专利检索_..轴线布置成非90°角的专利检索_..轴线布置成非90°角的专利检索查询

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F04C18/56：...相互啮合式，即配合元件的啮合类似于齿轮机构的

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
181	SPHERICAL ROTARY COMPRESSOR	JP2319684	1984-02-09	JPS60166777A	1985-08-30	MANGIYOU MASAO
PURPOSE:To feed a proper amount of oil into necessary parts by feeding the oil supplied from an oil pump onto rotary bodies from the gap between a shaft and a bearing part and onto a main bearing from an oil introducing groove in a cylinder in the system different from the above-described gap. CONSTITUTION:As for a spherical rotary compressor, an electrical motor part 3 and a compressor mechanism 4 are accommodated integrally into a horizontal type sealed case 2, and one rotary body 10 among a pair of rotary bodies 10 and 11 which perform compression operation in cooperation in the compression mechanism part 4 is revolved through a main shaft 6 by the revolution of the rotor 3b of the electrical motor part 3. In this case, one edge of a coil spring 12 is screwed with the shaft part 11a of the other rotary body 11, and the spring 12 is accommodated into a pipe 8' fixed onto a cylinder 13, and an oil pump 8 is constituted. The oil 9 pressurized by the pump 8 is supplied into a bearing holding part 5a through an oil introducing groove 14h and an oil groove 6a, while the oil is supplied into the rotary bodies 10 and 11 through the gap between the shaft part 11a and the bearing part 14e.
182	MOTOR COMPRESSOR	JP9524283	1983-05-30	JPS59221481A	1984-12-13	FUJIWARA HISAYOSHI
PURPOSE:To make valves for suction and delivery unnecessary and improve compression efficiency by a method wherein a rotary piston piece, having and a swash surface, and reciprocating piston pieces, having slanted surfaces and opposing to the rotary piston piece, are provided in the motor compressor. CONSTITUTION:The rotary piston piece 10 is provided at the end of a shaft 5 and the peripheral surface thereof is air-tight and rotatable with respect to the peripheral wall of a cylinder chamber 9. The upper and lower end faces of the rotary piston 10 are slanted by predetermined angles respectively. On the other hand, the reciprocating piston pieces 11, 12 are opposing to the upper and lower parts of the rotary piston piece 10, accommodated in the cylinder chamber 9, the peripheral surface thereof are air-tight with respect to the wall of the cylinder chamber, connected mutually through a connecting piece 14, the end faces thereof are provided with the same angles as those of the rotary piston 10 and relation between mutual end faces is reverse. According to this method, the smooth movements of the piston pieces and a compression efficiency for the compressed gas may be improved.
183	JPS5723142B2 -	JP8453373	1973-07-25	JPS5723142B2	1982-05-17

184	ROTARY FLUID MACHINE	JP9532479	1979-07-25	JPS5620704A	1981-02-26	NISHIJIYOU TOKUJI; TERADA FUSAO
PURPOSE:To eliminate vibration and noises and enhance cycle efficiency, by providing a rotary blade, a partition blade and other constituent members to construct a spherical moving mechanism centering the spherical center of a cylinder. CONSTITUTION:When a rotary shaft 2 is rotated by a motor 21, a rotary blade 4 is revolved in the same direction centering an axis P-O and a sphere chord X-X' is revolved on a plane perpendicularly intersecting the axis P-O. At that time, a partition blade 6 rotates around the center O of a sphere while rocking, and a sphere chord Y-Y' is also revolved. A rotary blade 5 is revolved together with a rotary shaft 3 centering an axis Q-O. As a result, the capacity of four chambers in a cylinder 1 partitioned by the rotary blades 4, 5 and the partition blade 6 is varied between zero and the maximum value. At that time, a lubricant in tanks 22, 24 is injected through inlet passages 20, 23, 19a, 19b and injection ports 17a, 17b.
185	ROTARY FLUID MACHINE	JP8333479	1979-06-29	JPS569690A	1981-01-31	TERADA FUSAO; NISHIJIYOU TOKUJI; NAKAZATO TAKASHI
PURPOSE:To eliminate generations of vibration and noises by making a partition blade to devide a spherical hollow cylinder into two chambers, two rotary blades to move attaching to and detaching from it, and components to rock and rotate these both blades as the spherical movement mechanism. CONSTITUTION:A partition blade 1 to devide a spherical hollow cylinder 1 into two chambers, such as a compression space and an expansion space, and rotary blades 4, 5 to move attaching to and detaching from the partition blade 6 are installed. And for simultaneously rocking and rotating these both blades, they are pivotally supported to be rotatable around the wall of the cylinder 1, and components, such as rotating axles 2, 3 etc. which have the spherical central point 0 of the cylinder 1 correspond with the prolonged lines are provided, by which a spherical movement mechanism is constituted. Further, the partition blade 6 is incorporated with a heat insulating plate 18. This facilitates to eliminate vibration and noises, prevent heat conduction and air leak between the compression space and expansion space which are different in temperatures and pressures in order to improve the cycle efficiency.
186	FLUID MACHINE	JP15751679	1979-12-06	JPS5581203A	1980-06-19	BERUNAARU ZAAMEN

