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    • 3. 发明授权
    • Solenoid control valve
    • 电磁阀控制阀
    • US06957663B2
    • 2005-10-25
    • US10359822
    • 2003-02-07
    • Hisatoshi HirotaYuusuke InoueToshiyuki ShiotaTokumi Tsugawa
    • Hisatoshi HirotaYuusuke InoueToshiyuki ShiotaTokumi Tsugawa
    • F16K31/42F16K31/06F25B13/00F25B41/06F16K31/40F15B13/043
    • F25B41/062F25B13/00F25B2309/061F25B2341/0671Y10T137/7766Y10T137/87917
    • The object of the present invention is to provide a solenoid control valve simple in construction and low in cost, realized by reducing the number of component parts, eliminating screw-joined portions, and minimizing the use of rubber O rings. A valve hole of a pilot valve, a hole of a bearing for supporting one end of a shaft of a solenoid, and a fitting hole in which is fitted one end of a sleeve, are formed along the same axis in a body. This makes it possible to accurately establish the concentricity of movable components of the solenoid when the sleeve is fitted in the fitting hole, and hence, a pilot valve element can be integrally formed with the shaft. Set values for a main valve and the pilot valve are adjusted by adjusting the amounts of insertions of a press-fit member and a bearing by press-fitting. At the same time, a space below a piston and an end of a hole through a core are closed by the press-fit members and the solenoid and the body are joined to each other by caulking a yoke to thereby eliminate screw portions, and minimize rubber sealed portions.
    • 本发明的目的是提供一种结构简单,成本低廉的电磁控制阀,通过减少部件数量,消除螺纹接合部分,最大限度地减少橡胶O形环的使用。 在主体中沿着同一轴线形成有先导阀的阀孔,用于支撑螺线管的轴的一端的轴承的孔和套筒一端的嵌合孔。 这使得当套筒装配在装配孔中时,可以精确地确定螺线管的可动部件的同心度,因此可以将导向阀元件与轴一体地形成。 主阀和先导阀的设定值通过调整压配件和轴承的插入量进行调整。 同时,通过压配合构件将活塞下方的空间和孔的端部封闭,并且螺线管和主体通过铆接轭而彼此接合,从而消除螺纹部分,并且最小化 橡胶密封部分。
    • 5. 发明申请
    • Expansion device
    • 扩充装置
    • US20070180854A1
    • 2007-08-09
    • US11701497
    • 2007-02-02
    • Hisatoshi HirotaTokumi TsugawaMasaaki TonegawaRyosuke Satake
    • Hisatoshi HirotaTokumi TsugawaMasaaki TonegawaRyosuke Satake
    • F25B41/04F25B41/00F25B41/06
    • F25B41/062F25B40/00F25B2309/061F25B2341/0683F25B2500/18F25B2600/2505
    • To provide an expansion device which controls high pressure-side pressure such that the pressure does not exceed a predetermined pressure in terms of absolute pressure, while operating in response to differential pressure between pressure at an inlet thereof and pressure at an outlet thereof. An expansion device comprises an orifice for expanding refrigerant, a valve element disposed on a downstream side of a valve hole and urged by a shape-memory alloy spring in a valve-opening direction, a shaft disposed to extend through the valve hole and having one end thereof rigidly fixed to the valve element, and a spring provided at the other end of the shaft, for receiving load generated by differential pressure between pressure of refrigerant at an inlet of the device and pressure of refrigerant at an outlet thereof, in a valve-opening direction. The shape-memory alloy spring senses the temperature of refrigerant on the downstream side to perform temperature-dependent correction of a set value of the differential pressure for opening the valve element. Therefore, pressure on an upstream side of the valve hole is controlled as if by absolute pressure. Further, when the pressure on the upstream side exceeds a predetermined pressure, the spring is bent to open the expansion valve, and hence the pressure is prevented from rising above the predetermined pressure.
