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    • 1. 发明专利
    • Exhaust emission control device of engine
    • 发动机排气控制装置
    • JP2008138583A
    • 2008-06-19
    • JP2006325290
    • 2006-12-01
    • Denso Corp株式会社デンソー
    • NAGATOMO HIROAKIOKAJIMA MASAHIRO
    • F01N3/08B01D53/94
    • F01N3/2066F01N2610/02F01N2610/14Y02T10/24
    • PROBLEM TO BE SOLVED: To execute suitable exhaust emission purification by addition of a reducing agent while protecting a reducing agent addition valve and a reducing agent supply part.
      SOLUTION: A DPF 12 and an SCR catalyst 13 are arranged on an exhaust pipe 11, and a urea aqueous solution addition valve 15 for adding and supplying a urea aqueous solution in the exhaust pipe 11 is arranged between the DPF 12 and the SCR catalyst 13. As a structure of a urea aqueous solution supply part, a urea aqueous solution having predetermined concentration is stored in a urea aqueous solution tank 21, and a urea aqueous solution pump 22 is arranged in the tank 21. An ECU 30 opens the urea aqueous solution addition valve 15 in response to congelation change of the urea aqueous solution remaining in the urea aqueous solution addition valve 15 and the like after stopping an engine. Thereby, the remaining urea aqueous solution in the urea aqueous solution addition valve 15 and the like is discharged.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:通过添加还原剂来执行合适的废气净化,同时保护还原剂添加阀和还原剂供应部分。 解决方案:DPF 12和SCR催化剂13布置在排气管11上,并且用于在排气管11中添加和供应尿素水溶液的尿素水溶液添加阀15布置在DPF 12和 SCR催化剂13.作为尿素水溶液供给部的结构,将具有预定浓度的尿素水溶液储存在尿素水溶液罐21中,并且将尿素水溶液泵22配置在罐21中.ECM30打开 尿素水溶液添加阀15响应于在停止发动机之后残留在尿素水溶液添加阀15等中的尿素水溶液的凝结变化。 由此,排出尿素水溶液添加阀15等中的剩余的尿素水溶液。 版权所有(C)2008,JPO&INPIT
    • 2. 发明专利
    • Exhaust gas treatment apparatus of internal combustion engine
    • 内燃机排气处理装置
    • JP2008019853A
    • 2008-01-31
    • JP2007062171
    • 2007-03-12
    • Denso Corp株式会社デンソー
    • OKAJIMA MASAHIROKUROYANAGI MASATOSHINISHIJIMA YOSHIAKI
    • F01N3/02B03C3/02B03C3/40B03C3/49
    • F01N3/0275B03C3/0175B03C3/06B03C3/12B03C2201/08B03C2201/10B03C2201/30F01N3/01F01N13/009F01N13/0097F01N2240/28
    • PROBLEM TO BE SOLVED: To improve electrostatic collection performance by preventing electrostatically collected fine particles from scattering again by impact in collection, or separating to be discharged, in an exhaust gas treatment apparatus of an internal combustion engine using corona discharge. SOLUTION: A corona discharge electrode 2 and an electrostatic collection metal filter 3 being a dust collection electrode are oppositely arranged nearly at the center part of an exhaust passage 11 of an internal combustion engine and its downstream side, respectively. The electrostatic collection metal filter 3 comprises: an inner peripheral passage 32 having a hollow tubular shape and continuing to the exhaust passage 11; and a conductive outer peripheral filter part 31 formed with a cylindrical wall part in its circumference, attracts aggregated fine particles included in an exhaust gas flow to the outer peripheral filter part 31 by Coulomb's force, and inductively retains them in multiple partitioned capture space parts 33 opened to the inner peripheral passage 32. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:通过使用电晕放电在内燃机的废气处理装置中防止静电收集的细颗粒再次通过收集冲击或分离排出来改善静电收集性能。 解决方案:作为集尘电极的电晕放电电极2和静电收集金属过滤器3分别相对地布置在内燃机的排气通道11的中心部分及其下游侧。 静电收集金属过滤器3包括:具有中空管状形状并连续到排气通道11的内周通道32; 并且在其圆周上形成有圆筒形壁部的导电外周过滤器部31,通过库仑力将排气流中包含的聚集微粒吸引到外周过滤器部31,并将其感应地保持在多个分割捕获空间部33 向内围通道32开放。版权所有(C)2008,JPO&INPIT
    • 3. 发明专利
    • Exhaust gas treatment device
    • 排气处理装置
    • JP2006291708A
    • 2006-10-26
    • JP2005108876
    • 2005-04-05
    • Denso Corp株式会社デンソー
    • OKAJIMA MASAHIROSUZUKI HIROBUMI
    • F01N3/02B03C3/40B03C3/41B03C3/47
