KR101500132B1 - Air dryer recycle method - Google Patents

Abstract

Disclosed is a regeneration method of an air dryer, which comprises: a check step of measuring the pressure of compressed air stored in an air tank; a pressure control step of reducing pressure in a pipe by performing a discharge operation on a separator in order to discharge foreign matters from the inside of the separator and the compressed air from the inside of the pipe when the solenoid valve of the air dryer is controlled to transmit the compressed air to the separator in case the pressure in the air tank is excessive; and a regeneration step of performing the regeneration of the air dryer when blocking the supply of the compressed air to the separator and transmitting the compressed air to an air compressor by controlling the solenoid valve of the air dryer in case of the reduction of the pressure in the pipe. When the air dryer is regenerated, the disclosed regeneration method is capable of preventing that the regeneration of the air dryer is interrupted by a high pressure in a pipeline in which the compressed air flows, thereby increasing regeneration efficiency.

Description

AIR DRYER RECYCLE METHOD [0002]

The present invention relates to an air dryer regeneration method capable of increasing the regeneration efficiency by eliminating the obstruction of the regeneration of the air dryer by the high pressure formed in the pipeline through which the compressed air flows during the regeneration of the air dryer.

2. Description of the Related Art [0002] In general, various types of driving devices, which are operated by using compressed air as a power source, are used in an electric vehicle having a large vehicle and electric power as its driving source. These driving devices are air-operated devices that operate by using compressed air as a power source, such as air brakes, air suspensions, and the like.

A system for generating and charging compressed air to be supplied to such an air operating device includes an air compressor for generating compressed air, a separator for collecting and discharging foreign substances in the compressed air, an air dryer for removing moisture and foreign substances in the compressed air, An air tank for storing the removed compressed air is used, and a pipe for connecting the respective components is installed.

The air compressor operates while repeating cycles of Load-Regeneration-Off-load. In the load section, compressed air is stored in the air tank. In the regeneration section, foreign substances such as oil and moisture stored in the separator and air dryer cartridges are removed In the off load section, compressed air is not stored in the air tank, but only the air compressor is engaged with the engine gear, and compressed air is generated and discharged through the separator.

On the other hand, in order to use the cartridge of the air dryer for a long period of time, it is necessary to remove the foreign matter collected in the cartridge. At this time, regeneration for discharging a constant amount of regeneration to the atmosphere is performed by compressed air stored in the air tank.

At this time, the compressed air in the air compressor is not smoothly flowed due to the high pressure that flows backward in the pipeline between the separator and the air dryer, thereby hindering the reproduction of the cartridge. In this way, since the regeneration efficiency is low, a larger amount of regeneration is required. As a result, the duty cycle of the air compressor is increased and the fuel consumption is lowered as the load is increased.

Although KR10-2007-0023202 A "10-2007-0032584 A" is proposed as a system for filling compressed air in the related art, a technology for reducing the back pressure through the control logic in the regeneration section Is not being presented.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

KR 10-2007-0032584 A (2007.02.22)

The present invention has been proposed in order to solve such a problem, and provides an air dryer regeneration method capable of increasing regeneration efficiency by eliminating disturbance of regeneration by high pressure of a pipeline through which compressed air flows during regeneration of an air dryer It has its purpose.

According to an aspect of the present invention, there is provided an air dryer recycling method comprising: checking a pressure of compressed air stored in an air tank; When the pressure of the air tank is excessive, the solenoid valve of the air dryer is adjusted so that the compressed air is delivered to the separator side, so that the separator is discharged and operated so that the foreign substances in the separator and the compressed air in the pipe are discharged to reduce the pressure in the pipe. And a regeneration step of regenerating the air dryer by controlling the solenoid valve of the air dryer when the pressure in the pipe is reduced so that compressed air is prevented from being supplied to the separator side and compressed air is delivered to the air compressor side.

The pipe is a passage from the separator to the air dryer and through which the compressed air flows.

The pressure adjusting step may further include a pressure checking step of checking whether the pressure in the pipe is equal to or lower than the reference pressure, and performing the regeneration step when the pressure in the pipe is equal to or lower than the reference pressure.

As the solenoid valve of the air dryer is adjusted, the compressed air supplied is delivered to the three-way valve, and the three-way valve is operated by the purging pressure so that the compressed air can be selectively supplied to the separator or the air compressor.

