• 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:
    Removable bucket wheel teeth are provided with a rectangular-in-cross section shank portion and forwardly sloped shoulder areas for insertion into a complementarily-configured socket in a bucket lip. The resulting assembly is much more rigid and wears better than prior art tooth and lip configurations and tends to fracture preferentially when overstressed.
    公开号:SU1342428A3
    申请号:SU782697004
    申请日:1978-12-11
    公开日:1987-09-30
    发明作者:Фредерик Бирвись Стэнтэн;Стэнтэн Бирвись Роберт
    申请人:Санкор Инк. (Фирма);
    IPC主号:
    专利说明:

    industry, namely to buckets of earthmoving machines.
    The purpose of the invention is to increase other excavator bucket and reduced downtime.
    FIG. 1 shows a part of the impeller of a rotor excavator with one of the circumferential buckets; in fig. 2 is a view A of FIG. 1 (distribution of removable teeth along the edge of the bucket); in fig. 3 - cutting tooth, side view; in fig. 4 and 5 - rezhush 1Y tooth, general view; in fig. 6 - shock tooth, side view; in fig. 7 - impact tooth, open | 1st type; in fig; 8 - section BB: in FIG. 2; in fig. 9 - PGF for attachment of removable teeth on the edge of an excavator bucket (in a disassembled state), general view; in fig. 10- probable tooth fracture zone.
    Excavator bucket 1 installed
    FIG. 8 shows the shank 8 of the cutting tooth 5 located in the slot 23 for receiving the teeth. In this case, the impeller 2 rotates in the direction of the arrow 3, i.e. The motorized bore 24 passes through the front of the cartridge towards the full edge 4 of the excavator bucket, the material to be cast is located. The rear section 9 of the shank 8 passes approximately vertically in front of the hole not completely across the hole with the barrel wheel 2. When mining, for example - 24, when the cutting tooth 5 is located in measures of tar sands, the impeller 2 is located at the nest 23. The tooth 5 is fixed in the nest can move laterally to develop a gogo - 23 by pin 25 passing through the ground area, - to cut this
    One or the other holes 26 and 12 in the edge 4 of the excavator bucket 1 and in the shank 8 of the cutting tooth 25 are 5. The locking pin 25 consists mainly of two semi-cylindrical parts 27 and 28 of steel, between which an insert 29 of elastic elastic material for example
    the area is approximately horizontal.
    The excavator bucket 1 includes an edge 4 on which the removable teeth 5 and 6 are mounted. The cutting tooth 5 has a working head 7 and a shank 8, which is divided into three sections 9, 10 and 11. In the middle section 10
    the shank 8 is made oblong 40 neoprene. Thanks to the insert 29, the half-hole 12. On the working head 7, there is a pin construction, which is provided with a recess 13 for applying, which is clamped in one directional direction
    carbide coating. The working head 7 has a bearing surface made in the bidet of two faces 14 and 15, located at an angle to one another. The edges 14 and 15 are adjacent to the respective surfaces of additionally molded nests on the edge 4.
    an excavator bucket, so that gQ is in the corresponding knockout hole of a rigid structure with the advantageous properties of a 24 wedge-shaped tool, apply fracture and wear. by means of its force to the inner
     Impact tooth 6 has a shank 16 of the end surface of the shank 8 and the head of the cutter 17. Top surface or 16 and remove it, so that the tooth of the head of the cutter 17 of the impact sound gg can be knocked out of its socket
    or unfasten (or remove from the socket
    manually).
    Faces 14 and 15 of the head 7 of the cutting
    tooth 5 slightly tilted to vertical
    ba 6 is slightly shorter than the corresponding surface of the cutting tooth 5. A shorter recess is provided in the front portion of the impact tooth 6
    0
    0
    ti. in appropriate cases, a recess may be provided for receiving the carbide coating and on the bottom surface of the impact tooth 6. The stem 16 of the impact tooth 6 is identical with the shank 8 of the cutting tooth 5. Thus, areas 19, 20 and 21 of the tail 16 of the impact tooth 6 correspond to exactly sections 9, 10 and 11 of the shank 8 of the cutting tooth 5. Oblong hole 22 passes through the middle region 20 of the shank 16, and it 5 is identical to the hole 12 in section 10 of the shank 8, the side contours of areas 19 and 21 are identical to the lateral contours of sections 9 and 11. So In addition, the device for receiving the shanks of the cutting 5 and the impact 6 teeth has identical shapes.
