• 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 electromagnetic device comprises a stator structure and an armature surrounding the stator structure. The stator structure is provided with axially spaced pole pieces which are of annular form and between which are located electrical windings connected so that adjacent pole pieces have opposite magnetic polarity. The armature has complementary pole pieces and when the windings are energized the armature will move relative to the stator structure. In order to facilitate construction of the device the stator structure is formed as a plurality of portions each of which has a cylindrical portion and a rim portion. The armature is formed as a stack of annular portions each of which includes an inwardly extending pole piece. The device is constructed by assembling the armature and stator structure alternately and in sequence.
    公开号:SU991960A3
    申请号:SU802976443
    申请日:1980-09-05
    公开日:1983-01-23
    发明作者:Фаррар Маубрэй Дориан
    申请人:Лукас Индастриз Лимитед (Фирма);
    IPC主号:
    专利说明:

    I
    The invention relates to electrical engineering.
    It is known an electromagnetic device containing a stator with control windings placed on it, made in the form of pole inserts along an axis at some distance from each other, protruding windings beyond the outer surface, and f the core, made in the form of a sleeve, covering the stator. Pole inserts are made on the inner surface of the core, conjugated with pole inserts of the stator, while with the passage of electric current through the windings, the pole inserts of the stator and core nearest to them are magnetized with opposite polarity
    The disadvantage of this device is the complexity of the design when it is necessary to ensure overlap of the pole inserts of the stator and core. 2S
    The closest to the proposed technical entity is an electromagnetic device, in which the coupling of pole inserts on the core and stator is provided by the DZ
    dividing the core into several parts, which are mounted around the stator and fastened 2j.
    However, this device is characterized by the complexity of manufacturing parts of the core, since stringent requirements are imposed on their shape and quality of production of pole elements: inserts in order to ensure the correct orientation of all core elements during assembly.
     ".
    The purpose of the invention is to improve the manufacturability of the device by simplifying the design.
    This goal is achieved by the fact that the stator is made of separate elements, X1 each of which has a central part in contact with the neighboring element and a pole-shaped insert, and the core consists of a set of ring elements, each of which forms a separate pole insert.
    权利要求:
    Claims (7)
    [1]
    A hole is made in the center of each stator element, and the stator elements are coupled with a through bolt passing through the said holes. The electromagnetic device comprises an end plate adjacent to the central part of the stator end element. The through bolt is electrically insulated relative to the stator element and is designed to ensure the supply of electric current through it to the windings. The electromagnetic device is provided with an additional part for fastening ring core elements: The additional part has pipe shapes that enclose the ring core elements. Pole inserts of ring elements of the core of Jerekryvagot, pole inserts of stator elements. The thickness of the ring core elements in the direction of the axis is equal to the thickness of the stator elements. In the drawing. Depicts the proposed device, a longitudinal section. The device contains a stator assembly 1, as well as a core 2, which covers the stator. The core 2 connects with the output element 3. The stator assembly 1 consists of a set of elements 4 of the same shapeJ The stator assembly also includes a face plate for 5. The stator elements 4 and the end plate 5 are made of a magnetizable material. Each stator element consists of a central cylindrical part 6, from which the plate part 7 extends. The thickness of the plate parts 7 decreases with distance from the axis. Each stator element has an opening, as well as an end plate 5; An electrically insulated sleeve 8 is placed through the holes in the stator and end plate elements, inside which a through bolt 9 is placed. At one end of this bolt there is a head 10, and at each end there is a thread with a nut 11 There is an electrically insulated washer between the head 10 and plate 5 12, a similar washer 13 is positioned between the nearest stator element and the terminal 14, clamped. between the washer and the nut 11. In addition, between the head of the through bolt 10 and the washer 12 there is a lead-in insert 15. The windings 16 are located between adjacent elements of the stator 4, as well as between the elements 4 and the end plate 5. The windings have an annular shape and are made in advance. The windings are connected in series so that the direction of the current in the adjacent windings is opposite. The outer lead of the winding 16 adjacent to the plate 5 is connected to the lead insert 14 with wire. which passes through a slot made in the outer surface of the plate. The inner lead of this winding is connected to the inner lead of the adjacent winding 16, and the outer lead of this winding is connected to the outer lead of it, etc. The inner