• 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 breakstem blind rivet comprises a deformable tubular shell (11) of aluminium alloy having a bore (12) inside it. A stem (13) of low-carbon steel is a close fit within the bore, extending along the bore and having a head (14) adjacent the tail end (15) of the shell. The outside of the shell is formed with at least three zones (27, 28, 29) of modified strength spaced apart along its length, these zones being in the form of shallow grooves rolled into the surface. The spacing between each zone (27, 28, 29) and the next progressively decreases as the distance along the shell from the tail end (15) increases. Alternatively the grooves may be formed by a turning process.
    公开号:SU1605932A3
    申请号:SU884355088
    申请日:1988-01-29
    公开日:1990-11-07
    发明作者:Деннис Лейси Раймонд;Дэвид Брэдли Вилльям
    申请人:Авдел Лимитед (Фирма);
    IPC主号:
    专利说明:

    about: about cd with with to

    cm
    The invention relates to riveted joints, in particular to blind rivets with a tear-off shank.
    The purpose of the invention is to expand the range of thicknesses of connecting parts and increase the reliability of the connection.
    Fig, 1 shows a blind rivet with a tear-off shank, a general view; in fig. 2 - rivet joints, axial section.
    The rivet contains a deformable; tubular sleeve 1 from an aluminum alloy with a 2% mag content; or with an enlarged head 2 from one end. In the hole 3 of the sleeve, a rod 4 was installed with a detachable shank 5. The rod was made of low carbon steel that is harder than the material of the sleeve and has an enlarged head 6. The rod has three smaller diameters: the neck 7, a connecting rod with a tear-off shank, and a groove 8 for forming a locking connection with the sleeve. The head 6 is made with a spherical surface 9, a cylindrical section 10, an undercut 11 and a sharp edge 12. The undercut 11 is made concave with a steeper slope in the peripheral zone. The inclination of the side progressively increases from the peripheral point 13 to the inner point 14. The diameter of the edge 12 is slightly smaller than the outer diameter of the end face 15 of the sleeve. The length of the groove 8 is about half its diameter.
    The sleeve 1 has three zones of modified strength, formed by the grooves 16-18, filled with hyzi on the narzgash surface, and located at a distance from one another along the length of the sleeve. Modified strength zones can be formed by locally compressing the liner material, for example, by rolling. In this case, zones of modified strength have greater strength compared with the rest of the liner. The grooves are arcuate in cross section, identical in width, depth and curvature of the cross section. The distance between each subsequent pair of adjacent zones of modified strength is progressively reduced in relation to the distance between the two previous zones. The distance between the grooves 18 and 17 is less than
    Q
    n 5
    five
    0
    five
    The position between the grooves 17 and 16. The distance between the groove 18 and the surface 19 of the head 2 is not less than the minimum distance between adjacent ones. modified strength zones, i.e. not less than the distance between ca. 18 and 17, and no more than the maximum distance between two adjacent zones of modified strength, i.e. between the grooves 17 and 16. The distance between the end 13 of the free end of the sleeve and the nearest zone of modified strength (groove 16) is less than the minimum distance between the zones of modified strength, i.e. grooves 17 and 18.
    The maximum distance between two adjacent zones of modified strength (grooves 16 and 17) is less than the outer diameter of the liner.
    Modified strength zones may have lower strength than the rest of the liner.
    Each modified strength zone has a smaller thickness than the rest of the sleeve.
    The sleeve is first manufactured without grooves 16-18. It is then installed on the rod with a small gap between the end face 15 and the edge 12. Thereafter, the grooves 16-18 are rolled. The three local protrusions on the inner wall of the liner that were deformed securely hold it on the rod.
    Upon receipt of the rivet connection, the sleeve is inserted into the holes of the joined parts 20 and 21 until the surface 19 of the sleeve head 2 comes into contact with the surface of the connected part. Then, a tightening force is applied to the shank of the rod. The head 6 of the rod abuts against the end 15 of the sleeve and creates axial pressure. The sleeve is pulled out. The bulging begins on the next groove on the part 21 side. The outer bulging of the sleeve part 22 beyond the groove 16 is held back, at least initially due to the contact of the edge 12 with the end face 15 of the sleeve. The extruded part of the liner forms a head on the inaccessible side of the parts to be joined, ensuring close contact of the latter. Continuous or prolonged tensioning of the rod forces a portion of the sleeve inside the joint to expand.
    radially outward, thereby filling the hole. If the drawing force then increases, the rod head 6 enters then the closest part of the sleeve. The sharp edge 12 of the head 6, which is smaller than the periphery of the sleeve end 15, cuts into the end of the sleeve, so that the material of the outer part of the sleeve moves around the edge of the rod head beyond the cylindrical section 10 and compresses on the outer edge of the spherical surface 9.
