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    • 1. 发明授权
    • Control valve for variable displacement compressor
    • 变排量压缩机控制阀
    • US06332757B1
    • 2001-12-25
    • US09565127
    • 2000-05-04
    • Morio KanekoIchiro OhkawaraMasaki OtaKen SuitouKenta NishimuraTaku Adaniya
    • Morio KanekoIchiro OhkawaraMasaki OtaKen SuitouKenta NishimuraTaku Adaniya
    • F04B126
    • F04B27/1804F04B2027/1813F04B2027/1831F04B2027/1854F04B2027/1859F05C2251/08
    • A valve housing has a communication passage communicating a suction port of the compressor with a crank chamber of the compressor. A valve element opens and closes the communication passage, and a spring member resiliently biases the valve element toward the closed position. A pressure actuated unit moves the valve element toward the open position by a suction pressure of the compressor. The spring member includes a spring made of a temperature responsive material. The spring decreases in its resilient force in an opening direction of the valve element with increase of an outer-air temperature. The spring member has a primary spring made of an ordinary resilient material for resiliently biasing the valve element toward the closed position and a correction spring made of a material having a temperature positive characteristic. The correction spring provides a correction spring force smaller than a primary force of the primary spring in the opposite direction to the primary force. The combined spring force of the primary spring and the correction spring acting on the valve element.
    • 阀壳体具有将压缩机的吸入口与压缩机的曲轴室连通的连通通道。 阀元件打开和关闭连通通道,并且弹簧构件弹性地偏压阀元件朝向关闭位置。 压力驱动单元通过压缩机的吸入压力将阀元件移向打开位置。 弹簧构件包括由温度响应材料制成的弹簧。 随着外部空气温度的增加,弹簧在阀元件的打开方向上的弹性减小。 弹簧构件具有由普通弹性材料制成的弹簧弹簧弹簧偏压阀元件朝向关闭位置的弹簧构件和由具有温度正特性的材料制成的校正弹簧。 校正弹簧提供的校正弹簧力小于主弹簧的主力与主力相反的方向。 主弹簧的组合弹簧力和作用在阀元件上的校正弹簧。
    • 3. 发明授权
    • Swash plate type compressor of variable capacity type
    • 可变容量型斜盘式压缩机
    • US06508633B2
    • 2003-01-21
    • US09884190
    • 2001-06-19
    • Ryo MatsubaraTomoji TarutaniKen SuitouKenta NishimuraTaku AdaniyaMasaki Ota
    • Ryo MatsubaraTomoji TarutaniKen SuitouKenta NishimuraTaku AdaniyaMasaki Ota
    • F04B126
    • F04B27/1072
    • A swash plate type compressor of variable capacity type including a rotary drive shaft, a swash plate angle adjusting device for adjusting the inclination angle between a minimum and a maximum angle, and wherein the_swash plate has a first center point at the maximum inclination angle and a second center point at the minimum inclination angle, each of the center points being an intersection between an intermediate plane of the swash plate which is intermediate in the thickness direction and a centerline of the swash plate, the two center points being located on the rotation axis, or the first center point being located on the rotation axis or offset therefrom on one side of the rotation axis corresponding to the compression-end circumferential part of the swash plate, while the second center point is offset a larger distance from the rotation axis than the first center point.
    • 一种可变容量型的斜盘式压缩机,包括旋转驱动轴,用于调节最小和最大角度之间的倾斜角度的斜盘角度调节装置,并且其中洗涤板具有最大倾斜角的第一中心点和 第二中心点以最小倾斜角度,每个中心点是在厚度方向上中间的斜盘的中间平面与斜盘的中心线之间的交点,两个中心点位于旋转轴线上 或者第一中心点位于与旋转轴的压缩端圆周部对应的旋转轴的一侧上的旋转轴上或偏移的位置,而第二中心点偏离旋转轴的距离比距离旋转轴更大的距离比 第一个中心点。
    • 7. 发明授权
    • Single-headed-piston type refrigerant compressor with means for preventing rotation of the piston about its own axis within the cylinder bore
    • 单头活塞式制冷压缩机,具有用于防止活塞围绕其自身轴线在缸孔内旋转的装置
    • US06220146B1
    • 2001-04-24
    • US09390726
    • 1999-09-07
    • Masaki OtaKeiichi KatoTaku AdaniyaKenta Nishimura
    • Masaki OtaKeiichi KatoTaku AdaniyaKenta Nishimura
    • F16J1518
    • F04B27/1045F04B27/0878
    • A single headed piston type refrigerant compressor having a cylinder block forming therein a plurality of cylinder bores receiving a plurality of single-headed pistons for reciprocation therein, and a front housing joined to the cylinder block to define a crank chamber for receiving therein a cam plate. An extended bore-forming portion of the cylinder block having partial cylindrical guide surfaces each being continuous with the corresponding cylinder bore and capable of being in slide contact with the piston head portion of the single-headed piston and the outer circumference of a shoe-holding portion of the single-headed piston is formed by extending a peripheral portion of a front end of the cylinder block into the crank chamber. A projecting portion formed on each single head piston protrudes from a side end surface of the shoe-holding portion extending behind the piston head portion into the crank chamber. Therefore, the extended bore-forming portion can additionally be extended toward the crank chamber by a length corresponding to the distance of dislocation of the projecting portion into a space on the front side of the crank chamber to increase additionally the length of contact of the piston with cylinder bore.
