CN101443860B - Coil and coil shaping method - Google Patents

Coil and coil shaping method Download PDF

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Publication number
CN101443860B
CN101443860B CN2007800171130A CN200780017113A CN101443860B CN 101443860 B CN101443860 B CN 101443860B CN 2007800171130 A CN2007800171130 A CN 2007800171130A CN 200780017113 A CN200780017113 A CN 200780017113A CN 101443860 B CN101443860 B CN 101443860B
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CN
China
Prior art keywords
coil
rectangular wire
winding
coiling
winding head
Prior art date
Application number
CN2007800171130A
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Chinese (zh)
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CN101443860A (en
Inventor
莲正利
服部薰
中津良
蒲野圣
前野谦介
Original Assignee
株式会社田村制作所
田村自动化系统有限公司
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Publication date
Priority to JP133041/2006 priority Critical
Priority to JP2006133041A priority patent/JP4951272B2/en
Priority to JP018828/2007 priority
Priority to JP2007018828A priority patent/JP4812641B2/en
Application filed by 株式会社田村制作所, 田村自动化系统有限公司 filed Critical 株式会社田村制作所
Priority to PCT/JP2007/000507 priority patent/WO2007132558A1/en
Publication of CN101443860A publication Critical patent/CN101443860A/en
Application granted granted Critical
Publication of CN101443860B publication Critical patent/CN101443860B/en

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Abstract

To simplify the production work of a coil and to miniaturize a reactor, or the like, by reducing the occupation space as much as possible. [MEANS FOR SOLVING PROBLEMS] A reactor coil (12) consists of a first coil element (121) and a second coil element (122) formed by winding one flat type wire (17) rectangularly edgewise thereby stacking it in rectangular tube shape. At the end-of-winding of thefirst coil element (121), the flat type wire (17) is bent by about 90 DEG in the direction reverse to the winding direction of the first coil element (121), and wound rectangularly edgewise in the direction reverse to the winding direction of the first coil element (121) so that it is stacked in the direction reverse to the stacking direction of the first coil element (121) thus shaping the coilin such a state as the first coil element (121) and the second coil element (122) are arranged continuously in parallel at the moment in time when winding of the second coil element (122) is ended.

Description

The method of coil and formation coil
Technical field
The present invention relates to a kind of coil as electronic unit, and a kind of method that is used to form this coil, and relate more specifically to be suitable for as the coil of reactor winding and the method that is used to form this coil.
Background technology
Usually, the core that reactor has winding for example and processed by magnetisable material, and this winding reels around core, and to constitute the coil of reactor, this makes it possible to obtain inductance.Traditionally; Reactor is used in booster circuit, inverter circuit, the active filter circuit etc., and, in a lot of situations; This reactor has structure like this; Being the core and the coil of reeling around this core is housed inside in the shell of being processed by metal etc. (referring to, for example, patent reference 1) with other insulating component etc.
For the reactor that in vehicle-mounted booster circuit, uses; Used coil with structure like this; Be that each all has predetermined winding diameter and can in high galvanic areas, provide two single coil elements of the number of windings of high inductance numerical value to be formed parallel to each other and connection (connection) each other, thus opposite each other through the mobile sense of current of these two coils.
First conventional example of this coil has structure like this; Be that in above-mentioned two single coil elements each forms by each winding; And through on the end via the connection side that is communicated with terminal of winding, welding; These two single coil elements be connected to each other (referring to, for example, patent reference 2).
Second conventional example of this coil has structure like this; Promptly through using one section vertical coiling of rectangular wire to form parallel placement and by two single coil elements of reeling along equidirectional; And; Through along and the Width of longitudinal direction quadrature will be in the joining part doubling of the rectangular wire between above two single coil elements connected to one another, formed coil is accommodated in the external shape that the end surfaces by two coil parts forms (referring to above-mentioned patent reference 2).
Patent reference 1: japanese patent application laid is opened No.2003-124039
Patent reference 2: Japan Patent No.3737461
Summary of the invention
Problem to be solved by this invention
Yet in above-mentioned first conventional coil, the winding that is used to form two coil parts connects via being communicated with terminal; And therefore, as described in the above patent reference 2, the end on the connection side of this connection terminal and each winding highlights from the profile that the end surfaces by two coil parts forms; Thereby cause when coil being contained in the above-mentioned shell, the space that is occupied by coil increases, particularly; It is bigger that shell sizes becomes, and therefore causes the size of whole reactor to become big.
In addition, in first conventional example of above coil, need further process; Wherein the coating on end on each winding and in the connection side of each winding is stripped from, and be used to connect two coil parts and be communicated with terminal, and; After this; On these parts, weld, the result causes the manufacturing step of coil very complicated.And then; In above first conventional example, each these two coil part of processing by each winding is through via being communicated with that terminal welds and being electrically connected to each other, and; Therefore; Reliability in the welding portion becomes a problem inevitably, and produces another problem, and promptly electrology characteristic according to what how to weld changes.
Carry one in passing,, require the pin-point accuracy of these two coils to arrange because for example the core of general toroidal is inserted in two coil parts that constitute reactor.Yet; In the situation of first conventional example of coil, via being communicated with terminal the end on the connection side of two coil parts is connect each other, and therefore; The layout of these two coil parts changes easily, and this causes in some situations, the core insertion being become impossible.
On the other hand; In above-mentioned second conventional coil, form these two coil parts through using identical winding, and therefore; It is dispensable to be communicated with terminal, and this makes it be easy to joining part is contained in the external shape that the end surfaces by two coil parts forms.Yet; Joining part forms with mode like this on the end of two coil parts, and promptly joining part is folded in half, and the result; Folded part is outstanding on the end side of these two coil parts inevitably, and therefore causing is increased by the space that coil occupies with the mode corresponding to this folded part.In this case, if worry to make that the thickness of folded part reduces, then winding, promptly, the electrology characteristic of coil receives the curvature influence of this folded part of having done very for a short time.In addition, can not deny, have possibility like this, that is, electrology characteristic is changed by what how to fold according to joining part.And then, although it is unnecessary to make that the process of between two coil parts and connection terminal, welding becomes, also requiring to be used for the above-mentioned other step of folding joining part, this proposes another problem, that is and, it is complicated that manufacture process becomes.
First purpose of the present invention is to provide the technology that can reduce as much as possible by the occupied space of the coil of the parts that are used as reactor, to realize the further miniaturization of reactor.
Second purpose of the present invention is to be provided for the technology of the coil that is made up of the complex coil element; Between coil part, weld and the needs of the process of folding joining part through eliminating, this technology can be eliminated the variation of coil characteristics and high reliability is provided.
