KR101734322B1 - Energy saving multi-stage compressor system by using a separation device of water and oil - Google Patents

Abstract

The present invention relates to an energy-saving multi-stage compressor system using a running water separation apparatus and, more specifically, to a method of operating a compressor through a coupling connected to a shaft through which a rotational force of an electric motor is transmitted. The present invention includes a water detection sensor, an oil flow plate, a secondary separation tank, an oil cooler, and a multi-stage compressor. The object of the present invention is to solve a problem of energy waste due to the compression efficiency, durability of the compressor and the shortening of the life time of the oil because the oil contains water in the oil circulation process inside the compressor.

Description

[0001] The present invention relates to an energy saving multi-stage compressor system using a water separator,

[0001] The present invention relates to an energy saving multi-stage compressor system using an oil water separator, and more particularly, to a system in which a compressor is operated through a coupling connected to a shaft to which a rotational force of an electric motor is transmitted, And the air / oil mixture discharged from the upper multi-stage compressor flows into the air / oil tank along the line, so that the air / oil is discharged from the compressor When separated air is separated from the upper air / oil tank, the separated air is supplied to the lower part of the tank due to the difference in specific gravity. And the oil is discharged by pressure through the primary oil drain pipe and through the upper primary oil drain pipe The oil is cooled in the oil cooler and the cooled oil is distributed to the first stage of the compressor through the oil supply pipe and the upper air / oil The oil discharged from the tank through the second oil discharge pipe is decompressed in the pressure reducing device, and then flows into the oil water separator. In the oil water separator, water and oil are separated using the difference in specific gravity between water and oil in the primary separation tank , The sensor installed at the interface between water and oil, the solenoid valve of the electronic trap operates to discharge the water to the bottom of the tank. When the water is above the predetermined amount, The oil is supplied to the inside of the oil flow plate through the upper oil filter to remove impurities, The water is moved to the inside of the secondary separation tank through the pipe and the secondary separation is performed using the difference in specific gravity between water and oil in the upper secondary separation tank. When the separated water is more than the proper amount, the solenoid valve And the oil separated from the upper secondary separation tank flows into the oil cooler through the check valve and the oil cooled in the upper oil cooler is supplied to the first stage of the compressor. The use of the removed oil greatly improves the durability of the compressor and can increase the compression efficiency and productivity through the production of stable pressure. As the oil and the water are completely separated, the use life of the oil is greatly increased, And more particularly to an energy saving type multi-stage compressor system using a water separator.

Generally, an air compressor sucks air in the air and compresses it to a high pressure, and then supplies compressed air to an industrial site, and the temperature rises in the course of air compression.

On the other hand, the oil-feeding type air compressor supplies the oil to the compressor to prevent the excessive temperature rise, to facilitate the production of the compressed air, and to install the separator in order to separate the air and oil mixed in the compression process The compressed air and oil are separated and the separated compressed air is transferred to the storage tank installed outside the compressor and supplied to the industrial site.

At this time, the separated oil is stored in the separating device, and the temperature of the stored oil is transferred to a heat exchanger (COOLER) through pipes separately provided outside the separator as a high temperature. In the heat exchanger, And cooled.

Then, the oil thus cooled is again supplied to the air compressor to perform lubrication again.

Conventional separator tank type is generally used. When mixed compressed air and oil produced in the air compressor are injected into the separator tank, some oil is collected on the inner wall of the separator tank after passing through the installed drum The oil is stored in the water collecting tank inside the separating apparatus, and some oil is filtered while passing through the filter, and a large amount of oil is stored in the water collecting tank inside the separating apparatus.

At this time, the oil is not completely filtered from the wall of the separator tank and the filter, and the compressed air is used in a mixed state with the oil. Therefore, when compressed air with completely filtered oil is required, a separate oil separator is required.

The above content is a series of cycles and is repeated continuously.

Therefore, in the conventional compressor, there is no process of separating oil and water, and oil having a considerable moisture content is circulated and used. As a result, the lubricating and cooling characteristics of the compressor are deteriorated and oil is used. The flow rate of air supplied to the site can be reduced.

Further, oxidation of the oil is accelerated, resulting in deterioration of the durability of the machine, which is a cause of machine failure.

