KR20100102313A - Apparatus for mixing refined oil with oil - Google Patents

Abstract

PURPOSE: A generative fuel manufacturing device is provided to massively produce generative fuel by mixing refined oil, benzene, light oil, and additional oil. CONSTITUTION: A generative fuel manufacturing device includes a tank(10) comprising a first section part(11), a second section part(12), and a third section part(13), a first and a second magnet(20)(30) covering a first inlet tube(P1) and a second inlet tube(P2), and an agitating blade(41) installed inside the first section part and an agitating section part(40) installes a agitated motor(42). A first filter(60) is installed in the exit(14a) of the first section wall(14) in the second section part. A second filter(80) is installed in the exit(15a) of the second partition wall(15) in the third section part. A first microwave irradiation part(70) is installed in the inner side wall of the second section part inner wall.

Description

Apparatus for mixing refined oil with oil}

The present invention relates to a regenerated fuel production apparatus capable of producing regenerated fuel using refined oil.

At present, a lot of waste oil such as waste cooking oil, animal and vegetable oil, vegetable oil residue, soap residue, etc. is generated in daily life. Since waste oil causes soil and groundwater to be contaminated when landfilled, the government and local governments are particularly interested in the disposal of waste oil. And until recently, there was no utilization of waste oil, mainly through incineration.

However, in the process of incineration of waste oil, a compound such as dioxin was generated to contaminate the air environment, and as oil prices rose, the necessity of recycling waste oil was raised. Accordingly, refined oil implemented by refining waste oil was used as an alternative fuel. Research is underway.

However, such refined oils cannot be used as alternative fuels such as gasoline or diesel oil in the market, since refined oils have a too low or a high ignition point and also have a considerable explosive power compared to gasoline or diesel.

Therefore, to compensate for this, the refined oil was mixed with the existing gasoline, diesel, or thinner, and used as an alternative fuel.

However, refined oil and additive oil have a problem that sufficient mixing is difficult because the physical properties are different, and if used in a state in which sufficient mixing is not performed, problems such as unstable explosive force or output reduction occur.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a regenerated fuel manufacturing apparatus that can be implemented as a regenerated fuel by mixing refined oils with different physical properties and additives such as gasoline, diesel oil, thinner.

Another object of the present invention is to provide a recycled fuel production apparatus capable of producing a large amount of recycled fuel by sufficiently mixing refined oil and additive oil within a short time.

Renewable fuel manufacturing apparatus according to the present invention in order to achieve the above object, the first inlet pipe (P1) and the second inlet pipe (P2) in which the added oil is introduced symmetrically connected to the lower end of the first A compartment 11, a second compartment 12 integrally formed at an upper portion of the first compartment 11, and a discharge pipe integrally formed at an upper portion of the second compartment 12 and discharged from mixed oil. A tank 10 having a third compartment 13 to which P3 is connected; First and second magnets 20 and 30 surrounding the first inflow pipe P1 and the second inflow pipe P2; Stirring part 40 consisting of a stirring blade 41 installed in the first compartment 11 and a stirring motor 42 installed at the lower end of the tank 10 to rotate the stirring blade 41. ; A first vibration applying unit (50) for applying vibration to the refined oil flowing through the outlet of the first inlet pipe (P1) in the first compartment (11); A second vibration applying unit (55) for applying vibration to the additive oil introduced through the outlet of the second inlet pipe (P2) inside the first compartment (11); A first filter (60) installed in the outlet (14a) of the first compartment wall (14) in the second compartment (12); A second filter (80) installed in the outlet (15a) of the second compartment wall (15) in the third compartment (13); A first microwave irradiation unit 70 installed on an inner wall of the second compartment 12 to irradiate a first microwave to the mixed oil flowing through the first filter 50; A second microwave irradiation unit installed on an inner wall of the second compartment 13 to irradiate the mixed oil introduced through the second filter 80 with a second microwave having a frequency less than that of the first microwave; 75); And an electromagnet filter having a plurality of metal rods 92 installed in the third compartment 13 and a coil 93 for generating the magnetic force. 90, characterized in that it comprises a.