terminal of the winding 16 closest to the nut 11 is connected to the outlet insert 17. The connections between adjacent windings pass through the slots in the cup-shaped sections 7. The stator elements are the same, and each cup-shaped section 7 has two slots, although in some cases only one of them can be used. When an electric current is applied to the windings, the adjacent plate sections will assume the opposite magnetic polarity, the a-magnetic polarity of the end face; 1h 5 will be opposite to the adjacent plate part 7. The core has a set of ring elements 18 (f, G, H , l, J), each of which has a single, inward, pole insert 19, an annular element 20 whose shape corresponds to pole inserts 19 made of a magnetizable material. The core also contains a transfer element, which is made in one piece with the output element 3, including a plate part 21 located at the adjacent ring element 18 and connected to the central boss with the spokes 22. The plate part 21 together with the ring elements 18 as well as the ring element 20 are held assembled with an additional part, made in the form of either a tubular element 23, or a set of tape clamps extending in the longitudinal direction. The tubular element and the clamp are intended only to hold the various elements assembled, since the force that occurs when powering the windings will push the ring element towards each other, as well as the plates 21. They can be made of lightweight material. The disc portions 7 form pole inserts that interact with the pole inserts 19. In the de-energized state of the windings, the pole inserts 19 and the pole inserts formed by the disc portions 7 are separated by air gaps, which decrease as the core moves axially relative to the stator. The opposite surfaces of the pole inserts are inclined relative to the longitudinal axis of the device, but they can also be arranged perpendicular to the longitudinal axis. Whatever form is used, the core cannot be assembled around the stator structure, and therefore the core and the stator must be assembled in series and alternately. For ease of description of the assembly of the device, the stator elements and annular core elements are indicated by letters. Assembly begins at the bottom end of the device. It is usually begun by placing the end plate 5 on the bolt 9 on which an insulating sleeve is worn. First, the core element F is put in place, then the stator element E is put together with the winding. The outer lead of this winding is connected to the terminal insert, 24, although this can also be done at the end of the assembly. Next, set) T to a predetermined position of the core element G, and then install the stator element D with the winding, the internal winding terminal of the stator element E is connected to the internal winding terminal of the stator element D. Next, the winding assembled with the stator element C is put in place, and its external lead is connected to the external winding lead, which is assembled with the stator element D. After that, an element of the core is inserted, behind which the stator element C is placed. The winding assembled with the stator element B is placed in place, and its internal output is connected to the internal winding terminal assembled with the stator element C. Next, the core element I is installed, and then the stator element B is installed. Finally the winding with the stator element A is put in place, and its outer lead is connected to the outer lead of the winding, which is installed in the stator element B. Then the core element and the core element are installed. And the stator. Then you can install the annular element 20. Then install the washer 13, pin 14 and the nut 11 on the through bolt, tighten the nut to hold the stator in assembled form. The core can also be assembled assembled with a plate-shaped part 21, which is connected to the output element 3. To ensure maximum efficiency during operation of the device, it is necessary that the opposite end surfaces of the stator elements, labeled Y, be parallel to each other. x between the surfaces was constant and equal to the distance between the end surfaces | Tm of the ring elements 18, forming the core, so that the end surfaces of the core elements were parallel. Ensuring the parallelism and uniformity of the above-mentioned size is facilitated by ensuring that the end surfaces of various elements are machined in one set on the machine. In addition, the winding can be performed in advance, which is finite facilitates their installation. Claim 1. Electromagnetic device containing a stator with control lobes placed on it, made in the form of pole inserts protruding along the axis for some distance from the other, protruding from the outer surface of the coil, and a core made in the form of a sleeve covering the stator , on the inner surface of the core there are pole inserts mated with pole inserts of the stator, while when current flows through the windings, the pole inserts of the stator and the core closest to them as magnetized with opposite polarity, about the t and the h and th with the fact that, in order to improve manufacturability by simplifying the design, the stator is made of sections of elements, each of which has a central part in contact: with an adjacent element, and pole plate insert, while the core consists of a set of ring elements, each of which also forms a separate pole insert.