    • 一种单头活塞式制冷压缩机,其具有在其中形成有多个用于往复运动的多个单头活塞的气缸孔的气缸体,以及连接到气缸体的前壳体,以限定用于在其中容纳凸轮板的曲柄室 。 气缸体的延伸孔形成部分具有部分圆柱形引导表面,每个引导表面与相应的气缸孔连续并且能够与单头活塞的活塞头部分和鞋保持件 单头活塞的一部分通过将气缸体的前端的周边部分延伸到曲柄室中而形成。 形成在每个单个头活塞上的突出部分从延伸在活塞头部分后面的鞋保持部分的侧端表面突出到曲柄室中。 因此,延伸的孔形成部分可以另外地朝向曲柄室延伸一个长度,该长度对应于突出部分到曲柄室前侧的空间的位移距离,以增加活塞的接触长度 带气缸孔。
    • 8. 发明授权
    • Variable displacement type refrigerant compressor
    • 可变排量型制冷压缩机
    • US06217292B1
    • 2001-04-17
    • US09318889
    • 1999-05-26
    • Masaki OtaTaku AdaniyaHirotaka KurakakeKenta Nishimura
    • Masaki OtaTaku AdaniyaHirotaka KurakakeKenta Nishimura
    • F04B126
    • F04B27/1804F04B2027/1813F04B2027/1827F04B2027/1859Y10S137/907
    • A variable displacement type refrigerant compressor including a compressor housing having internally a compressing mechanism for compressing a refrigerant, a displacement varying mechanism for adjustably varying an amount of the refrigerant compressed and discharged by the compressing mechanism, and a displacement control valve unit controlling the operation of the displacement varying mechanism, which is an assembly of a pressure sensing mechanism formed by a flanged bellows element, a valve element, a valve seat having a port cooperating with the valve element, and a valve rod engaging the pressure sensing mechanism with the valve element, and are assembled by using a fixing screw member and a jig tool in position in a pressure sensing chamber, a valve chamber, and a valve rod bore coaxially formed in the compressor housing by drilling or boring from two sides of the compressor housing. The flanged bellows element of the displacement control valve unit is fixed in the pressure sensing chamber via the flange thereof by being threadedly engaged in the pressure sensing chamber.
    • 一种变排量型制冷剂压缩机,包括内部具有用于压缩制冷剂的压缩机构的压缩机壳体,用于可调地改变由压缩机构压缩和排出的制冷剂的量的位移改变机构,以及控制该压缩机壳体的操作的位移控制阀单元 位移变化机构,其是由法兰波纹管元件,阀元件,具有与阀元件配合的端口的阀座形成的压力感测机构的组件以及与压力感测机构与阀元件接合的阀杆 并且通过使用固定螺钉构件和夹具工具在通过从压缩机壳体的两侧钻孔或钻孔同轴地形成在压力传感室,阀室和阀杆孔中的适当位置来组装。 位移控制阀单元的带凸缘的波纹管元件通过螺纹接合在压力感测室中,通过其凸缘固定在压力感测室中。
    • 10. 发明授权
    • Variable displacement compressor
    • 可变排量压缩机
    • US06234763B1
    • 2001-05-22
    • US09443263
    • 1999-11-22
    • Masaki OtaKenta NishimuraHirotaka KurakakeTaku Adaniya
    • Masaki OtaKenta NishimuraHirotaka KurakakeTaku Adaniya
    • F04B126
    • F04B27/1804F04B2027/1827F04B2027/1859F04B2027/1877F04B2207/0422
    • A variable displacement compressor the displacement of which is externally controlled is provided. The compressor has basically the same structure as prior art compressors except for simple differences. A pressure sensing chamber of a displacement control valve is connected to a suction chamber by an outlet passage. A bellows is located in the pressure sensing chamber. The bellows expands and contracts in accordance with the pressure in the sensing chamber. A valve chamber forms part of a displacement control passage, which is used to control the pressure of a crank chamber. A valve body is located in the valve chamber. The valve body is moved by the bellows to open and close the displacement control passage. Highly pressurized gas from the discharge chamber is supplied to the pressure sensing chamber through an inlet passage. The gas in the pressure sensing chamber is released to the suction chamber through the outlet passage. An electromagnetic valve is located in the outlet passage to regulate the flow of refrigerant gas from the sensing chamber. The outlet passage also includes a bypass passage. The bypass passage bypasses the electromagnetic valve and constantly communicates the pressure sensing chamber with the suction chamber.
    • 提供了一种可变排量压缩机,其位移由外部控制。 除了简单的差异之外,压缩机具有与现有技术的压缩机基本相同的结构。 排量控制阀的压力检测室通过出口通道连接到吸入室。 波纹管位于压力传感室中。 波纹管根据传感室内的压力而膨胀和收缩。 阀室形成位移控制通道的一部分,用于控制曲柄室的压力。 阀体位于阀室中。 阀体通过波纹管移动以打开和关闭位移控制通道。 来自排放室的高压气体通过入口通道供应到压力感测室。 压力检测室中的气体通过出口通道释放到吸入室。 电磁阀位于出口通道中以调节来自感测室的制冷剂气体的流动。 出口通道还包括旁通通道。 旁路通道绕过电磁阀,并将压力传感室与吸入室不断连通。