• 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 accessory transmission conversion mechanism of the type disclosed in the U.S. Pat. No. 4,177,539, to Elting, for causing the lance tube of a long retracting soot blower to oscillate about its longitudinal axis, is provided with a lost motion driving connection between the yoke driving gear and the crank of the Scotch yoke which generates the oscillating motion. A holding portion on the gear permits locking out such lost motion when desired. When lost motion is present, the blowing path is automatically changed when the blower reverses. When locked out, the blowing pattern is changed so that the jet traces the same path in each direction of movement.
    公开号:SU1461376A3
    申请号:SU823425459
    申请日:1982-04-19
    公开日:1989-02-23
    发明作者:Кертис Акерман Дин;Вилльям Смит Дон
    申请人:Дзе Бабкок Энд Вилкокс Компани (Фирма);
    IPC主号:
    专利说明:

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    The invention relates to boiler technology, in particular to reversible soot-blowers, designed to clean the heat-exchange surfaces of boilers.
    The purpose of the invention is to improve the cleaning efficiency by adjusting the mode of operation.
    ; FIG. 1 shows a long soot blower containing a transmission mechanism of oscillatory motion, a general view with a partial cut-out; in fig. 2 - the main components of a gear transmission system - a gear fork, axonometric; in fig. 3 - auxiliary cover with a detached cover, side view; in fig. 4 shows a transmission mechanism, a cross section taken in a vertical plane passing through the walking gears, as seen from the back; in fig. 5 is a section A-A in FIG. four; in fig. 6 is a section BB in FIG. 3; in fig. 7 is a section bb of FIG. 6; in fig. 8 is a cross section in FIG. 7
    The blower contains a valve 1 for the clutch to which the stationary feed pipe 2 is attached. The blow spear 3, which is a continuation of the feed pipe 2, is fixed to the rear end of the sleeve 4, which can rotate in the carriage 5. This: 6 and can be moved along it on the rollers 7 and 8. These rollers are placed between the lower and upper guide elements 9-12, attached to the inner sides of the side flanges of the beam 6. The blowing spear 3, which can be rotated in this way around its longitudinal axis and also move in the longitudinal direction. a carriage, supported by the front end, adjacent to the box of a wall under the brier (not shown), on the boiler wall using a pair of rollers mounted in a roller bracket 13 attached to the front end of the beam 6, to control the movement of the lance and enter into the boiler and during the withdrawal from it (not shown).
     The motor 14 is mounted on the front wall of the carriage body 5 and receives energy via a flexible cable 15. The motor, through a pair of cylindrical spur wheels 16 and 17, actuates the wake 18, which drives the worm gear 19, fixed on a tubular idle shaft 20 placed with bearings 21 and 22 on the inner shaft 23 i. The shafts 20 and 23 placed one in the other are rotatably mounted transversely to the carriage in the bearings 24 and 25.
    On a radially disposed outer tubular idle shaft 20, motionlessly mounted, besides the worm gear 19, gear 26 and 27. The gear 26 meshes with the gear wheel 28 fixedly mounted on the transverse shaft 29. close to. the upper part of the carriage and protruding behind it in order to carry the rollers 7 and 8 to their outer ends. Each roller is adjoined by gears 30 and 31, respectively, fixedly mounted on the shaft 29. The gears 30 and 31 are engaged by gear racks 32 and 33 attached to the lower the surfaces of the upper guides 10 and 12 and act as walking gears in order to move the carriage along the beam in a known manner.
    In the immediate vicinity of the rear wall of the carriage body 5 and coaxially with concentrically located shafts 20 and 23, the part of the casing 34 is provided with a one-piece bearing sleeve 35, in which a short roller 38 is placed in the respective bearings 36 and 37 of the swing end Into a part of the casing 34, the drive gear 39 of the crank 40, the knife is knitted with the gear 27, which sets it in motion; gear 27 is stationary at the outer end of shaft 20 extending into part of casing 34. Shaft 23 protrudes beyond shaft 20 and at the outer end carries gear 41 fixedly mounted on it, driven by gear rack 42. Fork 43 is installed so as to make a return translational motion in the part of the casing 34 by means of the rollers 44 of the guides 45 - 48 interlocking with the parts placed on the inner surfaces of the upper and lower walls of the part 34, the gear rack 42 meshes with the gear 41 to impart oscillatory motion to the shaft 2 3, gear 49 and gear 50, which is fixedly mounted on hub 4, thereby causing the oscillatory movement of the pulley 3, which is attached to this hub
    In accordance with the invention, the crank 40, loosely mounted on the shaft 51, enters the recess 52 on the front surface of the gear 39 and carries the crank pin 53, which extends into the groove 54 in the fork to actuate this fork. The notch 55 has a sector-shaped portion 56, terminated at the ends by retaining walls 57 and 58, which limit the relative angular movement between the gear 39 and the crank 40. The radially arranged right and narrow portion in the form of the radial groove 59 in the notch 52 is intended to form a locking means adapted to prevent independent angular movement of gear 39 and crank 40. Slot 59 is wide enough to receive and tightly cover lateral parts of crank 40, which is mounted on shaft 51 with air ozhnostyu and removably retained thereon conductive spring 60 locking ring.
