• 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:
    An auxiliary steering flow control device having known features of a rotatable steering spindle which initially effects axial shift of a valve sleeve through a torsional stressing device acting on a pair of compressibly arched leaf springs longitudinally disposed on the axis of the steering spindle and carried in a holder within the steering spindle. The leaf springs have contiguous contacting arched surfaces on the steering spindle axis and the arched configuration effects a back to back pretensing that augments the potential energy that can be stored in the springs, particularly in arched surface contiguity with each other.
    公开号:SU971083A3
    申请号:SU802914397
    申请日:1980-04-28
    公开日:1982-10-30
    发明作者:Либерт Карл-Хайнц;Тишер Вернер;Деппенброк Кристоф
    申请人:Цанрадфабрик Фридрихсхафен Аг (Фирма);
    IPC主号:
    专利说明:

    (54) HYDRAULIC1 1 STEERING MECHANISM
    one
    The invention relates to a transport engineering, and more specifically to vehicle steering control systems, preferably trucks.
    Known hydraulic steering mechanism. mainly for trucks, containing a drive shaft mounted in the steering gear housing and kinematically connected with the slide valve of the steering gear distributor and the hinged coupling mounted with limited rotation relative to the drive shaft and the propeller shaft with a hand-operated gerotor pump consisting of fixed in the housing gears with internal gearing and meshing gear meshing with it, with gearing with a number of teeth less than one AO compared to the specified bar, and spring element t, mounted between the driving shaft and schesterney with external gearing, wherein said slide valve distributor vsholnen steering mechanism with the possibility of hydraulic connection with a hydraulic pump.
    with hydraulic tank and with executive hydraulic cylinders turning 1.
    A disadvantage of the known steering mechanism is that the structure of the spring 5 element has rather large dimensions that do not allow it to be located inside the spool.
    The purpose of the invention is to simplify the structure 10 of the spring element.
    The goal is achieved by the fact that in a hydraulic steering mechanism the spring element is designed as longitudinally extending in the longitudinal direction and resting on each other 15 hectares of two plate springs axially mounted in a retainer that is hinged to the mentioned cardan shaft, and the springs are installed with the possibility of contact in the neutral position of the steering mechanism with the corresponding surfaces of the drive shaft.
    In addition, the ends of the said leaf springs on both sides are curved.
    FIG. 1 shows the steering mechanism in longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows section A-A in FIG. 1 with the steering wheel turned; in fig. 4 shows a section BB in FIG. one.
    The IVweBoA mechanism is structured as follows.
    Gear 1 with internal gearing is installed between cover 2 and housing 3 and is rigidly connected with bolts 4 to the other end cap 5. Gear 6 with external gears having one tooth less than gear 1 intermeshes with gear 1. Gear 6 through propeller shaft 7 and the hinge coupling 8 is connected with the simultaneous rotation with the spool 9 of the steering distributor mounted in the internal drilling of the housing 3 coaxially to the drive shaft 10. Two driving pins 11 and 12 serve to swivel the gear 6 to the shaft 7 and spool 9.,
    The spool 9 can be axially displaced relative to the shaft 10 along the thread profile 13 and can be rotated to the stops 14 in a limited way. A pair of leaf springs 15 are installed between the shaft Yu and the shaft 7.
    To regulate the flow rate of the working fluid, the housing 3 and the spool 9 are formed as follows.
    The central inlet groove 16 is connected to the hydraulic pump 17 and the channel 18 is connected to the internal cavity of the valve 9 Two adjacent drain channels 19 and 20 are connected to the hydraulic tank 21 adjacent to the groove 16. Each of the cylinder grooves 22 and 23 adjacent to the grooves 19 and 20 is connected to one of the two working chambers 24 or 25 of the executive hydraulic cylinder 26 of the rotation.
    Annular grooves are made on the outer surface of spool 9, which in neutral position of spool 9 connect hydraulic pump 17 to gkdrobak, and at displacement of spool 9 from neutral position they block free passage of working fluid from hydraulic pump to padrobak and joint one of grooves 22 or 23 from one of two grooves 19 or 20.
    At the ends of the spool 9, two systems 27 and 28 are uniformly arranged along the circumference of the longitudinal grooves 29 or 30. The grooves 29 and 30 are bounded on both sides in the axial direction and form regulating edges interacting with adjacent grooves in the housing with their locking edges. In addition, in the spool 9 is made through the longitudinal grooves 31 and 3 and through the internal profile with. grooves 33
    for the passage of the working fluid from the channel 18 to the system 28 of the grooves 30. The grooves 29 and 30 are closed in the neutral position of the spool 9. In the working position of the spool 9, the grooves 29 of the system 27 are connected to the channel 18 or to the groove. 22, and the grooves 30 of the other system 28 are connected to the groove 23 or, to the channel 18.
    When the steering wheel is rotated, the shaft 10 rotates accordingly, compressing the spring
    15. Both springs 15 are axially convex and extend in the center with their convexes on each other. Their bent on both sides of the spring 15 are supported on coaxially each other supporting surfaces of the drive shaft 9 and the spring retainer 34, which is connected through a hinge coupling 8 to the shaft 7. When the shaft 10 rotates when the gerotor pump is not yet rotating, and therefore the spring retainer 34 fixed, spring 15
    are compressed and the spool 9 is moved from the neutral position.
    Upon termination of the impact on the steering wheel, the potential energy accumulated
    in the springs 15, it is released and displaces
    spool 9 along thread profile 13 to neutral position.
    Due to the design of lamellar springs, longitudinally bent in the axial direction, it is already possible to adjust the pretension force in the neutral position of the spool 9. This ensures that the spool is safely returned to the neutral position.