    The inclined walls of the undercut 11 progressively deform the material from the sleeve radially inward to come into contact with the groove of the 8 rod The head 6 and the adjacent part 23 of the rod are thereby locked in the end portion of the sleeve closest to the end. When the voltage on the rivet rod increases even more, then the shank 5 is detached from the rod through the neck 7, leaving the rivet improved by the quality (Fig. 2).
    The rivet can be used to bond together sheets having a total thickness (or grip), which can be between the limits defined by the distance between the adjacent side 19 of the sleeve head and about half the distance between the adjacent side 12 of the sleeve head and the groove 18 closest to the head. as a minimum, and an intermediate groove 17 (approximately at the level with a tear neck 7 of the trunk) as a maximum. Thus, the rivet has a gripper range that clenches from 6 to 1.
    The rivet dimensions are as follows:
    Inch (mm)
    Outside diameter
    rod head 6
    Maximum clearance
    Outside diameter
    sleeves
    Grooves 16-18 width at the surface of the sleeve
    Maximum
    depth
    Distance:
    from the end 15
    sleeves up grooves 16
    from groove 16
    up to the groove 17
    0.120 (3.05) 0.015 (0.38)
    0.122 (3.1)
    0.028 (0.71)
    0.005 (0.127)
    0.036 (0.91)
    0.072 (1.82)
    five
    0
    0.052 (1.32)
    0.067 (1.70)
    0.311 (7.9)
    0.032 (0.81)
    0.187 (4.75)
    five
    from groove 17
    up to groove 18
    from groove 18
    until side 19
    heads
    from the end 15
    until side 19
    heads
    Min gripper
    package thickness
    details)
    Max grab
    (pack thickness
    details)
    The specific combination of the rivet groove distances gives a good fixation when using the rivet, i.e. The rivet, in particular, reliably binds together the parts that were originally separated by a gap, and can provide resistance against the narrowing of this gap. In addition, the rod head configuration gives a good blocking of the rod in the sleeve.
    For example, 3ajEaienKa may have more than three grooves, provided that the distance between each groove and the next progressively decreases with distance along the sleeve from the end 15. The grooves can be rolled in the sleeve before mounting with the rod.
    Zones of modified strength along the liner may be zones of low strength. This can be achieved by using zones of reduced thickness, which is a result of the removal of material from the sleeve, for example, by the cutting method. These zones of reduced strength also contribute to the radial pulling of the liner when it is subjected to axial compression. The appearance of the rivet may be identical with the appearance shown in FIG. 5. 1, although the injection configuration may differ slightly from that shown in FIG. 2, which flows from the zones of increased strength.
    The modified strength zones may have a different configuration, unlike the grooves described. Although it is convenient to form an uninterrupted groove by rolling or cutting, the peripheral groove or other form of modified strength does not necessarily have to be continuous around the sleeve, but can be interrupted provided that it is effective to cause satisfaction.
    0
    creasing the sleeve when the rivet is set in the same way as described. The configuration of the rod and its head may be different compared to that described in the formula.
    权利要求:
    Claims (4)
    [1]
    1. A deaf rivet with a retractable tail, containing a deformable 1 blade with an enlarged head from one end and many peripheral ones of modified strength, spaced from one another along the length of the sleeve, as well as a rod inside it with a section of the shaft, characterized in that, in order to expand the range of thicknesses of the parts to be joined and to increase the reliability of the joint, the distance between each subsequent pair of adjacent zones of modified strength in the direction from the end of the free end of the sleeve its head is progressively reduced in relation to the distance between the two thinning zones,
    [2]
    2. A rivet in accordance with claim 1, characterized in that the distance between the end of the free end of the sleeve and the nearest zone of modified strength is less than the minimum distance between the zones of modified strength on the sleeve,
    [3]
    3. Rivets on PP. 1-2, characterized in that the maximum distance between two adjacent zones of modified strength is less than the outer diameter of the liner.
    [4]
    4. Rivet. In PP, 1-3,
    about t
    This is because the distance between the head and the nearest modified modified strength zone to it is not less than the minimum distance between adjacent modified sleeve strengths.
    5, Rivet on the PP. 1-4, characterized in that the distance between the head and the zone of modified strength nearest to it is not greater than the maximum distance between two adjacent zones of modified strength on the sleeve.
