TW201833038A - Device and method for stabilizing photon vibration frequency and miniaturizing shape of magnetic fluid in water for decreasing the speedy expansion of the ozone layer gap and rapid melting of ice in the polar region - Google Patents

Abstract

The present invention provides a device and method for stabilizing photon vibration frequency and miniaturizing shape of magnetic fluid in water. The device comprises: an inlet pipe, a central pipe, a central magnetization zone, a magnetic cutting unit, a photon loading zone, a protecting tube for the central pipe, an outer pipe, a cavity region, a water inlet for the cavity region, and a water outlet for the cavity region. The photon loading zone is provided with a far-infrared photonic crystal. First, water flows through the central magnetization region for performing a first magnetic cutting, then flows through the far-infrared photonic crystal for loading photons to the water flow, and overflows to the cavity region at the periphery of the central magnetization zone for performing a second magnetic cutting. The method comprises the steps of: enabling water to flow through a central magnetization region capable of miniaturizing the water molecular group for performing a first magnetic cutting; then enabling the water to flow through a far-infrared photonic crystal for loading photons to the water flow; and enabling the water to overflow to again pass through the cavity region at the periphery of the central magnetization zone for completing a second magnetic cutting, so as to obtain the effect of stabilizing photon vibration frequency and miniaturizing shape of magnetic fluid in water.

Description

 Device and method for stabilizing photon vibration frequency and miniaturizing magnetic fluid property in water  

The present invention provides a device and method for stabilizing photon vibration frequency and miniaturizing magnetic fluid properties in water, especially macromolecular water, magnetically cutting to form water of fine magnetic fluid properties, and simultaneously loading photons in far infrared photonic crystals The second magnetic cutting is performed through the cavity through the overflow to obtain the effect of stabilizing the photon vibration and miniaturizing the magnetic fluid property.

Water is one of the most important sources of life in nature. Water plays a very important role in humans, animals, plants, climate change and temperature regulation. Although water resources technology is widely used in people's livelihood, animal, plant, medical and various industries, the current level of momentum science and technology can not fully meet the low carbon green energy standards.

In view of this, the inventor completed the experimental study of photon vibration collision in water by the principle of tsunami caused by strong vertical and horizontal waves released during the earthquake crust change, and proposed to stabilize the photon vibration and fine magnetic fluid in the water. The traits of the device and technical methods, to enhance the real benefits of low-carbon green energy in the world, to slow down the gap in the ozone layer and the rapid hurricane of ice melting.

One of the objects of the present invention is to provide a device and method for stabilizing photon vibration and fine magnetic fluid properties in water, and providing the momentum water flow and the fine magnetic fluid having the photon beam vibration frequency to the back water resource demand. Use. In order to achieve the above object, the device for stabilizing the photon vibration and the fine magnetic fluid property in the water comprises at least: an inlet pipe, a water supply flow introduction; a central pipe connected to the downstream of the inlet pipe, and one end of the central pipe is a central pipe The water inlet and the other end are a central pipe outlet; a central magnetization zone is disposed between the central pipe inlet and the central pipe outlet, and the central magnetization zone is provided with a magnetic cutting unit corresponding to the water flow path; a photon The loading area has one end of the photon supporting area water inlet and the other end is a photon supporting area water outlet. The photon supporting area inlet is connected to the central tube outlet and located downstream of the central magnetizing area, and the photon supporting area corresponds to the water flow. A far-infrared photonic crystal module is disposed on the path; a central tube protection tube is sleeved outside the central tube and outside the photon-attached area, and the magnetic cutting unit is wrapped around the central tube protection Between the tube and the central tube; an outer tube, sleeved outside the central tube protection tube, and forming a cavity region connected downstream of the photon supporting area, one end of the cavity area is a cavity area The water outlet and the other end are the water outlets of the cavity area, so that the water flows along the water inlet of the cavity area, and then passes through the magnetic cutting unit for the second time in the direction of the water outlet of the cavity area, and then is discharged to the water outlet of the cavity area. Thereby, the water flows through the first magnetic cutting, the photon carrying region of the photon, the second magnetic cutting, and the water outlet of the cavity region, so as to maintain the properties of the fine magnetic fluid and carry the water flow of the photon beam momentum, and provide Used by back-end water demanders.

