CN104252965B - Displacement electromagnet, motor and the method for manufacturing displacement electromagnet - Google Patents

Abstract

The present invention relates to a kind of motor (100) for the starter relay (13) for having and being used to start internal combustion engine, such as generator or starting device or starter, the motor includes at least one magnet, the invention further relates to a kind of method for being used to manufacture and being particularly used for starting the displacement electromagnet of the starter relay (42) of internal combustion engine, at least one coil with least one first conductive winding (421) and at least one second conductive winding (422) is provided with the displacement electromagnet, wherein conductive winding (421, 422) wound around bobbin (423), wherein, conductive winding (421, 422) or formed conductive winding (421, 422) wire is abreast wound around bobbin (423), so as to be wound in a manufacturing process.

Description

Displacement electromagnet, motor and the method for manufacturing displacement electromagnet

Technical field

The present invention relates to a kind of displacement electromagnet for being used to manufacture and being particularly used for starting the starter relay of internal combustion engine The method of (elektrischer Hubmagnet), have at least one first to lead provided with least one in the displacement electromagnet The coil of electric winding and at least one second conductive winding, the conductive winding of wherein at least one first and at least one second conduction Winding is wound around bobbin.

The invention further relates to a kind of displacement electromagnet particularly for motor, the motor is, for example, to have to be used to start The starter of the starter relay of internal combustion engine, the displacement electromagnet have at least one first conductive winding including at least one With the coil of at least one second conductive winding, wherein the conductive winding around bobbin wind.

The invention further relates to a kind of motor for the starter relay for having and being used to start internal combustion engine, such as generator or starting Device or starter.

Background technology

The present invention is based on a kind of system with starter or starter motor and a kind of starting with starter relay Machine.

The main body of the present invention is the starter and starter for the motor vehicles with internal combustion engine, particularly applies and is rising Starter relay in motivation.

Prior art has been disclosed for the starter with the starter relay for being used for the motor vehicles with internal combustion engine, its Generally include the dc motor for driving internal combustion engine.

In this starter or starter motor, such as the relay with corresponding relay-fork-shaped lever system is used to arrive Engagement or rising in gear ring.Stroke, also referred to as interval or magnetic relay pulls back more precisely referred to as in gear motion Wishbone.This is carried out by being correspondingly powered to relay.When being powered, and the coefficient switch shaft of magnetic core axially court Move or removed from contact in contact direction.Or, in other words, start small tooth using relay to excite in vehicle starter Wheel is axially moved and connects the electric contact of main circuit current.This relay has the coil for including two windings." inhaling Draw armature " on-state under be powered to two windings.Only so-called holding winding is powered in the state of " holding armature ". Another winding is referred to as pulling winding or attracts winding.Two windings generally in Liang Ge manufacturing processes overlappingly, i.e. layeredly It is wrapped on same winding support.

The A1 of DE 10 2,006 033 174 disclose a kind of coil knot of the tubular coil support with electromagnetic driver Structure, particularly a kind of two level relay.The loop construction includes one and keeps winding and an attraction winding.Coil brace is at it With the second block with the first block and on its another end on one end.Winding is kept to be arranged on two blocks Between.First block has on its side away from the second block to be used to accommodate the recessed empty portion in axial direction for attracting winding.On the other hand, lead Body is arranged on different positions and thus needs relatively large structure space.

The content of the invention

Compared with prior art, according to the displacement electromagnet of the present invention, according to the starting device of the present invention and according to this hair The advantage of bright method is, is particularly being used for the side for starting the displacement electromagnet of the starter relay of internal combustion engine for manufacturing In method, be provided with the displacement electromagnet it is at least one have at least one first conductive winding and it is at least one second it is conductive around The coil of group, wherein these conductive windings are wound around bobbin, and the wire of conductive winding or formation conductive winding abreast encloses Coiling coil is wound, therefore is wound in a manufacturing process.It thereby simplify the manufacturing process of coil.Meanwhile by It is this to wind the discharge for improving loss power in relay coil, hence improve the coil zone of action.In addition, by through this The coil of sample winding avoid in particular such as in overlappingly twisted-pair line circle without intermediate film in the case of be likely to occur Damage and improve reliability.

Can advantageously be extended by the measure described in dependent claims and improve independent claims and side by side Claim given in the device that goes out.

In another embodiment, the conductive winding of two or all is wound around bobbin simultaneously.On the other hand, the two Conductive winding is at least wound around bobbin simultaneously paragraph by paragraph.

