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    • 1. 发明专利
    • Receiver and receiver-integrated condenser
    • 接收器和接收器集成冷凝器
    • JP2012112639A
    • 2012-06-14
    • JP2011180038
    • 2011-08-21
    • Denso Corp株式会社デンソー
    • MITSUHASHI TAKUYAMUTO TAKESHIITO AKIRANAITO TOSHIHISACHIN UEISHIMANUKI HIROYASU
    • F25B43/00F25B39/04
    • F25B39/04F25B2339/0441F25B2339/0442F28F9/0243F28F2220/00
    • PROBLEM TO BE SOLVED: To provide a receiver and a receiver-integrated condenser, in which an internal thread-formed part is provided in a receiver body, and the internal thread-formed part is made smaller to enable reduction in the weight and cost.SOLUTION: In the receiver in which gas and liquid of a condensed refrigerant flowing into a receiver body part 210 are separated, and the liquid-phase refrigerant of the gas-liquid separated-refrigerant is allowed to pass through a filter portion to flow out to the external of the receiver body part 210, the filter portion includes an internal passage 23 communicating from one end of a cap 230 with the external between a male thread part 231 and a seal member 240 through the inside of the cap 230, and net parts 251, 251A, 251B for catching foreign matters in the refrigerant flowing out from the inside to the outside of the receiver body part 210 through the internal passage 23.
    • 要解决的问题:提供一种接收器和接收器集成的冷凝器,其中内部螺纹形成部分设置在接收器主体中,并且内部螺纹形成部分被制造得更小以能够减轻重量 和成本。 解决方案:在其中流入接收器主体部分210的冷凝的制冷剂的气体和液体被分离并且气液分离制冷剂的液相制冷剂被允许通过过滤器部分的接收器中, 流出到接收器主体部分210的外部,过滤器部分包括从顶盖230的一端与外部螺纹部分231和密封构件240之间的外部通过盖230的内部连通的内部通道23, 以及用于捕获通过内部通道23从接收器主体部分210的内部向外部流出的制冷剂中的异物的网状部分251,251A,251B。(C)2012,JPO&INPIT
    • 2. 发明专利
    • Electrical discharge machine and method of manufacturing nozzle body using the same
    • 电动放电机及其使用方法制造喷嘴体
    • JP2011104735A
    • 2011-06-02
    • JP2009263745
    • 2009-11-19
    • Denso Corp株式会社デンソー
    • ITO AKIRAINOBE KYOJIIKUTA KAZUHISAINOMATA SUMITOMO
    • B23H7/26
    • PROBLEM TO BE SOLVED: To make high-speed control of an electrode position easier than that in conventional one in electrical discharge technology for turning an electrode by means of gas power.
      SOLUTION: An air charging nozzle 34 for supplying compressed air to an electrode holder 22 is provided. The electrode holder 22 includes a rotary impeller for rotating the electrode 23 by receiving the compressed air supplied from the air charging nozzle 34 to rotate and a body base for accommodating the rotary impeller inside. The body base has an intake window formed for causing the compressed air supplied from the air charging nozzle 34 to flow inside from the outside of the body base. The air charging nozzle 34 has a slit provided for discharging the compressed air. The intake window is located at a position facing the slit and apart from it. The slit is longer than the intake window in a driving direction of the electrode holder 22. When the electrode holder moves during electric discharge, the intake window moves along the slit while facing the slit.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了使电极位置的高速控制比通过气体电力转动电极的放电技术中的常规电极的高速控制更容易。 解决方案:提供一种用于向电极夹持器22供给压缩空气的充气喷嘴34。 电极保持器22包括旋转叶轮,用于通过接收从充气喷嘴34供应的压缩空气旋转来旋转电极23,以及用于容纳旋转叶轮的主体。 主体基部具有形成为使得从充气喷嘴34供给的压缩空气从身体基部的外侧向内流动的进气窗口。 充气喷嘴34具有用于排出压缩空气的狭缝。 进气门位于面向狭缝并与之分开的位置。 狭缝在电极保持器22的驱动方向上比进气窗长。当电极保持器在放电期间移动时,进气窗沿狭缝移动,同时面向狭缝。 版权所有(C)2011,JPO&INPIT
    • 3. 发明专利
    • Electrical discharge machine and method of manufacturing nozzle body using the same
    • 电动放电机及其使用方法制造喷嘴体
    • JP2011104660A
    • 2011-06-02
    • JP2009258785
    • 2009-11-12
    • Denso Corp株式会社デンソー
    • ITO AKIRAINOBE KYOJIADACHI HIROSHIOCHI TAKESHIIKUTA KAZUHISAKAMEYAMA MICHIO
    • B23H9/14B23H7/26
    • PROBLEM TO BE SOLVED: To shorten machining time in an electrical discharge machine including a plurality of electrodes to make a plurality of holes on a workpiece by a single machining operation.