The device for stabilizing photon vibration and miniaturizing magnetic fluid properties in water, wherein the far-infrared photonic crystal module comprises a hollow fixing sleeve with an open state at both ends, and a positioning member disposed in the fixing sleeve, at least A far-infrared photonic crystal fixed by the positioning member and mounted in the fixing sleeve, the water outlet of the supporting area is a bottom end of the fixing sleeve, so that the far-infrared photonic crystal module can exhibit the advantages of modular manufacturing and assembly.

Another object of the present invention is to provide a method for stabilizing photon vibration and refining magnetic fluid properties in water. To achieve the object, the present invention firstly passes a water stream through a central magnetization region which refines water molecules. Performing the first magnetic cutting, a far-infrared photonic crystal that carries the photon to the water stream, and the post-flowing causes the water having the magnetic fluid property to pass through the cavity region outside the central magnetization region to complete the second magnetic cutting, and finally has the photon beam. The fine magnetic water flows to the water outlet of the cavity area.

Compared with the difference of the traditional water resources technology, the present invention provides a device and a method for stabilizing the photon vibration frequency and the fine magnetic fluid property in the water. Since the device adopts a non-powered momentum water flow transmission means, the user only needs The water inlet pipe of the device is connected to a water source supply which is generally easy to obtain and has been cleaned by a water treatment means. The device and method for stabilizing photon vibration and minimizing magnetic fluid properties in water can be used in agriculture, fishery, livestock breeding, industry and medicine, in addition to improving the living water mechanism of human health.

10‧‧‧Water inlet

30‧‧‧Center tube

31‧‧‧ center tube inlet

32‧‧‧Center magnetization zone

33‧‧‧Magnetic cutting unit

331‧‧‧ Magnet

34‧‧‧Center tube outlet

40‧‧‧ Photon loading area

41‧‧‧ Photon loading area inlet

42‧‧‧ far infrared photonic crystal module

43‧‧‧ fixing sleeve

431‧‧‧ Positioning parts

432‧‧‧ far infrared photonic crystal

44‧‧‧ Photon loading area outlet

50‧‧‧Center tube protection

51‧‧‧External management

511‧‧‧Cavity area

512‧‧‧cavity inlet

513‧‧‧cavity outlet

The first drawing is a schematic perspective view of a preferred embodiment of the present invention.

The second drawing is a schematic cross-sectional view of a preferred embodiment of the invention.

The third figure is a schematic diagram of a far infrared photonic crystal module of the preferred embodiment of the present invention.

Please refer to the first to third figures, which are schematic diagrams of a three-dimensional appearance, a cross-sectional view, and a schematic diagram of a far-infrared photonic crystal module according to a preferred embodiment of the present invention. The figure shows the photon vibration frequency and the fine magnetic fluid in the stable water. The main structure of the device includes: a water inlet pipe 10, a central pipe 30, a central pipe inlet 31, a central magnetization zone 32, a magnetic cutting unit 33, a plurality of magnets 331, a central pipe outlet 34, and a photon. The loading area 40, a photon supporting area water inlet 41, a far infrared photonic crystal module 42, a fixing sleeve 43, a positioning member 431, a far infrared photonic crystal 432, a photon supporting area water outlet 44, and a central tube protection The tube 50, an outer tube 51, a cavity area 511, a cavity area water inlet 512, and a cavity area water outlet 513.

The water inlet pipe 10 is used for water supply, for example, connecting to the household water supply end, the agricultural water supply end, the industrial water supply end, the fishery water supply end or the medical water supply end.

A central pipe 30 is connected to the downstream of the water inlet pipe 10. One end of the central pipe 30 is a central pipe water inlet 31, and the other end is a central pipe water outlet 34. A central magnetization zone 32 is disposed at the center pipe inlet 31 to the center. Between the tube outlets 34.

A magnetic cutting unit 33 is disposed in the central magnetizing region 32 corresponding to the water flow path to make the fluid magnetic and fine. The magnetic cutting unit 33 can be composed of a plurality of equidistantly arranged magnets 331 and is provided with a central tube protective tube. 50. The magnet 331 is completely isolated from the water flow.