187	CAPACITY TYPE COMPRESSOR	JP15555777	1977-12-26	JPS5487911A	1979-07-12	FUJISAWA MITSURU; HIROSHIMA MINORU
PURPOSE:To improve reliability as well as to eliminate wear due to sliding in such a way that a sectoral vane is provided on a hub of a turning rotor in the cylinder, and compressive action is done by composing of portions only to make rotary motion. CONSTITUTION:A vane 22 is installed onto a hub 21 of a rotor turned by a motor 32. The shape of the vane 22 is in a form of a surface 16 when the plane 15 is bent such that it gets concaved to the side of the surface 16 holding vertical state by installing the tetragonal surface 16 onto the plane 15. A disc rotary plate 24 having a slit 25 inserted with the vane 22 is turned through a gear by a rotary axle 37. If the hub 21 and the plate 24 gets turned in the arrow direction, both actions of air discharge and intake are done because an air intake connecting groove 26 and a discharge connecting groove 27 are linked respectively with an air intake port 28 and an air discharge port 29.
188	FAN WITH FOLDABLE BLADE	JP3066977	1977-03-18	JPS53115916A	1978-10-09	SASAOKA SUEZOU

189	FAN WITH MOVABLE BLADES	JP2864077	1977-03-17	JPS53114504A	1978-10-06	SASAOKA SUEZOU

190	ANNULAR WAVEEFORM VANE ROTORS	JP15279975	1975-12-23	JPS5276711A	1977-06-28	KAJI HIDEO

191	BENT AXIS TYPE ROTARY MECHANISM	JP10718076	1976-09-07	JPS5272903A	1977-06-18	MAIRON REI GIBUSON

192	SPHERICAL AND CYLINDRICAL PISTON	JP12508875	1975-10-17	JPS5248807A	1977-04-19	KAKUBA AKITAKA
PURPOSE:Getting a simple and economical piston of a rotary cylinder-type rotary pump with such construction that the section of outer face of a piston is formed into full circle at the perpendicular face to a totor rotating shaft and the piston is fined on a rotating disc.
193	BENT AXIS TYPE ROTARY MACHINES	JP10272876	1976-08-30	JPS5233107A	1977-03-14	AREKISANDAA GOOROOFU

194	HOUSING CONSTRUCTION OF SKEN SHAFT ROTAING MECHANISM	JP8108476	1976-07-09	JPS5219806A	1977-02-15	JIEEMUSU AREKISANDAA RITSUCHI

195	MOTIVE ENGINES OR FLUID TRANSFER MEANS	JP5171476	1976-05-08	JPS5211410A	1977-01-28	MANIYUERU BIIDOMA BAKERO

196	JPS5170305U -	JP14500074	1974-11-29	JPS5170305U	1976-06-03

197		JP1219674	1974-01-31	JPS50107310A	1975-08-23

198		JP6864971	1971-09-06	JPS4833415A	1973-05-10

199	ANTI-LOCKING MECHANISM OF SPHERICAL COMPRESSOR ROTOR	US16392423	2019-04-23	US20190249669A1	2019-08-15	Luyi WANG
An anti-locking mechanism of a spherical compressor rotor, an anti-locking power mechanism of a spherical compressor, and a spherical compressor. A pin boss is fixedly arranged on a turntable shaft, and guide pins are movably connected with a guide sleeve. A concave slideway is arranged in a cylinder block spherical surface or a cylinder lower spherical surface, and is distributed along a sliding track of the guide sleeve on the corresponding cylinder block spherical surface or cylinder lower spherical surface in a rotation process of a turntable. A main shaft rotates and drives the turntable. When the turntable rotates to a position at which a turntable axis and a piston axis are superposed, the turntable can continue to rotate around the turntable axis by means of torque obtained by the guide pin from the concave slideway, and thus a problem of a dead point of movement of a spherical compressor rotor is solved. Because the concave slideway is arranged outside a spherical working cylinder of a spherical compressor, the sealing effect is good.
200	Spherical expansion compressor adapted to variable working conditions	US13499685	2010-07-30	US08956128B2	2015-02-17	Luyi Wang; Nan Xia
A spherical expansion compressor adapted to variable working conditions with a spherical inner chamber, comprises a rolling rotor compressor used as first-stage compression, compression working chambers, expansion working chambers, a gas tank and a pressure control circuit. The pressure control circuit is between the gas tank and a pressure-controlled inlet valve of the rolling rotor compressor, and controls the inlet valve to open/close according to pressure in the gas tank and maintains constant pressure in the tank. A working medium after first-stage compression enters the gas tank, where the pressure control circuit regulates the gas tank pressure. The working medium enters second-stage compression, and expands in the expansion-stage, forming the spherical expansion compressor adapted to variable working conditions.

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