Device for laying alternating current three-phase winding in slots of extended field structure of el

专利摘要:
A polyphase winding of ladder-like configuration for a linear motor is installed into a prearranged inductor assembly having a plurality of parallely arranged grooves, the inductor being attached to the underside of a T-shaped type carrier; a vehicle runs on that carrier carrying a drum for storing the winding (cable assembly), and there is a deflection system which runs the winding from the drum towards the underside of the carrier in near-tangential disposition whereby a tool resiliently mounted on an outrigger causes rungs of the ladder to be sequentially forced into the grooves of the inductor and, possibly, locked therein.
公开号:SU1321381A3
申请号:SU843747577
申请日:1984-06-07
公开日:1987-06-30
发明作者:Вцисло Манфред；Брайтенбах Отто；Шатц Фридрих；Риплинг Ульрих
申请人:Кабельметал Электро Гмбх (Фирма)；Тиссен Индустри Аг (Фирма)；
IPC主号:

专利说明:

The invention relates to process equipment for manufacturing electrical machines, in particular laying windings in inductor slots, and can be used in electrical engineering.
The purpose of the invention is to reduce the complexity of laying winding.
Fig. 1 shows a cutout of the stator of an electric motor with a linear field; figure 2 - the device, a general view; in FIG. 3, view A in FIG. 1; figure 4 - view B in figure 1; Fig. 5 shows a tool used to press a winding; figure 6 is a view In fig.Z.
The winding 1 of a linear electric motor to be laid may, for example, consist of three electric cables 2, 3 and 4. During factory production, these cables are interconnected to form a continuous winding 1. They are placed in the slots 5 of the inductor 6 of the electric motor. The grooves 5 are closed by locking elements 7, preventing the winding 1 from falling out of the grooves. I
The locking elements 7 can be installed on cables 2-4 already in the factory. They are preferably configured to spring-fix in the grooves 5. The inductor 6 consists of a plurality of series 8 steel sheets in series which have grooves 5 and teeth between the grooves. Winding I is placed in slots 5 and installed there. The inductor 6 consisting of packages of 8 steel sheets is mounted on a T-shaped support 9 with an overlapping plate 10, and the support consists, for example, of concrete and has a profile, as shown in Fig. 4. The inductor 6 with its bottom open grooves 5 is suspended on the lower side of the overlapping plate 10, on the upper side of which passes a section of the vehicle moving, driven by a straight-field electric motor.
The proposed device consists of a vehicle 11, which can be moved along the upper
the side of the overlapping plate 10 of the support 55 is too tight, resulting in, for example, a magnetic suspension vehicle driven by a straight-field electric motor.
In this case, displacement of the branches of the fouling, which should be parallel, would occur relative to each other. Automatic pressing 0
The vehicle I1 is guided, for example, at both ends by means of guide elements 12 and 13 along both edges of the overlap plate 10, so that the vehicle, within narrow tolerances, follows the shape of the support 9.
The sport vehicle I 1 is moving on wheels and has its own drive. On the vehicle 11 there is at least one coil 14 on which the winding of an electric motor with a straight field is wound. For laying the winding 1 passes
5 under the overlapping plate 10 of the support 9 through a mechanism for its direction, consisting of various rollers 15-18. From the latter, in the direction of the installation, a knob 18 winding 1 is directed over
0 by an overlay 19 to the tool 20, by means of which the winding is automatically pressed into the slots 5 of the inductor 6. If fasteners are also placed on the winding 1, then
5, winding 1 is also automatically installed in the slots 5. Otherwise, after pressing in, the fastening elements would have to be placed by means of an additional laying device or manually.
0
Pad 19 and tool 20 are located on at least one cantilever 21, which in turn
25 is mounted on the vehicle 11. The console 21 can be adjusted in height, so that by folding it can be adapted to the available free space.
40 The console 21 can be designed as a mounting platform on which the worker can follow the laying of the winding 1 into the slots 5 of the inductor 6, and if necessary also
45 accommodating locking elements 7 intended for them in the grooves.
Both the coil 14 and the rollers 15-18 can be performed with the drives. The rotation speed of these elements is
50 is forestedly adjustable depending on the speed of the vehicle I 1. In addition, it is possible to provide a device for adjusting the winding tension in order to avoid
In this case, displacement of the branches of the fouling, which should be parallel, would occur relative to each other. The automatic pressing of the winding 1 into the slots 5 of the inductor 6 would then no longer be possible.
On the path from the coil 14 to the last roller 18, the winding 1 is twice crushed. In order to avoid permanent deformation of the winding by twisting up to roller 18, at least three rollers 16, 15 and 17 are provided, which provide for slow rotation of winding 1. Between rollers 16 and 18, winding 1 should also sag so that Eliminate interleaved winding in this place.
The tool 20 is spring-loaded on the console 21 both transversely to the direction of the inductor 6 and in its direction so as to smooth out inaccuracies when winding 1 is applied. The tool 20 is supported through the guide bracket 22 on the lateral guide edge 23 of the slab 10 and through the holder 24 is mounted on console 21. In addition, by means of springs 25 and 26 it can move in the direction of double arrows 27 and 28,
The tool 20 has two side rollers 29 and 30, spring-loaded in the horizontal and vertical planar. T x, which can also be made in the form of tapes. In addition, the tool is equipped with toothed washers 31, which are inserted between the branches of winding 1 in parallel portions. With the serrated washers 31, the winding 1 is precisely positioned in relation to the inductor 6, so that the middle parallel portions of the previously manufactured winding 1, which are intended for placement in the slots 5, are actually located under these slots before being pressed into them 20, the winding of the winding I into the grooves 5 is carried out in this case by means of the rollers 29 and 30, which on both sides of the winding 1 are pressed against them in the area of the winding frontal parts,
As a result of advancing the vehicle 11- forward, the winding 1 coils from the coil 14 and is gradually pressed into the slots 5 of the inductor 6. When the coil 14 is empty, a new coil can be lifted onto the vehicle 11, the winding of which can be removed from the vehicle the winding before this, which ensures the continuity of the laying of the previously manufactured winding 1 for an electric motor with a straight-line field of any length. The continuous connection of the individual winding sections can be made later.

