CN201090327Y - Environmental protection infrared nanometer magnetized economizer - Google Patents

Environmental protection infrared nanometer magnetized economizer Download PDF

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Publication number
CN201090327Y
CN201090327Y CNU2007201952360U CN200720195236U CN201090327Y CN 201090327 Y CN201090327 Y CN 201090327Y CN U2007201952360 U CNU2007201952360 U CN U2007201952360U CN 200720195236 U CN200720195236 U CN 200720195236U CN 201090327 Y CN201090327 Y CN 201090327Y
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China
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infrared
magnetized
ring
fuel
magnetizing
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CNU2007201952360U
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Chinese (zh)
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杰 徐
林以进
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徐 杰;林以进
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Priority to CNU2007201952360U priority Critical patent/CN201090327Y/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/10Internal combustion engine [ICE] based vehicles
    • Y02T10/12Technologies for the improvement of indicated efficiency of a conventional ICE
    • Y02T10/126Acting upon fuel or oxidizing compound, e.g. pre-treatment by catalysts, ultrasound or electricity

Abstract

The utility model discloses an environmental-protection infrared nanometer magnetized oil saver, which is characterized in comprising a magnetizing part and an infrared part, wherein the magnetizing part is a magnetized ring that is composed of two symmetrically-arranged semi-cylinders, a magnet is arranged in each semi-cylinder, the infrared part is formed by an infrared rubber bar that is spirally twisted on outer wall of oil tube, the magnetizing ring is sleeved at the end of the oil tube near the engine, the infrared rubber bar is arranged inside the magnetizing ring, moreover one end of the infrared rubber bar is against the opposite end face of the magnetizing ring. In the utility model the magnetizing ring is combined with the infrared rubber bar so as to form two stage atomization effect, so that fuel oil inputted into the engine can be combusted sufficiently so as to improve fuel oil utilization ratio, thereby reducing oil consumption, simultaneously the sufficient combustion of fuel oil can reduce the emission of harmful gas so as to be advantageous for environmental protection.