    Soot blower works as follows.
    FIG. 7 and 8 Crankcase 40 is located in recess 52 in the form of sector 56. In this position, when gears | NL 39 rotate in one direction during operation of the soot blower, for example, in the direction required for raising the lance 3, one of the abutment walls for example, the wall 57 engages and is held in engagement with the crank during the entire time of driving the lance, whereby the reciprocating movement of the rack 42, the plug 43 continuously oscillates
    The board again leads to the oscillatory movement of the lance around its axis. The angular length of the sector portion 56 and the corresponding delay are preferably chosen so that the spiral trajectories of the jets during the up and down of the lance are uniformly separated in the longitudinal direction from one another.
    The spear-driven angular motion changes due to a change in the set position of the crank pin 53.
    5 If, according to the cleaning conditions, it is desirable to use the same trajectory of the blow, both during the rising and the retracting of the blower shaft, the crank is set to
    0 the radial groove 59 of the recess 55. Thus, periodic changes in the direction of the jets are eliminated, which occur when the crank is installed in sector 56 and the oscillatory movement is immediately reversed when the engine reverses, so that the blow pattern remains the same. both directions.
    0 If there is a change in the pollution conditions caused by a fuel change or other reasons, it may be desirable to change the form of the blow; it is easy. can be completed
    g krshzhi 61, removal of the node from the plug and
    toothed surfaces 43 and 42, removal of the spring retaining ring with the 60th crimping pin 40 and installation of the crank in another part of the 56th or 59th notch. The inspection plate 62 on the cover 61 can be removed separately for inspection and lubrication.
    The contact setting of the crank in the recess in the gear 39 allows
    a spear during all the time it will save the advantages of a known condvizheniya.
    When the engine is reversed, for example, to retract the blower shaft, the reverse direction changes. And the angular direction of rotation of the gear 39, and accordingly, although the reverse longitudinal movement of the pin begins immediately, the oscillating movement
    structures and allow simple modification of conventional soot blowers without any mechanism. The oscillatory movement 5Q, despite the limited space in the box-type beam 6, to provide an oscillating movement of the blowing spear with or without changing the direction around the its axis is delayed until those gg jet movements. If necessary, as long as the opposite of the resistance of such work can be performed on the wall, i.e. wall 58 is not zent under operating conditions, it is borne with crank 40, and then. With the usual removal of a conventional shaft and system, continuous rotation in the same gear wheels from, to the position, according to the structure, and to allow the simple way to modify ordinary soot-blowers, not equipped with any kind of mechanism. The oscillatory motion does not even look at the limited the space in the box-type beam 6, to provide oscillatory movement of the blower lance with or without a change in the direction gg of the jet movement. If necessary, such work can be performed under operating conditions by simply removing the conventional shaft and gearing system from, for example, ft S

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    Compiled by L. Matsuk. Editor E. Papp Tehred L. Oliynyk Proofreader V. Girn to
    Order 548/59
    Circulation 488
    VNII1SH of the State Committee on Inventions and Discoveries at the State Committee on Science and Technology of the USSR 4/5, Moscow, Zh-35, Raushsk nab. 113035
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    Subscription
    权利要求:
    Claims (1)
    [1]
    F σ r m a l invention
    A soot blower, comprising a carrier beam moving along the beam on rollers, a carriage housed in the housing, with a spear fixed therein, a front end of which is placed in the bearing, longitudinal gear racks mounted on the beam, rotating gears resting on the carriage and engaged with gear with rails, an electric motor connected to the carriage, independently rotating outer and inner radial shafts installed in the housing, driven means placed on the outer shaft and connected to the engine rotating gears, a gear on a protruding thorn on the outer end of the inner shaft, a fork mounted on a carriage body 5 made with a groove and mounted with the possibility of reciprocating movement by means of rollers in contact with the guides placed on the walls of the fork, the drive gear meshed with gear on the protruding end of the outer shaft, a gear rack connected to the fork and engaged with the gear (5 wheels on the outer end of the inner shaft, m, that, in order to improve cleaning efficiency by regulating the operating mode, the drive gear · 20 is made with a sector recess and a radial groove adjacent to it and equipped with a crank mounted and placed in the groove with a crank with a finger entering the groove of the fork, and 25, the radius of the sector recess is greater than the crank arm, and the groove width is equal to the width of the crank arm.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1461376A3|1989-02-23|Soot blower
