JPH10512640A - High efficiency and environmentally friendly fuel economizer - Google Patents

Abstract

A magnetic fuel-saving apparatus for an internal combustion engine includes a magnetic chamber. In said chamber, there are pairs of arranged permanent magnets. The poles of said pairs of arranged magnets face each other and form a gap of 0.5-2.0mm to pass said fuel. A magnetic filter chamber including a permanent magnet is arranged parallel to said magnetic chamber. A magnetic plate is arranged in each opposite end of facing magnets to form a closed circuit. A magnetic plate is arranged in one end of said magnet in said magnetic filter chamber, and another magnetic plate is arranged in the opposite position of said plate on bottom of said magnetic filter chamber to form a regular gap between said permanent magnet and said plate, and provides a closed circuit between said permanent magnet and said plate. The magnetic fuel-saving apparatus can be made up of multichambers and multi-passages. <IMAGE>

Description

DETAILED DESCRIPTION OF THE INVENTION High efficiency and fuel environmental protection economizer 1. TECHNICAL FIELD The present invention relates to internal combustion engines. More particularly, it relates to a magnetized fuel saving device for an automotive fuel engine. To reduce fuel consumption to improve combustion, there are methods of fuel magnetization. This method has the fuel flow through a fuel magnetizer so as to provide a fuel that burns well and improve the fuel's dispersion characteristics and atomization levels to achieve fuel savings. 2. BACKGROUND OF THE INVENTION Utility Model ZL92206719.8 discloses a double cavity magnetized fuel economizer as shown in FIG. The fuel economizer has a through cavity along the length of an aluminum alloy housing of the fuel economizer. The through cavity has two ends that connect to the tube connector by threaded connections, respectively. A magnetized cavity vertically connected to two cylindrical permanent magnets in the magnetized cavity is arranged in the housing. In addition, there is a magnetic filter cavity with a cylindrical permanent magnet in the housing. After the two permanent magnets are placed in the magnetized cavity with the N poles facing each other, the upper end of the magnetized cavity is sealed by a cylindrical block. The advantage of this utility model is that the permanent magnet produces high magnetic energy and has a high intrinsic coercive force, which allows the fuel to burn sufficiently and a strong magnetic effect without being superposed by a static electric field. To increase the output of the engine. The contents of carbon monoxide and hydrocarbons are reduced and the magnetic material such as iron in the fuel does not accumulate much in the magnetic filter cavity due to the attraction of the magnet in this cavity. However, in the case of this utility model, such an arrangement of permanent magnets cannot form a closed magnetic circuit which affects the strength of the magnetic field. Therefore, there is a need to further increase the magnetic field strength to improve the magnetization for the fuel. 3. SUMMARY OF THE INVENTION An object of the present invention is to improve the above-described configuration that can form a closed magnetic circuit in a fuel economizer, increase the strength of a magnetic field, and obtain a high fuel combustion efficiency, and an engine output. To achieve fuel savings and exhaust gas purification. At the same time, the magnetic field strength of the magnetic filter cavity is sufficiently increased so that magnetic materials such as iron floating in the fuel can be completely sucked on this cavity and do not close the cavity again. It is. The present invention provides a magnetized fuel economizer for an internal combustion engine, wherein the internal combustion engine is a housing having a longitudinal through cavity with two ends, each of which has two ends. A hermetically sealed housing, including a tube connector communicating with the fuel supply pipe and having a flared flow path, and a magnetized cavity, wherein the magnetized cavity faces in a direction perpendicular to the through cavity, Two permanent magnets having magnetic poles facing each other are provided, and the distance between the two permanent magnets is 0.5 to 2. A magnetic filter having a fuel passage gap of 0 mm, wherein the internal combustion engine further communicates with the through cavity and is arranged to be parallel to