JPH1076113A - Production of circulation heating type oil filter and assembling/producting method of magnetic ejector device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To remove dust, metallic chips and microorganisms at the time of using oil without impairing components of oil and water by mixing a ceramic radiating far infrared ray with a ceramic coated with anti-bacterial copper silver for use as an oil filter media. SOLUTION: A circulating filter device using a ceramic radiating far infrared ray and the antibacterial ceramic as the oil filter media is provided. Dust or the metallic chips contained in cutting work is previously removed by a filter and the contamination of oil or water due to the microorganism is prevented by using the anti-bacterial ceramic (having copper and silver). Further, the far infrared ceramic is activated by giving heat energy to induce resonance phenomenon and bringing a cluster close to a normal condition. As a result, impurities are removed and the oxidation of oil or water is prevented. By the recirculation to a filter media, the anti-bacterial performance and far-infrared performance, which the filter media itself originally has, are satisfactorily exhibited and the filter media is used over a long term.

Description

DETAILED DESCRIPTION OF THE INVENTION

The present invention relates to how oil and water components are not impaired. Dust, metal fragments,
Microbial removal and antibacterial properties A sterilizing effect is obtained by using ceramics, and the sterilizing effect is further enhanced by raising the temperature of oil or water. In addition, silver ions at 0.05 liters (unit: mg / l) in the standard value of 10 liters in the United States waterworks law (unit: mg / l)
A copper ion having a value of not more than 1.0 and satisfying the numerical value that is considered to have no effect on the human body even in the sterilization effect is used.

[0002] This is an apparatus that uses a ceramic that emits far-infrared rays as an oil filter, and lowers the oxidation-reduction potential of oil water. By applying thermal energy to the far-infrared ceramics and causing a co-seismic phenomenon to bring the cluster closer to a normal state and activating it, removal of impurities is suppressed and suppression of oxidation of oil and water is suppressed, and both oil and water are heated by a heater. The generated thermal energy is received by the far-infrared ceramic, which emits energy in the electromagnetic wave range, and at the same time amplifies the inherent frequency at the time of emission, thereby activating the function of oil or water itself.

In the case of water, the temperature is changed from a normal temperature range of 4 ° C. or from an oil temperature of 40 ° C. to various oil combustion ignition points within a range in which oil or water flow is not hindered.

[0004] During the filtration circulation, the circulation path is continuously reprocessed in accordance with the viscosity of the oil so as to change the contact time and the flow rate with the filter medium. In addition, heat energy is always applied to the filter medium to promote the sterilization effect and the far-infrared effect.

[0005] After the heat treatment, the magnets are placed at the center and the opposite side to face each other and the same poles are opposed to each other to secure a magnetic field area, thereby stabilizing the state of being always connected. Jetting allows for the binding of ions and molecules in a magnetic field. This injection port also serves as a radiant cooler, and the heated oil or water emits thermal energy and slightly lowers the temperature.

[0006] Radiation-cooled oil or water is stored in a water storage tank and its thermal energy is newly injected from an inlet, and used at a normal temperature to increase the temperature of the oil. Or cooling the oil

TECHNICAL FIELD OF THE INVENTION

 Oil industry Oil processing industrial waste industry Water treatment and filtration industry

[0007]

2. Description of the Related Art Removal of impurities by a small-scale filter

[0008]

Until now, a large amount of oil was mixed with some impurities and a small amount of metal, and we had to ask a specific contractor to dispose of it. The long-term use and recycling of unobtainable oil prevents waste of precious resources and reduces the generation of harmful gases generated during oil disposal by incineration, which greatly destroys the natural environment.

[0009]

SUMMARY OF THE INVENTION According to the present invention, oil and water contamination by microorganisms is eliminated by using a filter to remove dust and metal fragments contained during cutting by using an antibacterial ceramic (containing copper and silver ions). Used to prevent. By applying thermal energy to the far-infrared ceramics to cause co-seismic phenomena and bringing the clusters closer to the normal state and activating them, impurities are removed and oxidation of oil and water is prevented. Oil or oil pressurized in a magnetic field by spraying water in the form of a mist to assist in the bonding of ions and molecules,
Enables long-term use of water.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION

Improve filtration, washing, activation and durability of various oils Implement advantageous use methods by removing harmful substances and improving lubricity

[0011]

[Example] Reduction of soot and smoke treatment at a major factory by washing and filtering after cutting of thread cutting oil.

[0012]

[Example] Washing, filtering and reducing odor of vegetable edible oil

[0013]

[Example] Washing filtration of mixed oil for water use

[0014]

[Example] Filtration of water

[0015]

[Example] Reducing costs by recycling various factories mainly using metal cutting industry using cutting oil

[0016]

[Embodiment] Separation of oil, metal fragments and dust at various factories mainly in the metal processing industry using cutting oil becomes possible.

[0017]

The temperature of the oil or water to be filtered is increased by injecting water or water from the inlet until the oil or water reaches the filter.

The filter removes dust from the dust metal pieces to a certain extent, and the antibacterial ceramic suppresses microorganisms and germs.

The use of far-infrared ceramics activates water or oil by a co-seismic phenomenon to bring the cluster structure closer to a better state, thereby preventing oxidation and obtaining a synergistic effect with the antibacterial ceramic. Can be.

By recirculating the filter material, the antibacterial ability and far-infrared ray ability originally possessed by the filter material itself are fully exhibited, and the filter material can be used for a long time.

The use of the magnetic force and the injection pressure make the bonding of the substances more stable.

Oil or water can be used for a long time.

[0023] The reduction in the amount of oil to be disposed and the contamination with impurities can contribute to the treatment of industrial waste.