Another embodiment correspondingly provides that the conductive winding of two or all surrounds line with mutually staggering in time Coil is wound.Staggering in time includes the winding starting point of a conductive winding or wire in principle of the invention and/or twines Occur around terminal from another conductive winding on different time points.Can also different speed be wound.Thus not only The winding with the identical number of turn and/or with identical conductor length or wire geometry can be realized, and can also be real Now there is the different numbers of turn and/or the winding of different conductor lengths or wire geometry.

In another embodiment, the conductive winding of two or all is particularly independent of one another with different winding tools Ground is wound.Any canoe of various conductive windings can be realized by this way.

Still another embodiment provides that the conductive winding of two or all is particularly by a winding tool together Winding.On the other hand, in one embodiment to be each wound in the winding tool that the wire of conductive winding provides oneself.Another In individual embodiment a common winding tool is provided at least two wires.

And another embodiment is, at least two conductive windings different from each other are wound around bobbin.At one In embodiment, two identical conductive windings are wound around bobbin.On the other hand, have for the wire for forming each conductive winding There are identical geometric parameter, i.e. length, diameter, shape and/or the identical number of turns or the number of turn.In another embodiment, exist In the case of having at least two windings, at least one above-mentioned parameter of wire or conductive winding is different.

Correspondingly, provide in one embodiment, at least two conductive windings surround coil with the different numbers of turn Frame is wound.In one embodiment, conductive winding is wound with the identical number of turn.

Also provide in one embodiment, at least two conductive windings mutually interconnect before being wound around bobbin Connect and wound afterwards around bobbin.Such as be at least attached paragraph by paragraph in wire starting point or wire terminal, if necessary It can be attached paragraph by paragraph between wire starting point and wire end.Therefore, wire jointly, i.e. simultaneously and/or abreast, It is preferred that wound by an instrument around bobbin.

According to being particularly used for as having the motor of the starter for the starter relay for being used to start internal combustion engine for the present invention Displacement electromagnet include at least one coil with least one first conductive winding and at least one second conductive winding, Wherein these conductive windings are wound around bobbin, wherein the coil is made according to the above method, the displacement electromagnet has Such advantage, i.e. displacement electromagnet can faster and expense is less made and improves heat dissipation.Coil has at least Two conductive windings.These conductive windings are abreast wrapped on bobbin, so as to not form conductor layer, but these it is conductive around Group can also be located in a plane or layer.

According to the motor with the starter relay for being used to start internal combustion engine of the present invention, such as generator or starting device or Starter, the motor include at least one magnet, and the wherein magnet configurations are above-mentioned displacement electromagnet.Thus, it is possible to realize one Kind motor, the motor is in the case that switching relay is with longer turn-on time also with reliable function and improvement Radiating effect.

In one embodiment, multiple, particularly two conductive windings are around common winding unshakable in one's determination.These it is conductive around Group respectively includes a wire with such cross section.The cross section at least can construct rotation asymmetry paragraph by paragraph.Another At least cross section of rotational symmetry, such as circular cross section or annulus cross section paragraph by paragraph is provided with one embodiment.One Cross-sectional configuration in individual embodiment in conductor whole length is constant.In another embodiment cross section at least by The change of section ground.Change to this cross section can be continuous and/or interruption or great-jump-forward.Preferably, conductive winding Not alternately layeredly set in the form of at least one layer of first conductive winding and at least one layer of second conductive winding, but it is parallel Ground is wound and thereby at least located side by side paragraph by paragraph.Conductive windings different in one embodiment are alternately arranged, i.e. are connect It is second winding conductor etc. on the side of the first winding conductor, about apart from the equal position of bobbin radial direction.In an implementation Conductive winding is at least local in mode is complementally set, therefore two wires are at least partially intermeshed.In addition, at another At least one of which wire is configured to the wire deformed by rolling, preferably two or all wires construction in embodiment For the multiple wires deformed by rolling.The wire can manufacture in a different manner.Have confirmed and deformed by rolling It is particularly advantageous manufacture.The wire for meeting different requirements is produced by different rollings with being adjusted flexibly.It is special Not, it is low according to the expense for being used to manufacture wire of the present invention.These wires all have insulator, therefore these wires in outside It is insulated to abut on adjacent wire.

