会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明专利
    • Variable displacement compressor of swash plate type and rocking swash plate type
    • 摇摆板类型和摇摆板类型的可变位移压缩机
    • JP2007198349A
    • 2007-08-09
    • JP2006020728
    • 2006-01-30
    • 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
    • KIMURA SEISHUNAGASAKU HIDEKAZUINOUE TAKASHIOKUMA TORUKAMIYA HARUO
    • F04B27/14F04B49/00
    • F04B27/16
    • PROBLEM TO BE SOLVED: To provide a variable displacement compressor improved in efficiency while maintaining 100% of a capacity even during high speed operation without the need for feeding much gas to swash plate chambers during the variation of the capacity. SOLUTION: The variable displacement compressor 100 of a swash plate type or a rocking swash plate type varies its capacity by pressure in the swash plate chambers 18, 107. The compressor comprises variable throttle mechanisms 90, 126 and 900 provided in communication passages 24, 105 which make each of the swash plate chambers communicate with the low pressure side for increasing the opening area of a variable throttle 91c when a rocking swash plate 6 or a swash plate 108 has a greater angle θ and for reducing the opening area of the variable throttle when the rocking swash plate or the swash plate has a smaller angle. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种改变效率的可变排量压缩机,同时在高速运行期间保持100%的容量,而不需要在容量变化期间向斜盘室供给大量气体。 解决方案:斜盘式或摇摆斜盘型的可变排量压缩机100通过斜盘室18,107中的压力来改变其容量。压缩机包括设置在连通通道中的可变节流机构90,126和900 24,105,其使得每个斜盘室与低压侧连通,用于当摇摆斜盘6或斜盘108具有较大的角度θ并用于减小可变节流阀91c的开口面积时,增加可变节流阀91c的开口面积 当摇摆斜盘或斜盘角度较小时,可变节流阀。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Air conditioner
    • 冷气机
    • JP2008179203A
    • 2008-08-07
    • JP2007012992
    • 2007-01-23
    • Denso Corp株式会社デンソー
    • ISSHI YOSHINORIKAWAGUCHI SHIGEKINAGASAKU HIDEKAZUSANUKI MASAMI
    • B60H1/32
    • PROBLEM TO BE SOLVED: To provide an air conditioner capable of preventing turbulence of flow of cooling medium in a refrigeration cycle accompanying introduction of outside air.
      SOLUTION: The target increase revolution number Δf is added to the former target revolution number IVO
      n-1 to calculate the temporary target increase revolution number IVOf (step S207). Further, when the temperature TAM of the out-cabin air is lower than the temperature TR of the in-cabin air (Yes at step S208), a correction coefficient CA according to an outside air introduction increase ratio RI is calculated (step S210). Next, the increase correction revolution number Δfrs is calculated by multiplying the correction coefficient CA on the reference increase revolution number, and further, the increase correction revolution number Δfrs is reduced/corrected according to a passing time TC from when a ratio of the outside air introduction is increased (step S211). Finally, the increase correction revolution number Δfrs is added to the temporary target revolution number IVOf to calculate the true target revolution number IVO (step S212).
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够防止冷却介质在伴随外部空气的引入的制冷循环中的流动紊乱的空调。 解决方案:将目标增加转数Δf加到前一个目标转数IVO n-1 ,以计算临时目标增加转数IVOf(步骤S207)。 此外,当室外空气的温度TAM低于室内空气的温度TR(步骤S208中的“是”)时,计算根据外部空气引入增加率RI的校正系数CA(步骤S210) 。 接下来,通过将校正系数CA乘以基准增加转数来计算增加校正转数Δfrs,此外,根据经过时间TC,从外部空气的比例减去/校正增加校正转数Δfrs 引入增加(步骤S211)。 最后,向临时目标转数IVOf加上增加修正转数Δfrs,计算出真正的目标转数IVO(步骤S212)。 版权所有(C)2008,JPO&INPIT
    • 3. 发明专利
    • Vane type compressor
    • VANE型压缩机
    • JPS60192892A
    • 1985-10-01
    • JP4717884
    • 1984-03-14
    • Nippon Denso Co LtdNippon Soken Inc
    • INAGAKI MITSUOTAKEDA KENJIIWANAMI SHIGEKINAGASAKU HIDEKAZUSASAYA HIDEAKI
    • F04C18/344
    • F04C18/3441F04C2250/301
    • PURPOSE: To improve the follow-up feature of vanes of a vane type compressor and reduce pulsations of the drive torque by using a cylinder profile that projection quantities of four vanes are offset each other.
      CONSTITUTION: This vane type compressor has four vanes provided on a rotor at a distance of 90°. The cylinder profile of this compressor consists of (i) a region where the vane projection quantity is kept at the maximum value D, (ii) a region where the vane projection quantity is decreased abruptly, and (iii) a region where the vane projection quantity is gradually decreased to zero in sequence in the rotor rotation direction within the range of θ=0°(A
      1 )W180°(A
      2 ) using a position that the projection quantity of any vane becomes maximum as a reference, and the transition point (A
      3 ) between the regions (ii) and (iii) is set at a position of θ=90°.
      COPYRIGHT: (C)1985,JPO&Japio
    • 目的:改进叶片式压缩机叶片的后续特征,通过使用四个叶片的投影量彼此抵消的圆柱轮廓来减小驱动扭矩的脉动。 构成:该叶片式压缩机具有在90度的转子上设置的四个叶片。该压缩机的气缸轮廓由(i)叶片投影量保持在最大值D的区域,(ii) 叶片突出量急剧下降的区域,以及(iii)在θ= 0度(A1)-180度的范围内,叶片突出量依次沿转子旋转方向逐渐降低到零的区域。 (A2)使用任何叶片的投影量变为最大的位置作为基准,并且区域(ii)和(iii)之间的转变点(A3)设定在θ= 90度的位置。
    • 4. 发明专利
    • SWASH PLATE TYPE COMPRESSOR
    • JP2006348881A
    • 2006-12-28
    • JP2005177731
    • 2005-06-17
    • DENSO CORPNIPPON SOKEN
    • INOUE TAKASHINAGASAKU HIDEKAZUKAMIYA HARUO
    • F04B27/08
    • PROBLEM TO BE SOLVED: To provide a piston type compressor with a rolling body consisting of a thrust bearing and laid between a shoe on the compressive reaction receiving side and a swash plate via a single head piston, having less power loss and higher efficiency while improving the life of the thrust bearing. SOLUTION: The piston type compressor is provided for converting the rotation of the swash plate 11 into the reciprocating linear motion of the piston 12 via the shoes 13a, 13b, It comprises an rocking plate 14 arranged in slide contact with the shoe 13b on the compressive reaction receiving side via the piston 12, the thrust bearing 15 laid between the rocking plate 14 and the swash plate 11, and a ball bearing, a roller bearing or a tapered roller bearing 16 arranged between the rocking plate 14 and the swash plate 11 for receiving the radial load of the rocking plate 14. The thrust bearing 15 is thrust in the state of being held between the rocking plate 14 and the swash plate 11. COPYRIGHT: (C)2007,JPO&INPIT