• 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 electrical coil assembly comprises a rectangular annular coil and a dustproof cover therefor. The cover is formed of a folded blank of electrically insulating sheet material which has a rectangular annular portion with a rectangular aperture. A first pair of opposed flaps and a second pair of opposed flaps are integrally joined to the external periphery of the portion. Each flap has a first tongue portion which is passed through the aperture and a second tongue portion which overlies a respective side of the aperture in the coil. The width of each tongue portion is greater than the length of the respective side of the aperture in the coil. The width of each tongue portion is not greater than the length of the respective side of the apertures. This blank is easy to assemble into a cover and there is a reduced risk of tearing the flaps.
    公开号:SU793420A3
    申请号:SU792786608
    申请日:1979-07-04
    公开日:1980-12-30
    发明作者:Джеймс Уильям Бич Кейт
    申请人:Лукас Индастриз Лимитед (Фирма);
    IPC主号:
    专利说明:

    (54) COIL
    The invention relates to electrical engineering, in particular to the excitation windings of a car's starter motor. A known coil comprises a rectangular forli winding with a hole and a dustproof casing made of a bendable blank of electrically insulating material, the blank containing a main rectangular part with a rectangular opening and two pairs of mutually opposite oorts, bent by the respective sides of the opening of the coil. One pair of flanges is connected to the outer large edges of the main part of the workpiece, and the other pair of flanges is connected to the short edges of a rectangular hole, the width of the outer edges larger than the corresponding hole size in the coil р. . This device is closest to the invention of the rio technical essence and the effect achieved. The disadvantage of this device is that part of the rim during coil assembly must be bent inward and part outward, which makes fixing the rim in the desired position difficult, complicates the DESIGN; the purpose of the invention is to simplify the design and manufacturing technology of the coil. For this purpose, in a known coil containing a winding of a rectangular shape with a hole and a durable casing made of a bendable blank of electrically insulating insulating material, the blank contains a main rectangular part with a rectangular opening and two pairs of mutually opposite sides curved on the respective sides the holes in the coil, both pairs of sides are located on the outside of the main part of the workpiece, and each side has two protrusions, the first of which covers: w apertures toward the inner surface of the coil, and the second is located on the front surface of the coil end portions of the projections are trapezoidal in shape; the width of the first protrusion of each side is greater than the length of the corresponding side of the hole in the coil, and the width of the second protrusion of the side does not exceed the length of the corresponding side of the holes in the coil and in the rectangular part of the workpiece
    the first protrusion of each of the flanges is aligned with the remaining part of the flange along the fold line, the length of which does not exceed the length of the corresponding side of the coil hole
    the width of the protrusions of the pair of flanges adjacent to the smaller faces of the rectangular part does not exceed the length of the corresponding side of the holes in the coil and the rectangular part of the workpiece Hole in the coil and the workpiece are the same size.
    FIG. 1 shows the preform of the coil casing, top view in FIG. 2, the front side of the coil with the casing, top view; in fig. 3 is the other side of the coil, top view, in FIG. 4 is a perspective view of a winding without a casing.
    A blank, for example, from a press bar comprises a main rectangular part 1 with a rectangular opening 2.