The regeneration step may clean and discharge the foreign matter of the air dryer by using the compressed air generated from the air compressor and the compressed air supplied from the air tank.

The air dryer regeneration method having the above-described structure can solve the problem that the regeneration is obstructed by the high pressure of the pipeline through which the compressed air flows during the regeneration of the air dryer, thereby increasing the regeneration efficiency.

In this manner, by removing the pressure in the pipe caused by the compressed air, which is an element that disturbs reproduction, the operation load of the air compressor can be reduced by performing the regeneration with less compressed air, thereby improving the fuel consumption.

1 is a block diagram illustrating a system from an air compressor to an air tank in accordance with one embodiment of the present invention.
2 is a flowchart of an air dryer recycling method according to an embodiment of the present invention;

Hereinafter, an air dryer recycling method according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a system from an air compressor to an air tank according to an embodiment of the present invention, and FIG. 2 is a flowchart of an air dryer recycling method according to an embodiment of the present invention.

1, the separator 200 and the air dryer 300 are provided for cooling and purifying the compressed air when the compressed air generated in the air compressor 100 is stored in the air tank 400. As shown in FIG. do.

Here, the air compressor 100, the separator 200, the air dryer 300, and the air tank 400 are typically used, and various known devices can be used. As described above, the above-described devices may be applied to the pipeline A from the air compressor 100 to the air tank 400, and a purge valve and a three-way valve may be installed.

In particular, in the case of the air dryer 300, when the compressed air is excessively present in the air tank 400, a regeneration operation is performed. In order to selectively control the movement of the compressed air in the air tank 400, a solenoid valve 320 . Here, the solenoid valve 320 may be one or more than one according to the specifications of the air dryer 300.

The compressed air supplied as the solenoid valve 320 of the air dryer 300 is controlled is transmitted to the three-way valve B and the three-way valve B is operated by the purging pressure, Or the air compressor 100, as shown in FIG.

As described above, when the three-way valve B is used, the solenoid valve 320 of the air dryer 300 can be adjusted to supply the compressed air to the air compressor 100 or the separator 200 stably and accurately.

The present invention is for solving the problem that the regeneration efficiency due to the back pressure in the pipe drops due to the construction of the logic control system in the regeneration period through the above-described configurations.

According to the present invention, an air dryer regeneration method of the present invention includes a checking step (S100) of measuring a pressure of compressed air stored in an air tank; When the pressure of the air tank is excessive, the solenoid valve of the air dryer is adjusted so that the compressed air is delivered to the separator side, so that the separator is discharged and operated so that the foreign substances in the separator and the compressed air in the pipe are discharged to reduce the pressure in the pipe S200); And regenerating the air dryer by regulating the solenoid valve of the air dryer when the pressure in the pipe is reduced so that compressed air is prevented from being supplied to the separator side and compressed air is delivered to the air compressor side (S400) do.

Here, the pipe is a passage through which the compressed air flows from the separator to the air dryer. Conventionally, the compressed air posed in the air compressor is not smoothly transferred during the regenerating operation due to the back pressure caused by the compressed air remaining in the pipe between the separator and the air dryer, so that the required compressed air amount is increased to lower the regeneration efficiency. .

That is, in the present invention, it is desired to remove the pressure due to the compressed air in the pipe between the separator and the air dryer so as to prevent the degradation of the regeneration efficiency due to the back pressure.

First, the storage state of the compressed air stored in the air tank is checked to determine whether the compressed air in the air tank is filled with a certain amount or more to increase the pressure.

Here, if the compressed air in the air tank is full, the regeneration of the air dryer is performed. At this time, the solenoid valve of the air dryer is adjusted so that the compressed air is delivered to the separator side, so that the separator is discharged to discharge the accumulated foreign substances to the outside and also to discharge the compressed air in the pipe.

As described above, the compressed air in the pipe is discharged through the discharging operation of the separator before the regenerating operation of the air dryer is performed to reduce the back pressure in the pipe, thereby preventing the regeneration efficiency from being lowered due to the back pressure in the pipe.

In addition, a cleaning effect for cleaning and discharging the foreign matter accumulated in the separator is generated, so that the durability of the separator can be secured and the compressed air can be prevented from being contaminated by the foreign material of the separator.