      SOLUTION: The electrical discharge machine includes a plurality of discharging head units 7a-7f and a plurality of feed lines La-Lf. Each of the plurality of discharging head units 7a-7f includes a driving mechanism for holding one of a plurality of electrodes 8a-8f corresponding to each head unit and changing the position of the corresponding electrode, and also includes a conductive medium member 77 for mediating conduction between a corresponding one of a plurality of discharge power supply units 5a-5f and the corresponding electrode. Each of the plurality of feed lines La-Lf electrically connects the conductive medium member 77 in a corresponding one head unit among the plurality of discharging head units 7a-7f with a discharge power supply unit corresponding to the discharging head unit, and lengths of the plurality of feed lines La-Lf are the same as one another.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题:缩短包括多个电极的放电加工机的加工时间,通过单一的加工操作在工件上形成多个孔。 解决方案:放电机包括多个放电头单元7a-7f和多个馈线La-Lf。 多个放电头单元7a-7f中的每一个包括用于保持对应于每个头单元的多个电极8a-8f中的一个并且改变相应电极的位置的驱动机构,并且还包括用于中介的导电介质构件77 多个放电电源单元5a〜5f的对应的一个与相应的电极之间的导通。 多个馈电线La-Lf中的每一个将多个放电头单元7a-7f中的相应的一个头单元中的导电介质构件77与对应于放电头单元的放电电源单元电连接, 多条馈电线La-Lf彼此相同。 版权所有(C)2011,JPO&INPIT
    • 4. 发明专利
    • Tube for heat exchanger
    • 热交换器管
    • JP2009229024A
    • 2009-10-08
    • JP2008077285
    • 2008-03-25
    • Denso Corp株式会社デンソー
    • ITO AKIRA
    • F28F1/02F25B39/04
    • PROBLEM TO BE SOLVED: To easily detect a non-brazed part in a tube for a heat exchanger having a joint surface inside.
      SOLUTION: The tube for the heat exchanger, having fluid circulating inside, is composed of two plate-like parts 21, 22 arranged to face to each other. In the tube for the heat exchanger, a tube-inward-side surface in the plate-like part 21, which is at least one of the two plate-like parts 21, 22, is provided with the joint surface joined by blazing. A part provided with the joint surface in at least one plate-like part 21 is provided with a thin part with its plate thickness thinner than that in other part of the at least one plate-like part 21.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了容易地检测用于具有接合表面的热交换器的管中的非钎焊部分。 解决方案:具有流体在内部循环的用于热交换器的管由彼此面对的两个板状部件21,22组成。 在用于热交换器的管中,作为两个板状部21,22中的至少一个的板状部21中的管内侧面设置有通过燃烧连接的接合面。 在至少一个板状部分21中设置有接合表面的部分设置有其厚度薄于至少一个板状部分21的其他部分的板厚度的薄部分。版权所有:(C )2010,JPO&INPIT
    • 5. 发明专利
    • Electronic control unit
    • 电子控制单元
    • JP2008226043A
    • 2008-09-25
    • JP2007065625
    • 2007-03-14
    • Denso Corp株式会社デンソー
    • ITO AKIRA
    • G06F11/22F02D45/00G06F11/28
    • B60W50/04G01R31/006G01R31/31707
    • PROBLEM TO BE SOLVED: To provide an electronic control unit, for simplifying the function of a monitoring IC for monitoring operation of a microcomputer and facilitating selection of a test according to a control mode. SOLUTION: An ECU (electronic control unit) 1 which controls a vehicle engine includes a MPU 3 as a microcomputer and an IC 5 which monitors operation of the MPU 3. The MPU 3 includes, as a function means attained by execution of a program, a confirmation result check and test selection part (hereinafter simply referred to as test selection part) 3a, and the test selection part 3a selects a test for verifying the function of the MPU 3. The MPU 3 executes the test selected by the test selection part 3a, and transmits a test answer showing the result to the IC 5, and the IC determines whether the test answer from the MPU 3 is correct or wrong, and transmits a test answer confirmation result as a result of the determination to the MPU 3. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种电子控制单元,用于简化用于监视微型计算机的操作的监视IC的功能,并且便于根据控制模式选择测试。 控制车辆发动机的ECU(电子控制单元)1包括作为微计算机的MPU 3和监视MPU 3的操作的IC 5。作为功能手段,MPU 3包括通过执行 程序,确认结果检查和测试选择部分(以下简称为测试选择部分)3a,测试选择部分3a选择用于验证MPU 3的功能的测试。MPU 3执行由 测试选择部分3a,并将显示结果的测试答案发送到IC5,并且IC确定来自MPU 3的测试答案是否正确,并将作为确定结果的测试应答确认结果发送给 主管3.版权所有(C)2008,JPO&INPIT
    • 6. 发明专利
    • Electronic system
    • 电子系统
    • JP2005023923A
    • 2005-01-27
    • JP2004071319
    • 2004-03-12
    • Denso Corp株式会社デンソー
    • ITO AKIRA
    • F02D45/00G05B19/042G06F11/14G06F13/12
    • G06F13/126G05B19/0421G05B2219/2208G05B2219/25157G05B2219/2637
    • PROBLEM TO BE SOLVED: To provide an electronic system for properly transmitting control data (specific data) required by each of mounted electronic devices for controlling controlled objects during operation of the system. SOLUTION: A micro-computer B2 outputs a Hi signal to an initial communication line for requesting a micro-computer A1 to transmit control data such as various learned values for opening control of a throttle valve 4 and conformance constants specific to the controlled objects. During operating an electronic control device 3, when the micro-computer B2 outputs the Hi signal to the initial communication line, the micro-computer A1 transmits the learned values and/or the conformance constants as the control data stored in a standby RAM 12 to the micro-computer B2. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于在系统操作期间适当地发送用于控制受控对象的每个安装的电子设备所需的控制数据(特定数据)的电子系统。 解决方案:微型计算机B2向初始通信线路输出Hi信号,以请求微型计算机A1发送控制数据,例如节流阀4的打开控制的各种学习值,以及受控制的特定的一致性常数 对象。 在操作电子控制装置3的过程中,当微电脑B2将Hi信号输出到初始通信线路时,微型计算机A1将学习值和/或一致性常数作为备用RAM12中存储的控制数据发送到 微电脑B2。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Cooling system of heating element
