• 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 pressure fluid cylinder without a piston rod and of the kind having a slotted cylinder tube (1) and a piston displaceable therein, said piston being connected to a movement transfer device, which extends radially through the slot. The slot is sealed axially on each side of the piston by means of internal och external sealing strips (31,32) consisting of a flexible sealing band (37,38) as well as retention means (44,45) extending into the slot and securing a releasable mechanical engagement with each other or, by friction, with the side walls of the slot.
    公开号:SU1210668A3
    申请号:SU833637306
    申请日:1983-08-17
    公开日:1986-02-07
    发明作者:Хэглунд Ингольф
    申请人:Аб Мекман (Фирма);
    IPC主号:
    专利说明:

    one
    The invention relates to mechanical engineering.
    The aim of the invention is to increase the reliability of operation by improving the sealing conditions of the longitudinal slot of the actuator cylinder.
    FIG. 1 shows rodless drive, longitudinal section; figure 2: - section aa. in fig. one; in fig. 3 — cylinder slot sealing assembly; on fit. D and 5 - the same, constructive options.
    The cylinder 1 of the actuator is closed at the end with end caps 2. The cylinder 1 contains a fluid-actuated piston 3 connected through a longitudinal slot 4 to a transmission mechanism 5. The slot 4 from each end of the piston on the outer and inner sides of the cylinder 1 is sealed with flexible sealing strips (inner 6 and outer 7), whose width is greater than the width of the slot. The caps 2 are attached to the cylinder with screws 8. Fluid pressure is supplied to the cylinder cavity through the hole 9 in the collet 2 and the nozzle 10. The prices are made in the piston 3 -sectoral holes 11 at the ends. The pipe 10 with the sealing lip 12 enters the hole in the extreme position of the piston 3, providing a damping of the movement of the latter.
    The transfer mechanism 5 is connected to the piston with its semi-cylindrical part 13, screws 14, its neck 15 passes through the slot 4, having a plug 16 at the end, which covers the connecting element 17, which provides a possibility of detachable connection through any type of driven or driving element 18 (not shown).
    B. In the area of the piston 3, the sealing strips 6 and 7 are guided in the longitudinal grooves 19 and 20. Near the ends of the piston 3, i.e. at some distance from the respective piston seals 21 in the inward direction, the belts 6 and 7 are guided and compressed by means of outer directions to the ends of the connecting element 17 attached to the ends of the connecting element 17, made of thermoplastic material and provided with scrape edges 23, as well as by means of internal guides 24, which are part of the respective piston bearing rings 25.
    106682
    The longitudinal tension of the sealing strips 6 and 7 is ensured by fixing them in each end cap 2, while they are missed.
    5 through the slot 26 in the holding flange 27 and the slot 28 in the cover 2. The locking screw 29 presses the tape 6 to 2, and the locking screw 30 - the tape 7 to the intermediate part 31,
    0 inserted P slot 28.
    The drive includes means for influencing the belts 6 and 7 to adhere to the cylinder, which can be made (Fig. 3) in the form of two
    15 are symmetrical with respect to the slot 4 of the elastic elements 32 and 33 which are included in the slot, forming a zipper-type connection and fixed to the tapes 6 and 7, respectively. These
    20 elements can be made in one piece with wider ribbons 6 and 7, but preferably they are made as separate elements attached, for example, by vulcanizing, sticking or in some other way to ribbons 6 and 7. The latter are performed resistant to wear and corrosion of metal, such as stainless steel or beryl 30 of bronze, and elements 32 and 33 are preferably made of wear-resistant elastic material with a low coefficient of friction and low modulus of elasticity, such as butadiene, nitrile rubber and and VET giuretana. Element 32 is a female part having a base 34 and an upwardly directed central roller 35. From the base 34, the roller 35 expands
    in cross section along a straight line 36 to point 37, from where it then narrows also along a straight line 38, reaching as far as the upper, flat part 39.
    The top member 33 is a female part and has a cross section approximately complementary to that of the element 32. Two legs 41 and 42 extend from the base 40 and are located symmetrically on each side of the roller 35.