The 3rd purpose of the present invention is to be provided for the technology of the coil that is made up of coil part, between coil part, welds and the needs of the process of folding joining part through eliminating, and this technology can be simplified the process of making coil.
The 4th purpose of the present invention is to be provided for the technology of the coil that is made up of coil part, and through making the accuracy of layout of a plurality of coil parts uprise, this technology can be inserted core in each coil part reliably.
The method that is used to deal with problems
Inventor of the present invention has been found that a kind of coil and a kind of method that is used to form this coil; This coil has new structure; Wherein form a plurality of coil parts; Thereby these a plurality of coil parts are placed on the same side so that eliminate the needs that joining part is turned back, thereby and the sense of current that flows through these a plurality of coils be opposite.
Promptly; In order to realize first to the 3rd above purpose; The invention provides a kind of coil of reactor; Said coil is contained in the heat conduction shell of case shape, and the face that holds that holds said coil in the said shell is formed on the plane, and this coil carries out vertical through the mode that becomes rectangle and cylindricality ground to pile up with the rectangular wire of being reeled as follows to one section rectangular wire and rectangle is reeled forms; Promptly at least the first coil part and second coil part in continuous state, be arranged parallel to each other and the coiling direction of said rectangular wire opposite each other; It is characterized in that through by the mode that becomes rectangle and cylindricality ground to pile up said rectangular wire being carried out vertical and the rectangle coiling of said first coil part that the forms end points place that terminates that reels by the rectangular wire of being reeled, said rectangular wire is bent roughly 90 along the direction opposite with the coiling direction of said first coil part and spends; Thereby said rectangular wire is stacked along the direction opposite with the stacking direction of said first coil part; And vertical and become rectangular area to reel along the direction opposite with the coiling direction of said first coil part, forming second coil part, and; At the coiling termination end points place of said second coil part, said first coil part and second coil part are arranged parallel to each other in a continuous manner.
Through as above constructing; Need not be used for welding portion and folded part that coil part is interconnected; And therefore, by being reduced as much as possible as the occupied space of the coil of parts, this makes it possible to realize the further miniaturization of reactor etc.And, need not be used for the welding that coil part is connect each other and/or turn back being used for turning back, and therefore the coil that can acquired character does not change and have high reliability with what coil part was arranged in parallel.In addition, eliminated welding job and/or the needs that turn back, and therefore, can simplify manufacturing work.
In order to realize above first to the 3rd purpose; A kind of coil formation method of the present invention is provided; Be used to form through in one way one section rectangular wire being carried out the vertical coil of reeling and constructing with rectangle, in said mode, the rectangular wire of being reeled becomes rectangle and cylindricality ground to pile up; And; At least the first coil part and second coil part in continuous state, be arranged parallel to each other and the coiling direction of rectangular wire opposite each other, and be used to use first winding head and form first and second coil parts from one section rectangular wire with predetermined space separates installation from first winding head second winding head, this method comprises:
The first rectangular wire feeding process; Be used to prepare to have reel to form the rectangular wire of the required length of first coil part and second coil part; And from the second winding head side to first this rectangular wire of winding head side feeding; Rectangular wire being placed first winding head, and the end of rectangular wire is set at the state that goes out around head process from the first volume with predetermined length;
The first coil part winding process is used for through using the first winding head coiling rectangular wire to reach the regulation numerical value that is used to form first coil part until the number of windings of first coil part;
The second rectangular wire feeding process is used for once more from the second winding head side to the first winding head side feeding rectangular wire, forms first coil part in the end of said rectangular wire;
The first coil part forming process is used for through with the whole first coil part bending 90 degree and first coil part is set at the state with regulation attitude roughly;
The 3rd rectangular wire feeding process is used for rectangular wire further is fed into the first winding head side from the second winding head side, to guarantee to be used for the winding part of second coil part; With
The second coil part winding process is used for through using the second winding head coiling rectangular wire to reach the regulation numerical value that is used to form second coil part until the number of windings of second coil part.
Through as above constructing; Can obtain to be used to form the method for coil; The needs that weld and turn back for coil part is connect have each other been eliminated thus; And therefore, by being reduced as much as possible as the occupied space of the coil of parts, this makes that reactor etc. can miniaturization and need not weld for coil part is connect each other and/or to be arranged parallel to each other coil part in order turning back and to turn back; And therefore, can realize there is not characteristic variations and have the coil formation method of high reliability.In addition, eliminated welding job and/or the needs that turn back, and therefore, can simplify manufacturing work.
And in the second rectangular wire feeding process, rectangular wire is with the feeding excessively of coil spacing length quilt, to guarantee the interval between first coil part and second coil part.
Through as above constructing; Be easy to guarantee in advance the predetermined coil gap length between first coil part and second coil part; And therefore; Can eliminate the variation in the coil part between first coil part and second coil part, this can strengthen the reliability of formed coil.And the 3rd rectangular wire feeding process can comprise the process of cutting rectangular wire, be used for predetermined length rectangular wire being released cutting, thereby the terminal of the rectangular wire that forms through cutting constitutes the end of second coil part.
Through as above constructing, make the coiling of second coil part carry out easily, can simplify manufacturing work thus.
On the other hand; In order to realize first to the 4th purpose; A kind of coil is provided; This coil has first coil part and second coil part at least; Through the mode that becomes rectangle and cylindricality ground to pile up with the rectangular wire of wherein being reeled rectangular wire is carried out vertical the coiling with rectangle and form said first coil part; And with the mode of wherein piling up rectangular wire along the direction opposite, along the direction opposite rectangular wire is carried out vertical the coiling with rectangle and form said second coil part, it is characterized in that with the stacking direction of first coil part with the stacking direction of first coil part at the coiling termination end points place of first coil part; Sentence continuation mode through using rectangular wire to squint to reel based on the certain deviation amount at the coiling destination node of second coil part and be formed parallel to each other said first coil part and second coil part, concern and obtain said side-play amount through measuring position between second coil part and first coil part.
Through as above constructing; The accumulation of the wire rod feeding error that when during the winding process of reeling through skew, forming each side of second coil part, produces can be cancelled; And therefore; Can make the layout pin-point accuracy of first and second coil parts, and the core of general toroidal can insert reliably in each of first and second coil parts.In addition, need not be used for welding portion and folded part that coil part is connect each other, and therefore, can obtain the coil that does not have characteristic variations and have high reliability.In addition, eliminated welding job and/or the needs that turn back, and therefore, can simplify manufacturing work.
