KR200476107Y1 - Waste oil Filtration system - Google Patents

Abstract

The present invention relates to a filtration apparatus for lubricating oil (lubricating oil, grease, waste lubricating oil, etc.), which comprises a housing 1 having a discharge portion 101 formed on one side thereof and an injection portion 201 disposed in a direction opposite to the discharge portion 101 A cover 2 which is formed between the housing 1 and the cover 2 and forms a flange connection with the housing 1 and filters the foreign matter contained in the lubricant which is injected through the injection part 201, And a perforated plate 4 for dispersing the pressurizing pressure of the lubricant forcibly injected through the injecting unit 201. The filter 4 effectively filters various foreign substances contained in the lubricant, It is possible to prevent the filter from being damaged and to prolong the service life thereof, and to facilitate the cleaning and reuse of the filter.

Description

[0001] Waste oil filtration system [0002]

The present invention relates to a lubricant filtration device, and more particularly, to a lubricant filtration device that effectively filters various foreign substances contained in a lubricant, grease, waste lubricating oil, and the like, and prevents damage to a filter that filters foreign matter, To a lubricant filtering apparatus.

Lubricants (lubricating oil, grease, etc.) widely used in the industrial field are oily substances which are used to reduce the frictional force generated on the friction surfaces of various mechanical devices or to disperse the frictional heat generated from the friction surfaces, And animal and vegetable oils, synthetic oils, and blended oils mixed with mineral oils.

These lubricants have many kinds of lubricating elements, and many kinds of lubricating agents are used because they have many operating conditions. Lubricants are basically necessary properties such as ① viscosity suitable for use temperature (Viscosity is high), (2) the property that the viscosity does not change suddenly even when the use temperature is changed (the viscosity index is large), (2) the property of forming a stable oil film even in the boundary lubrication condition And stability against oxidation is high.

For example, in the case of a petroleum-based lubricating oil production method which is used in the largest amount, hydrocarbons having a boiling point of about 300 to 600 DEG C are used as a low viscosity lubricating oil raw material. That is to say, a heavy oil which is obtained by distillation under reduced pressure from a distillate having a boiling point slightly higher than that of diesel fuel obtained by atmospheric distillation of crude oil, and a residue obtained by separating lead from a distillate oil for debinding, It is.

Compounds such as sulfur, oxygen, and nitrogen, or a small amount of heavy metal compounds, are used as lubricants in these feed oils to corrode the metal friction surfaces and quickly degrade the lubricating oil itself. Therefore, various refining methods . The general purification method is sulfuric acid cleaning and white soil treatment. The raw oil is brought into contact with sulfuric acid to remove impurities present in the form of unsaturated or resinous substance as a sulfuric acid pitch. On the other hand, the oil is cleaned of sulfuric acid remaining in hot water and is brought into contact with the activated clay at 100 to 250 캜 as a finish. White clay absorbs water, coloring matter, resinous material, asphalt, etc., remaining in oil. In this method, since there are many parts lost by bonding with sulfur, recently, a small amount of hydrogen was added instead (hydrogenation treatment) to remove impurities.

Since the high viscous lubricant can not be used as the raw oil from the previous distillation column, it is necessary to extract asphalt or heavy metal compounds from the distillation residue from the vacuum distillation column. As the solvent, liquefied propane is widely used because it selectively dissolves these impurities. In addition, a high-level refining process has been carried out to produce high-quality lubricating oil from low viscosity to high viscosity. Representative examples include a method of extracting and removing naphthenic and aromatic hydrocarbons with furfural to improve the viscosity index and stability. And a degassing method which removes the amount of lead contained in the lubricating oil made from paraffinic base oil to lower the fluidizing point. It is common to add a small amount of additive to lubricating oil to make a lubricating oil with high properties that can not be obtained only with petroleum mineral oil. Depending on the application, the life of the lubricant may be increased several times.

Lubricants can be listed according to their application in the order of lower viscosity. They can be listed in the order of lower viscosity, for precision machine oils (for watches and instruments), spindle oil (for spindles used in spinning machines of spinning machines), dynasties (pumps (not shown) (Also called mobilu for automobile engine lubrication), aviation lubricant (for aircraft piston engine), diesel (for engine), turbine oil (for steam turbine), compressor oil (for cylinder of gas compressor) Engine oil (high-speed high-speed diesel engine, high ignition point for gas engine), marine engine oil (high viscous lubricant that can withstand the high load of marine engine that oil may enter), axle oil , And cylinder oil (the highest viscosity for internal use in steam engines). In addition, there are dipping oil, metal cutting oil, metal anti-rust oil, and transformer oil in steel.

Among the various types of lubricants described above, spindle oil, machine oil, turbine oil and the like are usually used in a large amount, and since the basic properties of the lubricating oil do not disappear by a single use, only various kinds of foreign substances contained in the lubricating oil are filtered Generally, it is reused.

Therefore, it is common that a mechanical device using lubricating oil as described above is provided with a filtering device for reusing the lubricating oil by filtering the foreign substances contained in the lubricating oil after use. The most typical example is a 'oil filter filter '.