    US4803959A|1989-02-14|Indexing sootblower
    US6575122B2|2003-06-10|Oscillating sootblower mechanism
    US5675863A|1997-10-14|Full coverage sootblower
    CA1203445A|1986-04-22|Soot blower
    US7055209B2|2006-06-06|Method and apparatus for converting a sootblower from a single motor to a dual motor drive
    US3230568A|1966-01-25|Variable speed soot blower
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    CA1097158A|1981-03-10|Oscillating soot blower mechanism
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    US2121266A|1938-06-21|Windshield cleaner
    CN1016263B|1992-04-15|The soot blower of transposition
    KR100202523B1|1999-06-15|Wiper driving device of a rack pinion type
    SU529359A1|1976-09-25|Device for cleaning heating surfaces
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    同族专利:
    公开号 | 公开日
    FR2504240A1|1982-10-22|
    JPS57182014A|1982-11-09|
    AU546652B2|1985-09-12|
    GB2097088B|1984-08-01|
    CA1176516A|1984-10-23|
    IT1150471B|1986-12-10|
    FR2504240B1|1988-01-15|
    AU8046782A|1982-10-28|
    SE453123B|1988-01-11|
    US4351082A|1982-09-28|
    IT8220235D0|1982-03-17|
    ZA821088B|1983-01-26|
    IN156692B|1985-10-19|
    DE3207836A1|1982-11-04|
    JPH028211B2|1990-02-22|
    BR8202244A|1983-04-05|
    GB2097088A|1982-10-27|
    MX157925A|1988-12-21|
    DE3207836C2|1984-09-06|
    SE8202221L|1982-10-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2532447A|1944-07-27|1950-12-05|Diamond Power Speciality|Manually oscillatable and rotatable portable soot blower|
    GB636052A|1947-07-01|1950-04-19|Babcock & Wilcox Ltd|Improvements in or relating to fluid heater cleaners|
    FR1064610A|1949-06-07|1954-05-17|Babcock & Wilcox Ltd|Improvements to chimney sweeping devices for boilers|
    US3230568A|1964-04-20|1966-01-25|Diamond Power Speciality|Variable speed soot blower|
    FR1421870A|1965-01-21|1965-12-17|Diamond Power Speciality|Soot Blower Improvements|
    US3439376A|1965-09-09|1969-04-22|Diamond Power Speciality|Long retracting soot blower|
    US3823279A|1973-03-12|1974-07-09|Diamond Power Speciality|Flexible power connection means for traveling elements|
    US3819880A|1973-08-01|1974-06-25|Diamond Power Speciality|Power connecting apparatus for movable members|
    US4177539A|1978-09-26|1979-12-11|Elting Larry M|Oscillating soot blower mechanism|US5001805A|1988-02-22|1991-03-26|Apex Technologies, Inc.|Lubrication evacuation method|
    US4803959A|1988-03-24|1989-02-14|The Babcock & Wilcox Company|Indexing sootblower|
    US5097564A|1990-09-04|1992-03-24|White Consolidated Industries, Inc.|Soot blower|
    US5065472A|1991-01-24|1991-11-19|The Babcock & Wilcox Co.|Spring loaded brake assembly for indexing sootblower|
    US5299533A|1993-03-22|1994-04-05|The Babcock & Wilcox Company|Open beam sootblower|
    US5619771A|1995-08-11|1997-04-15|Effox, Inc.|Oscillating and reverse cleaning sootblower|
    US5675863A|1995-08-28|1997-10-14|Combustion Engineering, Inc.|Full coverage sootblower|
    US5778830A|1997-01-02|1998-07-14|Combustion Engineering, Inc.|Closed frame sootblower with top access|
    US5836268A|1997-01-02|1998-11-17|Combustion Engineering, Inc.|Sootblower with travelling limit switch|
    US20050217060A1|2004-03-30|2005-10-06|Diamond Power International, Inc.|Sootblower with single traveling limit switch utilizing state logic control|
    US20080257549A1|2006-06-08|2008-10-23|Halliburton Energy Services, Inc.|Consumable Downhole Tools|
    US20070284097A1|2006-06-08|2007-12-13|Halliburton Energy Services, Inc.|Consumable downhole tools|
    US7591318B2|2006-07-20|2009-09-22|Halliburton Energy Services, Inc.|Method for removing a sealing plug from a well|
    EP2102555B1|2007-01-05|2017-04-26|LG Electronics Inc.|Built-in cooking appliance|
    US8875695B2|2007-01-08|2014-11-04|Lg Electronics Inc.|Built-in cooking appliance|
    RU2411415C1|2007-01-09|2011-02-10|ЭлДжи ЭЛЕКТРОНИКС ИНК.|Inbuilt electric cooker|
    US20080202764A1|2007-02-22|2008-08-28|Halliburton Energy Services, Inc.|Consumable downhole tools|
    US8327926B2|2008-03-26|2012-12-11|Robertson Intellectual Properties, LLC|Method for removing a consumable downhole tool|
    US8235102B1|2008-03-26|2012-08-07|Robertson Intellectual Properties, LLC|Consumable downhole tool|
    US7865996B1|2009-12-18|2011-01-11|Diamond Power International, Inc.|Sootblower with progressive cleaning arc|
    CN110997162B|2017-08-01|2021-09-03|3M创新有限公司|Apparatus and method for making powder rubbed substrate and powder rubbed substrate|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US06/255,371|US4351082A|1981-04-20|1981-04-20|Oscillating soot blower mechanism|
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