another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: air dryer

10: air compressor

20: first three-way valve

21: inlet pipe 22: 1st distribution pipe 23: 2nd distribution pipe

24: auxiliary heater

30: second three-way valve

31: third distribution tube 32: fourth distribution tube 33: orifice

34: on-off valve

40: first four-way valve

41: discharge pipe 42: fifth distribution pipe 43: sixth distribution pipe

50: First drying tower

51: 7th Distribution

60: 2nd drying tower

61: 8th Distribution

70: second four-way valve

71: discharge pipe 72: discharge valve 73: blowdown valve

74: ninth distribution 75: cooler 76: separator

80: third three-way valve

81: Distribution 10th

90: control box

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

Looking at the block diagram showing the compressed air drying method of the air dryer according to the invention as shown in Figure 1,

The first step S1 is configured to selectively apply heat to the compressed air having the compressed heat discharged from the air compressor 10 by the auxiliary heater 24 so that the secondary heating is performed to the compressed air.

In addition, the second step (S2) by heating the dehumidifying material filled in the second drying tower (60) while passing through the second drying tower 60, the compressed air made auxiliary heating in the first step (S1) By removing the moisture of the dehumidifying material is configured to heat and regeneration of the second drying tower (60).

In addition, in the third step S3, the condensed water content in which the compressed air passing through the second drying tower 60 in the second step S2 is cooled while passing through the cooler 75 and condensed by the cooling is a separator 76. At the same time, while passing through the first drying tower 50, the saturated water vapor is absorbed by the dehumidifying material filled in the first drying tower 50 and filled into the first drying tower 50, thereby drying the compressed air.

In addition, the fourth step S4 is configured to discharge and supply the compressed air dried in the third step S3.

In addition, in the fifth step S5, after the fourth step S4 is finished, the three-way valves 20, 30 and 80 are switched so that the compressed air discharged from the air compressor 10 is cooler 75 and the separator. Cooling while passing through (76) is condensed water is removed and is introduced to the first drying tower 50 is configured to dry the compressed air.

In addition, the sixth step S6 is configured to discharge and supply most of the compressed air dried in the fifth step S5.

In addition, the seventh step (S7) is a portion of the dried compressed air discharged in the sixth step (S6) flows into the second drying tower 60 to absorb and cool the moisture of the dehumidifying material to the second drying tower (60). ) Is configured to perform cooling regeneration.

In addition, the eighth step (S8) is configured to absorb the moisture of the dehumidifying material filled in the second drying tower (60) in the seventh step (S7) and to cool, and then discharge the compressed air to the outside.

In addition, the ninth step (S9) is the three-way valve (20), 30, 80 and four-way valve (40) (70) after the discharge to the outside of the compressed air absorbed moisture in the eighth step (S8). ) Is configured to switch the regeneration and drying of the drying tower by switching the direction of.

In addition, after the ninth step (S9) is finished, the drying tower is replaced and the steps from the first step (S1) to the ninth step (S9) are repeatedly performed to continuously dry the compressed air. You lose.

Referring to Figure 2 in detail a flow chart showing a compressed air drying method of the air dryer according to the present invention,

The start of the flow chart (S0) is made while the air dryer (1) is operated, and the inlet (S01) of the compressed air is made to the system side with the start, and the temperature (Tg) of the compressed air is measured as the compressed air is introduced. (S02), if the temperature (Tg) of the compressed air is set in the system, that is, the temperature (To) required for heating and regenerating the drying tower, the heating and regeneration of the drying tower is performed immediately.

If the temperature (Tg) of the compressed air is less than the temperature (To) required by the system side to heat-regenerate the drying tower, the auxiliary air (S1) is made by using the auxiliary air 24 so that the compressed air is It is to raise the temperature (Tg).

Therefore, the heating and regeneration of the drying tower is more accurate and stable by the operation of the auxiliary heater 24 is to maximize the regeneration efficiency of the drying tower.

