KR200329986Y1 - Purge Piping System of Air Dryer - Google Patents

Abstract

The present invention relates to a service air system for supplying dry air to each facility of a desalination plant by removing moisture contained in the atmosphere, and particularly, a high temperature discharged after purging an air dryer of a service air system. The objective is to provide a piping system for discharging humidified purge air out of the building.

The present invention for achieving the above object is a purge of the air dryer (Air Dryer) connecting the plurality of dryers (10a, 10b) containing the drying material and the dryers (10a, 10b) to produce dry air (Purge) In the piping system, branch pipes 182a and 182b of the second discharge pipe 180 connected to the first supply pipe 20 for injecting atmospheric air containing moisture into the dryers 10a and 10b, respectively. And the branch pipes 182a and 182b are connected in parallel and discharged to the outside of the air dryer building, and the dryers 10a and 10b are supplied through the first supply pipe 20. The first discharge pipe 30 is discharged air is discharged, and the second supply pipe 40 for injecting a high-temperature purge air is connected, the air supplied through the first supply pipe 20 is the first discharge The high temperature purge air discharged through the pipe 30 and supplied through the second supply pipe 40 is a phase. It characterized in that it comprises a valve 185 installed in the pipe to be discharged through the second discharge pipe 180.

The purge piping system of the air dryer of the present invention configured as described above discharges the hot and humid purge air discharged after drying the desiccant of the dryer to the outside of the closed air supply building, whereby the worker inside the air supply building It is possible to prevent burns by a purge air.

In addition, by discharging the hot and humid purge air out of the air supply building, it is possible to prevent corrosion of other peripheral devices located inside the air supply building.

Description

Purge Piping System of Air Dryer

The present invention relates to a service air system for supplying dry air to each facility of a desalination plant by removing moisture contained in the atmosphere, and particularly, a high temperature discharged after purging an air dryer of a service air system. The objective is to provide a piping system for discharging humidified purge air out of the building.

1 is a conceptual diagram of the inside of the air supply building according to the prior art.

As shown in FIG. 1, the air dryer 1 includes a plurality of dryers 10a and 10b. The plurality of dryers 10a and 10b are connected to the lower ends of the dryers 10a and 10b, and the first supply pipe 20 for supplying the outside air is introduced to the dryers 10a and 10b. The first discharge pipe 30 through which the air passed through 10b) is discharged is connected.

Here, the first supply pipe 20 is branch pipes (22a, 22b) as many as the number of dryers (10a, 10b) branched from the main pipe 21 through which the outside air flows is connected to the bottom of each dryer (10a, 10b) The first discharge pipe 30 is branch pipes (32a, 32b) connected to the top of each dryer (10a, 10b) is connected to one main pipe (31), through the main pipe 31 is dried to another facility Supplied air.

On the other hand, the branch pipes (42a, 42b) of the second supply pipe 40 for supplying a high temperature purge air is connected to the branch pipes (32a, 32b) of the first discharge pipe 30, the second supply pipe (40) Branch pipes 42a and 42b are connected to the main pipe 41. In addition, a heater 60 and a blower 50 are installed in the main pipe 41 of the second supply pipe 40, and the second supply pipe 40 is opened and closed according to the pressure of the dryers 10a and 10b. Valves 70 are respectively installed.

On the other hand, the second discharge pipe 80 is connected to the branch pipe (22a, 22b) of the first supply pipe 20, respectively, the muffler 85 is installed in the second discharge pipe (80). In addition, a shuttle valve 90 is installed at a branch point of the first supply pipe 20 and the first discharge pipe 30 to control the flow direction of the fluid introduced or discharged.

The following describes the operating relationship for such an air supply system.

Atmospheric air introduced through the first supply pipe 20 is introduced into the dryer 10a through one of the branch pipes 22a and 22b by the shuttle valve 90. Atmospheric air introduced into the dryer 10a passes through the filled desiccant 11 inside the dryer 10a, and the water contained in the air is deprived of the branch pipe 32a of the first discharge pipe 30 and the main pipe ( Through 31) to other installations.

On the other hand, the other dryer 10b in the Standby state removes the moisture of the desiccant 11 filled in the dryer 10b. In order to remove the moisture of the desiccant 11, a hot purge air is blown into the dryer 10b, at which time the inside of the dryer 11 in the standby state by the operation of the blower 50 and the heater 60. The purge air of high temperature is supplied. The air dried by heating the desiccant 11 is discharged to the muffler 85 through the second discharge pipe 80.