    • B03C3/70B03C3/08B03C3/41F01N3/01F01N3/035F01N2240/04
    • PROBLEM TO BE SOLVED: To provide an exhaust gas treatment device having excellent insulation. SOLUTION: This invented exhaust gas treatment device includes an exhaust pipe 1, a discharge electrode 2, and an opposed electrode 3, discharges electrical charge from the discharge electrode 2 to electrostatically charge particulate matter in exhaust gas, and agglutinates electrostatically charged particulate matter by the opposed electrode 3 and collects electrical charge. The discharge electrode 2 includes an electrical discharge part 20, a conductive part 21 provided with at least a shaft part 211 and an isolation part 22. Thickness in a radial direction of the isolation part 22 at a tip part 220 on the electrical discharge part side is formed thinner then other part. This invented exhaust treatment device suppresses accumulation of particulate matter on a tip part by making heat capacity of the tip part of the isolation part small, particulate matter adhering on an outer surface of the isolation part interrupts conduction of the conductive part and the exhaust pipe to secure high electrical isolation. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供具有优异绝缘性的废气处理装置。 解决方案:本发明的废气处理装置包括排气管1,放电电极2和相对电极3,从放电电极2排出电荷,对废气中的颗粒物进行静电充电,并将静电电荷的微粒 并且收集电荷。 放电电极2包括放电部20,设置有至少轴部211和隔离部22的导电部21.在放电部侧的顶端部220处的隔离部22的径向的厚度 形成比其他部分更薄。 本发明的排气处理装置通过使隔离部的前端部的热容变小,从而抑制颗粒物质在顶端部的积聚,附着在隔离部的外表面的颗粒物质中断导电部和排气管的导通, 确保高电隔离。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Exhaust emission control device
    • 排气排放控制装置
    • JP2006200511A
    • 2006-08-03
    • JP2005015877
    • 2005-01-24
    • Denso Corp株式会社デンソー
    • OKAJIMA MASAHIRO
    • F01N3/08B01D53/94
    • Y02C20/10
    • PROBLEM TO BE SOLVED: To provide an exhaust emission control device capable of minimizing fuel pressure fluctuation (pressure pulsation) in an addition system including a reducing agent addition valve and a pipe, when the reducing agent addition valve for injecting a fuel component to exhaust gas is provided in the middle of an exhaust pipe. SOLUTION: This exhaust emission control device is provided with the exhaust pipe 31 extending from an internal combustion engine and exhausting exhaust gas; a NOx elimination device 38 arranged in the exhaust pipe 31 and eliminating NOx in exhaust gas; the reducing agent addition valve 40 connected with a fuel tank 28 by the pipe 43 and injecting the fuel component to exhaust gas in the vicinity of the NOx elimination device 38; and a pulsation suppressing member 45 which is provided in the addition system 47 including the reducing agent addition valve 40 and the pipe 43 and suppresses fuel pressure fluctuation generated in the addition system 47 along with opening/closing of the reducing agent addition valve 40. COPYRIGHT: (C)2006,JPO&NCIPI
    • 解决问题的方案为了提供一种能够使包括还原剂添加阀和管道的添加系统中的燃料压力波动(压力脉动)最小化的废气排放控制装置,当用于喷射燃料成分的还原剂添加阀 废气设置在排气管的中间。 解决方案:该废气排放控制装置设置有从内燃机延伸并排出废气的排气管31; 布置在排气管31中并消除废气中的NOx的NOx消除装置38; 通过管道43与燃料箱28连接的还原剂添加阀40,并且将燃料成分喷射到NOx排除装置38附近的废气中; 以及设置在包括还原剂添加阀40和管43的添加系统47中的脉动抑制构件45,并且抑制加法系统47中产生的燃料压力波动以及还原剂添加阀40的打开/关闭。 P>版权所有(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Detection device of number of particle and measuring device of number of particle
    • 颗粒数量和颗粒数量测量装置的检测装置
    • JP2006078267A
    • 2006-03-23
    • JP2004261214
    • 2004-09-08
    • Denso Corp株式会社デンソー
    • OKAJIMA MASAHIRO
    • G01N27/68G01N15/02
    • PROBLEM TO BE SOLVED: To provide a detection device 1 of the number of particles and a measuring device 2 of the number of particles using it capable of measuring accurately the number of particulate matter even if the number of the particulate matter included in exhaust gas from an internal combustion engine is large.