Korean Patent No. 10-1253086

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to solve the problem of energy waste due to the compression efficiency and durability of the compressor, There is a purpose.

In order to achieve the above object, the present invention provides an energy saving multi-stage compressor system using a water separator configured to separate oil and water by constituting a compressor system in which a water separator is separately provided at a downstream end of a conventional air / .

The present invention provides an energy saving type multi-stage pressure regulator system which improves the performance of existing compressors by increasing the oil life and machine durability by providing a separate oil separator in the oil circulation line inside the machine, The productivity can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a working process schematically showing a state in which a recessed portion of the present invention is operated. Fig.
2 is a cross-sectional view showing an assembled state of a water separator, which is a main part of the present invention.
3 is a cross-sectional view of a state in which the essential part of the present invention is extracted and enlarged.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

Throughout the specification, when a component comprises a component, it is understood that it may include other components, not control of the other component, unless specifically stated otherwise.

1 and 2, the air / oil discharged through the multi-stage compressors 2 and 3, which receive the rotational force of the motor 1, is introduced into the air / oil tank 6, The oil is submerged in the lower portion of the air / oil tank 6 due to the specific gravity difference and the oil is discharged through the plurality of oil discharge pipes 7 and 7 '.

Here, the impurities are removed from the oil discharge pipe 7 through the oil filter 8, so that only the clean oil flows into the oil cooler 22, and the cooled oil flows through the oil supply pipe 7 into the first and second compressors 2) < / RTI > (3).

Here, the oil discharged through another oil discharge pipe 7 'is reduced in pressure in the pressure reducer 9, and then flows into the oil water separator 25.

On the other hand, in the oil-water separator 25, water and oil are separated using the difference in specific gravity between water and oil in the primary separation tank 10, and water and oil are separated from each other by water The solenoid valve of the solenoid valve 12 operates to discharge the water to the bottom of the tank 10.

The separated oil is supplied to the oil flow plate 15 through the oil flow pipe 13 by using the oil pump 14.

Here, the oil is removed into the secondary separation tank 18 through the oil flow pipe 17 after removing impurities through the upper oil filter 16.

The solenoid valve of the solenoid valve 20 is separated by the water detection sensor 19 when the separated water is more than the proper amount, And the water is discharged by operating.

The oil separated from the water in the secondary separation tank 18 passes through the check valve 21 and flows into the oil cooler 22. The oil cooled in the oil cooler 22 is supplied to the first- (2) and (3).

That is, as the oil in which moisture is completely removed is supplied to the first and second stages (2) and (3) of the compressor, the durability of the compressor is greatly improved and the compression efficiency of the compressor can be increased according to the use of high quality oil. The entire life of the oil can be greatly increased.

The surface of the oil flow pipe 13 provided in the primary separation tank 10 of the oil water separator 25 is formed with a rudder 26 and prevents foreign matter from flowing into the front rim of the upper rudder 26 The hooking net 27 is formed.

Therefore, the foreign matter contained in the oil flowing into the primary separation tank 10 is blocked by the rudder 26 and the retaining net 27, and then the foreign oil is introduced into the oil flow plate 15 .

As described above, according to the present invention, after the air / oil discharged through the multi-stage compressors (2) and (3) that receive the rotational force of the motor (1) is introduced into the air / oil tank (6) / Oil tank 6, and the oil is discharged through the plurality of oil discharge pipes 7 and 7 '.

The upper oil discharge pipe 7 is filled with clean oil only through the oil filter 8 through the oil filter 8 and the cooled oil flows through the oil supply pipe 23 into the multi- 2).

Further, the oil discharged through the other oil discharge pipe 7 'is decompressed in the pressure reducer 9, and then flows into the oil water separator 25.