    FIG. 8 shows the shank 8 of the cutting tooth 5 located in the slot 23 for receiving the teeth. In this case, the selection hole 24 passes through the entire edge 4 of the excavator bucket. The rear section 9 of the shank 8 does not pass completely across the hole 24 when the cutting tooth 5 is in 23. The tooth 5 is fixed in the nest 23 by the pin 25 passing through the
    The taper hole 24 passes through the entire edge 4 of the excavator bucket. The rear section 9 of the shank 8 does not fully pass across the hole 24 when the cutting tooth 5 is in the slot 23. The tooth 5 is fixed in the slot 23 by a pin 25
    Holes 26 and 12, one on another, in the edge 4 of the excavator bucket 1 and in the shank 8 of the cutting tooth 5. The locking pin 25 consists mainly of two semi-cylindrical parts 27 and 28 of steel, between which is inserted an insert 29 of elastic elastic material , eg
    other openings 26 and 12. Thus, the locking pin 25 can be hammered into the openings 26 and 12 or be knocked out of them in order to secure or detach the cutting tooth 5. After removing the locking pin 25 from the corresponding tooth, you can insert
    with respect to the axis of the shank 8. The linear segment 30, on which the surfaces of the faces .14 and 15 of the shank 8 meet, is translated slightly in relation to the head 11. The slot 23 is provided with additional arms 31 and 32, to which the faces 14 and 15 abut. This results in a very rigid construction, due to which the wear of the shank 8 and the socket 23 is minimal. In this tough; designs can also better transfer force from the bucket to the material being developed. Impact tooth shank 16 is identical with the cutter 8 shank 5. The upper and lower abutment faces 33 and 34 of the impact tooth 6 may be identical to the corresponding surfaces of the edges 14 and 15 of the cutting tooth 6 or may be at different angles, so that the impact teeth 6 will be placed in nests with correspondingly modified parts of the shoulders. This can distinguish the sockets on the edge 4 of the excavator bucket, provided for cutting 5 or impact 6 teeth. Preferably, the angle between the support edges and the plane, with respect to which the axes of the shanks 8 and 16 of the cutting 5 or impact 6 teeth extend vertically, is approximately 10. However, this angle can vary from 5 to 30, and a rigid connection is also obtained. between the edge of the excavator bucket and the teeth.
    If in the proposed design the cutting tooth 6 falls on a hard
    0
    five
    0
    five
    0
    five
    the area 35 of the material being developed 36, where the tooth is fractured, then the loads acting on the tooth are transmitted to the base of the tool head. The loads are distributed approximately evenly over the entire surface of the face 15, over the shoulder 32 and along the adjacent surface of the edge 4 of the excavator bucket 1. Since the force is distributed towards the upper end of the tool head 7 over a relatively small cross-sectional area place 37 of the head 7, in which the limit of elasticity and strength is exceeded. The nozzle or ribs 38 on the head 7 of the tool contribute to a certain degree in the intermediate zone fracture. If the head 7 breaks in such an intermediate place, the bucket with a broken tooth can continue to operate with a slightly reduced performance without the edge 4 of the excavator bucket being damaged. Therefore, it is not necessary to take the rotary excavator out of operation at an undesirable time in order to change a broken tooth. In the proposed design, the change of a broken tooth can be delayed until the stipulated time for maintenance and repair. If the excavator's capacity is impaired, so that the excavator cannot be used until the end of the normal service life of the tooth, then the excavator can alternatively continue until the moment of the possible change of one or more of the broken teeth.
    View yu
    / J
    Vue.5
    sixteen
    .
    J "
    Fi.V
    I L / 23 30 32
    Fi.Z
    Jj
    15
    FIG, E
    Editor A. Dolinich
    Compiled by V. Pushkarevsky
    Tehred M.DidykKorrektor V. Girn to
    Order 4448/59 Circulation 606 Subscription
    VNIIPI USSR State Committee
    for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
    Production and printing company, Uzhgorod, st. Project, 4
    FIG. JO
    权利要求:
    Claims (4)
    [1]
    1. EXCAVATOR BUCKET with an edge equipped with several sockets for receiving the corresponding number of removable excavator teeth, each of the excavator teeth having a shank and a working head that is meshed with the socket, characterized in that, in order to increase strength and reduce downtime, the working head each excavator tooth has a supporting surface made in the form of two faces located at an angle one with the other, the apex of which faces the shank, while the angle formed by the intersection azhdoy faces of the support surface with the plane perpendicular to the longitudinal axis of the shank is between 30 5do.
    [2]
    2. Bucket by π. ί, characterized in that each socket is equipped with shoulders corresponding to the supporting surface of the working head of the tooth, interacting with the supporting surface of the working head of the tooth when the latter is in the socket. ’
    [3]
    3. The bucket according to paragraphs. 1 and 2, characterized in that the part of the excavation teeth is cutting teeth, and the rest are impact teeth, while the shanks of all the teeth are identical.
    [4]
    4. The bucket according to paragraphs. 1-3, characterized in that both faces of the supporting surface of the working head each. of the excavator tooth are inclined relative to the shank of the tooth at the same angle.
