• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Device wherein the co-operation of a rotatable shaft and the displacement of a hydraulic medium forms a variable transmission unit or a pump, said device comprising an ingoing (driving) shaft having a widened part/rotor and an outgoing (driven) shaft co-axial with the ingoing shaft, the widened part of the.ingoing shaft being provided with a number of cylindrical bores, substantially parallel to its centre line, each bore containing a plunger which can reciprocate in said bore, said outgoing shaft being provided with a plate (mirror plate) obliquely arranged under an angle α with respect to the axis of the shaft for co-operating with protruding end(s) of the plunger(s) such that upon rotation of the rotor or the outgoing shaft the plunger(s) reciprocate in its (their) bores, each bore presenting in its wall a radially directed channel to establish a connection between the bore(s) and a circuit containing a hydraulic medium.
    公开号:SU1514247A3
    申请号:SU874202052
    申请日:1987-02-12
    公开日:1989-10-07
    发明作者:Theodorus Petrus Maria Cadee
    申请人:Volvo Car Bv;
    IPC主号:
    专利说明:

    The invention allows to simplify the design and increase the efficiency of a multi-cylinder piston hydraulic machine, B-: case 1 has a drive shaft 2 | With the expanded part 3 in the form of a cylinder block with a number of cylindrical channels (K) 4 parallel to the central axis 5 of the shaft 2. Each K 4 has plungers 6 with the ability to return - but progressive movement along
    To 4. The driven shaft 8 is installed coaxially with the shaft 2 and provided with one washer 9 located on one side of part 3. The washer 9 is equipped with a mirrored surface 10 for interaction with protruding ends G1 of the plungers 6. The surface 10 is set at an angle to the axis 5. Each K 4 has in its wall 12 a radial groove 13 for communicating K 4 with a hydraulic circuit having chambers 16, 17 with increased or decreased pressure. Camera 16,17 made in the form of recesses on the outer surface 18 of the shaft 8. Camera 16,
    17 are located on opposite sides of axis 5. The end 1 1 of each plunger 6 is made in the form of a heel with a supporting surface 19, facing the surface 10 and located at an angle about £. The shaft 8 can be provided with an additional washer 21, with a mirror surface
    22. Surfaces 10 and 22 with respect to the axis 5 of the shafts 2.8 are located at equal angles cX. 6 hp ff, 5 ill.
    FIG. one
    τι and
    $ 11, .., 1514247 AZ
    one
    1514247
    The invention relates to hydraulic engineering, in particular to multi-cylinder piston machines with axial arrangement of cylinders in a rotating cylinder block.
    The aim of the invention is to increase productivity.
    Figure 1 shows the hydraulic motor, a longitudinal section; figure 2 - block 1θ of the cylinder at the location of the chambers high and low pressures, cross section; figure 3 - the same, in the place of performance compensation of the recesses; 4 ~ plunger, section; 15 in FIG. 5 - plunger heel support surface.
    The hydraulic machine contains installed in the housing 1 of the drive shaft 2 with 2θ extended part 3 in the form of a cylinder block with a number of cylindrical channels 4 arranged parallel to the central axis 5 of the shaft 2.
    1 to
    In cylindrical channels 4 razmetets · * - "we plungers 6, entering into them at one end 7 completely. The plungers 6 are installed in the cylindrical channels 4 with the possibility of reciprocating movement along the cylindrical channel 4. The housing 1 is coaxially with the drive shaft 2 has a driven shaft 8, equipped with one washer 9 located on one side of the extended part 3 of the drive shaft 2. 35
    The washer 9 is equipped with a mirrored surface 10 for engagement with protruding ends of 11 plungers 6. Moreover, the mirrored surface 10 is installed at an angle relative to the central axis 5. Each cylindrical channel 4 has a radial groove 13 in its wall 3, intended for communication between a cylindrical channel 4 and a hydraulic contour of a cervical neck 14 or lower 15 pressure, having in the close proximity to the cylindrical channel 4 ca. measures of high 16 and low 17 pressure, made in the form of a dimple *. peny on the outer surface 18 of the driven shaft 8. The chambers of high 16 and low 17 pressure are located on opposite sides of the central
    axis 5. The protruding end 11 of each $$ plunger 6 is made in the form of a heel with a supporting surface 19 facing the mirror surface 10 and located at an angle o! equal to the angle of inclination of the mirror surface 10, relative to the central axis 20 of the plunger 6.