In the present invention, the tank 10, the first partition wall 14 for dividing the first compartment 11 and the second compartment 12 has an inverted funnel shape, the second compartment The second compartment wall 15 for dividing into 12 and the third compartment 13 has an inverted funnel shape.

In the present invention, the first vibration applying unit 50 is a first motor 50b which is installed at the outlet of the first inlet pipe (P1) and the first motor (50b) for rotating the first fan (50a). ); The second vibration applying unit 55 includes a second fan 55a installed at the outlet of the second inflow pipe P2 and a second motor 55b for rotating the second fan 55a.

According to the regenerated fuel production apparatus according to the present invention, the refined oil and the added oil flowing into the first and second inlet pipe magnetized into the first and second magnets, and the first and second vibration applying units are introduced into the first compartment. And applying vibration to the additive oil, filtering the mixed oil flowing to the second and third compartments using the first and second filters, and irradiating the first and second microwaves at the second and third compartments to By applying fine vibration to the molecule, by removing the metallic foreign matter using an electromagnet filter, there is an action and effect that can be produced in a large amount of renewable fuel to maintain a stable mixed state over time.

Hereinafter, a renewable fuel manufacturing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of a renewable fuel production apparatus according to the present invention, Figure 2 is a perspective view of the renewable fuel production apparatus of FIG.

As shown, the regeneration fuel production apparatus according to the present invention, the first inlet pipe (P1) and the second inlet pipe (P2) in which the added oil is introduced symmetrically connected to the lower portion of the first compartment ( 11), the second compartment 12 integrally formed on the upper portion of the first compartment 11, and the discharge pipe (P3) integrally formed on the upper portion of the second compartment 12 and the mixed oil is discharged A tank 10 having a third compartment 13 formed therein; First and second magnets 20 and 30 surrounding the first inflow pipe P1 and the second inflow pipe P2; A stirring unit 40 formed of a stirring blade 41 installed inside the first compartment 11 and a stirring motor 42 installed at a lower end of the tank 10 to rotate the stirring blade 41; A first vibration applying unit (50) installed at the outlet of the first inlet pipe (P1) inside the first compartment (11) to apply vibration to the refined oil flowing through the first inlet pipe (P1); A second vibration applying unit 55 installed at the outlet of the second inlet pipe P2 in the first compartment 11 and applying vibration to the additive oil introduced through the second inlet pipe P2; A first filter (60) installed at an outlet (14a) of the first compartment wall (14) in a second compartment (12); A second filter 80 installed at the outlet 15a of the second partition wall 15 in the third compartment 13; A first microwave irradiation unit 70 installed on the inner wall of the second compartment 12 to irradiate the first microwave to the mixed oil flowing through the first filter 50; A second microwave irradiation part installed on the inner wall of the second compartment 13 and irradiating the mixed oil introduced through the second filter 80 to the second microwave longer than the wavelength of the first microwave, that is, having a low frequency; 75); The electromagnet filter 90 having a plurality of metal rods 92 embedded in the third compartment 13 and a coil 93 for generating the magnetic force of the metal rods 92 installed in the upper portion of the tank 10. It includes;

The tank 10 is divided into first, second and third compartments 11 and 12 and 13 which are stacked by the first and second compartment walls 14 and 15. At this time, the first compartment wall 14 for dividing into the first compartment 11 and the second compartment 12 has an inverted funnel shape, and is divided into the second compartment 12 and the third compartment 13. The second partition wall 15 for also has an inverted funnel shape.

On the side of the tank 10 is formed a first opening for simultaneously opening the first and second compartments 12, 13, the cover 16 is coupled to the flange (16a) of the edge of the first opening All. Although not shown at this time, a sealing is installed between the flange 16a and the cover 16 so that the mixed oil does not flow out.

