WO2008059660A1 - Fluid activation hose - Google Patents

Abstract

[PROBLEMS] To provide a fluid activation hose for delivery of fluid, such as tap water or fuel, that despite simple structure, realizes a striking enhancement of fluid activation, and that is flexible in the disposition of the hose per se to thereby facilitate handling at site operation. [MEANS FOR SOLVING PROBLEMS] The fluid activation hose comprises a tubular base member from a resin material loaded with a radioactive mineral and, provided so as to cover all the outside surface of the base member, and a mantle member from a resin material loaded with a magnetic material. Silicon rubber is employed for the resin material constructing thebase member, and a so-called rubber magnet is employed for the mantle member. Due to this construction, the activation hose is flexible. The radioactive mineral contained in the base member is powder of one or two or more members selected from among radium, germanium and tourmaline. As further characteristics, all the outside surface of the mantle member is covered by a flexible covering member of nitrile rubber.

Description

 Specification

 Fluid activated hose

 Technical field

 TECHNICAL FIELD [0001] The present invention relates to a fluid activation hose used for activating tap water or a fluid such as fuel or gas such as gasoline or light oil.

 Background art

 [0002] Groundwater in which rain and snowfall in mountainous areas have permeated the ground will eventually become spring water and form the source of the river. In this process, the water is broken down by far-infrared rays from minerals and rocks, minusion action, and magnetic action, and the water molecules are subdivided, and from water friction such as collision with rocks and falling from waterfalls. The generated electrons are received and activated to become reducing water, that is, active water. It has been empirically known that these live waters are effective in preventing sludge generation in water pipes, promoting the growth of plants and vegetables, and promoting the health of people and animals.

 However, the activated state of this active water is not maintained for a long period of time, and various effects of the active water are gradually lost. For this reason, a ceramic pipe that activates tap water by radiating far-infrared rays to the tap water in the pipe or forming a magnetic field by applying the above principle of activation is disclosed. ing. Such ceramic pipes are made from ceramic sand porcelain crushed from a mineral porphyry porcelain and then sintered after attaching a thin film of far-infrared radiation paint to the pipe surface, and the pipe surface is subjected to many permanent surfaces. It is configured to be held by a magnet (for example, see Patent Document 1).

 [0004] Incidentally, an internal combustion engine such as an automobile engine is supplied with a fluid such as gasoline, light oil, or gas as a fuel. These fuels, like water, have stable clusters with many molecules bound together. For this reason, oxygen does not reach the deep part of the cluster during fuel combustion, which causes incomplete combustion. When this incomplete combustion state occurs, the internal combustion engine deteriorates as well as the combustion efficiency decreases, that is, the fuel consumption deteriorates, and the exhaust gas contains harmful amounts of carbon monoxide, hydride carbon, nitrogen oxides, etc. It becomes.

In order to prevent the above phenomenon, a cluster of fuel supplied to the internal combustion engine by magnetic action There is disclosed a fuel hose that improves power and fuel consumption and reduces carbon monoxide and the like by subdividing and activating one and burning it efficiently. Such a fuel hose has a structure in which a magnetic tape is wound around a hose body in a spiral shape, and this is covered / rubbed with a rubber tube (see, for example, Patent Document 2).

 Patent Document 1: Japanese Utility Model Hei 3-86093 (1st page, Fig. 1)

 Patent Document 2: JP 2006-220136 (2nd page, Fig. 4)

 Disclosure of the invention

 Problems to be solved by the invention

 [0006] The pipe of the above-mentioned Patent Document 1 is a hard material coated with a far-infrared radiation paint and sintered, and has a configuration in which a plurality of magnets are arranged on a ceramic pipe, so it is not flexible and can be handled. In addition to being inconvenient, there were restrictions on securing the space for pipe placement. In addition, because ceramic is extremely hard, it is almost impossible to adjust the length in the field. This also imposes restrictions on workability!

 [0007] In addition, the hose of Patent Document 2 has a configuration in which a magnetic tape is wound around a conventional fuel hose in a spiral shape and covered with a rubber tube, so that it is flexible unlike the pipe of Patent Document 1. The power that has the advantage, the activation of the fuel is only the magnetic action of the magnetic tape. For this reason, the degree of activation of the fuel was actually low.

 [0008] Furthermore, in both the pipe of Patent Document 1 and the hose of Patent Document 2, the magnet to be arranged is not limited to covering the entire circumference of the pipe or the hose, but is limited to a part. As a result, The magnetic action on the fluid was also limited.

 [0009] Therefore, the present invention has been made in view of such circumstances, and greatly activates the fluid while having a simple structure regardless of whether it is drinking tap water or fuel for an internal combustion engine. Provided is a fluid activated hose that is improved in handling and improved handling during field work with improved flexibility in the arrangement of the hose itself.