That is, in general, a lubricating oil filtering device installed in a mechanical device includes an injection part formed at one side of a housing to inject lubricating oil at a predetermined pressure, a filtering part installed inside the housing for filtering lubricating oil injected through the injecting part, And the discharge portion formed on the other side of the housing and through which the lubricating oil filtered by the filtration means is discharged, whereby the lubricating oil is repeatedly filtered and reused.

On the other hand, in the case of lubricants (waste lubricating oil, waste grease, etc.) in which a large amount of foreign substances are contained for a long period of time or viscosity is lost and the lubricating function is lost, they are separately collected and purified to be used as regenerated lubricant or base oil for producing grease.

In order to regenerate the lubricant, a filter is firstly used to filter various foreign substances contained in the lubricant, and then only the oil necessary for purification is purified by a distillation process or the like. The filtration device used at this time also has a structure similar to that of the oil filter It is common.

Patent Registration No. 10-0237740 Patent Registration No. 10-1131225

In a conventional lubricant filtration apparatus for filtering various kinds of foreign matters contained in a lubricant (lubricating oil, grease, waste lubricating oil, etc.), a fine fibrous filter or a paper filter is mainly used as a filtration means for filtering foreign matters. Is not only difficult to effectively filter a large amount of impurities but also has a very short service life and is difficult to be replaced solely by the filtration means, so that the entire lubricant filtration device must be replaced every certain period, thereby causing a great economic burden.

In order to solve the problems of the conventional lubricant filtration apparatus, a lubricant filtration apparatus has been recently developed which can replace only the filtration means. However, in the case of the lubricant filtration apparatus capable of exchanging only the filtration means, , There is a problem in that the manufacturing cost is high, and a complicated structure takes a long time to exchange the filtration means, and there is a problem in that the cost is also inevitable due to the exchange of the filtration means.

The lubricant (lubricating oil, grease, waste lubricating oil, etc.) filtration apparatus of the present invention is designed to solve the above-mentioned problems of the related art, and has a funnel shape and has a discharge part 101 formed on one side thereof, A flange portion 102 is formed in the flange portion 102 and a recessed groove portion 103 is formed in the flange portion 102. O-rings 106 and 107 are provided on inner side surfaces of the flange portion 102 and the recessed groove portion 103, A housing (1) in which mounting grooves (104, 105) are formed; A flange part 102 is formed on the other side of the injection part 201 so as to abut the flange part 102 of the housing 1 to form a bolt nut coupling A coupling protrusion 203 to be inserted into the recessed groove 103 of the housing 1 is formed on the inner surface of the flange portion 102 and a plurality of female threaded portions 204 are formed on the flange portion 102, A cover (2) screwed with a tension bolt (205) to penetrate through the supporting portion (102); A filter 3 disposed inside the recessed groove 103 of the housing 1 to filter foreign substances contained in the lubricant injected through the injection unit 201; And a perforated plate (4) provided between the filter (3) and the engaging protrusion (203) of the cover (2) and tightly attached to the filter (3) by the tension bolt It is possible to effectively prevent the foreign substances from being damaged and prevent the foreign substances from being damaged, thereby prolonging the service life and facilitating the cleaning and reuse of the filter.

As described above, the lubricant (lubricating oil, grease, waste lubricating oil, etc.) filtration device of the present invention effectively removes the foreign substances contained in the lubricant to enable recycling of the lubricant and disperses the pressurization pressure of the lubricant, It is possible to greatly extend the useful life of the filter for filtering the foreign matter and to easily separate and clean the filter for filtering the foreign matter and to reduce the cost of replacing the filter.

1 is a perspective view of an embodiment of a lubricant filtration system of the present invention.
2 is an exploded perspective view of an embodiment of a lubricant filtration apparatus according to the present invention.
3 is a side cross-sectional view of an embodiment of the lubricant filtration apparatus of the present invention.

Hereinafter, the structure and operation of a lubricant (lubricating oil, grease, waste lubricating oil, etc.) according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

The lubricant filtering apparatus according to the present invention comprises a housing 1 having a discharge portion 101 formed on one side thereof and a discharge portion 101 formed in a direction opposite to the discharge portion 101, A filter 3 disposed between the housing 1 and the cover 2 to filter foreign substances contained in the lubricant forcibly injected through the injection unit 201; And a perforated plate 4 for dispersing the pressurizing pressure of the lubricant forcibly injected through the perforated plate 4.

The housing 1 has a flange portion 102 having a large number of through-holes 102a around a wide surface, and a flange portion 102 having a plurality of through- The discharge portion 101 is formed to protrude.

The flange portion 102 is provided with a recessed groove portion 103. The flange portion 102 and the recessed groove portion 103 are formed with O-ring mounting grooves 104 and 105 on the inner surfaces thereof, respectively, It is preferable that the discharge portions 106 and 107 are inserted into the O-ring installation grooves 104 and 105 and the discharge portion 101 is formed with a male screw portion on the outer circumferential surface so as to facilitate connection of piping and the like.

