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    • 1. 发明专利
    • 蒸発燃料処理装置
    • 蒸发燃料处理装置
    • JP2015057551A
    • 2015-03-26
    • JP2014258369
    • 2014-12-22
    • 愛三工業株式会社Aisan Ind Co Ltdトヨタ自動車株式会社Toyota Motor Corp
    • YAMAMOTO NORINAGAKURATA TSUNEYUKIHAYAKAWA MASAMITSUKOSUGI TAKASHISHIMOKAWA SHINJIKOBAYASHI SHOEIKIYOMIYA SHINSUKENISHIMURA YUSAKU
    • F02M25/08
    • 【課題】蒸発燃料の脱離効率を向上し、残存量及び吹き抜け量を低減することのできる蒸発燃料処理装置を提供する。【解決手段】蒸発燃料処理装置10は、タンクポート17、パージポート18及び大気ポート19を有し、少なくともガス通路の直線状の流通方向に隣接する第1吸着室46及び第2吸着室48が形成されるケース12と、各吸着室46,48,33にそれぞれ充填された吸着体50とを備える。第1吸着室46及び第2吸着室48の間に空間室40が形成される。第1吸着室46を、第2吸着室48の通路断面積よりも小さい通路断面積で形成する。空間室40は、第2吸着室48と同等の通路断面積でかつ該吸着室48から第1吸着室46に向かって連続状に延びる主空間部57を備える。【選択図】図1
    • 要解决的问题:提供一种能够提高蒸发燃料的解吸效率并减少残留量和窜气量的蒸发燃料处理装置。解决方案:蒸发燃料处理装置10包括:壳体12,其具有罐 端口17,净化端口18和大气口19,并且形成有至少沿气体通道的线性流动方向邻接的第一吸附室46和第二吸附室48; 以及填充在各吸附室46,48,33中的吸附剂50.在第一吸附室46和第二吸附室48之间形成有空间室40.第一吸附室46形成为通过截面积小于 第二吸附室48的通道横截面积。空间室40设置有主空间部57,该主空间部57具有与第二吸附室48相同的通路截面积,并从吸附室48连续地延伸 朝向第一吸附室46。
    • 2. 发明专利
    • Canister
    • JP2010007671A
    • 2010-01-14
    • JP2009235072
    • 2009-10-09
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • KOSUGI TAKASHIYOKOCHI TSUNEYUKI
    • F02M25/08
    • PROBLEM TO BE SOLVED: To provide a canister used for an evaporated fuel processing device of an internal combustion engine of an automobile capable of considerably enhancing the adsorption/desorption performance of the evaporated fuel. SOLUTION: The canister 1 for processing the evaporated fuel comprises a tank port 5 communicated with an upper gas chamber of a fuel tank of an automobile, a purge port 6 communicated with an intake passage of an internal combustion engine of an automobile, an atmosphere port 7 opened into the atmosphere, and an adsorbent chamber for storing activated carbon 8 for adsorbing gasoline vapor flowing from the tank port 5 to the atmosphere port 7. The adsorbent chamber consists of a main adsorbent chamber 11, a second adsorbent chamber 12 and a third adsorbent chamber 13. The main adsorbent chamber 11, the second adsorbent chamber 12, and the third adsorbent chamber 13 are arranged in this order between the tank port 5 and the atmosphere port 7. A thermal storage material 9A in which a phase change material for executing the absorption and discharge of the latent heat according to the temperature change is enclosed in a capsule is arranged in the main adsorbent chamber 11 and the second adsorbent chamber 12, and the thermal storage material 9A is not arranged in the third adsorbent chamber 13. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于汽车内燃机的蒸发燃料处理装置的罐,其能够显着提高蒸发燃料的吸附/解吸性能。 解决方案:用于处理蒸发燃料的罐1包括与汽车的燃料箱的上部气室连通的罐口5,与汽车的内燃机的进气通道连通的吹扫口6, 向大气开放的大气口7,以及用于吸收从罐口5流到大气口7吸附汽油蒸气的活性炭8的吸附剂室。吸附剂室由主吸附剂室11,第二吸附剂室12 和第三吸附剂室13.主吸附剂室11,第二吸附剂室12和第三吸附剂室13依次布置在罐口5和大气口7之间。一种储热材料9A,其中相 封闭在胶囊中的用于执行根据温度变化的潜热的吸收和排出的改变材料被布置在主吸附剂室11中,第二 吸附剂室12,并且蓄热材料9A不被布置在第三吸附剂室13中。版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Canister
    • JP2008038675A
    • 2008-02-21
    • JP2006211623
    • 2006-08-03
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • KIDO KATSUYUKIKOSUGI TAKASHI
    • F02M25/08B01D53/04
    • PROBLEM TO BE SOLVED: To provide a canister capable of securing capacity of a suction chamber, and capable of securing even the passing length of evaporated fuel gas, without causing an enlargement. SOLUTION: The first suction chamber 22 and the second suction chamber 24 are constituted in a canister body 14 by a partition wall 20, and a through-pipe 38 is also penetrated through the second suction chamber 24. A suction body 30 is filled in the first suction chamber 22 and the second suction chamber 24, and a suction body 40 is also arranged in the through-pipe 38. Thus, the capacity of the suction chamber can be secured as the whole canister 12, and the passing length of the evaporated fuel gas can also be secured, without causing the enlargement. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够确保吸入室的容量的罐,并且能够确保均匀的蒸发燃料气体的通过长度,而不会引起放大。 解决方案:第一吸入室22和第二吸入室24由隔壁20构成在罐主体14中,并且贯通管38也穿过第二吸入室24.吸引体30是 填充在第一抽吸室22和第二吸入室24中,并且吸入体40也布置在通管38中。因此,可以确保吸入室的容量作为整个罐12,并且通过长度 的蒸发燃料气体也可以确保,而不会引起放大。 版权所有(C)2008,JPO&INPIT