 Means for solving the problem

[0010] In order to solve the above problems, the fluid activated hose of the present invention is configured as follows. That is, it is formed from a tubular substrate formed by containing a radioactive mineral in a resin material, and a resin material that covers a part or the whole of the outside of the substrate and contains a magnetic material. It is characterized by its outer shell and power. In addition, the fluid activation hose may be formed in a multilayer form by appropriately arranging the base body, the outer shell body, and further repeatedly, instead of only the two-layer structure of the base body and the outer shell body. As the resin material for forming the base, for example, silicon rubber having oil resistance is suitable. Due to the characteristics of silicon rubber, it is possible to form it softly. Further, it is preferable to employ a so-called “rubber magnet” in which a magnet powder is contained in a resin material such as nitrile rubber, and the rubber magnet can be formed into a soft shape.

[0011] The radioactive mineral to be contained in the substrate is radium, germanium, and tourmaline, one selected from two or more, or two or more selected in a powdery, granular, or gravel state, or these Is a combination. The selection of the radiation mineral and the mixing ratio to the resin material can be appropriately selected in consideration of the characteristics of the fluid to be activated.

[0012] In addition, the fluid activated hose is characterized by having flexibility because the base body and the outer body are formed of the soft resin material as described above. Due to this property, the entire fluid activation hose is flexible, and restrictions on the installation location are reduced, so that the workability at the time of installation is improved.

 [0013] Further, the fluid activated hose is characterized in that a part or the whole of the outer side of the outer shell is covered with a covering made of a soft or hard material. As the covering, a tube made of resin, iron, stainless steel, aluminum, vinyl chloride, or the like is suitable, and characteristics such as flexibility, pressure resistance, oil resistance, heat resistance are considered in consideration of the environment in which it is placed. Should be selected.

 The invention's effect

 [0014] Since the fluid activated hose which is advantageous to the present invention has the above-described configuration, the following effects are obtained.

The fluid flowing through the fluid activated hose continuously and completely emits radiation (alpha rays, beta rays, gamma rays, far infrared rays, etc.) from radioactive minerals contained in the substrate, and magnetic lines from the magnetic material contained from the outer shell. You will bathe in the circumferential direction. Since the fluid is in direct contact with the inner wall surface of the substrate, the radiation acts on the fluid without attenuation, promotes decomposition of the stable clusters of the fluid, and exhibits an effect of further improving the activation. Radioactive minerals, when passed through water, generate gases called radon and thoron, which are useful for the human body. Has a mins effect. For this reason, it is confirmed that the water activated by the fluid activation hose is safe as drinking water and bath water.

 [0015] In addition, since the outer shell containing the magnetic material is disposed outside the base, the circumferential force and magnetism continues to act on the fluid in the same manner as the above radiation, and the base radiation. As a result, the activation of the fluid is greatly improved.

 [0016] Furthermore, since the fluid activation hose has flexibility, it can be given flexibility to arrange it, and handling on site such as processing is also improved. In addition, when a covering is disposed outside the outer shell, various characteristics such as flexibility, pressure resistance, oil resistance, and heat resistance are appropriately added according to the installation environment of the fluid activation hose. And its contribution to the industry is large.

 BEST MODE FOR CARRYING OUT THE INVENTION

[0017] Specific embodiments of a fluid activation hose (hereinafter referred to as "the hose") that will be applied to the present invention will be described below in detail with reference to the drawings. FIG. 1 is a partially cutaway perspective view showing the hose, and FIG. 2 is an explanatory view showing the action of the hose on the fluid.

[0018] The hose 1 has a tubular shape in appearance, and serves as a fluid supply pipe for tap water for drinking water or fuel (gasoline, light oil) to an internal combustion engine such as an engine. It is arranged in the engine room of the vehicle.

 [0019] The hose 1 covers the entire outer surface of a tubular base body 2 that allows fluid to pass through the inner side with an outer shell 3, and presses the base body 2 and the outer shell body 3 into the tubular covering body 4 so that the covering state is maintained. It is composed of a three-layer tube.

[0020] The substrate 2 is formed in a tubular shape by containing a radioactive mineral 21 in a resin material. The resin material is an oil-resistant soft resin material such as silicon rubber, nitrile rubber, etc., and the radioactive mineral is suitably selected from radium, germanium, radon, tourmaline, powdery, granular, gravel, or one or more of these Are appropriately combined. Specifically, the base material 2 is formed by mixing about 20% by weight of the above-mentioned soft resin material with about 20% by weight of the radioactive mineral 21 in the form of powder and the like, kneading and extruding this. Formed. With such a configuration of the substrate 2, radiation is radiated to the fluid that has flexibility and passes through the inside, and leakage of the fluid to the outside is prevented. The outer body 3 that covers the entire surface of the base 2 is a so-called rubber magnet formed by containing a magnetic material in a resin material. The resin material of the outer shell 3 is preferably a soft and elastic polymer resin material or a synthetic resin material, and is nitrile rubber in this embodiment. The magnetic material is a ferrite magnet powder that is widely used in general rubber magnets. Specifically, the outer body 3 is formed by mixing about 85% by weight of the magnetic powder with about 15% by weight of the resin material as a binder, and kneading and extruding this to coat the base 2. Such a configuration of the outer shell 3 has flexibility and forms a high magnetic field in the central direction on the base side.