[Brief description of the drawings]

[Figure 1] Top plan view It is a drawing showing the structure and size from the top. Oiling A
The fed liquid is sent to B after removing dust, metal pieces, and other dust. Storage space for pumps, pipes and wiring installed inside C. Storage space for switches and sensors necessary for controlling various functions inside D. The entire circulatory organ. . . FIG. 3 is a top plan view showing directions and showing arrangement and size.

Fig. 2 Side view Side view from direction Side view from direction E shows the position of the lower electromagnetic injection device. It is a side view which shows the magnitude | size of each part.

[FIG. 3] Side view Side view from the direction Side view from the direction E shows the position of the lower magnetic-injection device. It is a side view which shows the content and size of each part.

[Fig. 4] Top plan view For part A. . . Top plan view showing the direction of

FIG. 5 is a side view showing the direction of the portion A, and the positions and sizes of the external mounting cover and GF. It is a side view showing the above contents.

FIG. 6 is a sectional view showing the internal structure of the portion A. H is a fixed and guard portion of K. J is a pipe to N through the primary and secondary of K fixed to H. The liquid fed / water-supplied from M in FIG. 7 is discharged from L of F at the lower part of A after removing the dust, metal pieces, etc. in this A part and stopping the circulation. I has a role of sending out the air at the time of movement. The state where the direction is reversed is the direction. It is sectional drawing which showed the said content.

[Fig. 7] Top view It is an internal drawing of A part, K is removed, H shape and J ・ M
FIG. In addition, H has an important role of giving strength. It is the top view which showed the said content.

[Figure 8] Elevation view . . Elevated view showing the direction The liquid fed / watered from A to J via J is warmed by K at N, sterilized / antibacterial / activated by S / T filter material, and sent to V via U Can be This U uses a finer filter. Water is received from the Y installed in the direction of the main body, heat is transferred from the liquid that has received the thermal energy emitted from the N at the X, and the oil is sent to the A from the J in FIG. In addition, the liquid having received the thermal energy is recirculated from the N in the upper middle stage T through the Z installed in the pipe to transmit a higher thermal energy to the liquid and the filter medium. Standing drawing showing the internal structure and size of part B

[Figure 9] Plan view (1) is a plan view showing the direction of part E and showing the size. (2) An elevation view showing the direction of part E and showing the size. . A indicates the location of the water receiving tank, c indicates the position of the discharge port, and o indicates the level of the internal liquid in o. (3) Elevation view showing the direction of the part and showing the size a. B indicates the location of the magnetic injecting device C indicates the position of the water receiving tank

FIG. 10 is an elevational view showing the shape and structure of a. FIG. 10 shows the shape and arrangement of magnets. G indicates the shape and arrangement of the magnets.ク indicates the shape of the injection port, and the liquid is injected from the two injection ports in a fan shape. The space for the sprayed mist-like liquid to be combined by pressure and magnetic force is shown in the figure below. The size of the opening of the liquid with the water storage tank provided at the bottom is shown. FIG.

FIG. 11 is a plan view showing the internal structure from the top of E, and is a plan view in which six a are arranged. In the composite arrangement of the structure described on the plane 10, a piping space exists in the periphery. F indicates the shape and arrangement of the magnet. G indicates the shape and arrangement of the magnets.ク indicates the shape of the ejection port, and the two ejection ports eject the liquid in a fan shape. Ko is the space where the sprayed mist is combined

[Explanation of symbols]

 1. A Filter part2. B filtration part 3. C Pump and piping / wiring storage area 4. D Switch / sensor storage part E Injection device in magnetic force and water tank 6. 6. Water tank for drainage (drain tank) G bolt 8. H Filter fixed gart and reinforcement plate 9. I. Drain for air release 10. J bypass piping 11. K filter 12. L outlet 13. M inlet 14. N Oil heater tank 15. O electric heating plate 16. 17. Water inlet from PT to N Q Check valve 18. 18. Discharge port for liquid received from RT S Primary filtration material 20. T secondary filter material 21. U 3rd order filter 22. V water receiving tank 23. W Drain for air release 24. X Heat exchange piping 25. Y inlet 26. A. Piping space 27. B. Magnetic injection device 28. C water tank 29. D. Outlet 30. O-level meter 31. Mosquito magnet 32. G magnet 33. H injection plug 34. K Piping port 35. Co-connection space 36. Sa opening

──────────────────────────────────────────────────の Continuation of the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical indication location C02F 1/50 531 C02F 1/50 531E 531F 531H 540 540F 550 550B 560 560C 560Z

Claims (8)

[Claims] 1. A ceramic emitting far-infrared rays and antibacterial properties
A circulating filtration device that mixes ceramic coated with copper and silver and uses it as an oil filtration material 2. A filtration method in which a heat treatment is applied within a range from oil / water temperature of 40 ° C. to various oil combustion ignition points so as not to hinder oil flow. 3. A method of installing a treatment apparatus for continuously reheating a circulation path in accordance with the viscosity of oil during filtration circulation to change the contact time and flow rate with a filter medium. 4. After the heat treatment, the magnets are placed at the center and the opposite side to face each other and have the same polarity facing each other to secure a magnetic field area, thereby stabilizing the state of constant coupling. Water is injected to enable ionic and particle binding in a magnetic field. 5. A method for arranging magnets which enables magnetic field coupling, and their structure and shape, and a series or parallel arrangement by compound or box construction. 6. A structure and an installation method in which an injection device is attached to a magnetic field box after filtration, and the oil / water temperature is reduced by radiant cooling by the device. 7. A radiant-cooled oil or fork which accumulates water in a water storage tank and uses the heat energy of the water or fork which is newly injected from an inlet for raising the temperature of the oil. Oil or water cooling 8. A method for installing a composite route and structure according to the present invention.