the magnetic cavity with the permanent magnet in the magnetic filter cavity. A magnetic circuit sheet for forming a closed magnetic circuit is provided at the other end of the opposed magnetic poles of the two permanent magnets in the magnetized cavity, the permanent magnetic sheet in the magnetic filter cavity; A magnetic circuit sheet is provided at one end of the magnet, and the other end of the permanent magnet faces a magnetic circuit sheet provided on the bottom surface of the magnetic filter cavity to form a closed magnetic circuit. A fixed fuel passage gap is formed between the two. Compared with the prior art, because of the application of the fuel economizer having the magnetic circuit of the present invention, a closed magnetic circuit can be formed in the fuel economizer, and the useful magnetic field strength and the fuel magnetization efficiency can be reduced. It can achieve the goal of saving fuel and purifying exhaust gas. 4. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a prior art magnetized fuel economizer, FIG. 2 is a sectional view of a fuel economizer of the present invention, FIG. 3 is a top view of the magnetized fuel economizer of the present invention, 4 is a sectional view of a magnetized fuel economizer according to a second embodiment of the present invention, and FIG. 5 is a sectional view of a magnetized fuel economizer according to a third embodiment of the present invention. 5. With reference to the preferred embodiments accompanying drawings invention through examples of the present invention illustrating the present invention below. Some parts are denoted by the same reference numerals. As shown in FIG. 2, the housing is designated by reference numeral 1. The housing 1 has a long annular through cavity with internal threads formed at two ends of the cavity. A magnetic filter and a magnetized cavity are formed on the housing 1, the two cavities being perpendicular and communicating with the long cavity. The two ends of the through cavity are hermetically connected to tube connectors 13 and 14, respectively. The tube connector is made of aluminum alloy or brass. The internal flow path of the tube connector is flared outward at one end and formed to connect with the fuel economizer, and the other part of the tube connector is connected to the fuel supply pipe, carburetor or fuel injection pump. It is formed like a communicating straight pipe. The magnetized cavity is a circular hole with two permanent magnets 3 and 4 whose poles are arranged opposite each other. A fuel passage gap having a width of 0.5 to 2.0 mm is formed between the permanent magnets 3 and 4, and the permanent magnet has a north pole and a north pole, a south pole and a south pole or a north pole and a south pole. They may also face each other and may have magnetic circuit sheets 7 and 8 arranged at the other end of the opposing magnetic poles of the magnets 3 and 4 so as to form a closed magnetic circuit. The magnetic filter cavity is a stepped hole communicating with the long through cavity of the housing 1 and the surface of the housing 1. A permanent magnet 2 is provided in the magnetic filter cavity such that one end is provided with a magnetic circuit weight and the other end is opposed to a magnetic circuit sheet 5 disposed on the lower surface of the magnetic filter cavity. To form a magnetic circuit. A fixed fuel passage gap is formed between the permanent magnet 2 and the magnetic circuit sheet 5. In this embodiment, the width of the gap is about 1-5 mm, preferably 2-3 mm. The magnetic circuit sheet 5 is mounted in a recess in the housing on the bottom side of the magnetic filter cavity. This attachment is achieved by shrink fit and compression bonding of industrial gelatin. Since a magnetic circuit sheet of the type described above is affixed to the magnetic cavity and the magnetic filter cavity, a closed circuit of high magnetic field is formed, which greatly enhances the magnetizing effect of the fuel in the fuel circuit, A remarkable effect of saving and purifying exhaust gas has been achieved. In this embodiment, the permanent magnets 2, 3 and 4 are manufactured from a material of NF 30 into a cylindrical body having a diameter and a height in the range of 6 mm to 80 mm. The intrinsic holding power of the permanent magnet is in the range of 18000 to 20,000 Oe. After magnetizing according to the prior art, the intensity of the magnetic field at the N pole surface is in the range of 4000-5200 gauss. In this