And; In order to realize first to the 4th purpose, a kind of coil formation method is provided, be used to form this coil and be used to use first winding head and form first and second coil parts from one section rectangular wire with predetermined space separates installation from first winding head second winding head; Construct said coil through in one way one section rectangular wire being carried out vertical the coiling with rectangle; In said mode, the rectangular wire of being reeled becomes rectangle and cylindricality ground to pile up, and; At least the first coil part and second coil part in continuous state, be arranged parallel to each other and the coiling direction of rectangular wire opposite each other, this method comprises:
The first rectangular wire feeding process; Be used to prepare to have reel to form the rectangular wire of the required length of first coil part and second coil part; And from the second winding head side to first this rectangular wire of winding head side feeding; Rectangular wire being placed first winding head, and the end of rectangular wire is set at the state that goes out around head process from the first volume with predetermined length;
The first coil part winding process is used for through using the first winding head coiling rectangular wire to reach the regulation numerical value that is used to form first coil part until the number of windings of first coil part;
The second rectangular wire feeding process is used for once more from the second winding head side to the first winding head side feeding rectangular wire, forms first coil part in the end of this rectangular wire;
The first coil part forming process is used for through be set at the state with regulation attitude with whole first coil part bending and with first coil part;
The 3rd rectangular wire feeding process is used for rectangular wire further is fed into the first winding head side from the winding head side, to guarantee to be used for the winding part of second coil part; With
The second coil part winding process; Be used for through using the second winding head coiling rectangular wire to reach predetermined value until the number of windings of second coil part; And concerning and calculating side-play amount through measuring position between second coil part and first coil part during the winding process, and reeling through squinting and to form second coil part based on the side-play amount that is obtained.
Through as above constructing; The accumulation of the wire rod feeding error that when during the winding process of reeling through skew, forming each side of second coil part, produces can be cancelled; And therefore; Can make the layout pin-point accuracy of first and second coil parts, and the core of general toroidal can insert reliably in each of first and second coil parts.In addition, need not be used for welding portion and folded part that coil part is connect each other, and therefore, can obtain the coil that does not have characteristic variations and have high reliability.And, eliminated welding job and/or the needs that turn back, and therefore, can simplify manufacturing work.
And in the second rectangular wire feeding process, rectangular wire is with the feeding excessively of coil spacing length quilt, to guarantee the interval between first coil part and second coil part.
Through as above constructing; Be easy to guarantee in advance the predetermined coil gap length between first coil part and second coil part; And therefore; Can eliminate the variation in the coil part between first coil part and second coil part, this can strengthen the reliability of formed coil.
In this coil part winding process, obtain side-play amount to guarantee that the distance between the axle core of the axle core of first coil part and second coil part is the length of regulation.
Through as above constructing; Can eliminate the variable in distance between the axle core of axle core and second coil part of first coil part, thus, for example; The core of general toroidal can insert in each coil part reliably, and therefore can further strengthen reliability.
Effect of the present invention
According to the present invention, the end on the connection side of connection terminal and each winding is outstanding from the profile that the end surfaces by two coil parts forms, and the occupied space of coil does not increase.In addition; The fold back portion that need not be used to connect, this can prevent that member etc. is side-prominent and can reduce the space that is occupied by coil towards the end surfaces of two coil parts, and therefore; When coil of the present invention is applied to electronic unit etc.; Coil is housed inside in the shell in this electronic unit, might make shell have small size, therefore realizes the miniaturization of whole electronic unit.
In addition; Aspect reliability; Have no welding portion to cause problem, and do not have according to how the possibility of coil being turned back and in the electrology characteristic of coil, changing, can be formed in the coil that the electrology characteristic aspect has high reliability and fail safe thus.
And, need and not be communicated with the process of welding and turning back between the terminal at two coil parts, simplify the manufacturing work of coil thus.
And then; Be based on during the winding process through measuring position relation and offset calculated between second coil part and first coil part coiling that squints; And therefore; The accumulation of the wire rod feeding error that when during winding process, forming each side of second coil part, takes place can be cancelled, and can make the layout pin-point accuracy of first coil part and second coil part.This makes that for example the core of general toroidal can insert in each coil part reliably, is provided at the coil that the electrology characteristic aspect has high reliability and fail safe thus.
Description of drawings
Fig. 1 is the perspective view of an instance with reactor of coil according to an embodiment of the invention;
Fig. 2 is the decomposition diagram of the reactor of Fig. 1;
Fig. 3 is the perspective view according to the reactor winding of the first embodiment of the present invention;
Fig. 4 is first figure of explanation according to the method for the formation reactor winding of the first embodiment of the present invention;
Fig. 5 is second figure of explanation according to the method for the formation reactor winding of the first embodiment of the present invention;
Fig. 6 is three figure of explanation according to the method for the formation reactor winding of the first embodiment of the present invention;
Fig. 7 is the perspective view of reactor winding according to a second embodiment of the present invention;
Fig. 8 is first figure that the method for formation reactor winding according to a second embodiment of the present invention is described;
Fig. 9 is second figure that the method for formation reactor winding according to a second embodiment of the present invention is described;
Figure 10 is the 3rd figure that the method for formation reactor winding according to a second embodiment of the present invention is described.
Explanation to letter or numeral
1: the heat conduction shell
4: coil holder
7: insulation/heat radiation thin slice
8: filler;
10: reactor;
12: reactor winding;
13: the reactor fixing hole;
17: the rectangular metal silk;
121L, 122L: lead portion
121: the first coil parts;
122: the second coil parts;
123: Offset portion;
100: winding head
200: winding head
170: rectangular wire
Embodiment
Through being described in detail with reference to the attached drawings the coil of the first embodiment of the present invention.According to first embodiment, coil of the present invention is applied to the coil (hereinafter, being called reactor winding) of reactor.Fig. 1 is the perspective view as the reactor of an instance that comprises reactor winding of the present invention.Reactor 10 shown in Figure 1 is used to the circuit in a kind of equipment; This equipment for example has forced cooling device; And be configured to make after the reactor winding 12 that forms through the rectangular metal silk 17 of reeling around reactor core 9 is housed inside in the heat conduction shell 1; Thereby filler 8 is injected wherein constant reactance device coil 12, between rectangular metal silk 17 and reactor winding 12, be inserted with coil holder (bobbin) (Fig. 1 is not shown).And; As described with reference to figure 3 after a while; The reactor winding 12 of first embodiment comprises first coil part 121 and second coil part 122; Each all carries out first coil part 121 and second coil part 122 vertical the coiling with rectangle to rectangular metal silk 17 by this way and forms, and the rectangular metal silk 17 of promptly being reeled piles up with being become rectangles and cylindricality.In addition; In the lead portion 121L and 122L of the end that forms first coil part 121 and 122 respectively; Coating is peeled off and the conductor of the rectangular metal silk 17 that exhumes out from rectangular metal silk 17, and the sub-(not shown) of pressure connecting terminal is mounted to be electrically connected to other electrical components.The reactor fixing hole 13 that use forms in four corners of heat conduction shell 1, its each all be used as and be used for reactor winding 12 is fixed to the screw hole of for example forcing cooled enclosure etc.