    6, Rivets in PP, 1-5, from l and so that the zones of modified strength are made in the form of grooves on the outer surface of the sleeve,
    7, Rivet on the PP. 1-6, characterized in that the sleeve has three zones of modified strength,.
    8, Rivets in PP, 1-7, characterized in that the zones of modified strength have greater strength compared with the rest of the liner,
    9, Rivets in PP, 1-7, about t l and - h with the fact that the zones of modified strength have less strength compared with the rest of the liner,
    10, Rivets in PP, 8 and 9, characterized in that each zone of modified strength has a smaller thickness than the rest of the sleeve.
    / Z
    fe.2
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1605932A3|1990-11-07|Blind rivet with tear-off shank
    CA2080082C|2003-09-09|Self-plugging blind rivet
    US4364697A|1982-12-21|Blind fastener assembly
    US4988247A|1991-01-29|Blind rivet and method of making same
    US4407619A|1983-10-04|Blind fastener with deformable clamping means
    CA1251663A|1989-03-28|Self-plugging blind rivet
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    US4863325A|1989-09-05|Two piece blind fastener with lock spindle construction
    US3550499A|1970-12-29|Screw anchor
    GB2180314A|1987-03-25|Blind fastener
    US8096742B2|2012-01-17|Blind rivet
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    JPH05209608A|1993-08-20|Blind bolt
    CA2412770A1|2002-01-17|Swage type fastener with low swage load
    JP2002541411A|2002-12-03|High tightening and high shear load resistant blind fastener with high tensile blind head
    JP2004523704A|2004-08-05|Blind rivet and assembling method
    US6213699B1|2001-04-10|Filling rivet with high pin lock
    US6389676B1|2002-05-21|Blind riveting
    US4767248A|1988-08-30|Fastener for securing panels of composite materials
    JPH0663532B2|1994-08-22|Blind rivets
    US5131107A|1992-07-21|Method of making a blind fastener
    同族专利:
    公开号 | 公开日
    GB2200422A|1988-08-03|
    CA1287756C|1991-08-20|
    JP2726265B2|1998-03-11|
    AU1094488A|1988-08-04|
    EP0277759B1|1990-08-16|
    GB8801808D0|1988-02-24|
    KR880009219A|1988-09-14|
    US4958971A|1990-09-25|
    ES2017009B3|1990-12-16|
    AT55631T|1990-09-15|
    DE3860450D1|1990-09-20|
    JPS63199911A|1988-08-18|
    GB8702155D0|1987-03-04|
    AU612616B2|1991-07-18|
    KR920000543B1|1992-01-16|
    BR8800379A|1988-09-20|
    EP0277759A1|1988-08-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    USRE20055E|1932-03-31|1936-08-04|Rivet and method of setting |
    US2324142A|1941-04-03|1943-07-13|Rolyan Corp|Rivet and method of making same|
    GB640451A|1946-09-02|1950-07-19|Aviat Developments Ltd|Improvements in or relating to tubular fastening devices or bushes|
    US3136203A|1960-11-29|1964-06-09|Gen Dynamics Corp|Blind rivet having means for retaining the expansion bolt|
    US3438301A|1967-04-10|1969-04-15|Emhart Corp|Hollow rivet and pull-stem assembly for blind fastening or the like|
    FR2625023B2|1978-03-09|1990-04-20|Commissariat Energie Atomique|JOINING DEVICE BETWEEN A TRANSPORT CONTAINER AND A HORIZONTAL WALL OF A UNLOADING ENCLOSURE|
    JPS60192110A|1984-03-13|1985-09-30|Pop Rivet Fastener Kk|Blind rivet|
    IT1175797B|1984-06-21|1987-07-15|Oggionni Tac Riveting Syst Sas|BLIND, TEAR RIVET, PROVIDED WITH A TUBULAR BODY LIKELY TO WITHDRAW, BY ACTION OF THE SPINDLE, FORMING ONE OR MORE CIRCUMFERENTIAL EXPANSIONS, OF RETAINING THE PIECES TO BE JOINED|
    DE8525482U1|1985-09-06|1985-10-17|Alfred Honsel Nieten - und Metallwarenfabrik GmbH & Co, 5758 Fröndenberg|Blind rivet for precisely defined clamping areas|GB2231932A|1989-05-16|1990-11-28|Milladale Ltd|Self-plugging blind rivet|
