• 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:
    A shock absorber comprising telescopically inserted cylinders, the empty space between them being filled with a medium of appropriately selected rheological properties of increasing viscosity, decreasing elasticity and one of which being filled with a media having viscous characteristics under static conditions and elastic characteristics under dynamic conditions.
    公开号:SU929018A3
    申请号:SU782616052
    申请日:1978-05-10
    公开日:1982-05-15
    发明作者:Мацеевски Ереми
    申请人:Институт Хэмии Пшемыслоэй (Инопредприятие);
    IPC主号:
    专利说明:

    one
    The invention relates to the absorption of mechanical energy, especially the energy of strong shocks, and can be used to absorb the energy of strikes in rail vehicles, motor vehicles, gun structures, rocket launchers, as an elevator movement limiter, cranes and other movable tooling. elements of machines, as well as to damp oscillations during the movement of vehicles, operation of machines and other equipment.
    There are known devices for absorbing very strong impacts, consisting of two coaxial cylinders, between which there is a third one ending in an eleptic ring with a diameter larger than the gap between the first two cylinders l.
    The impact energy is absorbed due to the deformation of coaxially arranged cylinders and friction of the ring. This device, at low impact energies, behaves like an elastic body, and with increasing energy it causes destruction of the absorber.
    five . The closest in technical essence to the invention is a device for absorbing mechanical energy, containing filled with working media having
    10 different rheological properties, telescopically located working cylinders, of which the outer one is fixed and filled with an elastic medium, and in a smaller one
    15 cylinder diameter placed piston C2.
    However, this energy absorption device performs only a specific function and is intended for precisely defined conditions.
    20 operation, which reduces the efficiency of damping.
    权利要求:
    Claims (1)
    [1]
    The purpose of the invention is to increase the efficiency of damping vibrations by creating a smooth transition from its function as a vibration damper with different amplitude and frequency, to a motion limiter and further absorber of impact energy and combining these functions. The goal is achieved by the fact that in a device for absorbing mechanical energy, containing filled working media with different rheological properties, telescopic located working cylinders, of which the outer one is fixed and filled with an elastic medium, and a piston is placed in a cylinder having a smaller outer diameter mediums having elasticities decreasing consistently from a cylinder of a larger diameter to a cylinder of a smaller diameter, and the viscous properties of their enno are increased The drawing shows a diagram of the proposed device. A device for absorbing mechanical energy consists of telescopically arranged working cylinders 1,2 and 3, of which the outer cylinder 1 of a larger diameter is fixedly mounted on the support 4, and each subsequent smaller diameter pa is installed in the previous one with the possibility of relative axial movement. The diameter of the piston is located. The cavities of cylinders 1, 2 and 3 are filled with working media with different rheological properties, the elasticity of which decreases from a cylinder 1 of larger diameter to a cylinder 3 of smaller diameter, and their viscosity increases accordingly. Cylinder 1 is filled with a polymer having elastic properties; cylinder 2 contains polymer having viscous properties in a static state and resilient in a dynamic state. This polymer maintains seal 6, which is installed along the outer diameter of the cylinder 3, in a stressful state. and pressed by the spring 7 In the cylinder 3 there is a polymer having viscous properties, held in the stressed state, placed on the piston 5 by a seal 8, pressed by the spring 9- In the presence of oscillations with a small amplitude, the piston 5 um in the viscous polymer cylinder 3 which inhibits movement of the piston 5 in connection with which it is withdrawable gaets with reduced frequency, which leads to a sine wave oscillation damping. High amplitude oscillations in cylinders 2 and 3 In cases where the device performs the function of a motion limiter, at the moment of impact its energy is partially received by the polymer of cylinder 2, then absorbed by the polymer of cylinder 3, and in the final phase of deceleration cylinder 3 enters In the polymer of cylinder 2. 8 in the event of a significant increase in mass, the movement of which slows down, the piston 5 rests on cylinder 3. pushes it into cylinder 2 and the entire assembly rests in the final phase of movement on the polymer of cylinder 1. When subjected to a strong impact, inertia adapts This leads to the energy being received by the polymer of cylinder 2, which behaves like an elastic body, then the polymer in cylinder 1, and then again the polymer in cylinder 2, as a body with decreasing c. viscosity as energy is absorbed. Then the polymer of cylinder 3 plays the role of a motion limiter due to immersion of piston 5. In the case of a sharp blow with an energy much higher than the calculated one, the blow perceives the polymer in cylinder 2, being destroyed into small pieces, then the polymer in cylinder 1, and then the polymer again Section 2, whose structure has already been partially restored, and it begins to work as a viscous substance. A device for absorbing mechanical energy that contains telescopically located working cylinders filled with working media with different rheological properties, of which the outer one is fixed and filled with an elastic medium, and a piston is placed in a cylinder having a smaller outer diameter, characterized in that the purpose of increasing the vibration damping efficiency by creating a smooth transition from its function as a vibration damper with different amplitude and frequency to the limited the reader of the movement and further absorber of energy of blows and combination