Description

环保红外纳米磁化节油器技术领域本实用新型涉及一种节油器,具体涉及一种用于车辆发动机端输油管上的环保红外纳米磁化节油器,适用于各类机动车辆,如轿车或是货车,以提高燃油的使用率来实现节油的效果。 Infrared environmental magnetic nanotechnology fuel present invention relates to a fuel-saving device, particularly it relates to an eco-friendly nano-infrared magnetization fuel economy of the vehicle on the end of the pipeline for an engine, applicable to all types of motor vehicles such as cars or trucks to improve fuel usage to achieve fuel economy results. 背景技术机动车节油方法传统的有两种:一是降低机动车发动机的输出功率,即减小发动机的排气量,但是机动车的舒适性和速度性能也同时降低;二是提高发动机燃油的燃烧功效,即提髙发动机单位燃油的输出功率,也就是提高燃油的使用效率,但是现有的机动车节油装置一般都比较复杂并且效果不理想。 Motor vehicle with a fuel-efficient two conventional methods: First, reduce the displacement of the output power of the engine of the motor vehicle, i.e. the engine is reduced, but the comfort and the vehicle speed performance also reduced; second is to improve engine fuel the combustion efficiency, i.e. mention Gao engine power output per unit of fuel, which is used to improve fuel efficiency, but the conventional vehicle fuel apparatus are generally complicated and is not ideal. 目前市场上流通的节油器中大致可分为四类:一是机械类,如电子化油装置,不但生产成本髙、安装困难,而且易发生故障,不易维护;二是化学添加剂类,不论是机油添加剂还是燃油添加剂,都操作繁杂;三是单一的磁化类,在燃油进入发动机前对其进行磁化,以此提髙燃油的燃烧率,达到节油目的,但结构复杂,甚至于要改变原发动机的结构;四是单一的红外类, 通过红外波对燃油进行预热,促使燃油的充分燃烧,但节油效果较差。 Currently in circulation in the market in fuel economy can be roughly divided into four categories: one is mechanical, electronic apparatus oils, not only the production cost Gao, difficult to install, and prone to failure and difficult to maintain; two chemical additives, whether fuel oil additives are additives or are complicated operation; third single class magnetization, its magnetization fuel before entering the engine, in order to provide Gao fuel firing rate, to achieve the purpose of fuel economy, but the complexity of the structure, and even to change the original structure of the engine; Fourth single infrared type, the fuel is preheated by infrared waves, to promote combustion of the fuel, but the fuel efficiency is poor. 发明内容本实用新型目的是提供一种结构简单,安装方便的环保红外纳米磁化节油器,使用该节油器,可大大提高燃油使用率,节省油量的消耗。 Object of the present invention is to provide a simple structure, easy installation infrared nano magnetic environmental fuel economy, use of the fuel economy, can greatly improve the fuel efficiency, save fuel consumption. 为达到上述目的,本实用新型采用的技术方案是: 一种环保红外纳米磁化节油器,包括磁化部和红外部,所述磁化部由2组对称布置的半圆柱体拼合构成的磁化环组成,每一所述半圆柱体内设有磁块;所述红外部由螺旋缠绕于油管外壁的红外橡胶条构成;所述磁化环套设于油管的近发动机端,所述红外橡胶条位于磁化环的内侧,且其一端紧靠于磁化环相对侧的端面上。 To achieve the above object, the technical solution of the present invention uses: an environmentally infrared nano magnetic fuel economy, and red outer portion comprising a magnetized, the magnetization of the magnetization portion of the two groups arranged symmetrically constructed semi-cylindrical split rings each of said semi-cylindrical body equipped with a magnetic block; the red is constituted by the outer spirally wound on the outer wall of the infrared rubber tubing; the magnetized ring sleeved on the engine near the end of the tubing, said infrared strip of rubber positioned magnetized ring inner side, and one end of the ring against the opposite side of the magnetized end face. 上述技术方案中,所述磁化部经两组半圆柱体套设于油管外,内设的磁块磁性能指标在3000~5000髙斯;所述红外部由以橡胶为载体、添加红外纳米矿物质的红外橡胶条构成,其以螺旋缠绕的方式包覆于油管壁上,其制作工程为:将可以产生远红外的矿物质分解至纳米级,使其远红外的能量放射显著提髙,再用远红外纳米矿物质与橡胶颗粒有机溶合,通过橡胶设备挤出,高温定型后,即成为该新型红外纳米橡胶条。 In the above technical solution, the magnetization by two half-cylinder portion sleeved on the outer pipe, equipped with magnetic blocks magnetic indicator in 3000 to 5000 of Gaussians; red exterior of the rubber as a carrier, adding an infrared ore nano rubber material constituting the infrared, which is coated on a helical wound tubing wall, its production engineering: the minerals may be generated far-infrared decomposition to nano-scale, so far infrared radiation energy significantly improve Gao, and then nano minerals and far-infrared fusion of organic rubber particles, rubber extruded through the device, after heat setting, i.e., becomes the new infrared nano rubber. 在使用时,当燃油从油箱通过进油管进入发动机时,先通过包覆有红外橡胶条的油管,红外电磁波穿透管壁对烯油进行活化及细化与分离杂质的运作,使燃油增加溶氧率,更易雾化点燃,然后再通过两级磁化环的磁化,受磁化的燃油结构产生变化,促使燃油分子裂解,长链变成短链,大颗粒变成小颗粒,并改变了燃油分子的排布,使颗粒变浠化,分散能力提髙,雾化效果增强;通过两级雾化能力的增强(红外+磁化),使发动机能够以最均匀浠薄的可燃混合气工作,燃烧效率显著提髙,从而减少燃油的消耗。 In use, when the fuel enters the engine through an intake pipe from the tank, through a first rubber-coated tubing with an infrared, infrared waves penetrate the wall of the operating oil alkenyl refinement and separation of impurities and activation of the fuel solvent increases oxygen rate, more atomized ignition, then the magnetization of the two magnetic rings, by magnetic structures vary fuel, fuel elements to promote cleavage, long chain becomes short chain, big particle into small particles, and changing the fuel elements the arrangement of the particles of the change Hay, mention Gao dispersibility, the atomization effect is enhanced; by enhancing the ability of two atomizing (IR + magnetization) of the engine in the most uniform thin Hay work combustible gas mixture, the combustion efficiency Gao significantly improve, thereby reducing fuel consumption. 上述技术方案中,所述磁化环由壳体与永磁体块组成,所述壳体的内径与油管的外径相配合,壳体端面上设有弧形凹槽,嵌设于该弧形凹槽内的所述永磁体块与凹槽内壁相配合。 