In this process, the high temperature and high humidity purge air discharged through the muffler 85 is discharged into the air supply building 3, and the high temperature and high humidity purge air may burn a worker and cause corrosion of peripheral devices. Promote

The present invention is proposed to solve the problems of the prior art as described above, the object of the present invention to provide a purge piping system of the air dryer for discharging the high temperature and high humidity purge air discharged to the inside of the air supply building to the outside of the building. There is this.

1 is a conceptual diagram of the inside of the air supply building according to the prior art,

2 is a conceptual diagram showing a piping system of an air supply building according to the present invention,

3 is a diagram of the second discharge pipe shown in FIG.

Explanation of symbols on the main parts of the drawings

10a, 10b: dryer 20: first supply piping

22a, 22b: branch pipe 103: air supply building

180: second discharge pipe 181: main pipe

182a, 182b: branch pipe 185: valve

The present invention for achieving the above object in the purge piping system of the air dryer (Air Dryer) connecting the dryers and a plurality of dryers containing a drying material to generate dry air, Branch pipes of the second discharge pipe connected to the first supply pipe for respectively injecting atmospheric air into the dryer, the main pipe for connecting the branch pipes in parallel to the outside of the air dryer building, and the dryer The first discharge pipe for discharging the air supplied through the first supply pipe and the second supply pipe for injecting high-temperature purge air are connected, and the air supplied through the first supply pipe is connected to the first discharge pipe. The high temperature purge air discharged through the second supply pipe and discharged through the second supply pipe includes valves installed in the pipe to be discharged through the second discharge pipe. Generated and to the technical characteristics.

In the following, with reference to the accompanying drawings a preferred embodiment of the purge piping system of the air dryer according to the present invention will be described in detail.

2 is a conceptual view showing a piping system of an air supply building according to the present invention, Figure 3 is a diagram of the second discharge pipe shown in FIG.

As shown in FIG. 2, according to the present invention, branch pipes 182a and 182b of the second discharge pipe 180 are connected to the branch pipes 22a and 22b of the first supply pipe 20, and the air supply building. Branch pipes 182a and 182b of the second discharge pipe 180 are connected to the main pipe 181 of the second discharge pipe 180 extending from the inside of the 103 to the outside. In addition, a valve 185 is installed in the branch pipes 182a and 182b of the second discharge pipe 180 and the main pipe 181 to purge the inside of the dryers 10a and 10b to discharge the second hot purge air. Through the branch pipes 182a and 182b of the pipe 180 and the main pipe 181 to be discharged to the outside of the air supply building 103.

Meanwhile, although two dryers are illustrated in FIG. 2, in the air dryer including more dryers, as shown in FIG. 3, the plurality of second discharge pipes 180 located in the air supply building 103 may be divided. The engines 182a and 182b are connected to the main pipe 181 in parallel form. The valve 185 is installed at the connection portion between the main pipe 181 and the branch pipes 182a and 182b.

Therefore, the hot and humid purge air discharged through the second discharge pipe 180 is discharged to the outside of the air supply building 103 through the main pipe 181 without being discharged into the air supply building 103.

Meanwhile, one of the two dryers 10a and 10b shown in FIG. 2 functions as an air dryer 100 supplying dry air to another facility, and the other dryer 10b. Denotes a process of purging, which is interchanged as the valves 70, 90, and 185 open and close.

As described in detail above, the purge piping system of the air dryer of the present invention by discharging the hot and humid purge air discharged after drying the desiccant of the dryer to the outside of the closed air supply building, the operator inside the air supply building It is possible to prevent burns by the high temperature and high humidity purge air.

In addition, by discharging the hot and humid purge air out of the air supply building, it is possible to prevent corrosion of other peripheral devices located inside the air supply building.

Although the technical idea of the purge piping system of the air dryer of the present invention has been described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

Claims (1)

In a purge piping system of an air dryer connecting the dryers and a plurality of dryers containing the drying material to produce dry air, Branch pipes of a second discharge pipe connected to a first supply pipe respectively for injecting atmospheric air including moisture into the dryer; The main pipes are discharged to the outside of the air dryer building is connected to the branch pipes in parallel, The dryers are connected to a first discharge pipe through which the air supplied through the first supply pipe is discharged, and a second supply pipe for injecting high-temperature purge air, and the air supplied through the first supply pipe is connected to the dryer. The high temperature purge air discharged through the first discharge pipe and supplied through the second supply pipe includes valves installed in the pipe to discharge through the second discharge pipe.