    The main part 1 is bounded by four 3-6 fold lines. Two sides 7 and 8 are integral with part 1 and are located at opposite longitudinal edges along fold lines 4 and 6. The other two sides 9 and 10 are inseparably connected with the short edges of part 1 along the respective fold lines 3 and 5, i.e. sides 7-10 are located on the outside of the main part 1. The blank contains four more sides 11-14, which are located on the four corners of part 1 on the outside, separated from the corresponding sides 9 and 10, v but connected to the sides 7 and 8 along the line m 15-18 fold, respectively. Fold lines 15 and 18 coincide with fold line 3, and fold lines 16 and 17 coincide with fold line 15. The sides 7 and 8 have corresponding fold lines 19 and 20, parallel to the fold lines 4 and 6, and located at a distance from them equal to the size of the corresponding sides 11-14. The open ends of the part of the flanges 7 and 8 comprise protrusions 21 and 22 connected to the remaining part of the flanges 7, 8 along the respective fold lines 23, 24, directed parallel to the lines 4,6,19 and 20 fold. The intermediate portion of the projections 21, 22 are provided with corresponding lines 25 ,. 26 fold parallel lines 23, 24 fold, respectively. Along the sides, the projections 21, 22 are separated from the remaining part of the respective sides 7, 8 by lines 27, 28 and 29, 30 of the cut. The shape of each of the 27–30 cut lines is such that the length of the portions 31, 32 of the sides 21,22 lying between the respective bend lines 23, 25 and 24, 26 is longer than the length of the rectangular hole 2 of part 1. The length of the lines 23–26
    the fold is equal to the length of the sides in the hole 2. Each of the protrusions 21, 22 extends beyond the part of the respective sides 7/8. At the free ends of each protrusion 21, 22, bevelled edges are provided to allow entry into the hole 2. The width of the protrusions | 21 and 22 is equal to the corresponding size of the rectangular hole 2.
    The sides 9, 10 have lines 31, 32 of the fold, parallel to the corresponding lines of the 3, 5 fold and located at the level of the edges of the sides 11, 14 and 12, 13. In the part of the side 9 located between the lines 3 and 31 of the fold 9 the slot 33 and the V-slot 34. The slot 33 is placed between the fold lines 3 and 31 perpendicular to them, and the base of the slot 34 is parallel to and adjacent to the fold line 31. Each of the sides 9, 10 on the outer side of the fold lines 31, 32 contains edges indented as well as projections 35, 36. The open edges of the projections 35, 36 for insertion into the hole are also bevelled, and the width of these projections is equal to the width of the rectangular opening 2 Each protrusion 35, 36 is connected to the remaining part 9, 10 along the lines of 37.38 fold, respectively. In addition, on the protrusions 35, 36, corresponding fold lines 39, 40 are provided, parallel to the fold lines 37, 38. Lines 19, 20, 31,32, 25,26, 39 and 40 and the corresponding 4,6,3,5,23,24,37 and 38 fold lines are at the same distance from hole 2, and this distance is The thickness of the coil shown in FIG. four.
    The coil is made of copper tape wound in a spiral, and there is an insulating strip (not shown) between the coil windings. The width of the copper tape is equal to the thickness of the coil. The coil has a hole 41 equal to the size of the hole 2 of the workpiece, and the terminals 42 and 43. The output 42 exits the hole 41, bends and passes over the turns from which it is insulated by an insulating strip 44. The output 43 goes in the same direction as the output 42, in a plane perpendicular to the output plane 42.
    权利要求:
    Claims (6)
    [1]
    In the manufacture of the coil shown in FIG. 4, the winding is placed in the ring-shaped part of the workpiece along with terminals 42 and 43 directed toward the ribs 9. Then the rims 7 and 8 are bent along the longitudinal outer side edges of the coil along the lines 4, 19 and 6, 20 of the fold. At the same time, the protrusions 21 and 22 are folded over the respective fold lines 23 and 24 and inserted into the hole 41 in the coil until the portions of the projections 21 and 22 lying outside of the fold lines 25 and 26 pass completely through the holes. 