In addition, the remaining steps are the same as those described in FIG. 1, except that the replacement of the drying tower occurs in the tenth step S10, and the process is repeatedly performed by returning to the first air inflow step S01 and repeatedly performing the same process. The air is dried.

Looking at the overall configuration of the air dryer according to the invention as shown in Figure 3,

The air dryer 1 is connected to an inlet pipe 21 for introducing compressed air discharged from the air compressor 10, and to the other side thereof is connected to a first distribution pipe 22 having an auxiliary heater 24. The second distribution pipe 23 is connected to one side corresponding to the first distribution pipe 22, the first three-way valve 20 is provided,

An end of the first distribution pipe 22 is connected to one side, the third distribution pipe 31 is connected to the other side, the fourth distribution pipe 32 is provided with the orifice 33 and the opening and closing valve 34 sequentially Is connected to one side corresponding to the first distribution pipe 22 is provided with a second three-way valve 30,

An end of the third distribution pipe 31 is connected to one side, the fifth distribution pipe 42 is connected to the other side, the discharge pipe 41 is connected to the end of the fourth distribution pipe 32 is the first side Is connected to one side corresponding to the three distribution pipe 31, the sixth distribution pipe 43 is connected to one side corresponding to the fifth distribution pipe 42 is provided with a first four-way valve 40,

A first drying tower 50 having an upper side connected to an end of the sixth distribution pipe 43 and a seventh distribution pipe 51 connected to a lower side thereof, and an upper portion thereof at an end of the fifth distribution pipe 42. The side is connected, the lower side is provided with a second drying tower 60, the eighth distribution pipe 61 is connected,

The other end of the eighth distribution pipe 61 is connected to one side, and the discharge pipe 71 having the discharge valve 72 and the blowdown valve 73 is connected to the other side thereof, and corresponds to the eighth distribution pipe 61. An end of the seventh distribution pipe 51 is connected to one side thereof, and a ninth distribution pipe 74 having a cooler 75 and a separator 76 sequentially connected to one side corresponding to the discharge pipe 71 is connected to the second side. Four-way valve 70 is provided,

The tenth distribution pipe 81 connected to the discharge pipe 71 is connected to one side, the other end of the ninth distribution pipe 74 is connected, the one side corresponding to the tenth distribution pipe 81 The second three-way valve (80) is connected to the end of the distribution pipe 23 is configured to be provided.

Here, the air compressor 10 refers to a compressor to compress air to make compressed air, and the compressed air is introduced into the inlet pipe 21 at a high temperature.

In addition, the three-way valve 20, 30, 80 refers to a valve capable of switching in two different directions by connecting the pipe in three directions.

In addition, the four-way valve 40, 70 refers to a valve capable of switching in four different directions by connecting the pipe in four directions.

In addition, the drying tower (50, 60) is a built-in dehumidifier and serves to dry the compressed air by the drying action of the dehumidifier.

In addition, the auxiliary heater 24 is provided in the first distribution pipe 22 to heat the compressed air discharged from the air compressor 10.

In addition, the orifice 33 adjusts the opening / closing valve 34 when the portion of the compressed air dried by the fourth flow pipe 32 on one side of the discharge pipe 41 flows to maintain a constant flow rate and expands the moisture. It is to increase absorption.

In addition, the discharge valve 72 is provided to discharge the air inside the system to the outside.

In addition, the blowdown valve 73 is operated before the discharge valve 72 is opened, and serves to lower the pressure inside the pipeline to prevent noise or damage to the device due to sudden opening of the discharge valve 72. will be.

In addition, the cooler 75 refers to a cooler that cools high temperature compressed air.

In addition, the separator 76 serves to separate condensed water content such as condensed water generated from the cooler 75 from the compressed air.

Looking at the configuration diagram showing the heating state of the air dryer according to the invention as shown in Figure 4,

The arrow shown in FIG. 4 represents the flow of compressed air.