    From the inner, rounded section 43 of the cross section, the straight line 44 runs downwards, reaching a point 45, from where each leg also narrows about the straight line 46, which runs obliquely downwards to the flat bottom surface 47.
    3
    The widest part of the roller 35, for example, at the level of point 37, is somewhat wider than the distance between legs 41 and 42 at the level of point 45.
    However, the roller 35 may be inserted between the legs 41 and 42, because when the inclined surfaces of the roller come into contact with the same inclined surfaces of the element 33, the legs are elastically bent back. When point 37 passes point 45, roller 35 moves somewhat inward, because legs 41 and 42 elastically move back.
    FIG. Figure 3 on the right shows the relative position of the elements 32 and 33 in the absence of an overpressure in cylinder 1, and on the left shows how the internal sealing tape 6 slightly bends upwards under the influence of an overpressure of the fluid inside the cylinder, while the outer tape 7 remains on its because the portion 39 of the roller 35 has the possibility of a slight free movement towards the base 40 of the element 33 (as well as the base 34 of the element 32 relative to the surfaces 47 of the legs 41 and 42).
    The end parts 48 of the belt 6 are bevelled on the side facing the slit 4, the I bevel edge 49 forms an outer sharp edge 50 which, in the absence of medium pressure, is in contact with the inner surface 51 of the cylinder mirror. This ensures the sealing of the slot 4 with the sealing tape 6 already at the very beginning of the above 1 working pressure for driving the piston 3.
    When the pressure is increased, the tape 6 is picked up and gradually a larger part of the beveled surface 49 comes into contact with the slot 51, because the bevelled part has less resistance to bending than the rest of the tape 6, having a uniform thickness.
    With full working pressure, the entire surface bends and enters
    .10668
    sealed contact with the surface, 51 cylinder mirrors.
    The tapes 6 and 7 can be directly unattached to each other 5 (Fig. 4 and 5), while the outer tape 7 is divided in the middle in the longitudinal direction into two halves 52 and 53, made of elastic material.
    10 The outer extremities of the halves 52 and 53 are pressed into the groove 54 and 55, respectively, and the inner extremities fit snugly together in the middle of the slot 4. J5 When the piston 3 passes through the transmission mechanism 5, half of the 52 and 53 belts are bent to the position shown in FIG. 4 and 5 by dash-dotted lines. The means for influencing the tape 6 is in this case made in the form of a slot-shaped continuous elastic element fixed in the longitudinal direction on the tape, entering in slot 25 and frictionally closed on the slot walls 56 and 57.
    The elastic element 58 (Fig. 4) has two legs 59 and 60 extending with a slope to the outside, preferably made of 3Q of a durable elastic material having a significant coefficient of friction over the material of cylinder 1 (usually aluminum), for example rubber or any synthetic highly elastic material with similar properties in the ratio of friction. The legs 59 and 60 are made of such dimensions that, being inserted into the slot 4, they come into contact with the side walls 56 and 57 with the required friction clutch.
    In addition, they are extensions) with beveled edges 61 and 62 at the free ends to facilitate insertion into slot 4.
    The elastic element (Fig. 5) is made of two pressure-bearing elements 63 and 64 of a hard strip material, for example steel, coming into contact with the walls 56 and 57 of the slit 4 with its arc-shaped parts 65 and 66 with a certain elastic force to ensure a friction closure .
    35
    40
    45
    50
    sixteen
    / iFig .2.