41 and 2 in the annular part of the workpiece. In this position, the protrusions 21 and 22, those and parts that lie between the respective fold lines 23, 25 and 24, 26, are located against the respective inner sides of the coil, i.e. against the respective sides of the hole 41 in the coil. Since the width of these parts of the protrusions 21 and 22 is larger than the corresponding size of the coil, those parts of the projections 21, 22 that lie behind the ends of the corresponding fold lines 23, 25 and 24, 26, i.e. the parts defined by the cut lines 27-30, are bent at the corresponding angles of the hole 41, so that they lie against the short side walls of the hole 41. Then, at the respective fold lines 15-18, the sides 11-14 are bent in the position shown in FIG. 1. In this position, the additional flanges 11-14 are located on the outer surface of the coil. Then the sides 9 and 10 are bent inwards along lines 3, 31, 5, 32 of the fold, and conclusions 42 and 43 must be directed through the corresponding slots 34 and 33. That part of the boards 9, 10 that lies between the corresponding lines 3 , 31 and 5, 32 fold, fixes additional bumpers 11-14. The protrusions 35, 36 are inserted into the hole 41 by bending them relative to the fold lines 37, 38 until the corresponding fold lines 37, 38 are facing the corresponding short sides of the hole 41. In this position, the portions 35 and 36 lying outside the respective fold lines 39 and 40 protrude from the openings 41 and 2. Bending over the projections 21, 22, 35, 36 along the respective lines 25,26,39 and 40 crits serves to secure the sides by gluing. To this end, the inner surfaces of the preform are pre-coated with an adhesive that is activated when heated, for example with polyvinyl butyl adhesive, and then glued together with a heating tool. Thus, the portions of the flanges 9 and 10 located inside the protrusions 35 and 36 will overlap the portions of the flanges 7 and 8 defined by the cut lines 27-30, thereby ensuring a good seal. A tight seal on the outer surface of the coil is provided with flanges 11-14. At the end, the knot is shaped like an arch by arcuate bending on the smaller sides of the coil, the bending direction being such that it is shown on (lig. 3 surface is concave, and the one shown in fig. 2 is convex. Possible modification when the adhesive is applied. the entire surface of the workpiece, and only those parts that need to overlap and connect with other parts of the workpiece. In addition, the adhesive can be used to obtain a seal at the bases of the terminals 1. Invention 1. The coil containing winding a rectangular shape with a hole and a dust-proof casing made of a bendable billet of an electrically insulating sheet material, the billet containing a main rectangular part with a rectangular hole and two pairs of mutually opposite sides bent on the respective sides of the hole in the coil, characterized in that in order to simplify the construction, both pairs of sides are located on the outside of the main part of the workpiece and each side has two outlets, the first of which covers the corresponding side of the inner surface of the hole of the coil, and the second is located on the front surface of the coil.
    [2]
    2. Coil pop.1, characterized in that the end portions of the projections have a trapezoid shape,
    [3]
    3. Coil of pop. 1, characterized in that the width of the first protrusion of each rim is greater than the corresponding side of the hole in the coil, and the width of the second protrusion of these rims does not exceed the length of the corresponding side of the holes in the coil and in the rectangular part of the workpiece.
    [4]
    4. A coil of pop. 3, characterized in that the first protrusion of each of the rims is connected to the rest of the rim along a fold line, the length of which does not exceed the length of the corresponding side of the orifice of the coil.
    [5]
    5. The coil according to item 3 / distinguishing and. Since the width of the protrusions of the pair of flanges adjacent to the smaller CTOpoHctM of the rectangular part does not exceed the length of the corresponding side of the holes in the coil and the rectangular part of the workpiece.
    [6]
    6. Coil popp. 1, 3, characterized in that the holes in the coil and the workpiece are the same size. Sources of information taken into account during the examination 1. Published for the Federal Republic of Germany No. 27737279, cl. H 01 F 27/28, 1978.