A second opening 17 is formed at an upper portion of the tank 10, and an electromagnet filter 90 to be described later is provided at the second opening 17.

The first and second partition walls 14 and 15 have an inverted funnel shape, and outlets 14a and 15a are formed at each end. As the first compartment 14 has an inverted funnel shape, the heavy fine foreign matter contained in the mixed oil (refined oil and the additional oil) passing through the second compartment 12 goes to the edge side of the second compartment 12. I sit down. In addition, the second partition wall 15 has an inverted funnel shape, whereby heavy fine foreign matter contained in the mixed oil (refined oil and additional oil) passing through the third compartment 13 is moved toward the edge of the third compartment 13. It will sink.

That is, since the first and second compartment walls 14 and 15 have an inverted funnel shape, fine foreign matter that does not go from the mixed oil in the second and third compartments 12 and 13 is formed into the first and second compartment walls ( 14) (15) are gathered on the edge side, and thus these foreign matters can be easily removed by opening the lid 16.

Here, since the bottoms of the first and second partition walls 14 and 15 are positioned below the first filter 60 and the second filter 80, the first filter 60 and the second filter 80 may be removed. The pressure change is relatively small in the process of introducing the mixed oil. Therefore, even while the mixed oil passes through the first and second filters 60 and 80, the fine foreign matter is kept in the state where the edges of the first and second compartment walls 14 and 15 sink.

The first magnet 20 magnetizes the molecules of the refined oil flowing into the first compartment 11 through the first inlet pipe P1, and the second magnet 30 is formed through the second inlet pipe P2. Magnetize the additive oil flowing into the compartment 11. As such, the first magnet 20 magnetizes the molecules of the refined oil and the second magnet 30 magnetizes and activates the molecules of the additive oil, so that the refined oil and the additive oil introduced into the first compartment 11 may be evenly mixed. do. In this case, the first and second magnets are preferably niobium permanent magnets having a magnetic force of 4000 gauss or more.

The stirring motor 42 of the stirring unit 40 rotates the stirring blade 41 to stir and mix the refined oil and the additive oil inside the first compartment 11. At this time, the stirring blade 41 is rotated at 30 ~ 200 rpm.

The first vibration applying unit 50 includes a first fan 50a installed at the outlet of the first inlet pipe P1 and a first motor 50b for rotating the first fan 50a. The first motor 50b rotates the first fan 50a at 1000 rpm or more to apply a lot of vibration to the refined oil flowing through the first inlet pipe P1.

The second vibration applying unit 55 includes a second fan 55a installed at the outlet of the second inflow pipe P2 and a second motor 55b for rotating the second fan 55a. The second motor 55b rotates the first fan 55a at 1000 rpm or more, and applies a lot of vibration to the additive oil flowing through the second inflow pipe P2.

By employing the first and second vibration applying units 50 and 55, a lot of vibration is applied to the refined oil and the added oil flowing into the first and second inflow pipes P1 and P2, and thus even mixing is possible. Let's do it.

The first filter 60 is installed at the outlet 14a of the first compartment wall 14 and primarily receives the fine foreign matters of the mixed oil flowing from the first compartment 11 into the second compartment 12. To filter. In this case, since the first filter 60 is installed at the outlet 14a, the first filter 60 may be separated. Accordingly, when the filtering function of the first filter 60 is deteriorated, the first filter 60 may be easily replaced.

The first and second microwave irradiation units 70 and 75 irradiate the first and second microwaves into the second and third compartments 12 and 13 to finely vibrate the molecules of the refined oil additive oil forming the mixed oil. And keep mixed even after a long time. The frequency of the first and second microwaves should be such that the molecules of refined oil and mixed oil can be vibrated, the frequency of the first microwave is in the range of 150 ~ 400 MHz, the frequency of the second microwave is 50 ~ In the 150 MHz range. That is, the energy of the first microwave irradiated into the first compartment 12 is greater than the energy of the second microwave irradiated into the second compartment 13.