embodiment, the magnetic circuit sheet has a diameter of 6 to 80 mm and a thickness of 0. It is made of a magnetically conductive material such as a sheet of iron or silicon steel with a 3-10 mm annular disk or cylindrical shape and an industrial purity level of DT4. During operation of the fuel engine, the fuel passed through the fuel supply pipe through the magnetized fuel economizer in the double cavity, and fuel was formed between the permanent magnet 2 at the bottom of the magnetic filter cavity and the magnetic circuit sheet. It flows through the fuel passage gap. The area passed by the fuel flow changes suddenly. The flow rate of the fuel suddenly changes from slow to high, and the fuel flow is substantially turbulent. The structure of the molecules of a fuel under turbulent conditions is in a state of collision and friction, and changes from a relatively stable state to a metastable state under the influence of Brownian motion of the molecules. Under the pre-magnetization action of the closed magnetic circuit formed by the permanent magnet 2 in the magnetic filter cavity with the magnetic circuit sheets 5 and 6, the molecules under metastable state are partially decomposed. . The fine particles of the fuel tend to be miniaturized and scattered, and at the same time, all the iron magnetic particles floating in the fuel are adsorbed by the permanent magnet 2 to clean the fuel. The fuel flowing out of the aforementioned fuel passage gap is formed between the permanent magnets 3 and 4 through the long through cavity of the housing, and the magnetic poles move into the fuel passage gaps facing each other. The area through which the fuel passes in this gap changes from small to large and suddenly becomes very small again. The fuel which has been in a high-speed turbulent state is again returned to the magnetic circuit sheets 7 and 8 and the permanent magnets 3 and 4. Intensely influenced by the high magnetic force in the formed closed magnetic circuit, the metastable state molecules are more extensively decomposed, the fuel viscosity and density are reduced, and the fuel particles are smaller. It is easily scattered, the level of atomization of the fuel is increased, and the conditions for combining the fuel with oxygen are significantly improved. As a result, the fuel is more fully burned, so that the engine output is increased and the exhaust gas is cleaned. During assembly, the magnetic circuit sheets 7 and 8 are first mounted on the other end of the opposing poles of the permanent magnets 3 and 4, after which the permanent magnets 3 and 4 are placed in the magnetized cavities and the round blocks 10 is secured to the magnetized cavity and sealed via an adhesive to prevent leakage. The width of the fuel passage gap between the permanent magnets 3 and 4 ranges from 0.5 to 2.0 mm. When attached to the tube connectors 13 and 14, the magnetic circuit sheet 5 is compression bonded by shrink fit into the recess at the bottom of the magnetic filter cavity. The diameter of the magnetic circuit sheet 5 must be about 1 mm smaller than the diameter of the permanent magnet. Next, the permanent magnet 2 is inserted into the magnetic filter cavity so that the pole faces the magnetic circuit sheet 5 and the width of the fuel passage gap between the magnetic circuit sheet 5 and the magnetic pole is preferably 2-3 mm. The step limits the magnet 2 to a certain position. Finally, the cavity cover 9 is screwed in and the cover is connected. When the magnetized fuel economizer of the present invention is mounted on an engine, the connection position varies slightly depending on the type of engine. When installed in a gasoline engine, the fuel inlet is connected to the fuel supply pipe of the gasoline pump and the fuel outlet is connected to the carburetor. Preferably, it is connected directly to the vaporizer. When installed in a diesel engine, the fuel inlet is connected to the fuel outlet tube of the filter and the fuel outlet is connected to the fuel injection pump. It is preferable that the fuel is directly supplied to the fuel inlet of the fuel injection pump. FIGS. 4 and 5 show second and third embodiments, respectively, of the present invention, each of which is a multi-fuel circuit fuel economizer, suitable for large tonnage vehicles, tractors, locomotives and ship internal combustion engines. ing. FIG. 4 shows a multi-cavity magnetized fuel economizer with three or more magnetized cavities arranged in long through cavities arranged