      SOLUTION: This detection device 1 of the number of particles is equipped with a discharge electrode 12 for charging the particulate matter included in the exhaust gas by applying a voltage to the exhaust gas, and a current detector 14 for detecting a current I to be detected equivalent to the charge quantity of the particulate matter and synthesizing current detection signals. In accompany with voltage application to the exhaust gas, electrons emitted from the discharge electrode 12, for example, are bonded to oxygen molecules to form oxygen ions, and the oxygen ions adhere to the individual particulate matter to thereby charge the particulate matter. Since the charge quantity of the particulate matter is increased corresponding to the number of particulate matter, the current I to be detected equivalent to the charge quantity of the particulate matter reflects accurately the number of particulate matter even if the number of particulate matter is large. Hereby, even if the number of particulate matter included in the exhaust gas is large, the current detection signals reflecting accurately the number of particulate matter can be synthesized by detecting the current I to be detected like this.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供使用能够精确地测量颗粒物质数量的颗粒数量的测量装置2和测量装置2的数量,即使包括在颗粒物质中的颗粒物质的数量 来自内燃机的废气大。 解决方案:该颗粒数的检测装置1配备有放电电极12,用于通过向排气施加电压对包含在排气中的颗粒物进行充电;以及电流检测器14,用于检测电流I 被检测为与微粒物质的电荷量相当并合成电流检测信号。 伴随着对排气的施加电压,例如从放电电极12发射的电子与氧分子结合而形成氧离子,氧离子附着于各个颗粒物质,从而对颗粒物进行充电。 由于颗粒物质的电荷量相应于颗粒物质的数量增加,与微粒物质的电荷量相当的待检测电流I即使颗粒物质的数量较大也能够精确地反映颗粒物的数量。 因此,即使排气中包含的颗粒物质的数量大,也可以通过检测这样的检测电流I来合成精确地反映颗粒物的数量的电流检测信号。 版权所有(C)2006,JPO&NCIPI
    • 8. 发明专利
    • Fuel injection nozzle
    • 燃油喷射喷嘴
    • JP2006070814A
    • 2006-03-16
    • JP2004255499
    • 2004-09-02
    • Denso CorpNippon Soken Inc株式会社デンソー株式会社日本自動車部品総合研究所
    • KOIE KAZUTOSHINOMURA SHIGEOOKAJIMA MASAHIROMIYOSHI SHINJIGOTO MORIYASUTOMITA HIROKUNIMASUDA MAKOTO
    • F02M61/18F02M61/10
    • PROBLEM TO BE SOLVED: To provide a fuel injection nozzle 1 capable of preventing leak of fuel from a second injection hole 8 at a time of low lift of a needle 3 and reducing dead volume in a suck chamber 9.
      SOLUTION: A projection end part 14 entering the suck chamber 9 of a nozzle body 2 is provided on a tip part of the needle 3, and a recess groove 14a is formed on an outer circumference surface of the projection end part 14. A valve member 4 is provided in a space formed between an inner circumference surface of the suck chamber 9 and the recess groove 14a, and is arranged close to an inlet of the second injection hole 8. Negative pressure is generated when fuel of high speed passes through a narrow gap between the valve element 4 and the second injection hole 8 at a time of low lift of the needle 3 and the negative pressure acts as force pulling the valve member 4 to the inlet of the second injection hole 8. Consequently, since the valve member 4 is pressed against the inlet of the second injection hole by pressure difference acting on the valve member 4 when the valve element 4 closes the inlet of the second injection hole 8, the inlet of the valve member 4 of the second injection hole 8 is surely closed by the valve member 4.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种燃料喷射喷嘴1,其能够在针3的低升程时防止来自第二喷射孔8的燃料泄漏并减少吸入室9中的死体积。 解决方案:在针3的前端部设有进入喷嘴体2的吸入室9的突出端部14,在突出端部14的外周面形成有凹槽14a。阀构件 4设置在吸入室9的内周面和凹槽14a之间形成的空间中,并且配置在靠近第二喷射孔8的入口的位置。当高速燃料通过狭窄状态时,产生负压 在针3的低升程时阀元件4和第二喷射孔8之间的间隙作为将阀构件4吸引到第二喷射孔8的入口的力的作用力。因此,由于阀构件 4压入入口o 当阀元件4关闭第二喷射孔8的入口时,通过作用在阀构件4上的压力差的第二喷射孔,第二喷射孔8的阀构件4的入口被阀构件4确实地封闭 (C)2006年,JPO&NCIPI
    • 10. 发明专利
    • Fuel supply device of gas engine
    • 燃油发动机燃油供应装置
    • JP2014095307A
    • 2014-05-22
    • JP2012245935
    • 2012-11-08
    • Denso Corp株式会社デンソー
    • OKAJIMA MASAHIRO
    • F02M21/02
    • Y02T10/32
    • PROBLEM TO BE SOLVED: To properly burn a gas fuel in a combustion chamber while suppressing a problem such that equipment is excessively complicated.SOLUTION: In an engine 10, a gas fuel of a composition including a hydrogen atom is introduced into a combustion chamber 25, and the gas fuel is burned by ignition spark generated by an ignition plug 26. An intake port 11a of the engine 10 is provided with a fuel injection valve 15 for injecting a gas fuel supplied for combustion in the combustion chamber 25. Further a gas dissociation device 50 dissociating the gas fuel supplied from a fuel supply source, and producing hydrogen molecules by the dissociation, is disposed at an upstream side of the fuel injection valve 15. The fuel injection valve 15 injects the gas fuel and the hydrogen molecules after the dissociation by the gas dissociation device, to the intake port 11a.
    • 要解决的问题:适当地燃烧燃烧室中的燃气,同时抑制设备过于复杂的问题。解决方案:在发动机10中,将包含氢原子的组合物的气体燃料引入燃烧室25 并且气体燃料被火花塞26产生的点火火花燃烧。发动机10的进气口11a设置有燃料喷射阀15,用于将供给燃烧气体燃料喷射到燃烧室25中。另外,气体 解离装置50将从燃料供给源供给的气体燃料解离,通过解离而产生氢分子,配置在燃料喷射阀15的上游侧。燃料喷射阀15将气体燃料和氢分子 通过气体解离装置离解到进气口11a。