The upper oil-water separator 25 separates water and oil using the difference in specific gravity between water and oil in the primary separation tank 10 and then operates the solenoid valve of the solenoid valve 12 when the water is more than the proper amount, A water sensor 11 for discharging water,

An oil flow plate 15 for ensuring a sufficient oil flow to utilize the difference in specific gravity between the oil and the water moving up through the oil flow pipe 13 by the operation of the oil pump 14,

The oil that has passed through the upper oil flow plate 15 flows into the secondary separation tank 18 which is adjusted through the oil flow pipe 17 after the impurities are removed through the oil filter 16,

The secondary separation tank 18 is secondarily separated using the difference in specific gravity between water and oil. When the separated water is more than the proper amount, the solenoid valve of the solenoid valve 20 is operated by the water detection sensor 19 The oil from which the water is discharged and the water is separated from the upper secondary separation tank 18 flows through the oil cooler 22 for cooling while passing through the check valve 21,

The oil that has been cooled in the oil cooler 22 is supplied to the multi-stage compressors 2 and 3, and the oil in which the moisture is completely removed is supplied to the multi-stage compressors 2 and 3, And the use of high quality oil can increase the compression efficiency of the compressor and greatly improve the service life of the oil as the oil and the water are completely separated.

As described above, the present invention provides an energy-saving multi-stage compressor system capable of reducing power consumption, thereby reducing the operation efficiency of the air compressor caused by continuous operation load on the air compressor when compressed air is not used in the field. , Increase of power ratio, shortening of life span of the device, and decrease of productivity, so that the operation efficiency of the device can be increased, the service life can be prolonged, the power cost can be reduced, and the cost can be reduced by improving the productivity.

Therefore, it has the effect of saving hundreds of billions of won of energy per year.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents are to be construed as being included in the scope of the present invention.

1. Motor 2. Single stage compressor
3. Two-stage compressor 4. Minimum regulator valve
5. Minimal presser valve 6. Air / oil tank
7. Oil discharge pipe 7 '. Oil discharge pipe
8. Oil filter 9. Decompressor
10. Primary separation tank 11. Water sensor
12. Solenoid valve 13. Oil flow pipe
14. Oil pump 15. Oil flow plate
16. Oil filter 17. Oil flow pipe
18. Secondary separation tank 19. Water sensor
20. Solenoid Valve 21. Check Valve
22. Oil cooler 23. Oil supply pipe
24. Aftercooler 25. Oil separator
26. Other 27. Hanging Network

Claims (3)

The air / oil discharged through the multi-stage compressors 2 and 3, which receive the rotational force of the motor 1, flows into the air / oil tank 6 and the oil is discharged from the air / oil tank 6 due to the difference in specific gravity, And the oil is discharged through the plurality of oil discharge pipes 7 and 7 '
The upper oil discharge pipe 7 removes impurities through the oil filter 8 to introduce clean oil into the oil cooler 22 and the cooled oil is supplied to the multi-stage compressor 2 3), and,
The oil discharged through the other oil discharge pipe 7 'may be depressurized by the pressure reducer 9 and then introduced into the oil water separator 25,
The upper oil-water separator 25 separates water and oil using the difference in specific gravity between water and oil in the primary separation tank 10 and then operates the solenoid valve of the solenoid valve 12 when the water is more than the proper amount, A water sensor 11 for discharging water,
An oil flow plate 15 for ensuring a sufficient oil flow to utilize the difference in specific gravity between the oil and the water moving up through the oil flow pipe 13 by the operation of the oil pump 14,
The oil that has passed through the upper oil flow plate 15 is removed from the secondary separation tank 18 through the oil flow pipe 17 after the impurities have been removed through the oil filter 16,
The secondary separation tank 18 is secondarily separated using the difference in specific gravity between water and oil. When the separated water is more than the proper amount, the solenoid valve of the solenoid valve 20 is operated by the water detection sensor 19 An oil cooler 22 for discharging the water and separating the water from the upper secondary separation tank 18 through the check valve 21,
And the oil cooled in the oil cooler (22) is completely removed from the water and supplied to the multi-stage compressors (2) and (3). delete The method according to claim 1,
A rudder 26 is formed on the surface of the oil flow pipe 13 fixed to the inside of the primary separation tank 10 formed in the upper oil water separator 25 and the inflow of foreign matter into the front rim of the upper rudder 26 A blocking net 27 is formed,
The foreign matter contained in the oil flowing into the primary separating tank 10 is blocked by the rudder 26 and the retaining net 27 and then the foreign oil is supplied into the oil flow plate 15 Wherein the energy saving type multi-stage compressor system comprises a water separator.

Images