Fig. 2 is the decomposition diagram of reactor 10 shown in Figure 1.Reactor 10 comprises heat conduction shell 1, insulation/heat radiation thin slice 7, reactor winding 12, coil holder 4 and reactor core 9.Form reactor winding 12 through contour frame 4 coiling rectangular metal silks 17.Coil holder 4 is made up of partitioned portion 4a and coiling frame part 4b and by like this structure, i.e. viewpoint from increasing work efficiency, and partitioned portion 4a can separate with coiling frame part 4b.
Next, be to form among the winding part 4b after the reactor winding 12, from the two ends assembling partitioned portion 4a of coiling frame part 4b.Then, reactor core 9 is inserted among the coiling frame part 4b.Reactor core 9 is made up of a plurality of block 3a and 3b and sheet members 6, and each block is processed by magnetisable material, and sheet members 6 is inserted between the block 3b as magnetic gap.In this embodiment, reactor core 9 is made up of two block 3a, 6 block 3b and 8 sheet members 6.Each of reactor core 9 all has the shape of general toroidal, and each block 3b and sheet members 6 of processing by magnetisable material are inserted among the coiling frame part 4b all block 3b and thin slice 6 formation straight line portioies.Reactor core 9 has two straight line portioies and reactor winding 12 forms in each straight line portion, and here, coiling frame part 4b is inserted into wherein to obtain the electrology characteristic of regulation.The block 3a that is processed by magnetisable material is connected to each straight line portion, therefore, forms the reactor core 9 with general toroidal shape.In addition, after the block 3b that is processed by magnetisable material and sheet members 4 were inserted into the coiling frame part 4b of coil holder 4, block 3a was incorporated into sheet members 6, and therefore, block 3a is configured to not separated.
Through above process, form reactor core 9 and reactor winding 12.Afterwards, after the thin slice 7 that will insulate/dispel the heat placed on the bottom surface of heat conduction shell 1, reactor core 9 was accommodated in the heat conduction shell 1 with reactor winding 12.Next, filler 8 is injected in the heat conduction shell 1, so that reactor core 9 and reactor winding 12 are fixed in the heat conduction shell 1.Insulation/heat radiation thin slice 7 is placed between reactor winding 12 and the heat conduction shell 1, thinks that the two provides insulation.In addition, the insulation of this embodiment/heat radiation thin slice 7 use have than around the thin slice of the higher thermal conductivity of the thermal conductivity of filler 8, and therefore, can be effectively with the heat transferred that produces from reactor winding 12 to heat conduction shell 1.Thus, dissipate the heat that produces from reactor winding 12 efficiently from the heat conduction shell 1 of forcing cooling.
As stated; The reactor winding 12 of this embodiment comprises first coil part 121 and second coil part 122; Each all carries out first coil part 121 and second coil part 122 vertical the coiling with rectangle to rectangular metal silk 17 by this way and forms, and the rectangular metal silk 17 of promptly being reeled piles up with being become rectangles and cylindricality.Therefore; First coil part 121 and second coil part 122 are so formed; Be that the bottom surface is the plane and contacts with heat conduction shell 1 that wherein insulation/heat radiation thin slice 7 is inserted between them, and therefore; With wherein coil part is with the range upon range of contrast of cylindricality mode, the heat dissipation characteristics of reactor winding 12 is fine.Equally; Similarly, when with wherein coil part is with the range upon range of contrast of cylindricality mode, the idle space in the heat conduction shell 1 is reduced; Therefore make reactor winding 12 to be housed inside and have in the shell that reduces volume that this is used to make that whole reactor has little size.In addition; The reactor winding 12 of this embodiment forms first coil part 121 and second coil part 122 through vertical ground (vertically) crooked rectangle wire 17; And therefore, with rectangular metal silk wherein 17 by the contrast of reeling in a horizontal manner, can make the voltage between coil less.Therefore, even, also might guarantee high reliability applying to it in reactor winding of 1000 volts of big voltages.
Fig. 3 is the perspective view that the reactor winding 12 of this embodiment is shown.As shown in Figure 3; The reactor winding 12 of this embodiment constitutes by first coil part 121 with second coil part 122; Its each all by this way one section rectangular metal silk 17 is carried out vertically reeling with rectangle and forming, the rectangular metal silk 17 of promptly being reeled piles up with being become rectangles and cylindricality.First coil part 121 and second coil part 122 are so formed, thereby thereby parallel in a continuous manner and its coiling direction is opposite each other.Reactor winding 12 is characterised in that; Among the coiling termination end 121E of first coil part 121 that forms rectangular metal silk 17 being carried out vertical the coiling by the mode that becomes rectangle and cylindricality ground to pile up with rectangle with the rectangular metal silk 17 of wherein being reeled; Rectangular metal silk 17 is bent roughly 90 degree along the direction opposite with the coiling direction of first coil part 121; Thereby rectangular metal silk 17 is piled up along the direction opposite with the stacking direction of first coil part (among Fig. 3 shown in the arrow A) (among Fig. 3 shown in the arrow B); And carried out vertical along the direction opposite and the rectangle coiling with the coiling direction of first coil part 121, and, the result; In the coiling termination end points of second coil part 122, first coil part 121 and second coil part 122 are arranged parallel to each other in a continuous manner.Here, term " vertical coiling " refers to a kind of winding method, and through this mode, rectangular metal silk 17 is reeled vertically.Equally, term " rectangle coiling " refers to a kind of winding method, and through this mode, coil is become rectangular area to reel, and this term forms contrast with " circular roll around ".In addition; The lead portion 122L of the lead portion 121L of first coil part 121 and second coil part 122 is placed on each the same side of first coil part 121 and second coil part 122; And therefore; Even when the terminal of not illustrating is installed to each marginal portion of lead portion 121L and lead portion 122L, also might aligned with terminal.