    • 提供一种膨胀装置,其控制高压侧压力,使得压力绝对压力不超过预定压力,同时响应于其入口处的压力和其出口处的压力之间的压差而操作。 膨胀装置包括用于膨胀制冷剂的孔口,设置在阀孔的下游侧并由形状记忆合金弹簧沿阀打开方向推动的阀元件,设置成延伸穿过阀孔并具有一个 其端部刚性地固定到阀元件,以及设置在轴的另一端的弹簧,用于接收在装置的入口处的制冷剂的压力与其出口处的制冷剂的压力之间的差压产生的负载 开放方向 形状记忆合金弹簧感测下游侧的制冷剂的温度,以进行用于打开阀元件的压差的设定值的温度校正。 因此,通过绝对压力控制阀孔的上游侧的压力。 此外,当上游侧的压力超过预定压力时,弹簧被弯曲以打开膨胀阀,因此防止压力升高到高于预定压力。
    • 6. 发明授权
    • Proportional solenoid valve
    • 比例电磁阀
    • US06783110B2
    • 2004-08-31
    • US10308211
    • 2002-12-02
    • Hisatoshi HirotaTokumi TsugawaKatsumi KoyamaToshiyuki ShiotaYuusuke Inoue
    • Hisatoshi HirotaTokumi TsugawaKatsumi KoyamaToshiyuki ShiotaYuusuke Inoue
    • F16K3102
    • F25B41/062F16K1/123F16K3/265F16K31/0651F16K31/0655F16K31/0668F25B2341/061F25B2341/065Y02B30/72
    • To provide a small-sized and low-cost proportional solenoid valve which is capable of controlling a bidirectional fluid flow. A core is fixed in a pipe, and a hollow shaft having an extreme end thereof closed by a valve seat and a portion adjacent thereto formed with valve holes is fixed in the core. Within the pipe, there are arranged a hollow cylindrical valve element axially movable using the shaft as a guide and urged in a direction away from the core by a spring, for opening and closing the valve holes, and a plunger, while outside the pipe, there is arranged a solenoid coil. The proportional solenoid valve has a body formed by the pipe, and the component parts for opening and closing the valve are arranged within the pipe, so that it is possible to reduce the size of the proportional solenoid valve, the number of component parts, and machining costs and material costs, which contributes to reduction of costs of the valve. Further, since the operation of the hollow cylindrical valve element for opening and closing the valve holes is not adversely affected by the direction of the fluid flow, it is possible to control a bidirectional flow of fluid.
    • 提供能够控制双向流体流动的小型和低成本比例电磁阀。 芯部固定在管中,并且具有由阀座封闭的前端的空心轴和与阀孔相邻的部分固定在芯中。 在管内设有一个中空的圆柱形阀元件,该中空圆柱形阀元件可以使用该轴作为引导件而轴向移动,并且通过弹簧沿远离该芯的方向被推压,用于打开和关闭该阀孔,以及一个柱塞, 设置有螺线管线圈。 比例电磁阀具有由管形成的本体,并且用于打开和关闭阀的部件布置在管内,使得可以减小比例电磁阀的尺寸,部件的数量和 加工成本和材料成本,这有助于降低阀门的成本。 此外,由于用于打开和关闭阀孔的中空圆柱形阀元件的操作不会受到流体流动的方向的不利影响,因此可以控制流体的双向流动。
    • 7. 发明授权
    • Outflow prevention device
    • 防流出装置
    • US06966365B2
    • 2005-11-22
    • US10428107
    • 2003-05-02
    • Hisatoshi HirotaTokumi Tsugawa
    • Hisatoshi HirotaTokumi Tsugawa
    • B60H1/00B60H1/32F25B41/00F25B41/04F25B49/02F16K17/20
    • F25B41/04B60H1/00978B60H1/3225F25B41/003F28F2265/16Y10T137/2584Y10T137/87362
    • To provide an outflow prevention device which is capable of preventing refrigerant from flowing out into a vehicle compartment even when an evaporator has ruptured.The outflow prevention device comprises a shut valve arranged in a passage via which refrigerant introduced into a shut valve inlet from an expansion device is allowed to flow to the evaporator, and a check valve arranged in a passage via which refrigerant returned from the evaporator is allowed to flow to an accumulator. A chamber behind a piston fixed to a plug holding a valve sheet and a chamber on a downstream side of the check valve are communicated with each other via a bypass passage, so that differential pressure generated across the check valve by flow of refrigerant through the same can be applied to the shut valve to open and close the same. The valve sheet and the piston are formed to have the same diameters so as to prevent the shut valve from being influenced by introduced pressure, thereby enabling the shut valve to be operated only by the differential pressure generated across the check valve.