    GB2233059B|1989-06-16|1993-02-24|Avdel Systems Ltd|Blind rivet and method of manufacturing it|
    GB2251909A|1991-01-18|1992-07-22|Avdel Systems Ltd|Self-plugging blind rivet|
    US5213460A|1991-05-24|1993-05-25|Huck International, Inc.|High strength blind bolt with uniform high clamp over an extended grip range|
    BE1007284A3|1993-07-12|1995-05-09|Dejond Naamloze Vennootschap E|Rivet bolt.|
    DE4343171C2|1993-12-17|1996-08-08|Gesipa Blindniettechnik|Blind rivet and process for its manufacture|
    GB2288649A|1994-04-14|1995-10-25|Avdel Systems Ltd|Blind rivet|
    GB9504095D0|1995-03-01|1995-04-19|Emhart Inc|Improved blind rivet|
    US5599147A|1995-05-02|1997-02-04|Allfast Fastening Systems, Inc.|Blind rivet with a tapered locking mechanism|
    US5689873A|1996-01-11|1997-11-25|Allfast Fastening Systems, Inc.|Tacking fastener|
    USRE38664E1|1996-01-11|2004-11-30|Allfast Fastening Systems, Inc.|Method for creating a hole for a permanent fastener that replaces a tacking fastener|
    GB2330639B|1998-09-25|1999-10-13|Milladale Ltd|Blind rivet and method of making the same|
    GB2346943A|1999-02-19|2000-08-23|Emhart Inc|Blind rivet with circumferential grooves and axial ribs|
    US6077009A|1999-04-09|2000-06-20|Huck International, Inc.|Blind fastener with high strength blind head and high clamp and high shear load resistance|
    GB2357129A|1999-12-08|2001-06-13|Emhart Inc|Blind rivet with indentations|
    GB0031251D0|2000-12-21|2001-01-31|Emhart Inc|Blind rivet|
    US6772500B2|2001-10-25|2004-08-10|Allfast Fastening Systems, Inc.|Method of forming holes for permanent fasteners|
    GB2388412A|2002-05-08|2003-11-12|Emhart Llc|Blind rivet|
    US7198444B2|2002-05-22|2007-04-03|Newfrey Llc|Multi-grip blind rivet|
    US6905295B2|2003-07-22|2005-06-14|General Motors Corporation|Blind rivet with extended adhesive reservoir|
    JP4468711B2|2004-02-16|2010-05-26|ポップリベット・ファスナー株式会社|Blind rivet|
    FR2890133B1|2005-08-26|2009-01-30|Haute Garonne Ets Autiol Et Ci|BLIND RIVET AND ITS REMOVAL METHOD|
    DE102006058714A1|2006-12-13|2008-06-19|Audi Ag|Composite brake disc|
    US7824141B2|2007-08-03|2010-11-02|Newfrey Llc|Blind rivet|
    US8096742B2|2007-08-03|2012-01-17|Newfrey Llc|Blind rivet|
    GB0801996D0|2008-02-04|2008-03-12|Newfrey Llc|Variable grip blind rivet|
    US7699394B2|2008-05-13|2010-04-20|Lear Corporation|Connections for active head restraint systems for vehicle seats|
    GB2464674C|2008-10-20|2013-04-03|Avdel Uk Ltd|Blind fastener|
    DE102010002847A1|2010-03-15|2011-09-15|Newfrey Llc|Blind rivet with a plastic rivet body|
    DE102010017296A1|2010-06-08|2011-12-08|Newfrey Llc|Blind rivet and mounting arrangement with a blind rivet|
    DE102011113362A1|2011-09-15|2013-03-21|Newfrey Llc|Blind rivet and workpiece arrangement|
    CN102500729B|2011-10-24|2014-04-09|陕西天达航空标准件有限公司|Rolling method for ring-grooved rivet|
    CN102788070A|2012-07-06|2012-11-21|无锡市锐倍特紧固件有限公司|Sealing rivet|
    EP2935910A1|2013-03-15|2015-10-28|PCC Structurals, Inc.|Blind, bulbing, tacking rivet and method of installation|
    US9573187B2|2013-03-15|2017-02-21|Sps Technologies, Llc|Blind, bulbing, tacking rivet and method of installation|
    CN107864636A|2015-06-03|2018-03-30|戴姆勒股份公司|For the method and joint element that at least two components are bonded together by flowing shaping rivet sleeve|
    CN106640898A|2017-02-14|2017-05-10|无锡安士达五金有限公司|Rapid hole blocking rivet|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    GB878702155A|GB8702155D0|1987-01-30|1987-01-30|Break-stem blind rivet|
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