The photon-attached area 40 has a photon-attached area water inlet 41 at one end and a photon-attached area water outlet 44 at the other end. The photon-attached area water inlet 41 is connected to the central tube outlet 34 and located downstream of the central magnetization area 32. A far-infrared photonic crystal module 42 is disposed in the photon-attached region 40 corresponding to the water flow path, and the far-infrared photonic crystal module 42 includes a hollow fixing sleeve 43 having an open state at both ends, and is disposed in the fixing sleeve 43. The positioning member 431 is at least one far-infrared photonic crystal 432 fixed in the fixing sleeve 43 by the positioning member 431. The water outlet 44 of the supporting area is the bottom end of the fixing sleeve 43 for the far-infrared photonic crystal module 42. It can present the advantages of modular manufacturing and assembly. When implementing, the far-infrared photonic crystal module 42, the fixing sleeve 43 and the positioning member 431 can be used according to the needs of the use, or different styling conditions according to different size and size specifications. Implementation.

The central tube protection tube 50 is sleeved outside the central tube 30 and outside the photon attachment area 40, and the magnetic cutting unit 33 is wrapped between the central tube protection tube 50 and the central tube 30. The outer tube 51 is sleeved outside the central tube protection tube 50, and forms a cavity region 511 that is connected downstream of the photon-attached region 40. One end of the cavity region 511 is a cavity inlet 512 and the other end is empty. The chamber water outlet 513 causes the water flow to pass through the magnetic cutting unit 33 a second time in the direction of the cavity inlet 512 toward the cavity water outlet 513 to complete the second magnetic cutting.

According to the above embodiments, a method for stabilizing the photon vibration and the fine magnetic fluid property in the water can be provided, and the water flow is sequentially subjected to the first magnetic cutting through the central magnetization region 32 to form a fine magnetic fluid by magnetic cutting. After the water of the trait is loaded with the photons of the far-infrared photonic crystal 432, the water of the magnetic fluid is again flowed through the cavity 511 at the periphery of the central magnetization region 32 to complete the second magnetic cutting, thereby finally miniaturizing the magnetic fluid having the photon beam. The water flows to the cavity outlet 513 to obtain the effect of stabilizing the photon vibration and finening the magnetic fluid properties in the water.

The above embodiments are illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any ones that have the same purpose and function as the simplest and identical replacements of the same techniques and means of the present invention should be The scope of application for protection of the invention.

Claims (3)

 The utility model relates to a device for stabilizing photon vibration frequency and miniaturizing magnetic fluid properties in water, comprising at least: a water inlet pipe and a water supply flow introduction; a central pipe connected to the downstream of the water inlet pipe, one end of the central pipe being a central pipe inlet, and the other One end is a central pipe outlet; a central magnetization zone is disposed between the central pipe inlet and the central pipe outlet, the central magnetization zone is provided with a magnetic cutting unit corresponding to the water flow path; and a photon supporting zone One end is the water inlet of the photon supporting area, and the other end is the water outlet of the photon supporting area. The inlet of the photon supporting area is connected to the central tube outlet and located downstream of the central magnetizing area, and the photon supporting area is provided with a corresponding water flow path. a far-infrared photonic crystal module; a central tube protection tube, the central tube protection tube sleeve is disposed outside the central tube and outside the photon-attached area, and the magnetic cutting unit is wrapped around the central tube protection tube and the center Between the tubes; an outer tube, sleeved outside the central tube protection tube, and forming a cavity region that is connected downstream of the photon-attached region, one end of the cavity region is a cavity inlet and the other end of the cavity region Cavity outlet region, the flow of water along the cavity inlet region toward a second region of the cavity after the cutting magnetic means, the outlet from the nozzle discharge direction of the cavity region.    The apparatus for stabilizing photon vibration and miniaturizing magnetic fluid properties in water according to claim 1, wherein the far-infrared photonic crystal module comprises a hollow fixing sleeve having an open state at both ends, and a hollow fixing sleeve disposed in the fixing sleeve. The positioning member, the at least one far-infrared photonic crystal fixed by the positioning member and disposed in the fixing sleeve, the water outlet of the supporting area is a bottom end of the fixing sleeve.    The invention relates to a method for stabilizing photon vibration frequency and miniaturizing magnetic fluid property in water, which is to pass a water flow through a central magnetization region which makes the water molecule group finer to perform the first magnetic cutting, and a far infrared photonic crystal which causes the water flow to carry the photon. After the overflow, the water flow passes through the cavity region outside the central magnetization region to complete the second magnetic cutting, and finally the water of the fine magnetic fluid having the photon beam flows to the water outlet of the cavity region.