JPH044873Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field This invention relates to a device that activates liquids such as water and oil by irradiating them with far infrared rays.

BACKGROUND OF THE INVENTION Conventional fluid activation devices using far infrared rays simply pass between laminated far infrared ray generators.

Problems that the invention aims to solve This invention involves passing a liquid such as water or oil close to a far-infrared ray generator, applying impact pressure to the liquid by changing the channel width, and changing the flow direction of the liquid. The idea is to activate it at the molecular level by forcibly applying physical vibration to the spiral shape. In addition, far-infrared ray-emitting ceramic units are efficiently arranged, and they have an easy-to-assemble structure, do not break even under high pressure, always maintain proper conditions, and are easy to maintain and inspect. It was designed with consideration given to its robustness and long-term use.

Embodiment The following describes an embodiment of this invention for activating water. 1 is an activated hydration tube, in which far-infrared ray generating ceramics 2 and compression springs 3 are alternately arranged and fitted, and the upper end is It is latched by a stop pin 4 that passes through the pipe wall from side to side, and its lower end is supported by a fixed bottom 5 provided with a water passage hole. There is a required gap between the outer periphery of the ceramic 2 and the inner diameter surface of the tube 1. The springs 3 are all wound in the same direction, and in this embodiment are wound to the left.

Reference numeral 6 denotes an activated water tube binding plate, into which the activated water tubes 1 are fitted into mounting holes 7 provided in a desired arrangement, and are fixed in a watertight manner with their upper parts aligned.

Reference numeral 8 denotes a cylindrical container body that securely accommodates the tube binding plate 6, and is provided with a container body 8a and a lid body 8b to which a gasket 19 is fastened and fixed to the container body 8a with bolts 9. The container body 8a has an open end 10 connected to the lid 8b at its upper end, and is closed at its lower end by a bottom 11.

The container main body 8a has a water supply flange 12 and a water supply flange 13 which are protruded from the outer periphery of the opening end 10 and are opposed to each other in the left and right directions and communicate with each other inwardly, and are respectively connectable to external pipes (not shown). At the same time, a middle top plate 14 is provided inwardly following both flanges 12 and 13 to cross the inside of the container and sealingly adhere the outer circumferential surface to the inner wall surface of the container main body. The middle partition wall plate 15 is made to stand up, and the inside of the upper part is partitioned into right and left sides.

The middle top plate 14 has openings 16, 16 in each of the left and right sections, and accommodates the required number of bundled activated hydration pipes 1, which protrude inward from the number of vessels 8a, and also accommodates the pipe binding plate 6. The lower surface of the periphery of each
After connecting the pipes 7 and 17, the pipe binding plate 6 can be fastened and fixed by bolts 18 which are screwed into the middle top plate 14.

20 is vertically installed on the inner wall surface of the lid body 8b. The lower end is the middle wall plate 1 of the lid body 8a.
The upper surface of 5 is pressed into contact with the gasket 21 interposed therebetween. 2
2 is a pedestal.

Since this device is constructed as described above, when water is supplied to the water supply flange 2, it enters the supply chamber A in the upper part of the container body 8, and then the middle partition walls 15, 2
0, it passes through each activation tube 1..., where it is irradiated with far infrared rays by the far infrared ray generating ceramic 2..., but especially the ceramic 2...
In the part where the spring 3 is located, the flow path is narrow and all of the water is irradiated in close proximity, and in the part where the spring 3 is located, the water flows in a spiral shape and the stirring action is repeated.
Then, each water flows out of the tube from the lower end of each activation pipe 1..., and then flows into the left discharge chamber B of each activation pipe 1...
The water passes through the water supply flange 13 again to reach the desired location, and is sequentially delivered to the desired location from the water delivery flange 13.

In the illustrated embodiment, the container body 8 is installed vertically, but it can of course also be installed horizontally. The activating liquid is not limited to water, but may also be oil or other liquids.

Effects of the invention Since this invention is as described above, it passes close to the liquid far-infrared ray generating ceramic, and the entire fluid is repeatedly irradiated with it and activated in the molecular state. Further, since a spring wound in a certain direction is disposed between each of the ceramics, the liquid flows in the direction of winding of the spring, becomes a vortex, is stirred, and is subjected to physical vibration. It has a synergistic activated hydration effect with far infrared irradiation.

Therefore, according to this invented activator, liquid can be activated extremely efficiently with a small volume.

[Brief explanation of the drawing]

The drawings show an example of the implementation of this devised container body, in which Fig. 1 is a partially cutaway front view showing the internal structure, Fig. 2 is a partially cutaway plan view, and Fig. 3 is a partially cutaway plan view showing the activated water. FIG. 2 is a partially enlarged cross-sectional explanatory diagram of a conversion tube. 1...Activated hydration tube, 2...Far infrared ray generating ceramic, 3...Spring, 4...Stop pin, 5...
Fixed bottom, 6...Pipe binding plate, 7...Mounting hole, 8...
Vessel body, 8a... Vessel body, 8b... Lid body, 9...
Bolt, 10... Open end, 11... Bottom, 12...
...Water supply flange, 13...Water supply flange, 14...
... middle top plate, 15 ... middle wall board, 16 ... opening,
17... Packing, 18... Bolt, 19... Packing, 20... Lid middle wall plate, 21... Packing, 22... Pedestal.

Claims (1)

[Scope of utility model registration request] A cylindrical far-infrared ray generating ceramic with the required outer diameter and height and a spring with a fixed winding direction,
Liquid activation tubes are provided by compressing and housing the tubes of the required diameter and length alternately, and one end of the activation tubes is attached to a mounting hole provided in the plate to bundle the required number of liquid activation tubes. A tube binding plate is provided, the lower end is closed at the bottom,
The upper part of the cylindrical cavity main body, whose upper end is formed as an open end, is sealed and closed by a middle top plate, and the above-mentioned bundle is passed inward into the main body through openings provided in the middle top plate spaced apart from side to side. After accommodating the lower half protrusions of each of the liquid activation tubes, the distribution activation tube binding plate is fixed to the middle top plate, and stands up on the middle top plate to partition the upper part of both openings. 1. A liquid activator, characterized in that the liquid activator is provided in a feeding chamber and a discharge chamber by a lid covering an upper part of the main body, and allows liquid to pass through a liquid activating tube.