The operation of the air dryer 1 is made, and with the operation, compressed air is made in the air compressor 10, and compressed air is sent out to the inlet pipe 21 to allow the compressed air to flow into the system side.

Compressed air entering through the inlet pipe (21) flows through the first three-way valve (20) to the first distribution pipe (22), at this time to the operation of the auxiliary heater (24) provided in the first distribution pipe (22). By this, the compressed air is selectively heated.

The compressed air heated by the auxiliary heater 24 flows from the first flow pipe 22 to the third flow pipe 31 through the second three-way valve 30.

Then, the heated compressed air flows from the third flow pipe 31 through the first four-way valve 40 to the fifth flow pipe 42, and the second drying tower 60 from the fifth flow pipe 42. Into the inside of the second drying tower is filled with the dehumidifying material is filled in the interior of the heating is to be made primarily by heat regeneration.

In addition, the compressed air after the heating and regeneration of the second drying tower 60 passes through the eighth distribution pipe 61 and flows into the discharge pipe 71 through the second four-way valve 70, wherein the discharge pipe 71 is provided. Rather than being discharged to the outside through the third three-way valve (80) through the tenth distribution pipe 81 is connected to one side of the discharge pipe 71 is to flow to the ninth distribution pipe (74).

Here, the compressed air passes through the cooler 75 and the separator 76 provided in the ninth distribution pipe 74, and after cooling and condensed water is removed, the second air connected to the other end of the ninth distribution pipe 74. Passing through the seven-way valve 51 through the two-way valve 70 is introduced into the first drying tower (50) connected to the seventh flow pipe 51 is to dry the compressed air primarily.

In addition, the compressed air dried in the first drying tower 50 is introduced into the first four-way valve 40 through a sixth distribution pipe 43 connected to an upper side of the first drying tower 50. It is discharged through the discharge pipe 41 is connected to one side of the first four-way valve (40).

Through the above process, drying of the compressed air in the first drying tower 50 and heating and regeneration in the second drying tower 60 are performed in the heating state of the air dryer 1.

Looking at the configuration diagram showing the cooling state of the air dryer next to Figure 4 as shown in Figure 5,

Arrows shown in FIG. 5 indicate the flow of compressed air.

After the heating process of FIG. 4 is completed, the three-way valves 20, 30, 80 are changed in direction, and the three-way valves 20, 30, 80 are switched in the air compressor 10. Compressed air is introduced into the inlet pipe 21 through the), and the compressed air introduced through the inlet pipe 21 flows through the first three-way valve 20 to the second distribution pipe (23).

In addition, the second flow pipe 23 passes through the third three-way valve 80 and enters the ninth flow pipe 74, where the compressed air is cooled while passing through the cooler 75 and the separator 76 and condensate water is removed. Will be.

Then, the ninth distribution pipe (74) is passed through the second four-way valve (70) to the seventh distribution pipe (51), and flows into the first drying tower (50) through the seventh distribution pipe (51) to the secondary As a result, the drying of the compressed air occurs.

The compressed air dried as described above flows into the first four-way valve 40 from the first drying tower 50 through the sixth distribution pipe 43 and the discharge pipe 41 from the first four-way valve 40. It will be discharged to.

At this time, a part of the compressed air dried through the fourth flow pipe 32 connected to one side of the discharge pipe 41 is introduced, the inflow is the on-off valve 34 provided in the fourth flow pipe (32) Is made through, through the orifice 33 provided in the fourth flow pipe 32 is to be introduced into the second three-way valve (30).

In addition, the dried compressed air introduced into the second three-way valve 30 flows back into the first four-way valve 40 through the third flow pipe 31 and passes through the first four-way valve 40. 5 is introduced into the distribution pipe 42, through the fifth distribution pipe 42 is introduced into the second drying tower (60) is to be secondary cooling and regeneration of the second drying tower (60).

After absorbing and cooling the moisture of the dehumidifying material during the cooling and regenerating process of the second drying tower 60, the compressed air is introduced into the second four-way valve 70 through the eighth distribution pipe 61, and the second four sides Is introduced into the discharge pipe 71 is connected to one side of the valve (70).

