KR20080000764U - Clean Oil System - Google Patents

Abstract

 The present invention relates to a clean pollution system, wherein an oil tank in which air and oil coexist from a separate tank for allowing air to be constantly inhaled, and an oil remaining in an oil having a fan installed at an upper portion of the oil tank to introduce external air. The oil cleaning system for removing impurities, characterized in that consisting of a water cooling unit connected to the upper portion of the separate tank, a cooling unit connected to the fan and a cooling unit consisting of the water cooling unit and the strong cooling unit. This oil cleaning system aims to improve the cleanliness and life of oil by removing air pollution and moisture, and to prevent lubrication and oil condensation inside and inside the oil tank.

Water Cooling Unit, Cold Cooling Unit, Compressor, Outdoor Unit, Oil Tank

Description

Oil Clean System {Clean Oil System}

        1 is a block diagram of a conventional oil cleaning system.

 2 is a block diagram of an oil cleaning system according to the present invention.

 Description of the main parts of the drawing

10: separate tank

15: oil tank 20: pan

30: water cooling part 40: strong cooling part

50: outdoor unit 60: cooling unit

80: refrigerant compressor 85: oil pump

90: drain valve 100: thermometer

        The present invention relates to an oil cleaning system that circulates oil for the purpose of smooth operation of various equipments and lubrication of the driving unit and the rotating body by circulating the oil.

  An oil tank is a container for lubricating equipment that can store fuel or lubricating oil required to operate a machine at various industrial work sites. This function of the oil tank is naturally the inflow of external air in the process of storing the oil to purify the oil.

   However, in the existing oil cleaning system, as shown in FIG. 1, the air is directly introduced in an air ventilation method in which a fan 20 is installed to allow air to flow into an upper portion of the oil tank 15. . In this process, the outside air (Air) is directly introduced to the oil is easily contaminated, there is a problem that the water content is increased by increasing the moisture content.

   Therefore, the air introduced through the separate tank 10 contains a large amount of oil to be introduced into the oil tank 15. Since the air contains impurities such as contaminated air and water mixed with oil, contamination is caused. And useless moisture, which is contaminated to shorten the life of the oil, as well as to remove various harmful substances by the oil filter inside the oil tank, thereby shortening the life of the oil filter. To be. Therefore, there has been a disadvantage of causing frequent replacement of the filter.

   In addition, since a large amount of impurities, etc. are accumulated in the oil tank to hinder the flow of air, there was also a problem of lowering the overall performance.

Accordingly, the oil circulation system according to the present invention blocks external air to improve these problems, and installs a heat exchanger using a liquid as a primary and a refrigerant as a secondary to remove pollutants and moisture in the circulating air, thereby improving the cleanliness of the oil. And the purpose of contributing to the extension of lifespan and to prevent smooth lubrication and condensation in the oil tank and in the pipe due to the decrease of water content in the used oil.

In addition, the present invention is to double the foreign matter such as moisture to be removed, to improve the cleanliness and to maintain the safety of the oil circulation system as a whole is also an object.

In addition, the purpose is to extend the life of the oil and oil filter.

        The present invention cuts the outside air in consideration of the above problems, and installs a heat exchanger using a refrigerant by connecting a liquid as a primary and an outdoor unit as a secondary to remove contaminants and moisture in the circulating air to improve the cleanliness of the oil and In order to prolong the life and circulate the oil used, it is characterized by smooth lubrication due to the reduction of water and prevention of condensation in the oil tank and in the pipe.

       In other words, refrain from simply connecting the existing air to the oil tank and forming a cold and water cooling unit to install a mechanism that can pass heat through the air to achieve heat exchange using water and refrigerant. It is to prevent the condensation inside the oil tank due to the removal of pollution and water, the improvement of the oil quality, the extension of the oil tank life, and the smooth lubrication of the oil by removing the water. In addition, the purpose is to prevent the oil is contaminated with foreign substances due to moisture to shorten the life of the oil.

       In order to achieve this purpose, the present invention provides an oil tank in which air and oil coexist from a separate tank allowing air to be constantly inhaled, and impurities remaining in oil having a fan installed at the top of the oil tank to circulate internal air. In the oil cleaning system for removing the water, the water cooling unit is connected to the upper portion of the separate tank, the cooling unit is connected to the fan and the cooling unit consisting of the water cooling unit and the cooling unit.

     In addition, the water cooling unit is characterized in that the heat exchange using water as the refrigerant.

The cooler may be in communication with an outdoor unit formed outside, and a coolant compressor may be formed between the cooler and the outdoor unit to perform heat exchange using the coolant gas recovered from the coolant compressor.

        Furthermore, the oil tank is characterized in that the oil compressor is formed on the side.

        Other objects, specific advantages, and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

 Figure 2 is a schematic diagram showing the configuration of an oil cleaning system according to an embodiment of the present invention. Referring to FIG. 2, the air reaches the cooling unit 60, and the water cooling unit 30 and the strong cooling unit 40 accommodated in the cooling unit 60 are connected in series to each other. It is to be introduced into the oil tank (15) through the (10), and to repeat this process continuously.