    SU 1342428 A 3
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    同族专利:
    公开号 | 公开日
    GB2010777B|1982-06-16|
    CA1105524A|1981-07-21|
    IT1192299B|1988-03-31|
    US4360981A|1982-11-30|
    IT7830714D0|1978-12-11|
    DE2851442A1|1979-06-13|
    FR2411276B1|1986-06-27|
    JPS6154893B2|1986-11-25|
    FR2411276A1|1979-07-06|
    JPS552154A|1980-01-09|
    GB2010777A|1979-07-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU2480558C2|2007-12-21|2013-04-27|Атлас Копко Рокк Дриллс Аб|Wearing part of bucket of loading or earth-moving machine, its fastening element and system of wearing part, bucket and loading or earth-moving machine|US1890997A|1932-05-25|1932-12-13|Finkl & Sons Co|Forged dipper tooth|
    US2204718A|1937-07-10|1940-06-18|Electric Steel Foundry Co|Replaceable point excavating tooth|
    US2305653A|1941-03-14|1942-12-22|Abraham W Ward|Excavator tooth|
    US3471954A|1966-07-18|1969-10-14|Machinery Inc Const|Resilient ball retainer for tooth and holder|
    US3397012A|1966-12-19|1968-08-13|Cincinnati Mine Machinery Co|Cutter bits and means for mounting them|
    CA890315A|1969-03-21|1972-01-11|M. White Kenneth|Trencher tooth|
    DE7233751U|1971-10-27|1972-11-30|Ab Bofors|Grave tooth|
    ES175065Y|1971-11-27|1973-01-16|Caballero Rodriguez|FASTENING DEVICE OF SOME EXCAVATOR MACHINES.|
    FR2185027B1|1972-05-18|1978-06-30|Great Canadian Oil Sands|
    US3791054A|1972-06-15|1974-02-12|Great Canadian Oil Sands|Lip construction for bucketwheel excavators|
    US3947982A|1973-12-10|1976-04-06|Tomaso Mantovani|Structure for connecting teeth to the digging edge of a bucket|
    US4050172A|1974-01-07|1977-09-27|Petersen Gerald A|Excavator tooth, holder therefor and staple retainer|
    JPS5097205U|1974-07-08|1975-08-13|US4321762A|1979-10-17|1982-03-30|Hemphill Charles W|Digging tooth apparatus for V bottom bucket|
    JPS5832586A|1981-08-21|1983-02-25|Hitachi Ltd|Joining method for steel plate for cold rolling|
    GB2113177B|1982-01-08|1986-02-05|Kennametal Inc|Bit and block assembly|
    US4542943A|1982-04-08|1985-09-24|Kennametal Inc.|Earthworking tool for protecting from abnormally high cutting loads|
    SE450504B|1983-07-26|1987-06-29|Bofors Wear Parts Ab|WRADING SYSTEM FOR EQUIPMENT TOOLS|
    DE3444563C2|1984-12-06|1993-09-16|Lehnhoff Hartstahl Gmbh & Co, 7570 Baden-Baden, De|
    US4716667A|1986-09-25|1988-01-05|Gh Hensley Industries, Inc.|Excavating tooth and wear cap assembly|
    US4911249A|1986-09-30|1990-03-27|Ticonderoga Pty. Ltd.|Tool which uses soil as wearing edge|
    DE3839062A1|1988-11-18|1990-05-23|Hoesch Ag|Cutting wheel for suction or bucket-wheel dredgers|
    DE59400217D1|1993-08-30|1996-05-23|Baz Service Ag|Excavator tooth|
    US6032390A|1995-06-07|2000-03-07|Bierwith; Robert|Tooth assembly for excavation bucket|
    US5680717A|1995-11-14|1997-10-28|Bierwith; Robert S.|Excavation bucket|
    US6477796B1|2000-07-06|2002-11-12|Caterpillar Inc|Tooth assembly for implements|
    US6751897B2|2000-11-27|2004-06-22|Robert S. Bierwith|Lip assembly|
    US6652186B2|2001-10-01|2003-11-25|Robert S. Bierwith|Cleat assembly for trash compactor vehicle wheels|
    US6848203B2|2002-08-19|2005-02-01|Caterpillar Inc|Base edge protection system and method|
    AR046804A1|2003-04-30|2005-12-28|Esco Corp|ASSEMBLY COUPLING ASSEMBLY FOR EXCAVATOR SHOVEL|
    US20050132619A1|2003-12-23|2005-06-23|Robinson Howard W.|Excavating lip-mounted adapter and associated connection and shielding apparatus|
    US7121022B2|2004-03-31|2006-10-17|Berkeley Forge And Tool, Inc.|Cam action locking assembly|
    CA2501697C|2004-04-23|2012-07-31|Robert S. Bierwith|Lip assembly including side portions with projections|
    CA2476194C|2004-07-30|2010-06-22|Suncor Energy Inc.|Sizing roller screen ore processing apparatus|
    US8393561B2|2005-11-09|2013-03-12|Suncor Energy Inc.|Method and apparatus for creating a slurry|
    CN101558206B|2006-09-01|2011-12-14|麦塔洛吉尼亚股份有限公司|Prong and fitting for a dredging machine|
    CA2640514A1|2008-09-18|2010-03-18|Kyle Alan Bruggencate|Method and apparatus for processing an ore feed|
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    CA2985772A1|2016-11-18|2018-05-18|Harnischfeger Technologies, Inc.|Modular ground engagement tooling system|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US05/859,366|US4360981A|1977-12-12|1977-12-12|Lip and tooth combination for bucket wheel excavator|
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