At this time, the pressure drop of the compressed air is made by the blowdown valve 73 provided on one side of the discharge pipe 71, the pressure drop is made and then the discharge valve 72 provided in the discharge pipe 71 is opened to moisture Compressed air containing will be completely discharged to the outside.

Through the above process, the compressed air in the first drying tower 50 and the cooling and regeneration in the second drying tower 60 are made in the cooling state of the air dryer 1.

Referring to the configuration diagram showing the heating state of the air dryer next to Figure 5, as shown in Figure 6,

Arrows shown in FIG. 6 indicate the flow of compressed air.

After the cooling process of FIG. 5 is finished, the three-way valves 20, 30, 80 and four-way valves 40, 70 are changed in direction, and the valves 20, 30, 80 ( 40 and 70, the compressed air is introduced into the inlet pipe 21 through the air compressor 10, the compressed air introduced through the inlet pipe 21, the first three-way valve 20 It will flow through the first distribution pipe (22).

In addition, auxiliary heating occurs in the compressed air introduced by the auxiliary heater 24 provided in the first distribution pipe 22, and the compressed air heated by the auxiliary heating is second in the first distribution pipe 22. It is to flow to the third flow pipe 31 through the three-way valve (30).

Then, the heated compressed air flows from the third flow pipe 31 through the first four-way valve 40 to the sixth flow pipe 43 and the first drying tower 50 from the sixth flow pipe 43. It is introduced into the interior of the first drying tower 50 is to heat the dehumidification material is filled in the interior of the heating and regeneration is to be made.

In addition, the compressed air after the heating and regeneration of the first drying tower 50 passes through the seventh flow pipe 51 and flows into the discharge pipe 71 through the second four-way valve 70, wherein the discharge pipe 71 is provided. Rather than being discharged to the outside through the third three-way valve (80) through the tenth distribution pipe 81 is connected to one side of the discharge pipe 71 is to flow to the ninth distribution pipe (74).

Here, the compressed air passes through the cooler 75 and the separator 76 provided in the ninth distribution pipe 74, and after cooling and condensed water is removed, the second air connected to the other end of the ninth distribution pipe 74. Passing through the eight-way pipe (61) through the two-way valve 70 is introduced into the second drying tower (60) connected to the eighth flow pipe (61) is to dry the compressed air primarily.

In addition, the compressed air dried in the second drying tower 60 is introduced into the first four-way valve 40 through a fifth distribution pipe 42 connected to the upper side of the second drying tower 60. It is discharged through the discharge pipe 41 is connected to one side of the first four-way valve (40).

Through the above process, the heating and regeneration in the first drying tower 50 and the drying of the compressed air in the second drying tower 60 are made in the heating state of the air dryer 1.

In other words, the heating process is to be performed in the state where the drying tower (50, 60) is made.

As shown in FIG. 7, the configuration diagram showing the cooling state of the air dryer next to FIG. 6 will be described in detail.

Arrows shown in FIG. 7 indicate the flow of compressed air.

After the heating process of FIG. 6 is completed, the three-way valves 20, 30, 80 are changed in direction, and the three-way valves 20, 30, 80 are switched in the air compressor 10. Compressed air is introduced into the inlet pipe 21 through the), and the compressed air introduced through the inlet pipe 21 flows through the first three-way valve 20 to the second distribution pipe (23).

In addition, the second flow pipe 23 passes through the third three-way valve 80 and enters the ninth flow pipe 74, where the compressed air is cooled while passing through the cooler 75 and the separator 76 and condensate water is removed. Will be.

Then, the ninth distribution pipe (74) flows through the second four-way valve (70) to the eighth distribution pipe (61), and flows into the second drying tower (60) through the eighth distribution pipe (61). As a result, drying of compressed air occurs.