 [0022] The covering 4 that covers the entire surface of the outer shell 3 has characteristics excellent in pressure resistance, oil resistance, and abrasion resistance, and is formed of nitrile rubber that is a flexible synthetic resin material. Yes. The covering 4 can be omitted as appropriate.

 [0023] Since the hose 1 is composed of the base body 2, the outer shell body 3 and the covering body 4 all having flexibility, the hose as a whole is also flexible. The installation in a small space such as the engine room and the handling at the time of work are remarkably improved.

 [0024] The hose 1 has a two-layer structure of the base body 2 and the outer shell body 3. This layer is further repeated to form layers such as the base body 2, the outer shell body 3, the base body 2, and the outer shell body 3, for example. May be added. In addition, the soft material of the above embodiment is selected as the material of the cover 4, but it is not limited to this. Depending on the installation environment of the hose 1, a metal such as iron, stainless steel, aluminum, copper, etc. It is also possible to use hard materials such as vinyl chloride and vinyl chloride.

 [0025] The hose 1 configured as described above acts on a fluid as follows.

 That is, as shown in FIG. 2, the fluid passing through the hose 1 continuously receives radiation from the radioactive mineral 21 of each base 2 from all directions, and further, the magnetic material of the outer shell 3 Thus, the magnetic action is continuously received from the entire circumference. At this time, radiation is emitted directly and without attenuation to the fluid cluster c inside the substrate, and the magnetic action of the magnetic material is added, so that the subdivision is promoted synergistically.

[0026] As a result of the above action, if it is tap water, there is removal of residual chlorine compounds, deodorization of calcite, cleaning water, and improvement of purification power. If it is a fuel of an internal combustion engine, fuel efficiency is improved by improving combustion efficiency. Improved, output of torque, etc., low of carbon monoxide, hide mouth carbon or nitrogen oxide Specific effects such as reduction can be obtained.

[0027] The results of measuring the quality of tap water in the hose 1 and the results of measuring various performances of the vehicle when the hose 1 is used as a fuel supply hose for vehicles (gasoline and diesel vehicles) are shown below for reference.

[0028] [Hose specification for water quality measurement]

 Length: 2m, substrate outer diameter: 22mm, substrate wall thickness: 2.5mm, outer shell outer diameter: 27mm, outer shell wall thickness: 2.5m, outer cover outer diameter: 32mm, outer wall thickness: 2.5mm

 [Hose specifications for performance measurement for gasoline vehicles]

 Length: lm, substrate outer diameter: 17mm, substrate wall thickness: 2. Omm, outer shell outer diameter: 22mm, outer shell wall thickness: 2.5m, outer cover outer diameter: 26mm, outer wall thickness: 2. Omm

 [Hose specifications for performance measurement for diesel vehicles]

 Length: 2m, Base outer diameter: 22mm, Base body thickness: 2.5mm, Outer shell outer diameter: 27mm, Outer shell thickness: 2.5m, Covered body outer diameter: 32mm, Cover thickness: 2.5mm

[0029] [Measurement result]

 Figures 3 and 4 show the results of measuring the quality of tap water in this hose 1. As a result, we were able to obtain measurement results from the removal of trihalomethanes from tap water generated by chlorination of raw water. In addition, the redox potential of tap water was reduced from 560 mV to 240 mV, and measurement results that improved the redox power could be obtained.

 Figures 5 and 6 show the results of various vehicle performance measurements when the hose 1 is used as a fuel supply hose for vehicles (gasoline vehicles and diesel vehicles). As a result, it was possible to obtain a measurement result in which the fuel efficiency was improved and the carbon monoxide and the hydride carbon were reduced in both the gasoline vehicle and the diesel vehicle.

 Brief Description of Drawings

 FIG. 1 is a partially cutaway perspective view showing the hose.

 FIG. 2 is an explanatory diagram showing the action of the hose on the fluid.

 [Fig. 3] Water quality measurement results for this hose.

 [Fig.4] Measurement results of tap water quality in this hose.

[Fig.5] Various performance measurements of the vehicle when this hose is used as a fuel supply hose for a vehicle (gasoline vehicle) It is a constant result.

 [Fig. 6] Measurement results of various vehicle performances when this hose is used as a fuel supply hose for vehicles (diesel vehicles).

Explanation of symbols

1 hose

2 Substrate

 21 Radioactive minerals

3 Jacket

4 Cover

c cluster

Claims

The scope of the claims  [1] a tubular substrate formed by including a radioactive mineral in a resin material;  It was formed from a resin material that covered a part or the entire surface of the substrate and contained a magnetic material.  The outer shell,  A fluid activated hose characterized in that it also has a force.  [2] The fluid activation hose according to claim 1, wherein the base body and the outer shell are formed in a multilayer shape.  [3] Claim characterized in that the radioactive mineral contained in the substrate is one or a combination of two or more of radium, germanium, and tourmaline formed in a powdery, granular, or gravel form Item 1. A fluid activated hose according to item 1 or 2.  [4] The fluid activated hose according to [1], [2] or [3], wherein the substrate and the outer shell are flexible.  [5] The fluid activated hose according to claim 1, 2 or 4, wherein a part or the whole of the outer side of the outer shell is covered with a covering made of a soft or hard material.