    • JP2004020092A
    • 2004-01-22
    • JP2002177065
    • 2002-06-18
    • Denso Corp株式会社デンソー
    • TANAKA YOSHIAKIITO AKIRA
    • F25D19/00F24F13/22F25B1/00F25B27/02F25B39/04H05K7/20F24F1/00
    • PROBLEM TO BE SOLVED: To provide a cooling system for surely cooling a heating element. SOLUTION: When generating no prescribed refrigerating capacity since an outside air temperature becomes high and relative humidity in a adsorption process is not more than a prescribed value, when generating no prescribed refrigerating capacity since a heating quantity of the first heating element reduces and relative humidity in a separation process is not less than the prescribed value or when generating no prescribed refrigerating capacity since the relative humidity in the adsorption process is not more than the prescribed value and the relative humidity in the separation process is not less than the prescribed value, refrigerating capacity not less than the prescribed value is generated by a refrigerator 4 by using latent heat of evaporation of cooling water by spraying and supplying the cooling water on and to an outside surface of an outdoor unit 8, that is, a radiator 8a from a nozzle 20. Thus, the second heating element 2 can be sufficiently cooled even when the outside air temperature is high, that is, when an adsorbent cannot be sufficiently cooled by air-cooling and when being unable to obtain sufficient waste heat for operating the refrigerator 4. COPYRIGHT: (C)2004,JPO
    • 9. 发明专利
    • LIQUID FUEL VAPORIZER
    • JP2002039512A
    • 2002-02-06
    • JP2000225853
    • 2000-07-26
    • DENSO CORP
    • ITO AKIRAMATSUMOTO TATSUTOUEHARA MASANORI
    • F23D11/44F23D11/40
    • PROBLEM TO BE SOLVED: To solve the problem conventionally that instantaneously vaporization of liquid fuel fed to the central part of a vaporizing heater 31 at first at start up by heating the central part of a vaporizing heater 31 instantaneously. SOLUTION: The central part of the vaporizing heater 31 is arranged with a high temperature part 31a, of which the temperature can be made to rise faster than the temperature of outer side part. The width of the band heating body on the side of a central electrode tube 29 comprising the vaporizing heater 31 is narrowed and widened towards the outer side. Using the vaporizing heater 31 formed by winding the heater around the central electrode tube 29, the central part where the liquid fuel is fed at first at the start up is heated instantaneously, the liquid fuel fed on the side of the central electrode tube 29 starts vaporizing instantaneously and the catalytic burner can be ignited instantaneously.
    • 10. 发明专利
    • COMBUSTION EQUIPMENT
    • JP2001235114A
    • 2001-08-31
    • JP2000042819
    • 2000-02-21
    • DENSO CORP
    • ITO AKIRAUEHARA MASANORIKONDO YASUO
    • F23D3/40F23D11/40F23D11/44
    • PROBLEM TO BE SOLVED: To provide combustion equipment which supplies a mixed gas having no concentration distribution to a catalytic combustion section 6 even when the mixed gas is blown out from a vaporizer 7 in a state where unvaporized liquid fuel is mixed with the gas. SOLUTION: This combustion equipment is constituted in such a way that, on the most upstream side of a premixing chamber 14, a wick 100 which absorbs liquid fuel by capillary action is arranged. This wick 100 absorbs the liquid fuel contained in vaporized fuel blown out from the fuel injection nozzle 30b of the vaporizer 7 in its internal cylindrical section 100a and discharges the liquid fuel into the upstream- side whole area of the premixing chamber 14 by vaporizing the fuel with heat of combustion while causing the fuel to penetrate into and to be scattered in the whole area by means of a ring section 100b. The vaporized fuel vaporized from the ring section 100b is mixed with primary air together with the vaporized fuel jetted from the jetting outlet 100a of the chamber, becomes the mixed gas having no concentration distribution, and is supplied to the combustion section 6 on the downstream side. Since the liquid fuel mixed with the vaporized fuel remains in a chamber 102 and is efficiently absorbed in the wick 100, such a failure that the liquid fuel is injected from the jetting outlet 101a does not occur.