    [2]
    2. The device according to claim 1, that is, so that in the central part of each stator element there is a hole, with the element. You stator fastened through the bolt through the hole.
    [3]
    3. The device according to claim 2, that is, so that it contains an end plate adjacent to the center part of the end element of the stator.
    [4]
    4. The device according to item 3, that is, that the through bolt is electrically isolated with respect to the stator elements and is designed to ensure the supply of electric current through it to the windings.
    [5]
    5. The device according to claim 1, wherein it is provided with an additional part for fastening the annular elements cei of the stanchion.
    [6]
    6. The device according to claim 5, about t l and often that additional, the item has the shape of a pipe, covering the annular elements of the core.
    [7]
    7. The device - according to PP.1,2,3,4,5 or b, differs with the fact that pole inserts formed by ring elements of the heart
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    SU936260A1|1982-06-15|Single-phase stepping motor
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    同族专利:
    公开号 | 公开日
    ES8101809A1|1980-12-16|
    FR2465347A1|1981-03-20|
    JPS5649674A|1981-05-06|
    FR2465347B1|1983-02-04|
    IT8024173D0|1980-08-14|
    ES492792A0|1980-12-16|
    US4326139A|1982-04-20|
    JPS6243427B2|1987-09-14|
    DE3031273A1|1981-03-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU2472276C1|2011-07-22|2013-01-10|Федеральное государственное бюджетное образовательное учреждение высшего профессионального образования "Уфимский государственный авиационный технический университет"|Linear step motor |GB1249472A|1968-02-02|1971-10-13|Girling Ltd|Dynamo electric machines|
    DE1919708A1|1969-04-18|1970-11-12|Bosch Gmbh Robert|Solenoid valve for short response times|
    GB1504873A|1974-02-26|1978-03-22|Simms Group Res Dev Ltd|Electromagnetic devices|
    DE2440566C3|1974-08-23|1982-05-19|Siemens AG, 1000 Berlin und 8000 München|Rotary magnet with a stator|
    GB1528916A|1974-11-29|1978-10-18|Simms Group Res Dev Ltd|Electro-magnetic devices|
    US3976965A|1975-10-28|1976-08-24|The Bendix Corporation|Paired coiled conductors compact-long life|
    US4156822A|1976-11-11|1979-05-29|Emerson Electric Co.|Dynamoelectric machine having a nonturned rotor assembly|
    GB1591097A|1976-11-19|1981-06-17|Lucas Industries Ltd|Electrically operated actuating device|
    US4238699A|1978-08-05|1980-12-09|Lucas Industries Limited|Electro-magnetic devices|GB2105912B|1981-08-22|1984-11-07|Lucas Ind Plc|Electromagnetic actuator devices|
    JPH0119372Y2|1982-10-19|1989-06-05|
    GB8328306D0|1983-10-22|1983-11-23|Lucas Ind Plc|Electromagnetic device|
    US4641118A|1984-08-06|1987-02-03|Hirose Manufacturing Co., Ltd.|Electromagnet and electromagnetic valve coil assemblies|
    GB8515352D0|1985-06-18|1985-07-17|Lucas Ind Plc|Winding method|
    JPH0594919U|1992-05-29|1993-12-24|ミツミ電機株式会社|Push switch|
    US5767600A|1997-02-27|1998-06-16|Whiteley; Eric|Modular motor|
    DE102017127021A1|2017-11-16|2019-05-16|Technische Universität Wien|Reluctance linear actuator and thus implemented tools / drives|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    GB7931257|1979-09-08|
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