The compressed air dried as described above flows into the first four-way valve 40 from the second drying tower 60 through the fifth distribution pipe 42 and the discharge pipe 41 from the first four-way valve 40. It will be discharged to.

At this time, a part of the compressed air dried through the fourth flow pipe 32 connected to one side of the discharge pipe 41 is introduced, the inflow of the on-off valve 34 provided in the fourth flow pipe (32) It is made through the opening, it is to be introduced into the second three-way valve 30 through the orifice 33 provided in the fourth flow pipe (32).

In addition, the dried compressed air introduced into the second three-way valve 30 flows back into the first four-way valve 40 through the third flow pipe 31 and passes through the first four-way valve 40. 6 is introduced into the distribution pipe 43, and the sixth distribution pipe 43 is introduced into the first drying tower 50 to secondary cooling of the first drying tower (50).

Thus, after absorbing and cooling the moisture of the dehumidifying material during the cooling and regeneration process of the first drying tower 50, the compressed air is introduced into the second four-way valve 70 through the seventh distribution pipe 51, the second four-way valve Is introduced into the discharge pipe 71 is connected to one side of the (70).

At this time, the pressure drop of the compressed air is made by the blowdown valve 73 provided on one side of the discharge pipe 71, the pressure drop is made and then the discharge valve 72 provided in the discharge pipe 71 is opened to moisture Compressed air containing will be completely discharged to the outside.

Through the above process, the cooling and regeneration of the dehumidifying material in the first drying tower 50 and the drying of the compressed air in the second drying tower 60 are performed in the cooling state of the air dryer 1.

In other words, the cooling process is to be performed in the state where the drying tower (50, 60) is made.

Therefore, the drying towers 50 and 60 are replaced by the change of direction of the valves 20, 30, 80, 40 and 70 and thus the heating and cooling processes are repeatedly performed. Compressed air is continuously discharged.

Looking at the configuration diagram showing another embodiment of the present invention as shown in Figure 8,

The control box 90 is provided in the system of the air dryer 1, and the three-way valves 20, 30, 80 and four-way valves 40 and 70 are provided by the present invention by the control box 90. And, it is configured to be able to control various valves 34, 72, 73 and auxiliary heaters 24 and the like.

The air dryer 1 is driven by the control box 90 to allow more accurate and stable production of dried compressed air, and to ensure convenience of use.

In other words, the direction of the valve 20, 30, 80, 40, 70, 34, 72, 73 and the opening and closing operation or the operation of the auxiliary heater 24 described above is controlled by the control box ( 90) to improve the production efficiency of the dried compressed air by increasing the operating efficiency of the air dryer 1 and increasing the operational safety.

As described above, the present invention provides a method for drying compressed air of an air dryer using compressed heat in which an auxiliary heating step is set in an air dryer using compressed heat, so that drying of compressed air and regeneration of a drying tower are more accurately and smoothly. In this case, the regeneration efficiency of the drying tower is increased, and thus the production efficiency of the compressed air is increased, and the accuracy of the system operation is secured.

In addition, the present invention provides an air dryer using a compressed heat is provided with a three-way valve and a four-way valve using a compressed heat, the amount of compressed air dried while minimizing the amount of compressed air discharged to the outside in a simple structure By maximizing, the production cost of the dried compressed air is maximized while minimizing the construction cost of the system, and thus economical efficiency is secured.

In addition, the present invention provides an air dryer using a compressed heat provided with an auxiliary heater to the air dryer using the heat of compression, by selectively applying heat to the compressed air flowing in, the regeneration efficiency of the drying tower is more accurate and maximized effect Has

In addition, the present invention provides an air dryer using a compressed heat control valve and the auxiliary heater of the air dryer using the heat of compression, the opening and closing of the valve and the operation of the auxiliary heater is automatically controlled, Convenience and safety of the use of the air dryer using the compressed heat is secured, thereby increasing the production efficiency of the dried compressed air and operating efficiency of the operation of the system.

