KR0143447B1 - Apparatus for treatment of fhsid by ultrasonic impact - Google Patents

Abstract

The present invention relates to a fluid treatment apparatus using an ultrasonic shock method under electromagnetic resonance. When a molecule in a fluid passes under a magnetic field state, the molecules are aligned in parallel in a constant direction due to ionization polarity. If you add, the molecules will resonate.

At this time, since the resonance frequency of the fluid combined with impurities is different from each other depending on the type of fluid, when the ultrasonic shock is applied by an ultrasonic wave oscillator that vibrates in a direction perpendicular to the coil bundle under such a state, the fluid combined with the impurities decomposes the impurities or Normal fluid molecules are recombined and organic matter is broken down by breaking the molecular ring.

Description

Fluid treatment device by ultrasonic shock method under electromagnetic resonance

1 is a cross-sectional view showing an embodiment according to the present invention

2 is a cross-sectional view A-A of an embodiment according to the present invention.

3 is a cross-sectional view B-B of an embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

1: conduit 2: fluid inlet pipe

3: fluid outflow hall 4: permanent magnet

5: Permanent magnet case 6: Upper and lower limbs

7: coil bundle 9: ultrasonic vibrator

10: liquid character detection element 11: control device

The present invention relates to an apparatus for treating a fluid by applying an ultrasonic shock to the fluid under electromagnetic resonance by amplifying molecular vibration of the fluid by using an electric field, a magnetic field, and an ultrasonic wave. After making the magnetization state, if a high frequency wave of a certain pulse is applied, the low energy molecules absorb the pulse energy and become a high energy state, causing resonance. The molecules in the fluid are ionized by applying shock wave energy by the ultrasonic vibrator. The present invention relates to a device for easily treating a fluid by releasing or recombining a molecule of the fluid by powerful energy generated by resonance and oxidization of the fluid by maximizing polarity.

Until now, there are various types of fluid treatment devices such as physical or chemical treatment methods. However, regarding the apparatus using magnetic fields and ultrasonic waves, the Korean Utility Model Publication No. 90-132 and the ultrasonic waves are the water pipes of Utility Model Publication 89-1302. A device that removes odors by generating ultrasonic waves while injecting bubbles into water flowing through a pipe in an injector, and oxidative sterilization water purifiers by ultrasonic waves and bubbles according to Japanese Utility Model Publication No. 59-147358. . However, the above devises are simply insufficient treatment efficiency of the fluid by treating the flowing water using ultrasonic waves and bubbles.

Accordingly, the present invention solves the above-described drawbacks of the prior art, and applies the improved principle again to flow a pulse current coinciding with the resonance frequency of the fluid molecules to the coil in the magnetic field. In this case, when the fluid molecules are vibrated again by ultrasonic waves, when the molecules of various fluids are combined with impurities, the rings are boiled and the molecules of impurities are decomposed, and the normal fluid molecules are recombined to increase the treatment efficiency, thereby resonating electromagnetic waves and ultrasonic waves. It is an object of the present invention to provide a fluid treatment apparatus for efficiently treating a fluid by inducing a non-homogeneous bonding state to a normal state by impact.

The present invention is a cylindrical conduit as a means for achieving the above object; An oil inlet / outlet pipe connected to upper and lower ends of the conduit; A permanent magnet installed on the inner wall of the conduit so that a plurality of same poles face each other; A permanent magnet case having a plurality of permanent magnets attached to the inner wall of the conduit to accommodate the permanent magnets; A support projecting upward and downward of the case toward the inside of the conduit; A coil bundle fixedly installed between the supports; Ultrasonic vibrators installed on the upper and lower inner wall of the conduit perpendicular to the coil bundle; A sensing element for sensing a characteristic of the fluid flowing in the conduit; And a control device that adjusts the high frequency current to the coil bundle and the ultrasonic intensity of the ultrasonic vibrator according to the fluid characteristic detected from the sensing element. It characterized in that the fluid is processed by the ultrasonic shock.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the illustrated drawings.