    • 为了提供即使在蒸发器破裂时也能够防止制冷剂流入车厢的流出防止装置。 流出防止装置包括:关闭阀,其配置在允许从膨胀装置引入到关闭阀入口的制冷剂流入蒸发器的通路中,以及设置在允许从蒸发器返回的制冷剂的通路中的止回阀 流入累加器。 固定在保持阀片的塞子上的活塞和在止回阀的下游侧的腔室之间的腔室经由旁通通路彼此连通,从而通过制冷剂流过该止回阀而产生的差压 可以将其应用于关闭阀门打开和关闭。 阀片和活塞形成为具有相同的直径,以防止截止阀受到引入的压力的影响,从而使截止阀仅通过止回阀上产生的压差来操作。
    • 8. 发明授权
    • Four-way switching valve
    • 四通切换阀
    • US06860294B2
    • 2005-03-01
    • US10360493
    • 2003-02-07
    • Hisatoshi HirotaTokumi TsugawaKatsumi Koyama
    • Hisatoshi HirotaTokumi TsugawaKatsumi Koyama
    • B60H1/32F16K11/22F16K11/24F16K31/42F25B41/04F16K11/20
    • F16K31/423F25B41/046Y10T137/86839Y10T137/87217
    • To provide a four-way solenoid valve having a three-way solenoid valve of which non-concentricity between a valve element and a valve hole is small, if any. A core of a three-way solenoid is integrally formed with a refrigerant passage extending axially therethrough, an annular projection forming a valve seat, and a guide for guiding reciprocating motion of a needle forming a valve element. A plug closing a cylinder of a body to define the pressure control chamber is also integrally formed with a valve seat and a guide for guiding reciprocating motion of a needle forming a valve element associated with the valve seat. This causes the needles to be seated on the valve seats associated therewith in respective states guided by the guides substantially concentric with the valve holes, which makes it possible to impart sufficient sealing properties to the valve portions when each valve is closed.
    • 提供一种具有三通电磁阀的四通电磁阀,其中阀元件和阀孔之间的非同心度小,如果有的话。 三通螺线管的铁心与轴向延伸的制冷剂通道一体形成,形成阀座的环形突起和用于引导形成阀元件的针的往复运动的引导件。 闭合体的圆筒以限定压力控制室的塞子也与阀座和引导件一体地形成,用于引导形成与阀座相关联的阀元件的针的往复运动。 这使得针被引导在与阀孔基本上同心的导向的相应状态下与其相关联的阀座上,这使得当每个阀关闭时可以赋予阀部分足够的密封性能。
    • 9. 发明授权
    • Refrigerating cycle
    • 制冷循环
    • US06694760B2
    • 2004-02-24
    • US10160683
    • 2002-06-01
    • Hisatoshi HirotaTokumi Tsugawa
    • Hisatoshi HirotaTokumi Tsugawa
    • F25D1700
    • F25B41/062F25B40/00F25B2341/065F25B2341/0662F25B2341/0683F25B2400/16Y02B30/72
    • A refrigerating cycle is capable of performing both an operation in which the maximum cooling power is desired to be unleashed and an operation in which the most excellent performance coefficient is attained. A refrigerating cycle is configured such that a differential pressure-regulating valve forming a pressure-reducing device is arranged between a condenser and a receiver. As a result, by setting the differential pressure regulated by the differential pressure-regulating valve 3 to 0, it is possible to cause the refrigerating cycle to perform an operation in which the maximum cooling power is desired to be unleashed, whereas by setting the same to a desired value, it is possible to cause the same to perform an operation in which an excellent performance coefficient is attained. By forming the differential pressure-regulating valve by an electromagnetic differential pressure-regulating valve, the regulated differential pressure can be changed from approximately 0 to a desired value by an electric signal from the outside.
    • 制冷循环能够执行期望释放最大冷却功率的操作和达到最佳性能系数的操作。制冷循环被构​​造成使得形成压力的差压调节阀 减压装置设置在冷凝器和接收器之间。 结果,通过将由差压调节阀3调节的压差设定为0,可以使制冷循环进行希望释放最大冷却功率的动作,而通过设定相同 达到期望值,可以使其执行获得优异的性能系数的操作。 通过由电磁差压调节阀形成差压调节阀,通过来自外部的电信号将调节压差从大约0变化到期望值。