    类似技术:
    公开号 | 公开日 | 专利标题
    SU929018A3|1982-05-15|Device for absorbing mechanical energy
    US3752462A|1973-08-14|Elastomeric spring and frictional damping shock absorber
    US3741560A|1973-06-26|Dampened shock absorbing bumper
    US2540130A|1951-02-06|Support
    SU562218A3|1977-06-15|Closed hydraulic element
    US3713641A|1973-01-30|Damping apparatus
    GB884953A|1961-12-20|Energy absorber
    CN108825697B|2020-09-25|Shock absorber for new energy automobile
    US3194355A|1965-07-13|Hydraulic shock absorber with initial impact damping
    CS241035B2|1986-03-13|Power energy absorbing device,especially with impacts
    CA2282535A1|1998-09-03|Kinetic energy absorbing element
    CN111216506A|2020-06-02|Double-cross-arm rear suspension shock absorber assembly, double-cross-arm rear suspension assembly and mounting method
    KR101372972B1|2014-03-14|Hybrid shock absorber
    CN110685971A|2020-01-14|Hydraulic cylinder with damping kinetic energy
    CN213479024U|2021-06-18|Damping inverted shock absorber
    CN110030308B|2020-09-15|Recoverable impact-resistant hybrid vibration isolation and reduction device and vibration reduction method
    RU1810666C|1993-04-23|Power absorber
    KR100222087B1|1999-10-01|Fly wheel for shock absorber
    CN214197097U|2021-09-14|Composite vibration-damping connecting device composed of metal spring and rubber
    CN109138567B|2020-06-12|Double-tuning type inertial volume system
    CN213511852U|2021-06-22|Electromechanical device damping device
    KR19980026905A|1998-07-15|Electromagnetic Springs for Shock Absorption
    CN202646515U|2013-01-02|Improved structure of internal pressure cylinder of oil buffer
    RU2323377C1|2008-04-27|Shock damper
    SU1157224A2|1985-05-23|Electrodynamic percussive mechanism
    同族专利:
    公开号 | 公开日
    DE2820467A1|1978-11-16|
    US4235317A|1980-11-25|
    PL123472B1|1982-10-30|
    RO75415A|1980-11-30|
    PL198005A1|1979-02-12|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    BE471356A|1946-02-02|
    BE493265A|1949-01-21|
    DE1152579B|1960-08-22|1963-08-08|Stabilus Ind Und Handelsgesell|Pneumatic spring|
    US3241642A|1960-12-27|1966-03-22|Nathan E Knecht|Constant output speed coupling|
    FR1372781A|1963-10-23|1964-09-18|Stabilus|Improvements to elastic gas devices with gradual operation|
    US3877552A|1970-06-19|1975-04-15|Hughes Aircraft Co|Highly viscous fluid damper providing regulated non-linear damping for traversing units|
    PL73176B1|1971-03-08|1974-08-31|
    US3784179A|1971-05-14|1974-01-08|Aisin Seiki|Cushioning device|
    US4085832A|1975-05-14|1978-04-25|Gulf & Western Manufacturing Company|Multi-chambered foam energy absorber|US4596383A|1984-02-21|1986-06-24|Gas Spring Company, Division Of Fichtel & Sachs Industries, Inc.|Gas spring with secondary lock|
    US4739976A|1985-11-08|1988-04-26|Wiseda Ltd.|Suspension for heavily loaded haul trucks|
    IT208341Z2|1986-11-10|1988-05-28|Fiat Auto Spa|DAMPING DEVICE FOR SUSPENSION OF A VEHICLE|
    DE4204128A1|1992-02-12|1993-08-19|Gerb Gmbh & Co Kg|Horizontally and vertically acting viscous vibration dampener - has flow labyrinth formed by ring discs between dampener ram and at least one pipe|
    US5288060A|1993-01-28|1994-02-22|Adolf Tyutinman|Shock absorbing suspension|
    US5392882A|1993-02-03|1995-02-28|General Motors Corporation|Dynamic absorber suspension strut|
    DE19532863A1|1994-09-09|1996-03-14|Marcus Kracht|Automatic height=equalisation system for supporting surfaces on furniture|
    DE4441020C1|1994-11-17|1996-05-23|Brueckner Maschbau|Shock absorber device for carriages, in particular for film stretching systems|
    EP0929760A1|1996-10-09|1999-07-21|The B.F. Goodrich Company|Dry media suspension system for aircraft|
    US6364399B1|2000-08-10|2002-04-02|Daimlerchrysler Corporation|Pressurized structural member of a motor vehicle frame|
    DE10101177C1|2001-01-12|2002-08-29|Zf Sachs Ag|Telescopic shock absorber|
    FR2819766B1|2001-01-23|2003-03-21|Renault|DEVICE FOR CONTROLLING THE MOVEMENTS OF A BUMPER OF A MOTOR VEHICLE|
    JP4301837B2|2002-05-21|2009-07-22|三菱電機株式会社|Elevator shock absorber|
    DE10261591B4|2002-12-24|2017-02-09|Grass Gmbh|damping device|
    DE102009013152A1|2009-03-06|2010-09-09|Schunk Gmbh & Co. Kg Spann- Und Greiftechnik|Damping system for stop damping|
    DE102012010304A1|2012-05-24|2013-11-28|Atlas Elektronik Gmbh|Damping module and method for transmitting a power surge|
    CN103062273B|2013-01-21|2015-04-22|陕西理工学院|Damping-adjustable elastic clay buffer for vehicle|
    DE102014107701A1|2014-06-02|2015-12-03|Lisega SE|Telescopic spring support|
    US10737545B1|2019-12-19|2020-08-11|PAL Suspension LLC|Vehicle suspension system with multi-stage hydraulic cylinder assemblies and external spring packs|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    PL19800577A|PL123472B1|1977-05-10|1977-05-10|Apparatus for absorbing mechanical energy in particular very strong impact energy|
    [返回顶部]