The power of relay can be matched as needed by this method.This is necessary, because in the coil of relay Power attenuation be relay important and limitation function design parameter.The heat of coil can be derived by being mainly characterized by Loss.The crucial coil is typically maintained coil, because the pulling time of the down time ratio relay of relay is obvious more It is long.At a relatively high electric current is flowed through when relay is connected.There is magnetic induction when connecting relay, the magnetic induction intensity depends on The number of turn and turn-on current of coil.In order to avoid being automatically stopped when disconnecting, preferably pull on winding and keep winding to implement For with the identical number of turn.When disconnecting, pull winding and keep winding to connect on the contrary, thus cancel out each other by two coils Caused magnetic field.The coil is alternatively implemented as no intermediate film or with intermediate film.It is preferred that by simultaneously twine Around being wound or winding process.For pulling the number of turn of the conductive winding of winding and holding winding preferably equal.By making With pull winding and keep winding come loss power is carried out from hold-in winding radiating realize the more preferable heat conduction of coil and by This reaches the more preferable function of coil.By avoiding causing damage to improve quality during transition between two coils. In the improvement project of the magnet exciting coil of starter relay, pull winding and keep winding simultaneously wound on bobbin.Thus Double winding is formed by pulling coil and hold-in winding.The conductive winding of two conductive windings or end leads or the end of wire Section separates in the starting of coil and end.The coil for being embodied as twin coil of two Stagger-wraps can have the identical number of turn Or the similar number of turn.The cross section of winding wire can be in the method identical or can by with varying cross-section around Group line is used to pull coil and hold-in winding.Except the cross section of circle can be that winding wire uses any other cross sections, The particularly cross section of square and rectangle.It may be embodied as according to manufacture method, cross section and desired bulk density whole Neat winding or mixed and disorderly winding.It can be twined under the applicable cases with the identical number of turn by appropriate double winding device Around.But present invention additionally comprises coil, two windings can be wound with the visibly different number of turn in these coils.To this Suitable wind is needed to use if necessary.Correspondingly also using the winding wire, such as so to match on geometry Rectangular lines with identical or different core size, therefore two lines can be arranged to pair with very high bulk density Coil.More than two winding, the i.e. winding of three or more can also alternately be wound in the above described manner.In an embodiment party These wires have been combined into " double wired conductor " by prefabrication process and have been embodied as coil therewith in formula.

Brief description of the drawings

Embodiments of the invention are shown in the drawings and described in detail in the following description.In the accompanying drawings：

Fig. 1 shows the transverse sectional view with the starting device for connecting relay,

Fig. 2 shows the transverse sectional view for connecting relay, and

Fig. 3 shows the transverse sectional view of the bobbin with two conductive windings.

Embodiment

Fig. 1 shows the internal combustion engine motor with starter relay 42 for being configured to starting device in transverse sectional view 100, the starter relay also referred to as connects relay.The housing 10 of motor 100 includes the housing component 11 and outer cover 13 of cylinder, The housing component and outer cover are connected with each other by screw not shown further.The housing component 11 of cylinder is later by outer cover 13 Close, the wheel hub outside sensing is molded in the center section of outer cover.Bearing supporting frame is located in wheel hub, the electricity of electric starter motor 18 The rear end 17a of pivot 17 is supported in the bearing supporting frame, and the armature reference 19 of the electric starter motor represents.In armature Multiple (permanent) magnets 20 that 19 radially outer has starter motor 18 are located on the wall of housing component 11.The front end of armature shaft 17 with The end 22 that diameter reduces is placed in the axially extending blind hole 23 not being shown specifically of driven shaft 24.Driven shaft 24 it is another End is placed in the bearing (ball) cover 25 of closing housing component 11 and is molded in wheel hub 26 thereon.Armature shaft 17 is at it close to bearing The end of end cap 25 nearby has teeth portion 28 (sun gear), and multiple planetary gears 29 are engaged in the teeth portion, these planetary gears Also the internal gear 30 positioned at outside fixation with planetary gear mechanism 31 is meshed.Pinion frame 12 drives driven shaft 24, freewheel 33 is provided with the driven shaft, the inner ring 34 of the freewheel has the little gear 35 for being configured to protrusion, external tooth Portion 36 is constructed in the little gear.The outer ring 37 of freewheel 33 is also referred to as drivening piece, and the outer ring passes through multiple thread 38 and driven Axle 24 is connected.One so-called engagement spring 39 is acted on multiple thread.In order to realize starting process, freewheel can be passed through 33 axial movement makes the gear ring 40 of outer toothed portion 36 and internal combustion engine be meshed.This is realized by means of (connection) relay 42, is connect Armature is deflected by the rod member 44 of protrusion 43 in the relay during galvanization, the rod member by positioned at two wheel discs 46 it Between connecting rod 45 be moved to the left freewheel 33.Rod member 44 constructed in the form of two arms and by pin 48 it is deflectable be arranged on It is fixed in the bearing 49 on housing.Brush plate 53 is abutted on outer cover 13, and the brush plate is connected with outer cover 13 with screw.Brush Plate 53 is with one piece construction.The brush carrier being especially made up of plastics is fixed on the brush plate, is pasted in the presence of spring pressure Lean against the carbon on commutator 63 to be placed in the brush carrier, the commutator is arranged on armature shaft 17.Carbon passes through connection twisted wire It is connected on cable connection post, the cable connection post is connected with the contact 68 for connecting relay 42.Twisted wire is passed through in housing component 11 The seal 70 being arranged in hole.Brush plate 53 is fixed on outer cover 13 by screw 62.Engagement path 110 includes rod member 44, The rod member moves outer ring or drivening piece.Drivening piece 37 is a part for freewheel group and more shorter than freewheel 33.The freewheel It is the part of actuating unit 120.