    4/0 344393837,35 Z /
    fig.Z
    36 49
    55
    FIG. four
    Compiled by L. Semenov Editor I. Nikolaichuk Tehred L. Kikemezey Proofreader G. Reshetnik
    Order 548/61
    Circulation 610
    VNIIPI USSR State Committee
    for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
    Filial PPP Patent, g, Uzhgorod, st. Project, 4
    FIG. five
    Subscription
    权利要求:
    Claims (1)
    [1]
    SHAFTLESS DRIVE, comprising a cylinder with a longitudinal slot closed at the ends by end caps, a piston actuated by a fluid pressure, located inside it, a transmission mechanism connected through the said slot to the piston, and the slot on each end of the piston from the outer and inner sides of the cylinder is sealed by a flexible sealing tape, the width of which is greater than the width of the slot, and a means of influencing at least the inner tape to fit it to the cylinder, characterized in that, in order to increase reliability For this purpose, the specified means of influencing the tape is made in the form of a continuous elastic element symmetrical about the slot axis, fixed in the longitudinal direction on the tape, entering the slot and frictionally closed to the slot walls, or in the form of two elastic elements symmetrical about the slot entering the slot and forming a zipper-type connection, one of the elements j being fixed on the inner tape and the other on the outer one.
    SU „1210668
    类似技术:
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    同族专利:
    公开号 | 公开日
    USRE33637E|1991-07-16|
    AU557445B2|1986-12-18|
    DE3270300D1|1986-05-07|
    WO1983002306A1|1983-07-07|
    DK159666B|1990-11-12|
    NO833012L|1983-08-22|
    SE8107724L|1983-06-23|
    HU187826B|1986-02-28|
    DK379483A|1983-08-19|
    EP0082829A1|1983-06-29|
    FI74783B|1987-11-30|
    AT18934T|1986-04-15|
    JPS58118309A|1983-07-14|
    FI832501L|1983-07-07|
    NO154645C|1986-11-19|
    US4555980A|1985-12-03|
    EP0082829B1|1986-04-02|
    NO154645B|1986-08-11|
    FI74783C|1988-03-10|
    FI832501A0|1983-07-07|
    DK159666C|1991-04-08|
    DK379483D0|1983-08-19|
    JPH0233882B2|1990-07-31|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE846493C|1950-10-12|1952-08-14|Brown Brothers & Co Ltd|Cylinder and piston design|
    US2665467A|1951-09-05|1954-01-12|Firestone Tire & Rubber Co|Fastening device|
    US2745382A|1954-07-14|1956-05-15|Harry R Heintzen|Power piston cylinder assembly|
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    US2978769A|1958-07-07|1961-04-11|Talon Inc|Plastic bag or container|
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    US3428272A|1967-01-18|1969-02-18|United Aircraft Corp|Modular seal for aircraft launching cylinder|
    US3421718A|1967-01-18|1969-01-14|United Aircraft Corp|Integral seal for aircraft launching cylinder|
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    JPS5349887Y2|1975-08-25|1978-11-30|
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    US4164893A|1977-08-04|1979-08-21|Bo Granbom|Sealing device at pressure fluid cylinders|
    DE2846443C2|1978-10-25|1984-06-14|Brown, Boveri & Cie Ag, 6800 Mannheim|Device for fastening built-in installation devices|
    US4252285A|1979-04-30|1981-02-24|The United States Of America As Represented By The Secretary Of The Navy|Dynamic seal for slotted cylinder|
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    US4373427A|1980-01-31|1983-02-15|Tol-O-Matic, Inc.|Fluid pressure cylinder|
    DE3124915C2|1981-06-25|1984-10-31|Kaiser, Siegmund H., Ing., 7440 Nürtingen|Pressure cylinder with a longitudinally slotted cylinder tube closed at the end|
    DE3124878C1|1981-06-25|1982-12-09|Kaiser, Siegmund H., Ing., 7440 Nürtingen|Pressure cylinder|