    • 4. 发明专利
    • Canister
    • JP2006207485A
    • 2006-08-10
    • JP2005020921
    • 2005-01-28
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • KOSUGI TAKASHIYOKOCHI TSUNEYUKI
    • F02M25/08
    • F02M25/0854
    • PROBLEM TO BE SOLVED: To provide a canister used for an evaporated fuel treatment device for an automobile internal combustion engine greatly improving adsorption/desorption performance of evaporated fuel by using heat accumulation material filling phase change material producing absorption and discharge of latent heat according to temperature change in a micro capsule.
      SOLUTION: Gasoline vapor flows as indicated by an arrow A at a time of fueling to a fuel tank which is not indicated. Activated carbon 8A has particles of heat accumulation material 9 fixed on a surface of pellet shape activated carbon 8. Since melting point of phase change material of the heat accumulation material 9 is set at 25°C, the heat accumulation material acts to suppress temperature rise by latent heat when the activated carbon 8A adsorbs vapor and temperature rises. When temperature of the activated carbon 8A drops at a time of purge, temperature drop of the activated carbon is suppressed by latent heat of the heat accumulation material 9. Consequently, deterioration of adsorption performance of the activated carbon due to temperature rise is eliminated. Also, deterioration of desorption performance of the activated carbon due to temperature drop is eliminated.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于汽车内燃机的蒸发燃料处理装置的罐,其通过使用蓄热材料填充相变材料产生吸收和释放潜热而大大提高蒸发燃料的吸附/解吸性能 根据微胶囊中的温度变化。

      解决方案:在燃料加油时,如未指示的燃料箱,汽油蒸汽如箭头A所示流动。 活性炭8A具有固定在粒状活性炭8的表面上的蓄热材料9的颗粒。由于蓄热材料9的相变材料的熔点设定在25℃,所以蓄热材料起到抑制温度上升的作用 当活性炭8A吸附蒸气并升温时,通过潜热。 当活性炭8A的温度在吹扫时下降时,通过蓄热材料9的潜热来抑制活性炭的温度下降。因此,消除了由于温度升高引起的活性炭的吸附性能的劣化。 此外,消除了由于温度下降引起的活性炭的解吸性能的劣化。 版权所有(C)2006,JPO&NCIPI

    • 6. 发明专利
    • Evaporation fuel processing device
    • 蒸发燃料加工装置
    • JP2014145337A
    • 2014-08-14
    • JP2013015419
    • 2013-01-30
    • Aisan Ind Co Ltd愛三工業株式会社Toyota Motor Corpトヨタ自動車株式会社
    • AKIYAMA TAKANORIKOSUGI TAKASHIKIMOTO JUNYAHASEGAWA MASAKAZUSHIMOKAWA SHINJI
    • F02M25/08
    • F02M25/0854B01D53/0407B01D53/0438B01D2259/4516B60K15/03504F02M25/0872F16K24/04Y10T137/6416Y10T137/86324
    • PROBLEM TO BE SOLVED: To improve a desorption performance of an adsorbent in next purge by suppressing dissipation of heat in an adsorption passage of a trap canister to the outside.SOLUTION: In a trap canister 16 in which an adsorbent 45 capable of adsorbing desorbing evaporation fuel contained in breakthrough gas exhausted from a main canister is disposed, two passages having one-side ends connected to the main canister and other-side ends opened to an atmosphere are formed in parallel. One passage is defined as an adsorption passage 37 where the adsorbent 45 is disposed, and the remaining passage is defined as an air passage 60 where air flows. The air passage 60 includes an outside passage part 58 formed to at least partially surround the adsorption passage 37. In a passage 65 communicating to the air passage 60, a diaphragm valve 68 is provided which is closed normally but opened when supplying oil. The air passage 60 includes an inside passage part 53 formed to penetrate the inside of the adsorption passage 37.