权利要求:
Claims (1)
[1]
Invention Formula.
A device for stacking a three-phase winding of an alternating current into the grooves of an extended inductor of an electric motor with a rectilinear field, comprising an extended plate made in the form of a T-shaped support for fastening the inductor with open slots downwards on its underside, an overlay mounted on the vehicle and located under the plate and parallel to it for supplying a flexible winding into the grooves of the inductor from the coil, characterized in that, in order to reduce the labor-intensive When the winding is laid, it is equipped with a mechanism for guiding the winding from the coil through the plate to the inductor, made in the form of rollers, with a tool for pressing the winding into the grooves of the inductor mounted on the console; mounted on the vehicle, and made in the form of two rollers to fit the winding frontal parts, spring-loaded in the horizontal and vertical planes, and toothed washers to install the winding branches opposite the inductor slots, while the coil with the winding is mounted on the vehicle.
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Editor N.Kishtulininets Order 2672/59
Compiled by V.Pyshkina Tehred V.Kadar
Corrector
Circulation 660 Subscription
VNSHPI State Committee of the USSR
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Production and printing company, Uzhgorod, st. Project, 4
Proofreader A.Zimokosov

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同族专利:

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公开号 | 公开日

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JPS6016168A|1985-01-26|

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DE3323696C2|1989-03-23|

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CA1224912A|1987-08-04|

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US4615109A|1986-10-07|

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FR2548479B1|1988-01-22|

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DE3323696A1|1985-01-10|

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JPH0446069B2|1992-07-28|

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US4557038A|1985-12-10|

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FR2548479A1|1985-01-04|

引用文献:

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DE2824951A1|1978-06-07|1979-12-20|Kabel Metallwerke Ghh|METHOD OF MANUFACTURING A STATOR FOR A LINEAR MOTOR|

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DE2827150A1|1978-06-21|1980-01-10|Kabel Metallwerke Ghh|Three=phase winding insertion in slots of linear motor stator - involves stretching winding under stator and pressing it into consecutive slots|JP2800821B2|1986-05-08|1998-09-21|株式会社島津製作所|Linear motor|

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DE3737719C2|1987-11-06|1989-11-30|Thyssen Industrie Ag, 4300 Essen, De|

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DE4030236C2|1990-09-25|1999-01-07|Thyssen Industrie|Device for removing the winding of a linear motor|

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SE9602079D0|1996-05-29|1996-05-29|Asea Brown Boveri|Rotating electric machines with magnetic circuit for high voltage and a method for manufacturing the same|

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SE510192C2|1996-05-29|1999-04-26|Asea Brown Boveri|Procedure and switching arrangements to reduce problems with three-tier currents that may occur in alternator and motor operation of AC machines connected to three-phase distribution or transmission networks|

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CA2255772A1|1996-05-29|1997-12-04|Asea Brown Boveri Ab|Insulated conductor for high-voltage windings and a method of manufacturing the same|

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JP2000511338A|1996-05-29|2000-08-29|アセアブラウンボヴェリエービー|A rotating electric machine including a high-voltage winding conductor and a winding including the conductor|

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NZ333017A|1996-05-29|2000-09-29|Asea Brown Boveri|Cable for use in transformer or dynamoelectric machine, insulation layer between two semiconducting layers|

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SE515843C2|1996-11-04|2001-10-15|Abb Ab|Axial cooling of rotor|

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SE512917C2|1996-11-04|2000-06-05|Abb Ab|Method, apparatus and cable guide for winding an electric machine|

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SE510422C2|1996-11-04|1999-05-25|Asea Brown Boveri|Magnetic sheet metal core for electric machines|

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DE50303237D1|2003-12-12|2006-06-08|Nexans|Method for producing a three-phase AC winding for a linear motor|

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DE102004032269A1|2004-06-30|2006-01-19|Thyssenkrupp Transrapid Gmbh|Vehicle for inserting at least one electrical line into the slots of an inductor|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE19833323696|DE3323696C2|1983-07-01|1983-07-01|

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