    The driven shaft 8 can be provided with an additional washer 2! with a mirror surface 22 located on the opposite side of the extended part 3 of the drive shaft 2 with the ability to interact with the plungers 6 installed in the cylindrical channels 4) made through in the extended part 3 of the drive shaft 2 with the possibility of making reciprocating movements. Mirror surfaces 10 and 22 of both washers 9 and 21 with respect to the central axis 5 of shafts 2 and 8 are located at equal but opposite angles οΖ.
    Each plunger 6 is raised, closed from the side of the mirror surface 10 or 22 fifth 11 and open from the opposite end 7.
    The heel 11 is provided with one axial cable scrap 23, intended for communication of the cylindrical channel 4 with a supporting surface of 1 9 heels 11. But 'heel 11 may be provided with i.dvumya parallel channels 24 and 25 disposed on both sides of the central axis 20 of the plunger 6, spaced to each other by an amount a.
    Chambers of increased I6 and low 17 pressure have different sizes. On opposite sides of the pressure chambers 16 and 17, compensating grooves 26 to 29 are provided, formed on the outer surface 18 of the driven shaft 8 inside the expanded part 3, two communicating grooves 28 and 29 being connected to a diametrically located pressure chamber 16, and two other grooves 26 and 27 - with a diametrically located chamber 17 of reduced pressure.
    In the process of operation, with the stationary driven shaft 8 and the rotating drive shaft 2 and the extended part 3, the plungers make reciprocating movements. Through the radial grooves 13, the chamber 16 of the increased pressure and the hydraulic circuit 14, the working fluid is pumped to the outlet 30. The working fluid is supplied through the provided inlet 31 of the Lowered pressure to the hydraulic circuit 15, to the chamber 17 of the low ddv ~
    1514247
    four
    and from this chamber I7 through the radial grooves 13 into the cylindrical channels 4, into the cavity 32 between the plungers 6. In this case, the device works like a pump. This happens only if the driven shaft 8 does not rotate. If, when the working fluid is supplied, the inlet 31 and the outlet 30, or only the outlet 30, turn out to be blocked, then the working fluid located between the plungers 6 will behave like an undeformable fluid, and therefore for the plungers 6 it will not be possible to move one direction or another. The mirror planes 10 and 22 are stuck, and the driven shaft 8 begins to rotate with the drive shaft 2 as a whole. 0
    The effectiveness of such a transfer in this particular case is thus almost equal to 100%.
    Between the two extreme states, it is possible to use any variants, which is achieved by reconstituting, by pumping the amount or pressure of the working fluid pumped between
    do output 30 and inlet 31 holes, or as a result of using 30 of both of these characteristics. These values also affect the speed of movement or the amount of torque of the plungers 6 relative to the mirrored surfaces of 35 tons 10 and 22 ,, or both of these characteristics, since the number determines the difference in rotations, and the pressure ensures the transmission of torque. In the same way, it is possible to supply additional energy through an additional amount of working fluid under pressure or vice versa, thus removing some of the energy. When transferring energy 45, the mirror surfaces 10 and 22 should have a certain inclination relative to the shaft, i.e. small angle. Since the plungers 6 in connection with the inclined orientation of their toes 11 with respect to the mirror surfaces 10. and 22 create on the extended part 3 an upward force K ,, and the working fluid simultaneously develops under the influence of high pressure from 155 chamber 16 and radial grooves 13 in cavity 32 between the plungers 6 transverse force P g , then it is necessary to compensate the resultant P g of these
    two forces in order to reduce friction between the drive 2 and the driven 8 shafts. This can be done using compensating slots 26 - 29, made in the form of recesses. The grooves 28 and 29 are connected with increased pressure through the chamber 16 and the hydraulic circuit 14, and the other pair of slots 26 and 27 - with reduced pressure through the chamber 17 and the hydraulic channel 15.
    If, during operation, plunger 6 takes a position that does not correspond to a snug fit of the heel 11 to the corresponding mirror surface 10 or 22, then there is no reverse torque on plunger 6, which again returns the plunger to the correct position due to channels 24 and 25 spaced apart creating a couple of forces, providing mutual balancing.