Carry one in passing, through described the method for the reactor winding 12 that is used to form this embodiment with reference to figure 4,5 and 6.In the method for the reactor winding that is used to form this embodiment 12, to shown in Fig. 6 (1), the winding head 100 that is used for first coil part through use is reeled with the winding head 200 that is used for second coil part like Fig. 4 (a).In the winding head 100 and 200 each all has two termination parts, and each termination parts all is provided with mode like this, promptly faces with each other with predetermined interval.At first, shown in Fig. 4 (a), be fed to the position (first process of feeding rectangular wire 170) of regulation as a kind of rectangular metal silk (hereinafter, being known as rectangular wire 170) of wire rod.Promptly; As the winding that will be used to first coil part 121 and second coil part 122; Prepare sufficiently long rectangular wire 170 and then rectangular wire 170 is fed into winding head 100 sides from winding head 200 sides, that is, and the direction shown in the arrow A in Fig. 4 (a); Pass through the position of winding head 100 so that rectangular wire 170 is pulled, thereby the top 170f of rectangular wire 170 is outstanding from the winding head 100 with predetermined length with setting rectangular wire 170.Form rectangular wire 170 through utilizing coating to cover so-called rectangular conductor.In addition, like what describe after a while, the top 170f of rectangular wire 170 constitutes the end 121a of first coil part 121.
Then, shown in Fig. 4 (b), reel to form first coil part 121 (winding process of first coil part) through using winding head 100.In this case, reel to form first coil part 121 until reaching the predetermined number of windings (, so same) for second coil part 122.Towards centering on second coil part, 122 coiling rectangular wires 170 by the direction shown in the arrow B among Fig. 4 (b).Shown in Fig. 4 (b) and after a while other accompanying drawing, first coil part 121 (perhaps second coil part 122) is formed along having the size of regulation with the direction (along the above-below direction of accompanying drawing paper) of accompanying drawing paper quadrature.
After forming first coil part 121, shown in Fig. 4 (c), feeding rectangular wire 170 (the second feeding process of rectangular wire) once more.That is the top 170f of direction feeding rectangular wire 170 shown in the arrow C in Fig. 4 (c).At this moment, in order to guarantee the interval between first coil part 121 and second coil part 122, with predetermined coil spacing length T feeding rectangular wire 170 excessively.
Shown in Fig. 4 (d), form (bending) whole first coil part 121 with 90 degree.That is, forming (bending) rectangular wires 170, the first coil parts 121 through direction shown in the arrow D in Fig. 4 (d) with 90 degree is set to and takes predetermined attitude.In this case, at rectangular wire 170 with the coil spacing length T from the outstanding position of winding head 100, through using winding head 100 with rectangular wire 170 crooked 90 degree.That is, spend crooked rectangular wire 170 with the position of the coil spacing length T displacement of regulation with 90 at rectangular wire 170, form whole first coil part 121 through using winding head 100.
Then, shown in Fig. 5 (e), rectangular wire 170 is by further feeding (the 3rd feeding process of rectangular wire).Direction shown in the arrow E of the top 170f of rectangular wire 170 in Fig. 5 (e) is by further feeding.This process is a big characteristic of method that forms the reactor winding 12 of this embodiment; And; For the length of second coil part, the 122 needed wire rods that guarantee to be used to reel, rectangular wire 170 is fed until first coil part 121 and rectangular wire 170 and surpasses quite long length from winding head 100 is outstanding.In addition, according to this embodiment, by after its source of supply is released enough length, rectangular wire 170 is cut at rectangular wire 170, and constitutes the top 122a of second coil part 122 through the terminal 170b that cuts the rectangular wire 170 that forms.
Next, shown in Fig. 5 (f), reel to form second coil part 122 (winding process of second coil part) through using winding head 200.In this case, reel to form second coil part 122 until reaching the predetermined number of windings (, so same) for first coil part 121.On the point, shown in Fig. 5 (f),, reel at this moment to form second coil part 122 through using winding head 200 along forming rectangular wire 170 with first coil part, 121 opposite directions.That is, form (bending) rectangular wire 170 with 90 degree, begin to reel to form second coil part 122 through direction shown in the arrow F in Fig. 5 (f).Correspondingly, the coiling that is used to form second coil part 122 through the part that between the winding head 200 of rectangular wire 170 and winding head 100, exists and the part of using as Fig. 5 (f) shown in shown in Fig. 5 (e) from winding head 100 releases.That is, when rectangular wire 170 was formed (bending) 90 and spends, the bending direction of rectangular wire 170 changed (bending direction is reversed 180 degree).
Therefore; Shown in Fig. 5 (e) and 5 (f); After completion is used to form the coiling of first coil part 121, with rectangular wire 170 feedings be used to reel with form second coil part, 122 needed length and then rectangular wire 170 reeled once more to be used to form the coiling of second coil part 122 along opposite direction.This method that forms reactor winding is a big characteristic of present embodiment.
Like this, shown in Fig. 5 (g), because in order to form the coiling of second coil part 122, first coil part 121 is moved to winding head 200 sides, that is, and and direction shown in the arrow G in Fig. 5 (g).That is, this means that coil part 121 and 122 beginnings are close to each other.
In addition, shown in Fig. 6 (h), the coiling that is used to form second coil part 122 is proceeded, and the result, coil part 121 and 122 each other more near.At this moment, shown in Fig. 6 (h), first coil part 121 separate with winding head 100 and the arrow H in Fig. 6 (h) shown in direction near second coil part 122.Therefore, thus expectation reactor winding 12 has and promotes the mechanism that first coil part, 121 first coil parts and winding head 100 upwards separate.
Shown in Fig. 6 (i); State from second coil part 122 shown in Fig. 6 (h); Coiling continues to the state of coiling quadrant (90 degree); Accomplished the formation of second coil part 122 thus, and therefore made the coiling of two coil parts 121 and 122 all be done, this has accomplished the formation of reactor winding 12.Accomplish therein in this state of reeling, the end 122a (the end 170b of rectangular wire 170) of the end 121a of first coil part (the top 170f of rectangular wire 170) and second coil part aims at the mode of extending along the same direction shown in Fig. 6 (i).In addition; Be necessary and separate with winding head 200 by the reactor winding 12 that first coil part 121 and second coil part 122 constitute; And therefore, thus expectation is provided for promoting two coil parts 121 and 122 coil parts 121 and 122 mechanism that quilt removed that makes progress.
