CN201100194Y - Spiral Cone Immersion Nano/Far Infrared Fuel Economizer - Google Patents

Abstract

A spiral conical submerged nano/ far infrared fuel economizer is characterized in that a group of fuel activating ceramic balls or blocks are provided, and are penetratingly arranged on a conical multilayer spiral soft steel wire frame to form a conical multi-layer spiral tower. When in use, the fuel economizer is arranged in a fuel tank and is soaked in fuel, nano waves, far-infrared rays and strong magnetic field or the combination of the waves, rays or the magnetic field are directly acted on fuel to change fuel groups into atom and to catalyze fuel atom in fuel, thereby realizing the purpose of fully combusting fuel.

Description

Spiral Cone Immersion Nano/Far Infrared Fuel Economizer

technical field

The utility model relates to a fuel economizer used by an internal combustion engine (such as a gasoline engine or a diesel engine of an automobile). In particular, it relates to a submerged nanometer/far-infrared fuel economizer immersed in the fuel of a fuel tank.

Background technique

In today's world, oil resources are becoming increasingly tense and fuel prices remain high. Governments of all countries are vigorously advocating energy conservation. In line with the energy-saving trend of countries all over the world, people have developed a variety of internal combustion engine fuel economizers.

At present, the common oil economizers on the market mainly include outer ring type and connection type. The outer ring type fuel saver is generally composed of two semi-circular fuel saving parts. When in use, the two fuel saving parts are combined on the outer diameter of a certain section of the automobile engine's oil delivery hose to surround the oil delivery hose. The way the outside diameter acts on the fuel flowing in the hose. This kind of fuel economizer usually utilizes the principle of strong magnetic field or/and far infrared ray activation to achieve the purpose of fuel saving. The connection type fuel economizer is generally designed with a fuel-saving channel, which is spliced into the flexible oil pipeline when it is used. When the fuel flows through the fuel-saving channel, the fuel is activated by the principle of strong magnetic field or/and far-infrared ray activation, which plays a role Fuel-saving effect.

Yet the common defect that these two kinds of fuel economizers exist is: 1, when fuel oil flows through fuel economizer, strong magnetic field or/and far-infrared just can produce activating effect to the fuel oil that flows through, but not to the fuel oil that does not flow through. effect. 2. Due to the above reasons, the effect time of the fuel economizer on fuel is very short, and the activation effect is limited, which affects the fuel saving effect. Especially for the outer ring type fuel economizer, due to the isolation effect of the fuel delivery hose, the strong Activation effect of magnetic field or/and far infrared rays on fuel oil. For this reason, how to directly and effectively use the existing fuel-saving theory to design a kind of fuel-saving device product with better fuel-saving effect is the problem studied by the utility model.

Contents of the invention

The utility model provides a spiral cone-type submerged nano/far-infrared fuel saver, the purpose of which is to design a fuel saver product with better fuel saving effect by using the existing urgent need for energy.

In order to achieve the above-mentioned purpose, the first technical solution adopted by the utility model is: a spiral cone type submerged nano/far-infrared fuel saver, including a group of fuel-activated ceramic balls or blocks, and this group of fuel-activated ceramic balls or The block is installed on a tapered multi-layer spiral soft steel wire support to form a tapered multi-layer spiral tower.

In order to achieve the above-mentioned purpose, the second technical solution adopted by the utility model is: a spiral cone type submerged nano/far-infrared fuel saver, including a group of fuel-activated ceramic balls or blocks, and this group of fuel-activated ceramic balls or The blocks are arranged in a conical multi-layer spiral hose to form a conical multi-layer spiral tower.

The relevant content in the above-mentioned technical scheme is explained as follows:

1. In the above technical solution, the fuel-activated ceramic ball or block can adopt one of the following four types:

(1), nano ceramic ball or block;

(2), far-infrared ceramic ball or block;

(3), nano-ceramic balls and far-infrared ceramic balls or blocks;

(4) Nano/far infrared ceramic balls or blocks.