The first microwave irradiated into the first compartment 12 vibrates the molecules of the refined oil and the additive oil so that the refined oil and the additive oil are mixed, but in reality, the refined oil and the additive oil maintain a partially unstable mixed state. . After the refined oil and the additive oil forming the unstable mixed state are introduced into the second compartment 13, the second microwave with a smaller frequency than that of the first microwave, that is, the energy, is irradiated, thereby unstable mixing of the refined oil and the additive oil. Stabilize the condition. If the second compartment 13 irradiates microwaves of the same or greater frequency, that is, greater energy, than the first microwave, the molecular mixed state of the refined oil and the mixed oil becomes more unstable. In order to prevent this, the second compartment 13 is irradiated with a second microwave having a smaller energy than the first microwave to stabilize the molecular mixing state.

As described above, since refined oil and added oil have different physical properties, even when mixed macroscopically by the stirring motor 42, mixing is not performed well when viewed microscopically, and such mixed oil is separated into refined oil and added oil after time. However, the first and second microwaves irradiated from the first and second microwave irradiation units 70 and 75 finely vibrate the molecules of the refined oil and the molecules of the additive oil, so that the molecules of the refined oil and the molecules of the additive oil are mixed for a long time. Keep it for hours.

The second filter 80 is installed at the outlet 15a of the second compartment wall 15 to secondly filter the fine foreign substances in the mixed oil flowing from the second compartment 12 to the third compartment 13. do. At this time, since the second filter 80 is installed at the outlet 15a, the second filter 80 may be separated. Accordingly, when the filtering function of the second filter 80 is deteriorated, the second filter 80 may be easily replaced.

The electromagnet filter 90 includes a mounting end 91 mounted to the flange 17a of the second opening 17 and a plurality of mounting ends installed below the mounting end 91 to enter into the third compartment 13. It includes a metal rod 92 and the coil 93 is built in the mounting end 91 to generate a magnetic field so that the metal rod 92 can generate a magnetic force. That is, the electromagnet filter 90 filters the metallic foreign matter from the mixed oil in the third compartment 13 by using magnetic force.

In this case, when a large amount of metallic foreign matter is attached to the metal rod 92, the mounting end 91 is separated from the flange 17a of the second opening 17 and taken out of the tank 10, and then the coil 93. When the applied electricity is cut off, the magnetic force of the metal rod 92 disappears, and the metallic foreign matter attached to the metal rod 92 is separated. That is, by simply cutting off the electricity applied to the coil 93, the metallic foreign matter attached to the metal rod 92 can be easily separated.

According to the above structure, the refined oil flowing into the first inlet pipe P1 is magnetized to the first magnet 20, and then the first compartment 11 is vibrated by the first vibration applying unit 50. Flows into). In addition, the additional oil flowing into the second inflow pipe P2 is magnetized by the second magnet 30 and then introduced into the first compartment 11 in a state where vibration is applied by the second vibration applying unit 55. do. Thereafter, the refined oil and the added oil introduced into the first compartment 11 are stirred and mixed by the stirring blade 41 to be mixed oil.

The mixed oil is moved to the upper portion of the first compartment 11 by the refined oil and the added oil continuously flowing into the first and second inflow pipes P1 and P2, and then the first mixed oil is formed through the first filter 60. It flows into the two compartments 12. At this time, in the process of passing the mixed oil through the first filter 60, the fine foreign matter contained in the mixed oil is first filtered by the first filter 60.