In addition, since the outdoor unit 50 is generally not operated in the winter season, the outdoor unit 50 is operated only by the water cooling unit 30 without the cooling unit 40, and is operated by simultaneous cooling of the cooling unit 40 and the water cooling unit 30 in the summer season. It is.

And, in order to achieve the maximum cooling effect of the present oil cleaning system, the oil to be used, that is, the appropriate temperature of the oil used is preferably 40 ° to 60 °.

Then, the operation of the present invention will be described in detail.

Referring to Figure 2 describes the operating state according to the present invention, first, the air is sucked by the air pumping action, such that the air sucked through the fan 20, the cold-cooled portion 40 is connected And reaches the cooling unit 60 in which the water cooling unit 30 is formed. Then, the outdoor unit 50 reaches the cold-cooling part 40 to which the outdoor unit 50 is connected and installed, and the cooler 40 becomes a coolant by the strong cold-cooling part 40 having very cold air.

In detail, the refrigerant is compressed by the refrigerant compressor 80 installed between the strong cooling unit 40 and the outdoor unit 50, and the refrigerant gas, which has become high temperature and high pressure, is condensed and liquefied in the outdoor unit 50 according to the compression. The low pressure liquefied refrigerant absorbs heat from the indoor air in the outdoor unit 50 and evaporates to form air. Therefore, the heat exchange method is performed by the refrigerant to be cooled.

 The cold air passing through the cold portion 40 passes through the water cooling portion 30. As a natural rule, the heat flows from a high place to a low place, so that the liquid stored in the water cooling unit 30 has a slightly lower temperature. In addition, the air also absorbs heat, which results in a somewhat higher temperature. Therefore, the water in the water cooling unit 30 is gasified to partially evaporate, and the air is also in a state where moisture is removed. In other words, since the relative humidity is increased, the molecules of water are transformed into water vapor and spread due to evaporation. Therefore, the heat exchange method due to the liquid in the water cooling unit 30 is made. Naturally, the air passing through the water cooling unit 30 is changed to a state in which water is removed.

Refrigerant, liquid, and the like accumulated while the air passes through the cooling unit 40 and the water cooling unit 30 are guided to an outlet (not shown) inside the cooling unit 30 and the water cooling unit 40. The refrigerant, outdoor unit gas, liquid, etc. collected in the air are discharged to the outside by opening the drain valve 90 installed at the lower end of the cooling unit 60 when a predetermined amount is filled.

In other words, the air passing through the strong cooling unit 40 and the water cooling unit 30 is changed to very clean air in which impurities such as outdoor unit gas and moisture are removed.

Therefore, the clean air is introduced into the upper portion of the oil tank 15 through the separate tank 10, the air cleaned in the oil tank 15 is harmless to the oil inside the oil tank 15 Air that is free of contamination, with the removal of impurities and moisture, which continues to maintain the generation of very pure clean oils that are contaminated and contain no moisture.

In addition, in the oil cleaning system according to the present invention, as the air circulates through the cooling unit 40 and the water cooling unit 30, the water is circulated again and again. You have a very good feature that makes this happen.

Furthermore, since the impurities and water are almost completely removed due to the continuous repetitive circulation of the system, even in the oil inside the oil tank 15, the smooth lubrication operation and the life of the filter can be extended.

Therefore, it does not cause air pollution by utilizing air energy, which can contribute to energy saving and environmental protection.

Therefore, the present invention effectively removes impurities and water by continuously circulating air, thereby making it easier to protect various devices of the oil circulation system, while preventing oil condensation inside the oil tank and improving the lubrication and operability. The result is an oil cleaning system that can perform very well.

The oil circulation system according to the present invention can lower the humidity of the air to promote the drying of moisture in the oil, thereby producing a clean oil to suppress the formation of condensation in the pipe, and the air flows into the cooling part to remove the vaporized water. In addition, since the cooling effect of the oil temperature can be expected, condensation can be prevented inside and inside the oil tank, and foreign substances can be prevented from being blocked due to the blocking of water, thereby reducing turbidity and improving cleanliness. Due to the oil is prevented from shortening the oil life due to contamination, as a result there is an excellent effect that can extend the life of the oil and oil filter.

Claims (5)

         The oil tank 15 in which air and oil coexist from the separate tank 10 to allow air to be sucked constantly, and the oil in which the fan 20 is installed at the upper portion of the oil tank 15 to allow air to enter. In the oil cleaning system for removing the remaining impurities, the water cooling unit 30 is connected to the upper portion of the separate tank 10, the strong cooling unit 40 is connected to the fan 20, and the water cooling unit 30 And a cooling unit (60) consisting of the strong cooling unit (40).          The oil cleaning system according to claim 1, wherein the water cooling unit (30) is heat exchanged using water as a refrigerant.   According to claim 1, wherein the cooling unit 40 is in communication with the outdoor unit 50 formed on the outside, a refrigerant compressor 80 is formed between the cooling unit 40 and the outdoor unit 50, the refrigerant compressor Oil cleaning system, characterized in that the heat exchange using the refrigerant gas recovered from (80).         Oil cleaning system according to claim 1, characterized in that the oil tank (15) has an oil pump (85) formed on its side.         The oil cleaning system according to any one of claims 1 to 4, wherein an appropriate temperature of the used oil is 40 to 60 degrees.

Images