As described above, the pressure checking step (S300) of checking whether the pressure in the pipe is equal to or lower than the reference pressure if the compressed air in the pipe is discharged through the discharging operation of the separator and the pressure is lowered. Through this, the regeneration step (S400) is performed when the pressure in the pipe is equal to or lower than the reference pressure. Here, the reference pressure in the pipe may be 0.3 bar and may be variously set according to the specifications of the vehicle and the apparatus to which it is applied.

However, when the reference pressure is set too low, the compressed air in the pipe is excessively discharged, and the compressed air must be regenerated by excessive discharge. If the reference pressure is set too high, the pressure of the compressed air remaining in the pipe Efficient regeneration can not be achieved.

Therefore, the optimum reference pressure must be set in consideration of various conditions such as the specifications of the pipe and the specifications of the compressor.

When the pressure in the pipe gradually decreases to reach the reference pressure through the discharging operation of the separator, it is judged that the conditions for performing the regeneration of the air dryer have been established, so that the compressed air is supplied to the separator by adjusting the solenoid valve of the air dryer (S400) for performing regeneration of the air dryer by allowing compressed air to be delivered to the air compressor side.

In this way, when the pressure in the pipe is sufficiently lowered and the back pressure is removed, the solenoid valve of the air dryer is adjusted to stop supply of compressed air to the separator side, thereby stopping the discharge operation of the separator. At the same time, as the solenoid valve is regulated, compressed air is delivered to the air compressor side so that the compressed air generated by the air compressor moves to the air dryer side so that the air dryer can be regenerated.

Here, the regeneration of the air dryer in the regeneration step (S400) uses the compressed air generated by the air compressor and the compressed air supplied from the air tank to clean the foreign matter of the air dryer and discharge it. In this manner, the foreign substances accumulated in the cartridge in the air dryer are cleaned and discharged to the outside, whereby the compressed air can be prevented from being contaminated by foreign matter, and the durability of the cartridge can be secured.

As described above, when compressed air is charged in a predetermined amount or more in the air tank to regenerate the air dryer, the solenoid valve of the air dryer is adjusted to discharge the compressed air in the pipe, thereby reducing the back pressure .

Thus, when the back pressure in the pipe is reduced, the solenoid valve of the air dryer is regulated to stop the discharge operation of the separator and to operate the air compressor. This makes it possible to regenerate the compressed air generated by the air compressor at a minimum required amount by increasing the regeneration efficiency of the air dryer by eliminating the obstruction of movement due to the back pressure caused by the back pressure of the compressed air generated in the air compressor.

That is, the regeneration efficiency can be improved by eliminating the obstruction of the regeneration by the high pressure of the pipeline through which the compressed air flows during the regeneration of the air dryer.

In this manner, by removing the pressure in the pipe caused by the compressed air, which is an element that disturbs reproduction, the operation load of the air compressor can be reduced by performing the regeneration with less compressed air, thereby improving the fuel consumption.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: air compressor 200: separator
300: air dryer 400: air tank
S100: check step S200: pressure control step
S300: pressure check step S400: regeneration step

Claims (5)

A check step of measuring a pressure of compressed air stored in the air tank;
When the pressure of the air tank is excessive, the solenoid valve of the air dryer is adjusted so that the compressed air is delivered to the separator side, so that the separator is discharged and the foreign substances in the separator and the compressed air in the pipe are discharged, ; And
And a regeneration step of regenerating the air dryer by controlling the solenoid valve of the air dryer when the pressure in the pipe is reduced so that compressed air is prevented from being supplied to the separator side and compressed air is delivered to the air compressor side,
Wherein the pressure regulating step further includes a pressure checking step of checking whether the pressure in the pipe is equal to or lower than a reference pressure, and performing a regeneration step when the pressure in the pipe is equal to or lower than a reference pressure. The method according to claim 1,
Wherein the pipe is a passage from the separator to the air dryer and through which the compressed air flows. delete The method according to claim 1,
Wherein the compressed air supplied as the solenoid valve of the air dryer is adjusted is delivered to the three-way valve, and the three-way valve is operated by the purge pressure so that the compressed air is selectively supplied to the separator or the air compressor. How to regenerate the dryer. The method according to claim 1,
Wherein the regenerating step uses the compressed air generated by the air compressor and the compressed air supplied from the air tank to clean foreign matter of the air dryer and discharge the foreign matter.

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