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    • 1. 发明授权
    • Scroll-type fluid machine with radial clearance between wraps
    • 涡卷式流体机器在包装之间具有径向间隙
    • US4579512A
    • 1986-04-01
    • US661915
    • 1984-10-17
    • Masao ShiibayashiSumihisa KotaniKazutaka SuefujiKenji TojoAkira Murayama
    • Masao ShiibayashiSumihisa KotaniKazutaka SuefujiKenji TojoAkira Murayama
    • F04C18/02F01C1/02F04C23/00F01C1/04F01C17/06
    • F01C1/0215F04C2230/60F04C23/008F05B2230/60
    • A scroll-type fluid machine having a stationary scroll member and an orbiting scroll member each of which includes a disc-like end plate and a spiral wrap extending axially from one side of the end plate, with the wraps of the scroll members meshing with each other to define therebetween closed compression chambers. The orbiting scroll member is disposed between the end plate of the stationary scroll member and a frame of the machine with a back clearance between the other side of the end plate of the orbiting scroll member side thereof and the opposing surface of the frame. The orbiting scroll member is driven to make an orbiting movement with respect to the stationary scroll member so that the compression chambers are progressively moved towards the center of the scroll members while decreasing their volumes, to thereby suck a fluid through a suction port in the stationary scroll member and compress the same to discharge the compressed fluid through a discharge port formed in the stationary scroll member. The radial clearance between the wraps of both scroll members is selected to meet a specific condition so as to avoid mutual contact between the wraps of the scroll members even when the orbiting scroll member is inclined with respect to the horizontal plane.
    • 一种涡旋式流体机械,其具有固定涡旋构件和绕动涡旋构件,每个涡旋构件包括盘状端板和从端板的一侧轴向延伸的螺旋形涡卷,涡旋构件的涡卷与每个 另一个在其间限定封闭的压缩室。 绕动涡旋构件设置在固定涡旋构件的端板和机器框架之间,在其绕动涡旋构件侧的端板的另一侧和框架的相对表面之间具有后间隙。 驱动绕动涡旋构件相对于静止涡旋构件进行轨道运动,使得压缩室在减小其体积的同时逐渐向着涡旋构件的中心移动,从而通过静止的吸入口吸入流体 涡旋构件并将其压缩以通过形成在固定涡旋构件中的排出口排出压缩流体。 选择两个涡旋构件的涡卷之间的径向间隙以满足特定条件,以便即使当绕动涡旋构件相对于水平面倾斜时也可避免涡旋构件的涡卷之间的相互接触。
    • 3. 发明授权
    • Refrigeration system incorporating scroll type compressor
    • 涡旋式压缩机制冷系统
    • US4475360A
    • 1984-10-09
    • US458923
    • 1983-01-18
    • Kazutaka SuefujiKensaku OguniSumihisa KotaniKenji Tojo
    • Kazutaka SuefujiKensaku OguniSumihisa KotaniKenji Tojo
    • F04C18/02F04C23/00F04C28/00F04C29/04F04C29/12F25B1/04F25B13/00F25B31/00
    • F04C28/00F04C18/0215F04C23/00F04C29/042F04C29/122F25B13/00F25B31/00
    • A refrigeration system including a scroll type compressor having a stationary scroll member, an orbiting scroll member, a discharge port formed in the central portion of the end plate of the fixed scroll member, a suction port formed in a peripheral portion of the fixed scroll member, and at least one gas injection port formed through the thickness of an end plate of the fixed scroll member in a portion of the end plate near the spiral wrap, at a position spaced from the wall of the spiral wrap by a radial distance less than the thickness of the spiral wrap. A discharge pipe is connected to the discharge port, with a suction pipe being connected to the suction port. A refrigerant circuit is connected between the suction pipe and the discharge pipe of the scroll type compressor and includes a four-way valve, indoor heat exchanger, first pressure reducer, gas-liquid separator, second pressure reducer and an outdoor heat exchanger. A gas injection passage is connected between the gas outlet formed in an upper part of the gas-liquid separator and the gas injection port, so as to permit the refrigerant gas in the upper part of the gas-liquid separator to be additionally supplied into the compression chambers under compression in the scroll type compressor.