1 is a front sectional view showing an embodiment of the apparatus of the present invention, wherein 1 is a cylindrical conduit for passing a fluid to be treated, and a fluid inlet pipe 2 is connected to the lower end of the conduit 1, and a fluid inlet pipe is connected. The fluid introduced into the conduit 1 through (2) is configured to be discharged to the fluid discharge pipe 3 connected to the upper part of the conduit 1.

Inside or outside the conduit 1, a plurality of permanent magnets 4 are arranged so as to face the same poles in order to increase the lines of magnetic force, and the permanent magnets 4 are embedded in the permanent magnet case 5 and are in the conduit 1. It is mounted on the wall.

Up and down of the permanent magnet case (5) is provided with a support (6) protruding toward the inside of the conduit (1) so that the coil bundle (7) is fixed between the upper and lower support (6) by a fixing screw (8). The ultrasonic vibrator 9 was installed to face the upper and lower inner wall surfaces of the cylindrical conduit 1 so as to be perpendicular to the coil bundle 7.

In order to determine the pulse applied to the coil of the coil bundle (7) according to the characteristics of the fluid in the conduit (1) and to investigate the characteristics of the fluid, that is, the temperature, viscosity and flow rate in order to vary the intensity of the ultrasonic vibrator (9) The liquid characteristic sensing element 10 was installed.

Reference numeral 11 denotes a control device installed to adjust the high frequency current and change the intensity of the ultrasonic wave in consideration of the temperature, viscosity, flow rate, acidity, etc. of the fluid sensed by the sensing element 10. 7), the ultrasonic vibrator 9 and the sensing element 10 is connected to the circuit to control each device.

Referring to the effects of the present invention as described above are as follows.

The fluid introduced into the cylindrical conduit 1 through the fluid inlet pipe 2 is magnetized by the permanent magnet 4 while the water level rises and is discharged into the fluid outlet pipe 3. From (7), the resonance frequency is oscillated so that each molecule becomes a resonance state, but the resonance state of a normal molecule and the resonance state of an impurity molecule are different. In this state, the ultrasonic wave oscillator 9 maximizes the ionization polarity of the molecules in the fluid, and the molecules of the fluid including impurities are decomposed or recombined by resonance and oxidation by molecular vibration, thereby treating the fluid. do. At this time, if a slightly different pulse current is flowed to the coil bundle 7 according to the type of fluid, the fluid molecules are induced in the eddy current while vibrating in a resonance state.

In addition, when the stator field by the coil is applied to the permanent magnet 4, the Lorentz force according to Fleming's left hand law acts on the surface of the fluid, and the fluid molecules vibrate and change into a resonance state. This vibration propagates in the fluid and when the resonance frequency of the steady state fluid and the resonance frequency of the impurity fluid molecules are slightly different to each other, the ultrasonic wave is generated by the ultrasonic vibrator 9 to impact the fluid. The weak bonding force allows the fluid to be efficiently processed.

Since the present invention applies ultrasonic shock in the electromagnetic resonance state rather than simple magnetic field treatment and ultrasonic vibration treatment, the fluid treatment efficiency is very high, and various wastewater treatment, generation of magnetized water, water purifier of water purification plant, removal of algae and decomposition of organic chemical solvent And very useful effects in fluid treatment such as recombination.

Claims (1)

Cylindrical conduits; An oil inlet / outlet pipe connected to upper and lower ends of the conduit; A permanent magnet installed on the inner wall of the conduit so that a plurality of same poles face each other; A permanent magnet case having a plurality of permanent magnets attached to the inner wall of the conduit to accommodate the permanent magnets; A support projecting upward and downward of the case toward the inside of the conduit; A coil bundle fixedly installed between the supports; Ultrasonic vibrators installed on the upper and lower inner wall of the conduit perpendicular to the coil bundle; A sensing element for sensing a characteristic of the fluid flowing in the conduit; And a control device for adjusting the high frequency current to the coil bundle and the ultrasonic intensity of the ultrasonic vibrator in accordance with the fluid characteristic detected from the sensing element. Fluid processing apparatus, characterized in that for treating the fluid by the ultrasonic shock.