    If it is possible to turn one of the mirror surfaces 10 or 22 relative to the driven shaft 8, the stroke of the plunger 6 changes, and the characteristics of the device are adjusted.
    Thus, in the proposed device provides the regulation of the rotating moment of high-speed shafts; distribution of the rotating moment when using gears in drives to the front and rear wheels of vehicles; phase regulation shafts; control of tracked vehicles; use as a differential with variable locking; use in quality of a torque sensor high-speed shafts, based on pressure measurement; an increase in the starting torque due to an increase in the supply of working fluid; the use of excess energy resulting from the application of the hydraulic method; use as test equipment and control devices; combining two or more of the above features.
    权利要求:
    Claims (7)
    [1]
    Claim
    1. Hydraulic machine containing ust-;
    new drive shaft with housing
    the expanded part in the form of block qi1514247
    linders, having a number of cylindrical channels parallel to the central axis of the shaft, each of which has plungers with the possibility of reciprocating movement along the channel, and a driven shaft mounted coaxially with the drive shaft and equipped with one washer located on one side of the extended | θ
    parts of the drive shaft and equipped with a mirrored surface to interact with the protruding ends of the plungers, the mirror surface is set at an angle o / relative to the central axis, and each cylindrical channel has a radial groove in its wall for communication of cylindrical channels with a hydraulic contour, having increased and reduced pressure chambers in the form of depressions made on the outer surface of the driven shaft, characterized in that, in order to simplify the design and increase the efficiency, the chambers increase of the hydraulic system is located on opposite sides of the central axis of the shafts, and the protruding end of each plunger is made in the form of a fifth support surface facing the mirror surface and located at an angle οί equal to the angle of inclination of the mirror surface plunger axles.
    [2]
    2. The hydraulic machine according to claim * 1, O TL, which is due to the fact that the driven shaft is provided with an additional washer with a mirror surface located on the opposite side
    the extended part of the drive shaft, with the ability to interact with additional plungers installed with the possibility of reciprocating movement in the through cylindrical channels of the extended part of the drive shaft, and the mirror surfaces of both washers relative to the central axis of the shafts are at equal but opposite angles <Л
    [3]
    3. The hydraulic machine according to claims 1 or 2, characterized in that each plunger is made hollow, closed from the side of the mirror surface of the fifth and open from the opposite end.
    [4]
    4. The hydraulic machine according to Clause 3, characterized in that the heel is provided with at least one axial channel for communicating a cylindrical channel with the heel support surface.
    [5]
    5. The hydraulic machine according to claim 3, characterized in that the heel is provided with two parallel channels located on both sides
    from the central axis of the plunger.
    [6]
    6. The hydraulic machine according to π.1, about t l and that the high and low pressure chambers have different sizes.
    [7]
    7. Hzdromashina in π, 1, characterized in that compensating grooves are provided on the outer surface of the driven shaft on opposite sides of the pressure chambers, and at least two communicating grooves are connected to a diametrically located increased pressure chamber.
    figs
    ) 514207
    5
    类似技术:
    公开号 | 公开日 | 专利标题
    CA2298237A1|2000-08-09|Hydrostatic transmission having two-piece pump and motor block assembly
    SU1514247A3|1989-10-07|Hydraulic machine
    GB1009572A|1965-11-10|Hydraulic axial piston-type machine
    US3657970A|1972-04-25|Hydraulic pump or motor having a rotary cylinder barrel
    GB1286405A|1972-08-23|Radial hydraulic motors and pumps
    US3785250A|1974-01-15|Piston-type machine
    EP1030058B1|2004-12-22|Hydraulic pump