In the above technical solution, the magnetization of the permanent magnet by the housing ring blocks, the outer diameter of the tubing with an inner diameter of the housing cooperates with the arcuate groove end surface of the housing, embedded in the arcuate recess the permanent magnet segment groove inner wall cooperates with the recess. 上述技术方案中,组成所述磁化环的半圆柱体的拼接处设有卡合结构, 对称布置的半圆柱体经卡合结构连接构成所述磁化环。 In the above technical solution, the composition of the semi-cylinders splice magnetization loop engaging structure is provided, symmetrically arranged engagement by semi-cylindrical structure connected to form the ring magnetization. 由于上述技术方案运用,本实用新型与现有技术相比具有的优点是:1、 由于本实用新型通过运用磁化环与红外橡胶条的组合,构成红外加磁化的两级雾化燃油功效,与以往单级雾化的结构相比较,可使送入发动机的燃油更易于被点燃,且燃烧更完全,故动力可以增强,从而减少了燃油的消耗;2、 由于燃油得到充分燃烧,使一氧化碳(CO)、碳氢化合物(HC)和氮氧化合物(NOX)等尾气排放大副降低,利于环保;同时,可防止产生氮氧化物和碳素沉淀物,消除发动机燃烧室积碳,使发动机运作顺畅,引擎及相关部件寿命延长;3、 由于本实用新型在安装时,只需将磁化环套设于油管上、红外橡胶条缠绕于油管上,因而安装较为方便,结构也相对简单,可适用于各类机动车油管上。 Using the above technical solution, the present invention has the advantage over the prior art are: 1, due to the combination of the present invention through the use of infrared magnetized ring with a rubber strip constituting two infrared atomized fuel increase effect magnetization, and atomizing the conventional single-stage structure compared to fuel delivered to the engine can be more easily ignited, and the more complete combustion, so that power can be enhanced, thereby reducing the fuel consumption; 2, since the full fuel combustion, carbon monoxide ( CO), reduced emissions mate hydrocarbons (HC) and nitrogen oxides (of NOX), etc., beneficial to the environment; the same time, prevent the generation of nitrogen oxides and carbonaceous precipitates, eliminating engine combustion chamber deposits, the engine operation smooth, engine longevity and related components; 3, since the present invention during installation, only the magnetization of the collar disposed on the tubing, the infrared rubber strip wound on the tubing, and thus is more convenient to install, relatively simple structure, applicable to all types of motor vehicle tubing. 附图说明图1是本实用新型实施例一的结构示意图;图2是图1的组装结构示意图(磁块未画出);图3是图1中组成磁化环的单个半圆柱体的结构示意图;图4是图1中红外橡胶条的结构示意图。 BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a structural diagram of an embodiment according to the present embodiment of the invention; FIG. 2 is a schematic view of an assembly structure (magnet not shown) of FIG. 1; FIG. 3 is a schematic structural diagram of FIG. 1 in a single magnetic ring consisting of half-cylinder ; FIG. 4 is a schematic view of the rubber strip infrared FIG. 其中:1、磁化环;2、红外橡胶条:3、油管;4、半圆柱体;5、弧形凹槽;6、磁块。 Wherein: 1, magnetic rings; 2, infrared rubber: 3, tubing; 4, half-cylinders; 5, arcuate grooves; 6, magnet block. 具体实施方式下面结合附图及实施例对本实用新型作进一步描述:实施例一:参见图l至图4所示, 一种环保红外纳米磁化节油器,包括磁化部和红外部,所述磁化部由2组对称布置的半圆柱体4拼合构成的磁化环l组成,每一所述半圆柱体4内设有磁块6;所述红外部由螺旋缠绕于油管3外壁的红外橡胶条2构成;所述磁化环1套设于油管3的近发动机端, 所述红外橡胶条2位于磁化环1的内侧,且其一端紧靠于磁化环1相对侧的端面上。 DETAILED DESCRIPTION The following drawings and embodiments of the present invention is further described as: Example I: Referring to Figure l, the magnetization of an eco-friendly nano-saving infrared FIG. 4, and includes a magnetized portion outside red, the magnetization 2 a section of half-cylinder sets disposed symmetrically split magnetized ring 4 is constituted with l, each of said half cylinder 4 is provided with a magnetic block 6; the red is wound on the outer pipe 3 by the spiral outer wall of the rubber strip 2 of the infrared configuration; 1 set near the magnetic ring provided on the engine side of the tubing 3, the infrared rubber ring 2 is located inside a magnetized, and one end thereof abuts against an end face of a ring magnetized in the opposite side. 本实施例中,所述磁化环1由壳体与永磁体块组成,所述壳体的内径与油管3的外径相配合,壳体端面上设有弧形,嵌设于该弧形凹槽5内的所述永磁体块与凹槽内壁相配合。 In this embodiment, the ring magnetized by the housing 1 and the permanent magnet blocks, the inner diameter of the outer diameter of the tubing and the casing 3 cooperates with curved end surface of the housing, embedded in the arcuate recess the permanent magnet segment cooperating with the inner wall of the recess in the groove 5. 安装时,参见图2所示,将四个塑料壳体半圆柱体4扣于油管3上,构成2组磁化环1,再将红外橡胶条2紧靠磁化环1内端面缠绕于油管3上, 扣紧、缠牢即安装完毕。 When installed, see FIG. 2, the four semi-cylindrical plastic casing 4 button on the tubing 3, magnetized ring 1 constituting group 2, then the infrared rubber strip 2 against the end surface magnetized ring 3 is wound on the inner pipe 1 , fastened securely wrapped around that is installed. 在常温下,对两辆小车(捷达、桑塔娜)进行节油效果测试,安装本实施例后,两车分别行驶了5065km和4566km,相较于未安装时,节油率分别达到19.7%和7.8%。 At room temperature for two cars (Jetta, Santana) for fuel efficiency test, after the installation of the present embodiment, the two vehicles were traveling 5065km and 4566km, when compared to not installed, saving rate reached 19.7%, respectively and 7.8%. 实施例二:本实施例结构类似于实施例一,不同点在于:组成所述磁化环的半圆柱体的拼接处设有卡合结构,对称布置的2个半圆柱体的相对侧上的插槽与凸起配合插接卡合,构成磁化环。 Example II: Example of the present embodiment is similar to the structure of Embodiment 1 except that: the composition of the semi-cylinders splice magnetization loop engaging structure is provided, inserted in the two half-cylinder disposed symmetrically on opposite sides of grooves and projections engaging mating connector constituting the magnetized ring.