Through using above formation method, as shown in Figure 3, the reactor winding 12 that can obtain not have the part of recoiling.Promptly; The method that is used to form reactor winding according to this embodiment; The attitude of coil part of being accomplished 121 and each of 122 all is in the state as shown in Figure 3, and therefore, can save two coil parts 121 of welding (connection) and 122 and the process of recoiling rectangular wire 170.Be unlike in the situation of the first traditional instance of coil such; Wherein reel respectively to form each coil part; And connect two coil parts through welding; In the present embodiment, on both sides, pass through rectangular wire two coil parts 121 of 170 coilings and 122 continuously, the member that need not be used to connect thus and a plurality of man-hour.In tradition second instance of coil, the parts that need not be used to connect and man-hour number, yet, in the situation of traditional second instance, need recoil, this coil that causes being accomplished has the part of recoil and this requires the recoil process.According to reactor winding of present embodiment and forming method thereof; As in the situation of (rectangle coiling) common reactor winding of reeling; Only require to carry out bending with 90 degree roughly, and the coil of being accomplished do not have the recoil part, it is unnecessary to make that thus the recoil process becomes.Promptly; Term " recoil " refer to as in the second traditional situation with about 180 degree rectangular wire that integrally curls, and term " bending " refers to as such in the situation of (rectangle coilings) common reactor winding of reeling and spends curling rectangular wire with about 90.In other words; In tradition second instance of coil, the joining part of the rectangular wire between coil part connected to one another is folded in half along the Width with the longitudinal direction quadrature of rectangular wire, yet; According to present embodiment; Along the direction opposite with the coiling direction of first coil part, from the displacing part of first coil part, 121 to second coil parts 122, rectangular wire 170 is bent about 90 degree.That is, the thickness direction from the displacing part of first coil part, 121 to second coil parts 122 along rectangular wire 170 of rectangular wire 170 is bent about 90 degree.
Like this, the reactor winding of present embodiment and the method that is used to form this reactor winding are characterised in that the mode that between two coil parts 121 and 122, connects.In tradition first instance of coil, be necessary to provide member and zone, for example be communicated with terminal and as the welding portion of the winding of coil part, they only are used between two coil parts, connect.And, in second conventional example of coil, being necessary the zone that is provided for recoiling, this zone only is used between two coil parts, connecting, and not as the winding part.Unlike first and second conventional example; Reactor and the method that is used to form coil according to present embodiment; As shown in Figure 3, thus in fact the winding part of first coil part 121 is bent the winding part that 90 degree are coupled to second coil part 122, and therefore; Need not to prepare only to be used to any member or the zone that connect, this can provide the epoch-making loop construction of not wasting.In other words, except sweep, all parts of rectangular wire 170 are all as the part of first coil part 121 or the part of second coil part 122 (as the part as the coil that produces inductance).
As stated; This embodiment and coil of the present invention are with the method feature that forms coil; Only do not use unnecessary portions for example to be used to terminal that welds or the fold back portion that is used to connect, just might realize two connections between the coil part through crooked rectangular wire 170 directly.Therefore, unlike first conventional example, comprising that the end on the connection side that is communicated with terminal is not projected into the outside from the profile that the end surfaces by two coil parts forms, this does not cause the occupied space of coil to increase.In addition, unlike tradition second instance of coil, the fold back portion that need not be used to connect, and therefore,, do not exist in member outstanding on the end surfaces of two coil parts etc. as clearly visible from Fig. 3.As a result, when with the contrast of tradition second instance of coil, because fold back portion; The space that is occupied by coil is reduced, and therefore, when coil is housed inside in the above-mentioned heat conduction shell; Especially, can make shell have little size, and reactor integral body can be miniaturized.
In addition, unlike tradition first instance of coil, in the present embodiment, do not having problems aspect the reliability of welding portion.Unlike tradition second instance of coil, the possibility that does not exist electrology characteristic to change according to the coil that how to turn back.Correspondingly, can form coil with high reliability and stable electrology characteristic.In addition, there is very big advantage, that is, need and be communicated with and welds the process of perhaps coil being turned back between the terminal, simplify manufacturing work thus at two coil parts.
Connect down, be described in detail with reference to the attached drawings the coil of the second embodiment of the present invention.Fig. 7 is the perspective view of the reactor winding 12 of the second embodiment of the present invention.As shown in Figure 7; As in the situation of first embodiment; The reactor winding of second embodiment comprises first coil part 121 and second coil part 122, its each all through by the mode that becomes rectangles and cylindricality ground to pile up one section rectangular wire 170 being carried out vertically forming with the rectangle coiling with the rectangular wire 170 of wherein being reeled.First coil part 121 and second coil part 122 are so formed, thereby thereby parallel in a continuous manner and its coiling direction is opposite each other.Reactor winding 12 is characterised in that; Among the coiling termination end points 121E of first coil part 121 that forms being used rectangular wire 170 to carry out vertical the coiling by the mode that becomes rectangle and cylindricality ground to pile up with rectangle with the rectangular wire 170 of wherein being reeled; Rectangular wire 170 is bent roughly 90 degree along the direction opposite with the coiling direction of first coil part 121; Thereby rectangular wire 170 is piled up along the direction opposite with the stacking direction of first coil part (among Fig. 7 shown in the arrow B) (among Fig. 7 shown in the arrow A); And carried out vertical along the direction opposite and the rectangle coiling with the coiling direction of first coil part 121, and, the result; In the coiling termination end points of second coil part 122, first coil part 121 and second coil part 122 are arranged parallel to each other in a continuous manner.
Therefore; The reactor winding 12 of second embodiment is coils that the duplex of so formation connects; Promptly; After the rectangle that is used to form first coil part 121 reel to finish, feeding in advance had in order to reeling forming the rectangular wire 170 of the required length of second coil part 122, and on first coil part, 121 non-existent sides, uses wire rod to carry out rectangle and reel to form second coil part 122.The result; What worry is, the accumulation of the wire rod feeding error that when forming each side during the rectangle winding process that is being used to form second coil part 122, produces occurs as the variable in distance between the axle core of the axle core of first coil part 121 and second coil part 122.As stated; Two straight line portioies of looping reactor core 9 are inserted in first coil part 121 and second coil part 122; And therefore, between the axle core of axle core and second coil part 122 of first coil part 121 apart from aspect, need high dimensional accuracy.According to second embodiment; In order to offset the accumulation of wire rod feeding error, on second coil part 122 that exists near the joining part between first coil part 121 and second coil part 122, reel as the Offset portion 123 enterprising line displacement of excess length part.
Because reel through skew; The accumulation of the wire rod feeding error that when forming each side during the winding process that is being used to form second coil part 122, produces can be cancelled; Might arrange first coil part 121 and second coil part 122 in pin-point accuracy ground, and two line parts of the reactor core 9 of formation general toroidal can insert reliably in each of first and second coil parts 121 and 122.In addition; Need not be used for the welding that coil part 121 and 122 is connect each other and be used for turning back what first and second coil parts 121 and 122 were aimed in parallel with each other; And the coil that therefore, can obtain to have unconverted characteristic and high reliability is provided.In addition, do not need the welding job and/or the work of turning back, simplify manufacture process thus.