Wherein, the nano-ceramic balls contain nano-metal oxide materials. The far-infrared ceramic balls can be spherical or other geometric shapes, and contain far-infrared materials. The nanometer/far-infrared ceramic ball can be spherical or other geometric shapes, and contains a mixture of nanomaterials and far-infrared materials. These are all prior known technologies.

2. In the above scheme, in order to fix on the bottom surface of the iron fuel tank, the bottom layer of the tapered multi-layer spiral soft steel wire support is penetrated into a string of strong magnetic field balls or blocks; or the bottom layer of the tapered multi-layer spiral hose is penetrated into a string of strong The magnetic field ball or block makes the bottom layer of the fuel economizer absorb and fix on the bottom surface of the iron fuel tank.

3. In the above scheme, in order to fix on the bottom surface of the non-ferrous fuel tank, the bottom layer of the conical multi-layer spiral soft steel wire support is penetrated into a series of balls or blocks with oil-proof adhesive sheets, or the conical multi-layer spiral hose The bottom layer is provided with an oil-proof adhesive sheet, so that the bottom layer of the fuel economizer is fixed on the bottom surface of the non-ferrous fuel tank through the oil-proof adhesive sheet.

4. In the above solution, the tapered multi-layer spiral hose can be a metal hose or a non-metal hose.

5. In the above scheme, in order to make the fuel economizer easy to take out from the fuel tank, a sling is provided on the top of the conical multi-layer spiral tower, and the sling is hooked out from the filling port of the fuel tank when in use.

6. In the above scheme, if the fuel economizer needs to be put into the fuel tank, one end of the conical multi-layer spiral tower of the fuel economizer can be put into the fuel tank port first, and then the fuel economizer can be put into the fuel tank as a whole by continuous rotation. After the fuel economizer enters the fuel tank, lift the sling on the top of the fuel economizer so that the big head of the fuel economizer can be stably adsorbed and fixed on the bottom of the fuel tank. If you want to take out the fuel saver, you can pull out the top sling and rotate it continuously to take out the whole fuel saver.

7. In the above scheme, one or several fuel economizers can be immersed in the fuel tank during actual use.

8. In the above scheme, both ends of the spiral soft steel wire or the spiral hose are threaded, and the thread cooperates with the nut to form a head structure.

The working principle of the utility model is: all kinds of fuel oils are hydrocarbons with different molecular weights, generally all are alkane molecules combined by carbon atoms and hydrogen atoms relying on valence bonds. The covalent bonding of hydrogen atoms to carbon atoms makes the molecule polar. Molecules are combined into macromolecular clusters by virtue of the electrostatic attraction of dipole moments. This force is called van der Waals force, so macromolecular clusters are formed, which affects the full combustion of fuel. Under the action of van der Waals force, oil molecules are usually in a state of molecular aggregation and cannot be fully burned. And the utility model adopts the scheme of submerged activated fuel oil, and fuel economizer is arranged in the fuel tank, utilizes the nano wave, far infrared ray, strong magnetic field or its combination that fuel activated ceramic ball emits to directly act on fuel oil. Under the action of nano-particle induction, far-infrared radiation and strong magnetic field magnetization, fuel oil molecules destroy the van der Waals force between oil molecules and become single molecules, forming a long-chain orderly arrangement, changing from "long chain" to "short chain". "chain", even a single molecule, so that the average distance between molecules increases, the fuel concentration decreases, the fluidity improves, especially the atomization performance is greatly improved, which makes it easier to mix with air, makes combustion more complete, and reduces harmful gases in exhaust gas The content of the fuel increases the combustion value of the fuel, achieves the purpose of saving fuel, increasing horsepower and reducing pollution.