The cover 2, which is flange-coupled to the housing 1, has a funnel shape like the shape of the housing 1 and has an injection part 201 formed on one side and a plurality of through holes 202a on the other side. A flange portion 202 of the cover 2 is brought into contact with the flange portion 102 of the housing 1 to form through holes 102a and 202a provided in the flange portions 102 and 202 Are coupled to each other and then joined to the housing 1 using bolt nuts. The injection unit 201 may be provided with a male screw part on the outer circumferential surface so as to facilitate connection of piping and the like as in the case of the discharge part 101. The housing 1 is provided on the inner side surface of the flange part 202 of the cover 2. [ The coupling protrusion 203 is inserted into the recessed groove 103 when the housing 1 and the cover 2 are coupled to each other to form a rigid coupling.

A filter 3 provided between the housing 1 and the cover 2 for filtering foreign substances contained in the lubricant forcibly injected through the injection unit 201 by means of a pressurizing means such as a pump One side of which is in close contact with the O-ring 106 inserted into the O-ring installation groove 104 formed on the inner side surface of the recessed groove 103.

A mesh 301 made of stainless steel is formed at the center of the filter 3 and the mesh size of the mesh 301 is 5 to 400 μm and an appropriate eye size is selected according to the kind of the lubricant and the use environment It is preferable to form the vibrating mesh 301.

The perforated plate 4 which is provided between the housing 1 and the cover 2 and distributes the pressurizing pressure of the lubricant forcibly injected through the injection part 201 by means of a pump (not shown) The filter 3 is attached to the cover 2 by the tension bolt 205 which is provided between the coupling protrusions 203 of the cover 2 and screwed to the female threaded portion 204 of the flange portion 102 formed on the cover 2 . Therefore, it is possible to adjust the position of the perforated plate 4 which is tightly adhered to the filter 3 by loosening or tightening the tension bolt 205 according to the thickness of the filter 3.

As one example of the perforated plate 4, when the total diameter of the perforated plate 4 is 170 mm, the diameter of one hole 401 formed in the perforated plate 4 is 5 to 8 mm, The number of the holes 401 is preferably about 100 to about 150, but it is not limited thereto.

The operation of the lubricant filtration apparatus to which the present invention is applied will now be described with reference to the accompanying drawings.

3, the injection section 201 of the lubricant filtration apparatus of the present invention, in which the housing 1 and the cover 2 are flange-coupled with each other through the filter 3 and the porous plate 4, And the discharge portion 101 is connected to the filtered lubricant storage container by piping or the like.

Thus, when the lubricant is force-fed to the injection section 201 of the cover 2 by using a pump (not shown), the lubricant forced and pressure-fed by the pressure of the pump (not shown) Not only the pressure of the pressure to be fed is temporarily lowered but also the pressure of pressurization is dispersed in the process of passing the lubricant through the plurality of holes 401 formed in the perforated plate 4 by the pressure of the pressurizing force.

The lubricant, which is passed through the perforated plate (4) while the pressure of the pressure is dispersed, is filtered by the filter (3) during the passage of the lubricant through the filter (3) by pressure. The lubricant filtered by the filter 3 is discharged through the discharge portion 101 of the housing 1 and stored in a separate storage container connected to the discharge portion 101 by piping or the like and then recycled.

The filter (3) of the present invention can be reused after filtering the lubricant for a predetermined period of time. The filter (3) can be reused by using the housing (1) and the cover 2, the filter 3 interposed between the housing 1 and the cover 2 is taken out to remove various foreign matters filtered by the filter 3, and a special cleaner capable of effectively cleaning the waste synthetic oil component The filtration performance of the filtration apparatus can be maintained for a long period of time, and the cost of the filter 3 can be minimized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, 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.

1: housing 101:
102: flange portion 102a: through hole
103: recessed groove portion 104, 105: O-ring installation groove
106, 107: O-ring 2: Cover
201: injection part 202: flange part
202a: through hole 203:
204: female thread portion 205: tension bolt
3: Filter 301: Mash
4: perforated plate 401: hole

Claims (1)

A flange portion 102 is formed on the other side of the flange portion 102 so as to form a recessed groove portion 103 inside the flange portion 102. The flange portion 102 is formed in the shape of a funnel, A housing (1) having O-ring mounting grooves (104, 105) on which O-rings (106, 107) are installed;
A flange part 102 is formed on the other side of the injection part 201 so as to abut the flange part 102 of the housing 1 to form a bolt nut coupling A coupling protrusion 203 to be inserted into the recessed groove 103 of the housing 1 is formed on the inner surface of the flange portion 102 and a plurality of female threaded portions 204 are formed on the flange portion 102, A cover (2) screwed with a tension bolt (205) to penetrate through the supporting portion (102);
A filter 3 disposed inside the recessed groove 103 of the housing 1 to filter foreign substances contained in the lubricant (lubricating oil, grease, and waste lubricating oil) injected through the injection unit 201;
And a perforated plate (4) provided between the filter (3) and the coupling protrusion (203) of the cover (2) and tightly attached to the filter (3) by the tension bolt Device.

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