    权利要求:
    Claims (2)
    [1]
    1. Hydraulic steering gear, mainly for trucks, containing a drive shaft mounted in the steering gear housing and kinematically coupled to the spool of the steering gear distributor and the hinge coupling installed with limited rotation relative to the drive shaft and cardan shaft, with a hand-operated gerotor pump, consisting of a gear with internal gearing and gearwheh engaged with it with external gearing with a number of teeth less than one said gear, and a spring element mounted between the drive shaft and an external gearing gear, said valve of the steering gear distributor being hydraulically coupled to the hydraulic pump, hydraulic cylinder and actuating swivel hydraulic cylinders, characterized in that, in order to simplify the design of the spring
    the element is made in the form of two plate springs axially convex in the longitudinal direction and supported on each other, which are axially mounted in a clamp that is pivotally connected to said cardan shaft, and these springs are installed with contact in the neutral position of the steering mechanism with the corresponding drive shaft surfaces.
    [2]
    2. The mechanism according to clause I, of which the above mentioned lamellar springs are curved on both sides.
    Sources of Information &
    taken into account in the examination
    1. US patent N "3385057, cl. 180-79.2, 1972. (prototype).
    类似技术:
    公开号 | 公开日 | 专利标题
    DE1653917C3|1974-04-25|Hydraulic control for a hydraulic working cylinder
    DE2447544A1|1975-04-30|HYDRAULIC CONTROL
    SU971083A3|1982-10-30|Hydraulic steering system
    EP0067572B1|1987-08-19|A power assisted steering gear assembly
    SU993835A3|1983-01-30|Directional valve for hydraulic system
    DE4125232A1|1992-02-06|VALVE CONTROL DEVICE
    US3099188A|1963-07-30|Power steering gear
    DE3904944C2|1994-01-27|Hydrostatic transmission
    DE2904111A1|1980-08-14|HYDROSTATIC STEERING DEVICE
    GB2057375A|1981-04-01|Hydraulic torque converter especially for use in steering equipment
    USRE31067E|1982-10-26|Hydrostatic control unit
    US4417501A|1983-11-29|Steering booster system
    DE2919050C2|1987-12-23|
    SU695544A3|1979-10-30|Hydraulic booster for a steering system of a vehicle
    US4143676A|1979-03-13|Hydraulic port control apparatus, e.g. for motor vehicle servo steering gear
    DE2649509B2|1981-01-22|Hydraulic power steering
    SU703010A3|1979-12-05|Steering gear of transport device
    US4608004A|1986-08-26|Power steering assembly
    SU1090269A3|1984-04-30|Rotary hydraulic pilot directional valve
    US2784600A|1957-03-12|Manual and power actuated steering mechanism for motor vehicles
    DE3234667A1|1983-05-05|ROTARY CONTROL VALVE FOR POWER STEERING
    DE2054358A1|1971-06-03|Hydraulic motor
    SU1109330A1|1984-08-23|Steering gear for vehicle
    DE1919891C3|1974-06-27|Hydrostatic transmission
    SU1728077A1|1992-04-23|Steering hydraulic booster of vehicle
    同族专利:
    公开号 | 公开日
    AR224263A1|1981-11-13|
    FR2456028A1|1980-12-05|
    DE2919051A1|1980-11-13|
    JPS6355469B2|1988-11-02|
    PL224126A1|1981-02-27|
    YU93280A|1984-02-29|
    GB2050269A|1981-01-07|
    ES491284A0|1980-12-01|
    DD150580A5|1981-09-09|
    DE2919051C2|1986-09-18|
    IN154946B|1984-12-22|
    GB2050269B|1983-01-26|
    US4344283A|1982-08-17|
    DK147141B|1984-04-24|
    BR8002877A|1980-12-23|
    FR2456028B1|1983-12-16|
    PL125925B1|1983-06-30|
    DK147141C|1984-10-01|
    DK181980A|1980-11-12|
    YU40876B|1986-06-30|
    ES8100995A1|1980-12-01|
    JPS55160663A|1980-12-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE1751979C3|1968-08-27|1981-01-22|Trw Inc., Cleveland, Ohio |Hydraulic control device|
    US3918856A|1974-02-19|1975-11-11|Trw Inc|Gerotor fluid controller with twistable blade energy storing means|
    US3937601A|1974-03-22|1976-02-10|Trw Inc.|Hydrostatic controller wherein the control valve spool includes the commutator valve|
    DE2712920C3|1977-03-24|1980-08-07|Zahnradfabrik Friedrichshafen Ag, 7990 Friedrichshafen|Hydraulic pressure medium control device, in particular for hydrostatic steering devices of motor vehicles|
    DE2814230C3|1978-04-03|1980-09-18|Danfoss A/S, Nordborg |Spring arrangement for centering a rotary slide control valve of a hydrostatic steering unit|US4336687A|1980-04-21|1982-06-29|Eaton Corporation|Load sensing controller|
    DE3037660C2|1980-10-04|1982-12-02|Zahnradfabrik Friedrichshafen Ag, 7990 Friedrichshafen|Hydrostatic power steering|
    GB2134054B|1983-01-31|1986-05-29|Mo N Proizv Ob Str Dorozh Mash|Hydraulic power steering assembly|
    YU180488A|1987-11-26|1991-02-28|Zahnradfabrik Friedrichshafen|Steering hydrostatic servo device, especially for motor vehicles|
    US5136844A|1990-10-11|1992-08-11|Eaton Corportaion|Controller with reduced travel limit slip|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE2919051A|DE2919051C2|1979-05-11|1979-05-11|Hydrostatic power steering|
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