Due to the application of the above-mentioned technical solutions, the utility model has the following advantages compared with the prior art:

1. In this utility model, the fuel economizer is soaked in the fuel tank, and it is in the shape of a three-dimensional tower. The fuel activated ceramic ball of the fuel economizer can fully react with the fuel directly and for a long time, so that the fuel molecular clusters are instantaneously micromolecularized, and the fuel is catalyzed. The oil molecules in the fuel enhance the effect of using nano-waves, far-infrared rays and strong magnetic fields to activate fuel, which is conducive to full combustion and improves fuel-saving efficiency.

2. The fuel-activated ceramic ball of the utility model is in direct contact with the fuel, and the swaying of the vehicle during driving can make the fuel interact with nano waves, far-infrared rays and strong magnetic fields evenly and fully, thereby further improving the fuel-saving effect.

3. The utility model can use nano wave, far infrared ray and strong magnetic field alone or in combination. It has flexible design and strong pertinence. In particular, it adopts the immersion mechanism to fully contact with fuel for a long time, creating a new way to install fuel economizers. , creating good conditions for further improving the fuel-saving effect.

4. The utility model has a multi-layer tower in the fuel tank, the area of the ceramic ball is greatly increased, the contact area to the fuel is greatly increased, and the fuel-saving effect is improved.

5. The utility model can be taken out or put down in the fuel tank by a sling, and can be fixed on the bottom of the fuel tank by strong magnetic field ball adsorption or oil-proof adhesive ball, which is very convenient to install and use.

Description of drawings

Accompanying drawing 1 is a three-dimensional view of a fuel economizer (spiral soft steel wire type) of the utility model embodiment;

Accompanying drawing 2 is the front view of the tapered multi-layer spiral soft steel wire support in Embodiment 1 of the utility model;

Accompanying drawing 3 is the sectional view of activated ceramic ball or magnetic ball;

Accompanying drawing 4 is the three-dimensional view of the fuel economizer (spiral hose type) of the second embodiment of the utility model;

Accompanying drawing 5 is the schematic diagram of the use status of the utility model.

In the above drawings: 1. Strong magnetic field ball; 2. Nano/far-infrared ceramic ball; 3. Conical multi-layer spiral tower; 4. Hanging rope; 5. Perforation; 6. Conical multi-layer spiral soft steel wire support; 7 , Conical multi-layer spiral hose; 8, Nut.

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is further described:

Embodiment one: referring to shown in Fig. 1, a kind of spiral cone type submerged nanometer/far-infrared ray oil saver (spiral soft steel wire type), mainly consists of a group of nanometer/far-infrared ray ceramic balls 2, a group of strong magnetic field balls 1 and A tapered multi-layer spiral soft steel wire support 6 (see Figure 2) is formed. A set of nano/far-infrared ceramic balls 2 and a set of strong magnetic field balls 1 are installed on the conical multi-layer spiral soft steel wire support 6 to form a conical multi-layer spiral tower 3 . There is a perforation 5 on the nano/far-infrared ceramic ball 2, as shown in FIG. 3 . Strong magnetic field ball 1 is also provided with perforation the same as nanometer/far-infrared ray ceramic ball 2. The tapered multi-layer spiral soft steel wire support 6 is made into a tapered shape by the soft steel wire helically wound, as the skeleton supporting each nanometer/far-infrared ray ceramic ball 2 and each strong magnetic field ball 1. The strong magnetic field ball 1 adopts NdFeB permanent magnets, which are installed in the bottom layer of the tapered multi-layer spiral soft steel wire support 6, which not only plays the role of adsorption and fixation, but also magnetizes the fuel. The nano/far-infrared ceramic ball 2 is followed by the strong magnetic field ball 1 from the bottom layer to the top along the tapered multi-layer spiral soft steel wire support 6, forming the state shown in Figure 1. The top of the fuel economizer tower is provided with a sling 4, and when the fuel economizer is taken out, it is hooked out from the filler port of the fuel tank. The soft steel wire at the top of the tower body is provided with threads, and after the strong magnetic field ball 1 and the nano/far-infrared ceramic ball 2 penetrate from the soft steel wire at the top of the tower body, the nut 8 locks the top of the tower body. The soft steel wire at the top of the tower body is horizontally provided with small holes, and the suspension rope 4 passes through the small holes and is fixed. The usage state of this embodiment is shown in FIG. 5 .