The such motor 100 for being configured to starting device is used primarily in motor vehicles and referred to as starter, special It is not referred to as sliding helical gear drive starter.Be configured to the starter motor 18 of motor, transmission mechanism 31, especially and Starter relay 42, particularly electromagnetic switch are primary clusterings.The starter motor 18 of motor is likewise constructed to by armature shaft 17 Keep effectively being connected with the machinery of transmission mechanism 31.By the separation member (being not shown here) abutted against on armature shaft 17, especially It is that cover plate or dust cap separate transmission mechanism 31 and starter motor 18., should to this it is important that armature shaft 17 is provided with seal Seal and separation member form rotatable sealing together.Therefore, a kind of arrangement is provided by technical scheme, Transmission mechanism 31 is protected in the arrangement in order to avoid being invaded by particulate or medium.In the starting process of internal combustion engine, starter motor 18 are briefly connected by electromagnetic switch by gear drive with internal combustion engine.Due to starter motor 18 generally have high rotating speed with And starting process needs torque, so needing big gearratio.Pass through the little gear 35 on starter, particularly starter pinion And desired gearratio is reached by the relatively large little gear of the ratio starter pinion of corresponding flywheel.Starter pinion It axially can infinitely move on armature shaft 17 and be meshed by electromagnetic switch or electromagnet with the teeth portion of flywheel.Then lead to Cross closure contact-making switch and connect starter motor 18, the contact-making switch is a part for the electromagnetic switch of each passage formula magnet.Rise Dynamic little gear is configured with freewheel 33, and the freewheel prevents the starter pinion still engaged by starter motor 18 with too high The rotating speed internal combustion engine that has started of driving and it is damaged or is damaged.This starter is usually as starter motor 18 And encourage with series connection motor (Reihenschlussmotor) or forever motor.Starter motor 18 is determined by not movable part, i.e. The part of sub and rotatable placement, i.e. rotor are formed.It is inner rotor type motor in the case of the present invention, and its rotor limits The interior section and its stator of dynamic motor 18 limit exterior section.Rotor has the coil for including iron core, and the iron core is also referred to as In armature 19 and the magnetic field being rotatably disposed between the pole shoe of stator.In starter motor 18, so-called field winding by Permanent magnet replaces, and the permanent magnet is also referred to as permanent magnet.Because permanent magnet is extremely advanced, it is possible to for motor vehicle Starting device in save stator winding.The coil of armature 19 is manipulated by commutator 63, is particularly armature winding.Commutator 63 are for example established from housing 10 to armature 19 by two carbon brush that are fixed, being crushed on the magnetic drum rotated together with armature 19 Winding wire connection.Commutator segment of the surface segmentation of magnetic drum into mutually insulated.As generally in dc motor, The winding for the commutator segment half quantity that armature 19 is provided with commutator 63.On the other hand, each winding its end and two that This relative commutator segment is connected.Because there are particular/special requirement, commutator segment and corresponding carbon brush to moment of torsion and electric current flowing Between cross section it is especially wide.There can be two windings in the case of four carbon brush while work and in six carbon brush In the case of can have three windings while work.

There is the connection relay or starter relay 42 constructed according to the principle of displacement electromagnet a position to fix Relay winding, the relay winding and another collective effect of armature 101.Another armature 101 is axially displaceably pacified Put and the back-moving spring 102 by being configured to helical compression spring is pressed into first in the state of connection relay 42 is non-actuated Put.The a plurality of wire that connection relay 42 is also wound including surrounding common iron core 423, these wires composition conductive winding 421, 422.Conductor or wire have cross section constant or variable in conductor length.The also referred to as bobbin 423 of iron core 423.

