KR200268424Y1 - Condensate drainage of compressed air tank - Google Patents

Abstract

The present invention relates to a condensate drainage system of a compressed air tank to automatically drain when condensate is collected in an air storage tank and reaches a certain level.

According to an aspect of the present invention, there is provided a compressed air storage tank having drainage means for draining condensate generated during air compression, comprising: a collecting pipe provided at a lower portion of the condensate to communicate with the storage tank; A drain pipe communicating with the water collecting pipe and having an electron valve on the pipeline; Water level sensing means installed on the water collection pipe for sensing the level of condensate; And control means for draining the condensate by detecting the signal in the water level detecting means and controlling the electromagnetic valve when the condensate reaches a predetermined level.

Description

Condensate drainage of compressed air tanks

The present invention relates to a condensate drainage system of a compressed air storage tank for effectively draining the condensate generated when the air is compressed and stored in the storage tank.

Industrial technology using compressed air has been developed in various fields. This technology consists of a compressor for compressing air, a storage tank for storing compressed air, an air filter for filtering air, and a pipe section for exhausting the compressed air and supplying it where necessary.

Compressed air gets compressed air by compressing it by introducing external air by the compressor, but there is a difference in degree depending on the weather conditions, but since there is always moisture in the outside air, when the wet air is compressed, the temperature of the air increases and the relative humidity is relative Is lowered. Therefore, during the compression and storage of air to the set pressure value, water is not produced well even when the distance of the air molecules is close, but the compressed storage air, which has risen above the outside temperature due to the end of the compressed storage process of air, is dew point during the process of losing heat to the outside. Condensate is generated as the temperature approaches, and when the compression process is repeated, the condensate gradually rises in water level, reducing the storage capacity of the compressed air tank and promoting corrosion on the inner surface of the tank.

Therefore, it is necessary to drain the condensate when it reaches a certain level. In the related art, the condensate is discharged from a manual discharge valve installed under the air storage tank and an air filter installed in the pipe.

However, when using this artificial method it is difficult to accurately determine the level of condensate condensed in the air storage tank has a problem that must be checked from time to time.

The present invention has been made in view of this point, it is an object of the present invention to provide a condensate drainage of the compressed air tank to automatically drain when the condensate is collected in the air storage tank reaches a certain level.

In order to achieve the above object, the present invention provides a compressed air storage tank having drainage means for draining condensate generated during air compression, comprising: a collecting pipe provided at a lower portion to collect the condensate and communicating with the storage tank; A drain pipe communicating with the water collecting pipe and having an electron valve on the pipeline; Water level sensing means installed on the water collection pipe for sensing the level of condensate; And control means for draining the condensate by detecting the signal in the water level detecting means and controlling the electromagnetic valve when the condensate reaches a predetermined level.

The present invention having such a structure causes condensate to be generated during the process of compressing air, and when the water level rises gradually, the water level sensing means outputs a signal, and the control means opens the electronic valve to discharge the condensate automatically. do.

1 is a schematic view showing a compressed air tank of the present invention,

Figure 2 is a detailed view showing an embodiment of the main drainage device of the present invention.

* Description of the symbols for the main parts of the drawings *

10; storage tank 11; air compressor

12; intake pipe 13; exhaust pipe

14; collecting pipe 15; flute

16; contact switch 17; drain pipe

18; electromagnetic side 19; control unit

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a schematic diagram showing a structure for compressing air and storing compressed air, and FIG. 2 is a detailed view showing the main part of the present invention.

Referring to the drawings, the present invention is generally connected to the compressed air storage tank 10 to the compressed air storage tank 10 through the intake pipe 12 to absorb the compressed air by the air compressor 11 The engine 12 is stored in the storage tank 10.

Compressed air stored in the storage tank (10) is supplied and used where necessary through the exhaust pipe (13).

In this case, condensate is generated in the process of compressing air by introducing external air from the air compressor 11 to the storage tank 10, and the condensate gradually increases in water level to reduce the volume of the storage tank 10. Therefore, the collection tank 14 for collecting the condensed water is installed in the lower portion of the storage tank 10 to collect the condensed water in one place.

The water collecting pipe 14 is provided with a flute 15 therein to be raised and lowered according to the water level, and the contact switch 16 is installed to the top of the water collecting pipe 14 so as to protrude. The contact is connected by rising, so that a signal is applied to the control unit 19.

In addition, a drain pipe 17 is connected to a lower portion of the collecting pipe 14, and an electronic valve 18 is provided on the pipe of the drain pipe 17 so as to be controlled by the control of the control unit 19.

When the flute 15 rises and the contact switch 16 is connected, the control unit 19 discharges the condensed water by opening the drain pipe 17 by controlling the electromagnetic valve 18 by the signal. The time for applying and opening the signal may be determined in consideration of the quantity of condensate collected in the collecting pipe 14 and the time when the condensate flows into the drain pipe 17.

The present invention having the structure as described above allows the condensate generated in the process of storing the air compressed in the air compressor 11 in the storage tank 10 to be collected in the collecting pipe 14, When the water level rises in conjunction with this flute 14 rises to connect the two contacts of the contact switch 16. When the signal is applied to the control unit 19 by the connection of the contact switch 16, the control unit 19 controls the electromagnetic valve 18 to open the drain pipe 17 to drain the condensed water. It is drained for a predetermined time, and when the time elapses, the power supply to the electromagnetic valve 18 is shut off to close the drain pipe 17 to prevent leakage of compressed air by the opening of the drain pipe 17 for a long time.

As described above, the present invention installs a collecting pipe in the compressed air storage tank, and incorporates a sensing means for detecting the water level in the collecting air pipe, and controls the electronic valve to automatically discharge the condensed water through the drain pipe when the water level rises. In addition, it is possible not only to sufficiently secure the compressed air storage space due to the rise of the water level, but also to prevent corrosion in the tank, and to prevent the storage tank from freezing by the winter condensate.

Claims (1)

In the compressed air storage tank is provided with a drainage means for draining the condensate generated during air compression, A collecting pipe provided at a lower portion of the condensate to communicate with the storage tank; A drain pipe communicating with the water collecting pipe and having an electron valve on the pipeline; Water level sensing means installed on the water collection pipe for sensing the level of condensate; And And control means for draining the condensate by controlling the electromagnetic valve by sensing a signal in the water level detecting means when the condensate reaches a predetermined level.