Claims (3)

1.一种环保红外纳米磁化节油器,其特征在于:包括磁化部和红外部,所述磁化部由2组对称布置的半圆柱体(4)拼合构成的磁化环(1)组成,每一所述半圆柱体(4)内设有磁块(6);所述红外部由螺旋缠绕于油管(3)外壁的红外橡胶条(2)构成;所述磁化环(1)套设于油管(3)的近发动机端,所述红外橡胶条(2)位于磁化环(1)的内侧,且其一端紧靠于磁化环(1)相对侧的端面上。 An infrared nano magnetic environmental fuel, characterized in that: a red and a magnetized portion outside the portion magnetized by a symmetrical arrangement of two sets of half-cylinders (4) magnetized ring (1) composed of a split, each said half cylinder (4) is provided with magnetic blocks (6); the red is wound around the outer tube (3) of the outer wall of the infrared rubber strip (2) constituted by a coil; the magnetized ring (1) provided in the sleeve near the end pipe of the engine (3), said infrared rubber strip (2) is located inside the magnetized ring (1), and having one end abutting against the magnetized ring (1) opposite the end face side.
2. 根据权利要求1所述的环保红外纳米磁化节油器,其特征在于:所述磁化环(l)由壳体与永磁体块组成,所述壳体的内径与油管(3)的外径相配合,壳体端面上设有弧形凹槽(5),嵌设于该弧形凹槽(5)内的所述永磁体块与凹槽内壁"相配合。 The infrared environmental according to claim 1 nanometer magnetization fuel economizer, wherein: said magnetic ring (l) by the housing and the permanent magnet blocks, the inner diameter of the casing and the tubing (3) of the outer diameter cooperates with the arcuate groove (5) end surface of the housing, the permanent magnet is embedded in the inner wall of the groove block "within the arcuate recess (5) cooperates.
3. 根据权利要求1所述的环保红外纳米磁化节油器,其特征在于:组成所述磁化环(1)的半圆柱体(4)的拼接处设有卡合结构,对称布置的半圆柱体经卡合结构连接构成所述磁化环(l)。 The magnetization fuel economy and environmental protection nanometer infrared according to claim 1, wherein: the composition of the magnetized ring (1) of the half-cylinder (4) provided at the splicing engaging structure, symmetrically arranged semicylindrical connector body by engaging structure constituting the magnetized ring (l).
CNU2007201952360U 2007-11-09 2007-11-09 Environmental protection infrared nanometer magnetized economizer CN201090327Y (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105626325A (en) * 2016-01-15 2016-06-01 姜玉敏 Energy-saving type temperature control and induction intensifier for fuel oil
CN105673268A (en) * 2016-01-15 2016-06-15 姜玉敏 Temperature control induction digital oil floater for improving activity of diesel oil
WO2018120485A1 (en) * 2016-12-31 2018-07-05 徐杰 Energy saving and emission reduction device for petrol engine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105626325A (en) * 2016-01-15 2016-06-01 姜玉敏 Energy-saving type temperature control and induction intensifier for fuel oil
CN105673268A (en) * 2016-01-15 2016-06-15 姜玉敏 Temperature control induction digital oil floater for improving activity of diesel oil
WO2018120485A1 (en) * 2016-12-31 2018-07-05 徐杰 Energy saving and emission reduction device for petrol engine

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