    • 一种制冷系统,包括具有固定涡旋构件的涡旋式压缩机,形成在固定涡旋构件的端板的中心部的旋转涡旋构件,排出口,形成在固定涡旋构件的周向部分中的吸入口 以及至少一个气体注入口,其通过所述固定涡旋构件的端板的厚度在所述端板的靠近所述螺旋形涡卷的部分中形成,所述至少一个气体注入口在与所述螺旋状涡卷的壁间隔开径向距离小于 螺旋卷的厚度。 排出管连接到排出口,吸入管连接到吸入口。 在涡旋式压缩机的吸入管和排出管之间连接有制冷剂回路,包括四通阀,室内热交换器,第一减压器,气液分离器,第二减压器和室外热交换器。 在气液分离器的上部形成的气体出口和气体注入口之间连接有气体注入通道,以便将气液分离器的上部的制冷剂气体另外供给到 在涡旋式压缩机中受压缩的压缩室。
    • 4. 发明授权
    • Refrigerating system using scroll type compressor
    • 制冷系统采用涡旋式压缩机
    • US4382370A
    • 1983-05-10
    • US313496
    • 1981-10-21
    • Kazutaka SuefujiTetsuya ArataYoshikatsu TomitaSumihisa KotaniNaoshi UchikawaAkira Murayama
    • Kazutaka SuefujiTetsuya ArataYoshikatsu TomitaSumihisa KotaniNaoshi UchikawaAkira Murayama
    • F04C18/02F04C23/00F04C28/06F04C28/16F25B1/04F25B13/00
    • F04C28/16F04C23/00F04C28/06F25B1/04F25B13/00
    • A refrigerating system including a refrigeration circuit and a scroll type compressor provided with two volume control mechanisms to allow the system to selectively perform full load operation and unloaded operation. The scroll type compressor includes two scroll members of known construction meshing with each other to define compression chambers and a suction chamber and is combined with the refrigeration circuit having an outdoor heat exchanger, an expansion valve, an indoor heat exchanger and a four-way change-over valve to provide a heat pump type refrigerating system. The volume control mechanisms each include a pair of bypass apertures in the fixed scroll member communicating with a valve chamber having a valve member slidably mounted therein and normally biased to an open position by a spring. The bypass apertures, of which one communicates with the suction chamber and the other communicates with one of the compression chambers, and the valve chamber constitute a bypass passageway. A pressure introducing pipe opens in the valve chamber. Upward movement of the valve member brings the two bypass apertures in communication with each other through the valve chamber to enable the system to perform a volume control operation. In another application, four volume control mechanisms are located symmetrically and divided into two blocks through a flow passage switching device to assign two mechanisms to one block. By this arrangement, the system is able to perform volume control operation in three stages, or able to operate selectively at maximum load, intermediate load and minimum load.
    • 一种制冷系统,包括制冷回路和涡旋式压缩机,该压缩机设置有两个容积控制机构,以允许系统选择性地执行满载操作和卸载操作。 涡旋式压缩机包括两个已知构造的涡旋构件,其彼此啮合以限定压缩室和吸入室,并与具有室外热交换器,膨胀阀,室内热交换器和四通变换的制冷回路组合 提供一种热泵式制冷系统。 音量控制机构各自包括在固定涡旋构件中的一对旁通孔,其与具有可滑动地安装在其中的阀构件的阀室连通,并且通过弹簧通常偏压到打开位置。 旁通孔与吸入室连通,另一个与一个压缩室连通,并且阀室构成旁路通路。 压力引入管在阀室中打开。 阀构件的向上运动使两个旁通孔通过阀室彼此连通,以使系统能够执行体积控制操作。 在另一个应用中,四个音量控制机构被对称地定位并且通过流路切换装置分成两个块,以将两个机构分配给一个块。 通过这种安排,该系统能够在三个阶段进行音量控制操作,或能够在最大负载,中间负载和最小负载下选择性地进行操作。
    • 7. 发明授权
    • Scroll compressor having changeable axis in eccentric drive
    • 涡旋压缩机在偏心驱动中具有可变轴
    • US5040958A
    • 1991-08-20
    • US335936
    • 1989-04-10
    • Tetsuya ArataMasao ShiibayashiKazutaka Suefuji
    • Tetsuya ArataMasao ShiibayashiKazutaka Suefuji
    • F04C18/02F04C23/00F04C29/00
    • F04C18/0215F04C29/0057F04C2240/807F04C23/008
    • A scroll compressor comprising a stationary scroll member having a stationary spiral wrap extending from a stationary end plate, an orbiting scroll member having an orbiting spiral wrap extending from an orbiting end plate with the wraps of the stationary scroll member and orbiting scroll member engaging with each other to form a fluid compressing chamber. A main shaft rotates on its own axis, with an eccentric drive shaft being provided having an axis spaced from the axis of the main shaft to orbit around the axis of main shaft and so that the eccentric drive shaft drives the orbiting scroll member to orbit around the axis of the stationary scroll member. The eccentric drive shaft is guided on the main shaft so that a distance between the axis of eccentric drive shaft and the axis of main shaft can be changed, and the main shaft drives the eccentric drive shaft to orbit around the axis of the main shaft. A balance is connected to the eccentric drive shaft, with a center of gravity of the balance weight being spaced from the axis of main shaft so that the centrifugal force of the balance weight draws the eccentric drive shaft toward the main shaft. An arrangement is provided for pushing the eccentric drive shaft away from the main shaft.