    JP6254429B2|2013-11-29|2017-12-27|株式会社小松製作所|Tunnel excavator and control method thereof|DE3338305A1|1983-10-21|1985-05-02|Wabco Westinghouse Steuerungstechnik GmbH & Co, 3000 Hannover|PRESSURE CYLINDER WITH A END-LOCKED LENGTH SLIT CYLINDER PIPE|
    DE3340291A1|1983-11-08|1985-05-23|ORIGA GmbH Pneumatik, 7024 Filderstadt|PRESSURE CYLINDER|
    US4545290B1|1983-12-23|1993-03-30|Tol O Matic Inc|
    DE3429783A1|1984-08-13|1986-02-20|Herion-Werke Kg, 7012 Fellbach|PISTONLESS CYLINDER|
    DE3509891A1|1985-03-19|1986-09-25|Herion-Werke Kg, 7012 Fellbach|PISTONLESS CYLINDER|
    JPS6285704U|1985-11-15|1987-06-01|
    JPS62266206A|1986-05-09|1987-11-19|Ckd Corp|Rodless cylinder|
    US4881454A|1986-07-03|1989-11-21|Bo Granbom|Pressure fluid cylinder device|
    DE3631514A1|1986-09-17|1988-03-24|Proma Prod & Marketing Gmbh|PRESSURE CYLINDER|
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    US4998459A|1989-09-22|1991-03-12|Blatt John A|Rodless fluid actuated motor with improved sealing characteristics|
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    IE920673A1|1991-03-04|1992-09-09|Ascolectric Ltd|Linear drive|
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    US5275088A|1991-10-11|1994-01-04|Smc Kabushiki Kaisha|Rodless cylinder|
    JP2575245B2|1991-11-01|1997-01-22|エスエムシー株式会社|Rodless cylinder|
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    DE9410393U1|1994-06-28|1994-08-18|Festo Kg|linear actuator|
    TW308628B|1995-12-27|1997-06-21|Toyowa Kogyo Kk|A rodless power cylinder|
    US6023111A|1997-05-20|2000-02-08|Howa Machinery, Ltd.|Linear actuator|
    US6257123B1|1997-10-24|2001-07-10|Phd, Inc.|Rodless slides|
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    SE510854C2|1997-10-29|1999-06-28|Mecman Ab Rexroth|Device on the end of a pressurized fluid cylinder and pressurized fluid cylinder comprising one or two such devices|
    SE520017C2|1997-10-31|2003-05-06|Mecman Ab Rexroth|Pressure fluid cylinder|
    US5845582A|1997-11-13|1998-12-08|Aeromovel Global Corporation|Slot sealing system for a pneumatic transportation system guideway|
    SE511690C2|1998-03-27|1999-11-08|Mecman Ab Rexroth|Holder for sealing tape|
    US6336393B1|1998-07-01|2002-01-08|Parker-Hannifin Corporation|Rodless pneumatic cylinder|
    AT2689U1|1998-07-01|1999-02-25|Hygrama Ag|PISTONLESS PRESSURE CYLINDER|
    AT2690U1|1998-07-01|1999-02-25|Hygrama Ag|PISTONLESS PRESSURE CYLINDER|
    IT1312235B1|1999-03-29|2002-04-09|Luciano Migliori|SHOCK ABSORBER DEVICE FOR PNEUMATIC CYLINDERS.|
    IT1313145B1|1999-08-04|2002-06-17|Univer Spa|LINEAR ACTUATOR WITH DAMPING AND SPEED CONTROL DEVICE|
    DE10109482A1|2001-02-28|2002-09-12|Festo Ag & Co|Piston rod-less linear actuator has means of locking provided on pivotable cover section for releasable locking fixing in covering position of longitudinal slot, with locking effected by component bearing pressure upon cover strip|
    DE10109479A1|2001-02-28|2002-09-12|Festo Ag & Co|Rodless linear actuator|
    JP3704294B2|2001-04-25|2005-10-12|Smc株式会社|Belt fixing mechanism|
    US6857780B2|2002-11-15|2005-02-22|Phd, Inc.|Rodless slide assembly|
    US8016549B2|2006-07-13|2011-09-13|United Technologies Corporation|Turbine engine alloys and crystalline orientations|
    US8863645B2|2007-03-28|2014-10-21|Norgren Gmbh|Piston support portion for a piston assembly of a rodless cylinder|
    US10767644B2|2012-12-20|2020-09-08|Robert Bosch Gmbh|Piston fuel pump for an internal combustion engine|
    CN103939611A|2014-05-07|2014-07-23|夏彤宇|Flexible opening fastening and sealing device of opening air cylinder|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE8107724A|SE8107724L|1981-12-22|1981-12-22|DEVICE FOR A Piston Rod Loss PRESSURE CYLINDER|
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