    类似技术:
    公开号 | 公开日 | 专利标题
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    US4160967A|1979-07-10|Electrical coil assembly
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    US4257027A|1981-03-17|Transformer bobbin assembly
    JP2002369332A|2002-12-20|Corrugated tube and method for forming the same
    KR870004471A|1987-05-09|Manufacturing method of transformer with coaxial coil
    US3440460A|1969-04-22|Laminated motor stator with formed coils and shaded poles and method of making
    EP0405630B1|1994-09-14|Method for forming a cutting contact element
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    US2015554A|1935-09-24|Magnetic wedge
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    US2284466A|1942-05-26|Casing for electrical apparatus
    US5049773A|1991-09-17|Stator assembly for motor
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    GB1602554A|1981-11-11|Shaded-pole motor
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    SU1283445A1|1987-01-15|Overlap joint of plane components
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    WO2019230009A1|2019-12-05|Door locking device pair
    JPH05292693A|1993-11-05|Layer insulating paper of motor
    JP3444529B2|2003-09-08|Corrugated tube
    同族专利:
    公开号 | 公开日
    IN152813B|1984-04-14|
    AR220209A1|1980-10-15|
    FR2430656A1|1980-02-01|
    BR7904224A|1980-04-01|
    FR2430656B1|1982-12-03|
    AU4846779A|1980-01-10|
    JPS5510897A|1980-01-25|
    DE2926762A1|1980-01-17|
    AU524174B2|1982-09-02|
    ES251529Y|1981-05-16|
    IT7949617D0|1979-07-03|
    ZA793101B|1980-04-30|
    US4222023A|1980-09-09|
    ES251529U|1980-12-16|
    引用文献:
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    RU2614043C1|2015-12-29|2017-03-22|Акционерное общество "Технодинамика"|Salient-pole rotor of electric machine|US1797768A|1928-12-29|1931-03-24|Delco Remy Corp|Insulation for field windings|
    US2749525A|1952-11-18|1956-06-05|Gen Electric|Transformer coil and insulation for the same|
    GB1197884A|1966-09-30|1970-07-08|Kodal Ltd|Roll Material Package|
    US3378800A|1967-01-25|1968-04-16|Electric Products Mfg Co|Electromagnetic winding having coil wrapper with window insulating flaps|
    GB1580443A|1976-08-21|1980-12-03|Lucas Industries Ltd|Electrical coil assembly|JPS59192814U|1983-06-10|1984-12-21|
    US4472703A|1984-01-05|1984-09-18|Allied Corporation|Field coil insulation shield|
    FR2614727B1|1987-04-28|1995-02-24|Equip Electr Moteur|PROCESS FOR COATING A COIL BY MEANS OF A THERMOSETTING TISSUE AND COIL CARRIED OUT IN ACCORDANCE WITH THIS PROCESS|
    US4846912A|1987-05-12|1989-07-11|Hamilton Standard Controls, Inc.|Method of insulating a coil|
    AU614031B2|1988-01-22|1991-08-15|Prestolite Electric Incorporated|Field assembly insulator|
    US5321379A|1993-01-11|1994-06-14|General Electric Company|Transformer with amorphous alloy core having chip containment means|
    JP3282493B2|1995-06-07|2002-05-13|松下電器産業株式会社|Motor stator and method of manufacturing the same|
    US6992558B1|1998-01-30|2006-01-31|Koninklijke Philips Electronics N.V.|Electric ballast|
    CA2265297C|1998-03-31|2002-10-29|Illinois Tool Works Inc.|Method and apparatus for welding|
    US6229126B1|1998-05-05|2001-05-08|Illinois Tool Works Inc.|Induction heating system with a flexible coil|
    DE19952479A1|1999-10-29|2001-05-03|Wilo Gmbh|Pole insulation with film hinge|
    US6535100B2|2000-04-14|2003-03-18|Powerware Corporation|Insulated transformer foil windings with breakouts and methods for forming the same|
    CA2503935A1|2004-04-08|2005-10-08|Polymer Technologies Inc.|Electromagnetic coil assembly|
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    US10870164B2|2017-05-16|2020-12-22|Illinois Tool Works Inc.|Systems, methods, and apparatus to preheat welding wire|
    CA3066687A1|2017-06-09|2018-12-13|Illinois Tool Works Inc.|Welding torch, with two contact tips and a plurality of liquid cooling assemblies for conducting currents to the contact tips|
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    US11020813B2|2017-09-13|2021-06-01|Illinois Tool Works Inc.|Systems, methods, and apparatus to reduce cast in a welding wire|
    US11014185B2|2018-09-27|2021-05-25|Illinois Tool Works Inc.|Systems, methods, and apparatus for control of wire preheating in welding-type systems|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    GB7828911|1978-07-05|
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