    • 要解决的问题:通过将捕集罐的吸附通道中的热量消散到外部来提高下一次吹扫中的吸附剂的解吸性能。解决方案:在捕集罐16中,能够吸附脱附蒸发的吸附剂45 设置从主罐排出的穿透气体中所含的燃料,平行地形成有与主罐连接的一侧端部和向大气敞开的另一侧端部的两个通路。 一个通道被定义为吸附通道37,其中设置吸附剂45,剩余的通道被定义为空气流动的空气通道60。 空气通道60包括形成为至少部分地围绕吸附通道37的外部通道部分58.在与空气通道60连通的通道65中,设置隔膜阀68,其在供给油时正常关闭而打开。 空气通道60包括形成为穿透吸附通道37内部的内部通道部分53。
    • 7. 发明专利
    • Canister
    • JP2008038708A
    • 2008-02-21
    • JP2006212539
    • 2006-08-03
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • KIDO KATSUYUKIKOSUGI TAKASHINAGAI TAKASHIHAYAKAWA MASAMITSU
    • F02M25/08
    • PROBLEM TO BE SOLVED: To provide a canister capable of efficiently adjusting the temperature in response to the quantity of introduced evaporated furl gas.
      SOLUTION: A heating system 18 is arranged in an adsorbing chamber 16 of a canister body 14 storing an adsorbent 30. A cooling system 20 is arranged on a front face 14F of the canister body 14. The heating system 18 and the cooling system 20 are controlled by a control device based on fuel residual quantity data detected by a fuel residual quantity sensor of a fuel tank. The control device 22 can control the heating system 18 and the cooling system 20 for driving so as to restrain a temperature rise in the adsorbent 30 when the quantity of evaporated fuel gas introduced to the canister body 14 is relatively much from this fuel residual quantity data, and adsorbing capacity of the adsorbent 30 can be maintained high.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供能够响应于引入的蒸发的气体量而有效地调节温度的罐。 解决方案:加热系统18布置在容纳吸附剂30的罐主体14的吸附室16中。冷却系统20布置在罐主体14的前表面14F上。加热系统18和冷却 系统20由基于由燃料箱的燃料余量传感器检测的燃料余量数据的控制装置控制。 控制装置22可以控制加热系统18和冷却系统20的驱动,以便当引入到罐主体14的蒸发燃料气体的量相对于该燃料残留量数据相对较多时,抑制吸附剂30的温度上升 ,并且可以保持吸附剂30的吸附能力。 版权所有(C)2008,JPO&INPIT
    • 8. 发明专利
    • Canister
    • JP2008038688A
    • 2008-02-21
    • JP2006211900
    • 2006-08-03
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • KIDO KATSUYUKIKOSUGI TAKASHI
    • F02M25/08B01D53/04
    • B01D53/0438B01D2259/4516B01D2259/455
    • PROBLEM TO BE SOLVED: To provide a canister capable of preventing reduction in adsorbing capacity of an adsorbent and the deterioration in a heat accumulating material, while restraining a temperature change in the adsorbent by the heat accumulating material. SOLUTION: A heat accumulating material vessel 38 storing the heat accumulating material composed of a material having heat conductivity higher than the adsorbent 30 and having large heat capacity, is provided in a first adsorbing chamber 22 of the canister 12. Since the heat accumulating material does not contact with the adsorbent 30, the contact area of evaporated fuel gas of the adsorbent 30 and air can be widely secured, and adsorbing capacity and separation capacity of the adsorbent 30 can be highly exhibited. Since the heat accumulating material does not contact with the evaporated fuel gas and the air, the deterioration in performance is prevented. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够防止吸附剂的吸附能力降低和蓄热材料劣化的罐,同时通过蓄热材料抑制吸附剂的温度变化。 解决方案:在罐12的第一吸附室22中设置有储存由导热率高于吸附剂30并具有高热容量的材料构成的蓄热材料的蓄热材料容器38.由于热量 聚集材料不与吸附剂30接触,可以广泛地确保吸附剂30的蒸发燃料气体的接触面积和空气,并且可以高度显示吸附剂30的吸附能力和分离能力。 由于蓄热材料不与蒸发的燃料气体和空气接触,所以防止了性能的劣化。 版权所有(C)2008,JPO&INPIT