vertically and parallel to each other. Within these cavities there are a number of pairs of permanent magnets along with the magnetic circuit sheet. The arrangement of the permanent magnets and the magnetic circuit sheets is the same as in the first embodiment. Arranging multiple pairs of permanent magnets has been used to increase the magnetizing effect and repeatedly magnetize the fuel. FIG. 5 shows a multi-fuel circuit magnetized fuel economizer. A plurality of through cavities are arranged in parallel along the longitudinal direction in the housing of the economizer. Each end of the through cavity is connected to a common inlet and outlet of the fuel tube, and each through cavity has a number of pairs of permanent magnets with magnetic circuits arranged as in Example 2. ing. This type of fuel economizer is outstanding for the magnetization of fuel in large internal combustion engines. Compared with the prior art, the fuel economizer of the present invention has the following advantages. 1. The application of a sheet of industrial purity iron or silicon steel forms a closed magnetic circuit in this fuel economizer, increasing the magnetic field strength in the magnetic filter cavity by 50% and increasing the useful magnetic field strength. Greatly increasing the strength of the magnetic field in the magnetic filter cavity by more than 10%, thereby greatly improving the magnetizing effect of the fuel. 2. The addition of two or more stages of enhanced magnetizing process results in a superposition effect, which brings out high magnetic energy generation and the magnetic effect of the high magnetic field strength of the permanent magnet from the fuel, This leads to fuel savings and reduced toxic emissions. Experiments and implementations of the present invention have achieved fuel savings of 10% to 25% and reduced CO and HC by 20% to 80%, respectively. Note that CO decreased by 35% on average and 80% at maximum, HC decreased by 30% on average and 80% at maximum, and smoke density decreased by 20% or more. 3. The magnetic filter cavity has a useful magnetic field strength of up to 6000 gauss and can be used not only to magnetize the first stage fuel but also to effectively adsorb the iron magnetic particles in the fuel. It effectively protects the permanent magnet in the magnetic filter cavity from being accumulated with the iron magnetic substance. Embodiments of the present invention have been described with reference to the accompanying drawings. The present invention has various changes and modifications, which should be included in the spirit and scope of the invention.

[Procedure of Amendment] Article 184-8, Paragraph 1 of the Patent Act [Submission date] April 8, 1997 [Correction contents]                                The scope of the claims 1. It has a long through cavity, and the two ends of the through cavity Tube connectors 13 and 1 having a flared flow passage communicating with the feed pipe 4 has a housing 1 provided hermetically and magnetic poles facing each other Magnetized cavity in the through cavity provided with two permanent magnets 3,4 And a permanent magnet in the magnetic filter cavity communicating with the through cavity. Magnetic filter caps arranged parallel to the magnetic cavity with A fuel having a width of 0.5 to 2.0 mm, which is composed of Opposing magnets of two permanent magnets in the magnetized cavity forming a passage gap Magnetic circuit sheets 7, 8 for forming closed magnetic circuits at the other ends of the poles, respectively. A magnetic circuit is provided at one end of the permanent magnet 2 in the magnetic filter cavity. A sheet 6 is provided, and the other end of the permanent magnet 2 is placed on the bottom surface of the magnetic filter cavity. Facing the provided magnetic circuit sheet 5, thereby forming a closed magnetic circuit Forming a fixed gap between the permanent magnet and the magnetic circuit sheet and closing Magnetized fuel economizer for an internal combustion engine, comprising a defined magnetic circuit. 2. The two permanent magnets 3, 4 provided in the magnetized cavity have an N pole and an N pole. , S and S poles or N and S poles have magnetic poles facing each other, Ports 7, 8 are provided at the other end of the opposed magnetic poles. 