    • 一种涡旋式压缩机,包括具有从静止端板延伸的固定螺旋形涡卷的固定涡旋构件,具有从旋转端板延伸的绕动涡旋构件的绕动涡旋构件,其中固定涡旋构件和绕动涡旋构件与每个 另外形成流体压缩室。 主轴在其自身的轴线上旋转,设有偏心驱动轴,该偏心驱动轴具有与主轴的轴线间隔开的轴线,围绕主轴的轴线轨道运动,从而偏心驱动轴驱动绕动涡旋件绕轨道 固定涡旋件的轴线。 偏心驱动轴在主轴上引导,使得偏心驱动轴的轴线与主轴的轴线之间的距离可以改变,主轴驱动偏心驱动轴围绕主轴的轴线轨道运动。 平衡配置与偏心驱动轴连接,其中平衡重心的重心与主轴的轴线间隔开,使平衡重的离心力将偏心驱动轴朝向主轴。 提供了用于将偏心驱动轴推离主轴的装置。
    • 9. 发明授权
    • Synchronous rotating type scroll fluid machine
    • 同步旋转式涡旋流体机
    • US5295808A
    • 1994-03-22
    • US859860
    • 1992-03-30
    • Shigeru MachidaHiroshi IwataIsamu TsubonoKazutaka SuefujiSeiji OhtakeKenji Tojo
    • Shigeru MachidaHiroshi IwataIsamu TsubonoKazutaka SuefujiSeiji OhtakeKenji Tojo
    • F04C18/02F04C29/00F04B35/04F04B39/06F01C1/04F01C21/00
    • F04C18/023F04C29/0085
    • A synchronous rotating type scroll fluid machine has a first scroll member driven by a shaft of a first motor and having an end plate and a scroll wrap protruding from a surface of the scroll end plate, and a second scroll member driven by a shaft of a second motor and having a scroll end plate and a scroll wrap protruding from a surface of the scroll end plate. The machine further has a mounting structure for mounting the scroll members such that the axes of the scroll members are offset from each other and that said scroll wraps of the scroll members mesh with each other. Thrust balancing arrangements are provided for attaining a balance between the thrusting forces acting on each said scroll member, both at the mounting structure and said scroll members. The thrust balancing arrangement includes through-bores formed in the respective motor shafts and serving as passage bores for discharging a compressed gas. This arrangement also provides cooling effect as the compressed working gas functions as a cooling medium and, in addition, serves to suppress distortion of the scroll end plate of each scroll member.
    • 同步旋转式涡旋流体机具有由第一马达的轴驱动的第一涡旋构件,具有从涡旋端板的表面突出的端板和涡卷,以及由轴的驱动的第二涡旋构件 第二电动机并具有从涡旋端板的表面突出的涡旋端板和涡卷。 该机器还具有用于安装涡旋构件的安装结构,使得涡旋构件的轴线彼此偏移,并且涡旋构件的所述涡旋涡卷彼此啮合。 提供了推力平衡装置,用于在安装结构和所述涡旋构件两者之间实现作用在每个所述涡旋构件上的推力之间的平衡。 推力平衡装置包括形成在各个电动机轴中的通孔,并且用作排出压缩气体的通道孔。 这种布置还提供冷却效果,因为压缩的工作气体用作冷却介质,另外还用于抑制每个涡旋件的涡旋端板的变形。
    • 10. 发明授权
    • Scroll compressor with sealed pressure space biasing the orbiting scroll
member
    • 涡旋压缩机具有偏压绕动涡旋件的密封压力空间
    • US4861245A
    • 1989-08-29
    • US85754
    • 1987-08-17
    • Kenji TojoKenichi KawashimaKazutaka SuefujiYozo Nakamura
    • Kenji TojoKenichi KawashimaKazutaka SuefujiYozo Nakamura
    • F04C18/02F01C17/06F04C27/00
    • F04C27/005F01C17/066
    • A scroll compressor comprises two scroll members, each of which has an end plate and a wrap formed on the end plate so as to extend perpendicularly therefrom, are meshed with each other, one scroll member being orbited with respect to the other without being self-revolved, to introduce a gas into working chamber. The working chamber is formed by these two scroll members, compresses the gas therein and then discharge the same to the outside. A seal mechanism for pressure-sealing between the working chamber or the suction side and a space on a rear surface of the orbiting scroll member is provided on the same rear surface, and also a pair of small-diameter ports for communicating the mentioned space and working chamber with each other are provided on the end plate of the above-mentioned scroll member, whereby the outer diameter of the scroll members can be minimized, and the axial opposed end surfaces of the two scroll members can be maintained in sealed condition.
    • 涡旋压缩机包括两个涡旋构件,每个涡旋构件具有端板和形成在端板上以从其垂直延伸的涡卷彼此啮合,一个涡旋构件相对于另一个旋转, 旋转,将气体引入工作室。 工作室由这两个涡旋件构成,将其中的气体压缩,然后将其排出到外部。 用于在工作室或吸入侧之间进行压力密封的密封机构与绕动涡旋构件的后表面上的空间设置在同一个后表面上,还设有一对用于连通所述空间的小直径端口和 工作室彼此设置在上述涡旋构件的端板上,从而可以使涡旋构件的外径最小化,并且可以将两个涡旋构件的轴向相对的端面保持在密封状态。