Claims (4)

A first step (S1) of selectively heating the compressed air discharged from the air compressor 10 by the auxiliary heater 24 to perform auxiliary heating; A second step (S2) in which the compressed air heated in the first step (S1) passes through the second drying tower (60) and is heated and regenerated; As the compressed air passing through the second drying tower 60 passes through the cooler 75 and the separator 76 in the second step S2, the condensed water is separated and flows into the first drying tower 50 to provide the compressed air. A third step S3 in which drying is performed; A fourth step S4 of discharging and supplying the compressed air dried in the third step S3; After the fourth step (S4) is finished, the three-way valve is switched to the compressed air discharged from the air compressor 10 passes through the cooler 75 and the separator 76 to remove the condensed water and to the first drying tower (50). A fifth step (S5) through which the compressed air is dried; A sixth step S6 of discharging and supplying most of the compressed air dried in the fifth step S5; A part of the dried compressed air discharged in the sixth step (S6) flows into the second drying tower 60 to absorb and cool the moisture of the dehumidifying material to cool and regenerate the second drying tower (60). (S7); An eighth step (S8) in which the compressed air is discharged to the outside after absorbing and cooling the moisture of the second drying tower (60) in the seventh step (S7); Compression heat, characterized in that consisting of a ninth step (S9) is converted to the regeneration and drying of the drying tower by switching the three-way valve and the four-way valve after the discharge to the outside in the eighth step (S8) Compressed air drying method of used air dryer. In the adsorption-type air dryer (1) is provided with a pair of drying tower (50) (60) filled with a dehumidifying material, drying the compressed air by the continuous alternating of the drying tower (50) (60); An inlet pipe 21 for introducing compressed air discharged from the air compressor 10 is connected, and the first distribution pipe 22 is connected to the other side thereof, and the second distribution pipe is connected to one side corresponding to the first distribution pipe 22. A first three-way valve 20 to which 23 is connected; An end of the first distribution pipe 22 is connected to one side, the third distribution pipe 31 is connected to the other side, the fourth distribution pipe 32 is provided with the orifice 33 and the opening and closing valve 34 sequentially A second three-way valve 30 connected to one side corresponding to the first distribution pipe 22; An end of the third distribution pipe 31 is connected to one side, the fifth distribution pipe 42 is connected to the other side, the discharge pipe 41 is connected to the end of the fifth distribution pipe 42 is the third distribution pipe A first four-way valve 40 connected to one side corresponding to the one side 31 and provided with a sixth distribution pipe 43 connected to one side corresponding to the fifth distribution pipe 42; A first drying tower 50 having an upper side connected to an end of the sixth distribution pipe 43 and a seventh distribution pipe 51 connected to a lower side thereof; A second drying tower 60 having an upper side connected to an end of the fifth distribution pipe 42 and an eighth distribution pipe 61 connected to a lower side thereof; The other end of the eighth distribution pipe 61 is connected to one side, and the discharge pipe 71 having the discharge valve 72 and the blowdown valve 73 is connected to the other side thereof, and corresponds to the eighth distribution pipe 61. An end of the seventh distribution pipe 51 is connected to one side thereof, and a ninth distribution pipe 74 having the cooler 75 and the separator 76 sequentially connected to one side corresponding to the discharge pipe 71 is provided. A second four-way valve 70; The tenth distribution pipe 81 connected to the discharge pipe 71 is connected to one side, the other end of the ninth distribution pipe 74 is connected, the one side corresponding to the tenth distribution pipe 81 The air dryer using the heat of compression, characterized in that consisting of a third three-way valve (80) which is provided with the end of the second distribution pipe (23) connected. The method of claim 2; An auxiliary heater (24) is provided in the first flow pipe (22) connecting the first three-way valve (20) and the second three-way valve (30). The method of claim 2 or 3; Compression, characterized in that the valve 20, 30, 40, 70, 80, 34, 72, 73 and the auxiliary heater 24 is provided with a control box 90 for its control Air dryer using heat.