On the other hand, microwaves are irradiated from the first microwave irradiation unit 70 to the mixed oil introduced into the second compartment 12. The first microwave then finely vibrates the molecules of the refined oil and the additive oil constituting the mixed oil first, and thus the refined oil and the additive oil are evenly mixed. Thereafter, the mixed oil is introduced into the third compartment 13 through the second filter 80, and the molecules of the mixed oil are finely oscillated again by the second microwave irradiated from the third compartment 13, thereby stabilizing the molecules. Mixed state is maintained. At this time, the heavy fine foreign matter contained in the mixed oil while the mixed oil passes through the second compartment 12 and the third compartment 13 is the edge of the first compartment wall 14 and the second compartment wall 15. After sinking to the side, these heavy fine foreign matters are then removed by opening the lid 16.

In addition, the metallic foreign matter contained in the mixed oil introduced into the third compartment 13 is attached to the metal rod 92 of the electromagnet filter 90, whereby the mixed oil used as the regenerated fuel is completed through the discharge pipe P3. It is discharged to the outside.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

1 is a view showing the configuration of a renewable fuel manufacturing apparatus according to the present invention,

2 is a perspective view of the renewable fuel manufacturing apparatus of FIG.

<Description of the symbols for the main parts of the drawings>

10 ... tanks 11, 12, 13, ... 1st, 2nd, 3rd compartment

14, 15 ... 1st, 2nd compartment wall 16 ... cover

16a ... flange 17 ... second opening

17a ... flange 20, 30 ... 1, 2 magnet

40 ... agitator 41 ... agitator blades

42 ... stirring motor 50, 55 ... 1st and 2nd vibration part

60 ... first filter 70 ... first microwave irradiation part

75 ... second microwave irradiation unit 80 ... second filter

90 ... electromagnet filter 91 ... mounting end

92 ... metal rod 93 ... coil

Claims (3)

The first compartment 11 is a symmetrical connection between the first inlet pipe (P1) and the second inlet pipe (P2) in which the added oil is introduced into the lower portion and the upper portion of the first compartment (11). Tank 10 having an integrally formed second compartment 12, and the third compartment 13 is formed integrally with the second compartment 12, the discharge pipe (P3) to which the mixed oil is discharged. ); First and second magnets 20 and 30 surrounding the first inflow pipe P1 and the second inflow pipe P2; An agitator 40 formed of a stirring blade 41 installed inside the first compartment 11 and a stirring motor 42 installed at a lower end of the tank 10 to rotate the stirring blade 41; A first vibration applying unit (50) for applying vibration to the refined oil flowing through the outlet of the first inlet pipe (P1) in the first compartment (11); A second vibration applying unit (55) for applying vibration to the additive oil introduced through the outlet of the second inlet pipe (P2) inside the first compartment (11); A first filter (60) installed in the outlet (14a) of the first compartment wall (14) in the second compartment (12); A second filter (80) installed in the outlet (15a) of the second compartment wall (15) in the third compartment (13); A first microwave irradiation unit 70 installed on an inner wall of the second compartment 12 to irradiate a first microwave to the mixed oil flowing through the first filter 50; A second microwave irradiation unit installed on an inner wall of the second compartment 13 to irradiate the mixed oil introduced through the second filter 80 with a second microwave having a frequency less than that of the first microwave; 75); And The electromagnet filter having an upper portion of the tank 10 and having a plurality of metal rods 92 embedded in the third compartment 13 and a coil 93 for causing the metal rods 92 to generate magnetic force ( 90); Apparatus for producing recycled fuel comprising a. The method of claim 1, wherein the tank 10, The first partition wall 14 for dividing into the first compartment 11 and the second compartment 12 has an inverted funnel shape, and is divided into the second compartment 12 and the third compartment 13. Second partition wall for dividing 15 is a regeneration fuel production apparatus, characterized in that it has an inverted funnel shape. The method of claim 1, The first vibration applying unit (50) comprises a first fan (50a) installed at the outlet of the first inlet pipe (P1) and a first motor (50b) for rotating the first fan (50a); The second vibration applying unit 55 is composed of a second fan (55a) is installed at the outlet of the second inlet pipe (P2) and the second motor (55b) for rotating the second fan (55a); Renewable fuel manufacturing apparatus characterized in that.

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