    US3858483A|1975-01-07|Pressure relief expansion chamber for hydrostatic motors
    US4548124A|1985-10-22|Radial piston hydraulic motor with variable eccentricity
    GB1424644A|1976-02-11|Hydraulic pump or motor
    SU1731981A1|1992-05-07|Axial-piston hydraulic machine
    GB1457215A|1976-12-01|Hydraulic axial piston motors and pumps
    JP3778370B2|2006-05-24|Structure of pressurized fluid motor
    GB1340793A|1974-01-30|Hydraulic axial piston pump or motor
    US3874272A|1975-04-01|Radial piston machine
    SU1645606A1|1991-04-30|Axial piston hydraulic machine
    SU1483087A1|1989-05-30|Axial-piston hydraulic machine
    US3866519A|1975-02-18|Piston of piston type fluid pump motor
    GB1432719A|1976-04-22|Hydrostatic piston machines
    SU1603048A1|1990-10-30|Axial-piston hydraulic machine
    SU1765506A1|1992-09-30|Axial piston hydraulic machine
    SU1492079A1|1989-07-07|Axial-piston machine
    SU1742509A1|1992-06-23|Axial-piston hydraulic machine
    US2604048A|1952-07-22|Pump
    GB1439536A|1976-06-16|Hydrostatic axial-piston machine anti-reflection film on the optical substratum and method of
    同族专利:
    公开号 | 公开日
    BR8700621A|1987-12-15|
    JPS62194066A|1987-08-26|
    EP0234631A1|1987-09-02|
    US4747266A|1988-05-31|
    JPH0830504B2|1996-03-27|
    EP0234631B1|1989-09-27|
    DE3760640D1|1989-11-02|
    AT46752T|1989-10-15|
    NL8600353A|1987-09-01|
    ES2010697B3|1989-12-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB135799A|1918-04-12|1919-12-04|Henry Selby Hele-Shaw|Improvements in Hydraulic Clutches or Couplers.|
    US1462600A|1919-07-16|1923-07-24|Hele-Shaw Henry Selby|Hydraulic clutch or coupler|
    FR508434A|1920-01-15|1920-10-11|Gnome Et Rhone Moteurs|Hydraulic gear change|
    US1648000A|1924-05-28|1927-11-08|Lee Engineering Res Corp|Variable-speed transmission|
    US1995646A|1932-04-26|1935-03-26|Paterson Thomas Watson|Hydraulic torque transmitting apparatus|
    US2847938A|1955-12-01|1958-08-19|John T Gondek|Hydraulic pump|
    US3030933A|1957-02-28|1962-04-24|Bergstedt Alf Johan Alexander|Pressure fluid machine|
    DE1157875B|1961-04-20|1963-11-21|Kopat Ges Fuer Konstruktion En|Hydrostatic transmission, especially for motor vehicles|
    DE2000797A1|1970-01-09|1971-07-15|Linde Ag|Hydrostatic transmission with internal power split|
    FR2101963A5|1971-07-30|1972-03-31|Muller Theodore|
    US3838574A|1973-07-13|1974-10-01|A Gelders|Hydraulic transmission system|
    DE3040928A1|1980-10-30|1982-06-09|Fritz 7987 Weingarten Wegerdt|Hydrostatic motor with two rings of cylinders - has axial pistons and cylinders on different pitch circles|
    DE3139191A1|1981-10-02|1983-04-21|Nikolaus Matthias 4040 Neuss Bender|Infinitely variable transmission|FR2642486B1|1989-01-31|1994-07-01|Poclain Hydraulics Sa|HYDROSTATIC ROTARY COUPLER|
    US8177009B2|2000-01-10|2012-05-15|The United States Of America As Represented By The Administrator Of The U.S. Environmental Protection Agency|Independent displacement opposing pump/motors and method of operation|
    US7337869B2|2000-01-10|2008-03-04|The United States Of America As Represented By The Administrator Of The United States Environmental Protection Agency|Hydraulic hybrid vehicle with integrated hydraulic drive module and four-wheel-drive, and method of operation thereof|
    US6719080B1|2000-01-10|2004-04-13|The United States Of America As Represented By The Administrator Of The Environmental Protection Agency|Hydraulic hybrid vehicle|
    US7374005B2|2000-01-10|2008-05-20|The United States Of America As Represented By The Administrator Of The U.S. Environmental Protection Agency|Opposing pump/motors|
    JP4124716B2|2003-09-29|2008-07-23|カヤバ工業株式会社|Swash plate type hydraulic pump / motor|
    KR101209606B1|2010-08-20|2012-12-07|현대자동차주식회사|Power transmission device for electric vehicle|
    DE102011114093B4|2011-09-21|2013-06-06|Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V.|Reverse osmosis plant and its use containing an active pressure intensifier|
    WO2021150588A1|2020-01-21|2021-07-29|Gartech, Llc|Double acting fluid end rotating thrust plate pump|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    NL8600353A|NL8600353A|1986-02-13|1986-02-13|HYDROMOTOR.|
    [返回顶部]