Fig. 2 shows the transverse sectional view for connecting relay 42.Show to surround in the cross-section and be for example configured to iron core Bobbin 423 conductive winding 421 and 422.Conductive winding 421,422 is wound around bobbin 423 simultaneously, thus it is conductive around Group 421,422 abreast set and not it is overlapping layer by layer.One conductive winding be configured to pull winding or attract around Group 421.Another winding is configured to keep winding 422.Fig. 3 illustrate in detail the arrangement of conductive winding 421,422.

Fig. 3 shows the transverse sectional view of the bobbin 423 with two conductive windings 421,422.The He of conductive winding 421 422 are configured to keep winding 422 and pull winding 421.These windings surround bobbin 423 in parallel to each other in a process Winding so that these windings are abreast abutted on the circumference of bobbin 423.The cross-sectional configuration of conductive winding 421,422 is Different from each other.The cross section of the wire of winding 421 is pulled to be more than the cross section for the wire for keeping winding 422.Two cross sections All it is configured to circle.Because two kinds of conductive windings 421,422 are simultaneously wound and have different cross sections, so conductive winding 421st, 422 constructed in the prior art by the arrangement of the conductive winding more " mixed and disorderly " of layered arrangement with unordered and ratio.

Claims (14)

1. the method for manufacturing displacement electromagnet, it is provided with the displacement electromagnet at least one with least one first The coil of conductive winding (421) and at least one second conductive winding (422), wherein at least one first conductive winding (421) wound with least one second conductive winding (422) around bobbin (423), it is characterised in that described first leads The cross section of the wire of electric winding (421) is more than the cross section of the wire of second conductive winding (422), described at least one First conductive winding (421) and at least one second conductive winding (422) or formed described at least one first it is conductive around The wire of group (421) and at least one second conductive winding (422) is abreast wound around the bobbin (423), from And it is wound in a manufacturing process so that at least one first conductive winding (421) and described at least one Two conductive windings (422) form at least one first conductive winding (421) and at least one second conductive winding (422) wire is abreast abutted on the circumference of bobbin (423), at least one first conductive winding (421) and institute At least one second conductive winding (422) is stated with unordered and more mixed and disorderly than the conductive winding by layered arrangement arrangement come structure Make.

2. in accordance with the method for claim 1, it is characterised in that all conductive winding (421,422) while around described Bobbin (423) is wound.

3. in accordance with the method for claim 1, it is characterised in that all conductive windings (421,422) are mutual in time Wound around the bobbin (423) with staggering.

4. according to the method described in preceding claims 1 or 2, it is characterised in that all conductive windings (421,422) are with difference Winding tool wind independently of one another.

5. according to the method described in preceding claims 1 or 2, it is characterised in that all conductive windings (421,422) are by one Individual winding tool is wound together.

6. according to the method described in preceding claims 1 or 2, it is characterised in that at least two conductive windings different from each other (421,422) wound around the bobbin (423).

7. according to the method described in preceding claims 1 or 2, it is characterised in that at least two conductive windings (421,422) Wound with the different numbers of turn around the bobbin (423).

8. according to the method described in preceding claims 1 or 2, it is characterised in that at least two conductive windings (421,422) It is being connected with each other before the bobbin (423) winding and is being wound afterwards around bobbin (423).

9. in accordance with the method for claim 1, it is characterised in that the displacement electromagnet is the starting for starting internal combustion engine The displacement electromagnet of relay (42).

10. displacement electromagnet, including at least one there is at least one first conductive winding (421) and at least one second conduction The coil of winding (422), wherein the conductive winding (421,422) is wound around bobbin (423), it is characterised in that described Method of the coil according to any one of preceding claims 1 to 9 is made.

11. according to the displacement electromagnet described in claim 10, it is characterised in that the displacement electromagnet is to be used to have to be used for Start the displacement electromagnet of the motor (100) of the starter relay (42) of internal combustion engine.

12. according to the displacement electromagnet described in claim 11, it is characterised in that the motor is starter.

13. the motor (100) with the starter relay (42) for being used to start internal combustion engine, the motor include at least one magnetic Body, it is characterised in that the magnet is the displacement electromagnet according to claim 9.

14. according to the motor (100) described in claim 13, it is characterised in that the motor is generator or starting device.