2. The magnetized fuel economizer according to claim 1, wherein: 3. A permanent magnet 2 in the magnetic filter cavity; The width of the fuel passage gap between the magnetic circuit sheet on the bottom of the tee and 1 mm to 5 mm 2. The magnetized fuel economizer according to claim 1, wherein the diameter is in mm. 4. The magnetic circuit sheets 5, 6, 7, 8 have a diameter of 6 mm to 80 mm, It should not have an annular disk or cylindrical shape with a thickness of 0.3 mm to 10 mm. The magnetized fuel economizer according to claim 1. 5. The magnetic circuit sheet is made of industrially pure iron DT4 or silicon steel. 2. The magnetized fuel according to claim 1, wherein the magnetized fuel can be manufactured from a magnetically conductive material. Economizer. 6. The permanent magnets 2, 3, and 4 are in the range of 18000 to 20000 Oersteds. N having an intrinsic coercive force and a polar magnetic field strength in the range of 4000 to 5200 Gauss The magnetized fuel economizer according to claim 1, wherein the magnetized fuel economizer is made of a material of F30H. 7. The fuel economizer comprises a multi-cavity having a large number of pairs of permanent magnets 3,4. 2. The magnetized fuel economizer according to claim 1, which is a tea fuel economizer. 8. The fuel economizer is a multi-cavity having a plurality of through cavities. 2. The magnetized fuel economizer according to claim 1, which is a tea fuel economizer.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, PT, SE), OA (BF, BJ, CF, CG , CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, LS, MW, SD, SZ, U G), AM, AT, AU, BB, BG, BR, BY, C A, CZ, DE, DK, EE, ES, FI, GB, GE , HU, IS, JP, KE, KG, KP, KR, KZ, LK, LR, LT, LU, LV, MD, MG, MN, M W, MX, NO, NZ, PL, PT, RO, RU, SD , SE, SG, SI, SK, TJ, TM, TT, UA, UG, US, UZ, VN

Claims (1)

[Claims] 1. It has a long through cavity, and the two ends of the through cavity Tube connectors 13 and 1 having a flared flow passage communicating with the feed pipe 4 has a housing 1 provided hermetically and magnetic poles facing each other Magnetized cavity in the through cavity provided with two permanent magnets 3,4 And a permanent magnet in the magnetic filter cavity communicating with the through cavity. Magnetic filter caps arranged parallel to the magnetic cavity with A fuel having a width of 0.5 to 2.0 mm, which is composed of Opposing magnets of two permanent magnets in the magnetized cavity forming a passage gap Magnetic circuit sheets 7, 8 for forming closed magnetic circuits at the other ends of the poles, respectively. A magnetic circuit is provided at one end of the permanent magnet 2 in the magnetic filter cavity. A sheet 6 is provided, and the other end of the permanent magnet 2 is placed on the bottom surface of the magnetic filter cavity. Facing the provided magnetic circuit sheet 5, thereby forming a closed magnetic circuit To form a fixed fuel passage gap between the permanent magnet and the magnetic circuit sheet A magnetized fuel economizer for internal combustion engines. 2. The two permanent magnets 3, 4 provided in the magnetized cavity have an N pole and an N pole. , S and S poles or N and S poles have magnetic poles facing each other, 2. A magnet according to claim 1, wherein said gates are provided at the other end of the opposed magnetic poles. Fuel economizer. 3. A permanent magnet 2 in the magnetic filter cavity; The width of the fuel passage gap between the magnetic circuit sheet on the bottom of the tee and 1 mm to 5 mm 2. The magnetized fuel economizer according to claim 1, wherein the diameter is in mm. 4. The magnetic circuit sheets 5, 6, 7, 8 have a diameter of 6 mm to 80 mm, It should not have an annular disk or cylindrical shape with a thickness of 0.3 mm to 10 mm. The magnetized fuel economizer according to claim 1. 5. The magnetic circuit sheet is made of industrially pure iron DT4 or silicon steel. 2. The magnetized fuel according to claim 1, wherein the magnetized fuel can be manufactured from a magnetically conductive material. Economizer. 6. The permanent magnets 2, 3, and 4 are in the range of 18000 to 20000 Oersteds. N having an intrinsic coercive force and a polar magnetic field strength in the range of 4000 to 5200 Gauss The magnetized fuel economizer according to claim 1, wherein the magnetized fuel economizer is made of a material of F30H. 7. The fuel economizer comprises a multi-cavity having a large number of pairs of permanent magnets 3,4. 2. The magnetized fuel economizer according to claim 1, which is a tea fuel economizer. 8. The fuel economizer is a multi-cavity having a plurality of through cavities. 2. The magnetized fuel economizer according to claim 1, which is a tea fuel economizer.