Fig. 8,9 and 10 is figure that the method that is used to form reactor winding 12 is shown.In the method that forms reactor winding 12, to shown in 10 (i), reel through using winding head 100 that forms first coil part 121 and the winding head 200 that forms second coil part 122 like Fig. 8 (a).In winding head 100 and the winding head 200 each includes two pulley-like tip member that the mode that faces with each other with predetermined distance is provided with.
At first, shown in Fig. 8 (a), the rectangular wire 170 that is used as wire rod is fed to precalculated position (first process of feeding rectangular wire).Promptly; As the operating winding that is used to form first coil part 121 and second coil part 122, prepare sufficiently long rectangular wire 170, and rectangular wire 170 is fed into winding head 100 sides from winding head 200 sides then; Promptly; Direction shown in the arrow A in Fig. 8 (a), so that rectangular wire 170 pulled through winding head 100 setting the position of rectangular wire 170, thereby the top 170f of rectangular wire 170 is outstanding from the winding head 100 with predetermined length.Form rectangular wire 170 through utilizing coating to cover so-called rectangular conductor.In addition, like what describe after a while, the top 170f of rectangular wire 170 constitutes the end 121a of first coil part 121.
Then, shown in Fig. 8 (b), reel to form first coil part 121 (winding process of first coil part) through using winding head 100.In this case, reel continuously to form first coil part 121 until reaching the predetermined number of windings.Towards centering on second coil part, 122 coiling rectangular wires 170 by the direction shown in the arrow B among Fig. 8 (b).Shown in Fig. 8 (b) and after a while other accompanying drawing, first coil part 121 is formed along having the size of regulation with the direction (along the above-below direction of accompanying drawing paper) of accompanying drawing paper quadrature.
After forming first coil part 121, shown in Fig. 8 (c), feeding rectangular wire 170 (the second feeding process of rectangular wire) once more.That is the top 170f of direction feeding rectangular wire 170 shown in the arrow C in Fig. 8 (c).At this moment, in order to guarantee the interval between first coil part 121 and second coil part 122, with predetermined coil spacing length T feeding rectangular wire 170 excessively, shown in the Fig. 8 (d) that describes after a while.
Shown in Fig. 8 (d), form (bending) whole first coil part 121 with 90 degree.That is, forming (bending) rectangular wires 170, the first coil parts 121 through direction shown in the arrow D in Fig. 8 (d) with 90 degree is set to and takes predetermined attitude.In this case, at rectangular wire 170 with the coil spacing length T from the outstanding position of winding head 100, through using winding head 100 with rectangular wire 170 crooked 90 degree.That is, spend crooked rectangular wire 170 with the position of the coil spacing length T displacement of regulation with 90 at rectangular wire 170, form whole first coil part 121 through using winding head 100.
Then, shown in Fig. 9 (e), rectangular wire 170 is by further feeding (the 3rd feeding process of rectangular wire).Direction shown in the arrow E of the top 170f of rectangular wire 170 in Fig. 9 (e) is by further feeding.This process is a big characteristic of method that forms the reactor winding 12 of this embodiment; And; In order to guarantee to be used to reel to form the length of second coil part, 122 needed wire rods, rectangular wire 170 is fed until first coil part 121 and rectangular wire 170 outstanding above quite long length from winding head 100.In addition, according to this embodiment, by after its source of supply is released enough length, rectangular wire 170 is cut at rectangular wire 170, and the terminal 170b of the rectangular wire 170 that forms through cutting process constitutes the top 122a of second coil part 122.
Next, shown in Fig. 9 (f), reel to form second coil part 122 (being used to form the winding process of second coil part) through using winding head 200.At this moment, shown in Fig. 9 (f),, reel to form second coil part 122 through using winding head 200 along the direction coiling rectangular wire 170 opposite with first coil part 121.That is, with 90 degree coiling rectangular wires 170, begin to reel to form second coil part 122 through direction shown in the arrow F in Fig. 9 (f).Correspondingly, the coiling that is used to form second coil part 122 from the part of winding head 100 releases through the part that between the winding head 200 of rectangular wire 170 and winding head 100, exists and the quilt shown in Fig. 9 (e) that uses as Fig. 9 (f) shown in.
Therefore; Shown in Fig. 9 (e) and 9 (f); After completion is used to form the coiling of first coil part 121; Rectangular wire 170 feedings are used for reeling forming second coil part, 122 needed length, and rectangular wire 170 is reeled to be used to form the coiling of second coil part 122 along rightabout once more then.This method that forms reactor winding is a big characteristic of present embodiment.Like this, shown in Fig. 9 (g), because in order to form the coiling of second coil part 122, first coil part 121 is moved to winding head 200 sides, that is, and and direction shown in the arrow G in Fig. 9 (g).This means that coil part 121 and 122 beginnings are close to each other.
Then; Shown in Figure 10 (f); When the coiling that is used to form second coil part proceed and first coil part 121 and second coil part 122 further when close to each other, for example, when accomplish reel before; When winding is set in the have 2 times state of (twice coiling), utilize distance between sensor measurement first and second coil parts 121 and 122 and the data that record to be stored in the memory of control section.Distance between two coil parts 121 and 122 can be the limited distance between two coil parts 121 and 122; Shown in Figure 10 (h), for example comprise distance between the axle core of the axle core of the distance L 1 between the center of a side 122h of the center of a side 121h of first coil part 121 that faces with each other and second coil part 122, first coil part 121 and second coil part 122 etc.In addition, as the transducer that in above measurement, uses, can use any transducer; As long as it can measuring distance, comprise existing sensors, for example optical pickocff, mechanical pick-up device etc.; And; Further, after vision measurement, the numerical value that records can be input in the control section of up-coiler etc.