In addition, for the bottom of the non-ferrous fuel tank, the bottom layer of the tapered multi-layer spiral soft steel wire support 6 penetrates a series of strong magnetic field balls 1 provided with an oil-proof adhesive sheet, so that the bottom layer of the fuel economizer is fixed on the non-ferrous metal via the oil-proof adhesive sheet. On the bottom of the fuel tank (not shown in the figure).

Embodiment two: see accompanying drawing 4 shown, a kind of spiral cone type submerged nanometer/far-infrared ray oil saver (spiral hose type), mainly by a group of nanometer/far-infrared ray ceramic ball 2, a group of strong magnetic field ball 1 And a tapered multi-layer spiral hose 7 forms. A set of nano/far-infrared ceramic balls 2 and a set of strong magnetic field balls 1 are installed in a tapered multi-layer spiral hose 7 to form a tapered multi-layer spiral tower 3 . The difference from Embodiment 1 is that the tapered multi-layer spiral soft steel wire support 6 is replaced by the tapered multi-layer spiral hose 7, and the nano/far-infrared ceramic ball 2 and the strong magnetic field ball 1 are installed in a spiral soft pipe. The hose body can be made of metal material or non-metal material. For the bottom of the non-ferrous fuel tank, the bottom layer of the tapered multi-layer spiral hose 7 is provided with an oil-proof adhesive sheet, so that the bottom layer of the fuel economizer is fixed on the bottom surface of the non-ferrous fuel tank. Others are the same as the first embodiment, and will not be described again here.

The above-mentioned embodiments are only to illustrate the technical concept and characteristics of the present utility model, and its purpose is to enable those familiar with this technology to understand the content of the present utility model and implement it accordingly, and not to limit the protection scope of the present utility model. All equivalent changes or modifications made according to the spirit of the utility model shall fall within the protection scope of the utility model.

Claims (10)

1. the tapered immersion nanometer of spiral/XIR Extreme Infrared fuel economizer, it is characterized in that: comprise one group of fuel activating ceramic ball or piece, this group fuel activating ceramic ball or piece are arranged on the taper multi-layer helical stone dead wire support, form a taper multi-layer helical tower.

2. fuel economizer according to claim 1 is characterized in that: described taper multi-layer helical stone dead wire support bottom pierces into a string high magnetic fields ball or piece.

3. fuel economizer according to claim 1 is characterized in that: taper multi-layer helical stone dead wire support bottom pierces into a string ball or piece that is provided with grease proofing sticking tablet.

4. fuel economizer according to claim 1 is characterized in that: the top of described taper multi-layer helical tower also is provided with lifting rope.

5. fuel economizer according to claim 1 is characterized in that: all there is screw thread at two of described taper multi-layer helical stone dead wire support, and this screw thread cooperates the formation end enclosure structure with nut.

6. the tapered immersion nanometer of spiral/XIR Extreme Infrared fuel economizer, it is characterized in that: comprise one group of fuel activating ceramic ball or piece, this group fuel activating ceramic ball or piece are arranged in the taper multi-layer helical flexible pipe, form a taper multi-layer helical tower.

7. fuel economizer according to claim 6 is characterized in that: described taper multi-layer helical flexible pipe bottom pierces into a string high magnetic fields ball or piece.

8. fuel economizer according to claim 6 is characterized in that: described taper multi-layer helical flexible pipe bottom is provided with grease proofing sticking tablet.

9. fuel economizer according to claim 6 is characterized in that: the top of described taper multi-layer helical tower also is provided with lifting rope.

10. fuel economizer according to claim 6 is characterized in that: all there is screw thread at two of described taper multi-layer helical flexible pipe, and this screw thread cooperates the formation end enclosure structure with nut.

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