Then; Based on the distance that records between two coil parts 121 and 122; Calculate side-play amount F; Thereby the distance L 1 between the axle core W2 of the axle core W1 of first coil part 121 of the reactor winding 12 with the final structure shown in its Figure 10 (i) and second coil part 122 becomes the predetermined length with wire rod amount of feeding feeding rectangular wire 170, obtains the said wire rod amount of feeding through the wire rod amount of feeding that adds to the side-play amount that calculates common.Therefore, have predetermined length through the distance L 1 between the axle core W2 of axle core W1 and second coil part 122 of first coil part 121 is set for, making two straight line portioies with the reactor core 9 of general toroidal insert becomes possibility.The coiling that is used to form second coil part 122 is proceeded until because further coiling quadrant (90 degree), and the state shown in its Figure 10 (h) is changed the state shown in the Figure 10 (f) into it.Can calculate side-play amount F from equality (1):
F=(L1-a)/2+(b+r)…(1)
Wherein " L1 " refers to the distance between a side 122h of the side 121h of first coil part 121 that faces with each other and second coil part 122 in the memory of the control section that is stored in up-coiler; " a " refers to the length (distance between the center of rectangular wire 170) of a side 121h of first coil part 121 in the memory of the control section that is stored in up-coiler in advance; " b " refers to the width of rectangular wire 170, and " r " refers to the diameter of winding head 200.In addition, shown in Figure 10 (h), first coil part 121 separate with winding head 100 and the arrow H in Figure 10 (h) shown in direction near until second coil part 122.Therefore, thus the mechanism that expectation provides a kind of lifting first coil part 121 first coil parts 121 and winding head 100 upwards to separate.
Then; Shown in Figure 10 (i); Through with common wire rod amount of feeding feeding rectangular wire 170 and the coiling that is used to form second coil part 122 until because further coiling quadrant (90 degree), the state shown in its Figure 10 (i) is changed to the state shown in Figure 10 (j), has accomplished the formation of second coil part 122; And the operating winding that is used to form two coil parts 121 and 122 is accomplished, and therefore causes forming the reactor winding 12 of this embodiment.On second coil part, 122 sides that exist near the joining part between first coil part 121 and second coil part 122, reel as the Offset portion 123 enterprising line displacement of excess length part; And therefore, the accumulation of wire rod feeding error can be cancelled.In addition; Aspect the wire rod feeding accumulation of error; Though can obtain optimum efficiency in the Offset portion desired on second coil part, 122 sides that exist near the joining part between first coil part 121 and second coil part 122; The part of reeling that wherein squints is not limited to top, and can select any part to form first coil part 121 or second coil part 122.
In addition; Accomplished therein in the state of coiling, the end 122a (the end 170b of rectangular wire 170) of the end 121a of first coil part 121 (the top 170f of rectangular wire 170) and second coil part 122 aims at the extension mode along the equidirectional shown in Figure 10 (i).Requirement will be separated with winding head 220 by the reactor winding 12 that two coil parts 121 and 122 constitute, and therefore, and expectation provides a kind of mechanism that two coil parts 121 and 122 are upwards separated with winding head 200.
According to above formation method, as shown in Figure 7, can obtain to eliminate the accumulation of wire rod feeding error and the reactor winding 12 that does not have fold back portion.Promptly; In the method for the reactor winding that is used to form this embodiment 12; Formed coil part 121 and 122 each attitude are in the state shown in Figure 7; And therefore, two straight line portioies of the reactor core 9 of general toroidal can insert in coil part 121 and 122, allow to save two coil parts 121 of welding (connection) and 122 the process and the process of turning back thus.
Therefore, this formation method is characterised in that and makes it possible to two coil parts 121 and 122 are carried out the bind mode that pin-point accuracy is arranged.In tradition first instance of coil, need as the coil winding part only be used to the member or the zone that connect for example be communicated with terminal and/or welding portion.And, in second conventional example of coil, need and be not used in coil coiling only be used to the zone that connects, for example fold back portion.Unlike conventional example; The reactor winding of this embodiment be used to form in the method for reactor winding; As shown in Figure 7, in fact the winding part of first coil part 121 is bent 90 degree being attached to the winding part of second coil part 122, and therefore; Need not to prepare only to be used to any member or the zone that connect, this can provide the epoch-making loop construction of not wasting.In other words, except sweep, all parts of rectangular wire 170 are all as the part of first coil part 121 or the part of second coil part 122 (as the part as the coil that produces inductance).
Obviously, the invention is not restricted to above embodiment, but under the situation that does not depart from scope of the present invention and spirit, can change and revise.
Industrial usability
The present invention can not only be applied to the coil of reactor widely; But also be used for the coil of the electronic unit of other electronics such as transformer etc.; As long as form said coil through using the vertical ground of rectangular wire in one way and becoming rectangular area to reel to form coil part at least; In said mode, the rectangular wire of being reeled is stacked and coil part is arranged parallel to each other and the coiling direction of coil part is opposite each other.

Claims (4)

1. coil, this coil has first coil part and second coil part at least, forms said first coil part through as follows rectangular wire being carried out vertical the coiling with rectangle, and the rectangular wire of promptly being reeled piles up with being become rectangle and cylindricality; And; Coiling termination end points place at said first coil part; To pile up the mode of said rectangular wire along the direction opposite with the stacking direction of said first coil part; Carry out vertical to said rectangular wire and the rectangle coiling along the direction opposite with the stacking direction of said first coil part; Form said second coil part, it is characterized in that, through use the said rectangular wire coiling that squints based on a side-play amount; And be formed parallel to each other said first coil part and second coil part in a continuous manner at the coiling destination node place of said second coil part, concern in the position between said second coil part of measurement and said first coil part during the winding process before through coiling termination to obtain above-mentioned side-play amount at said second coil part.
2. coil formation method; This method is used to form said coil; And be used to use first winding head and separate second winding head that predetermined space installs and form first coil part and second coil part from one section rectangular wire with said first winding head; Construct said coil through as follows said one section rectangular wire being carried out vertical the coiling with rectangle, the rectangular wire of promptly being reeled is become rectangle and cylindricality ground to pile up, and; At least the first coil part and second coil part in continuous state, be arranged parallel to each other and the coiling direction of said rectangular wire opposite each other, said method comprises:
The first rectangular wire feeding process; Preparation has reels to form the rectangular wire of the required length of said first coil part and second coil part; And from the said second winding head side to the said rectangular wire of the said first winding head side feeding; Said rectangular wire being placed said first winding head, and the end of said rectangular wire is set at the state that goes out around head process from the said first volume with predetermined length;
The first coil part winding process through using the said first winding head said rectangular wire of reeling, reaches the regulation numerical value that is used to form said first coil part until the number of windings of said first coil part;
The second rectangular wire feeding process, again from the said second winding head side to the said rectangular wire of the said first winding head side feeding, form said first coil part at an end place of said rectangular wire;
The first coil part forming process, crooked through making whole first coil part, and said first coil part is set at the state with regulation attitude;
The 3rd rectangular wire feeding process further is fed into the said first winding head side from the said second winding head side with said rectangular wire, to guarantee to be used for the winding part of said second coil part; With
The second coil part winding process; The said rectangular wire of reeling; Until reaching predetermined value through the number of windings of using said second coil part of said second winding head; And concerning and calculating side-play amount through measuring position between said second coil part and said first coil part during the winding process, and reeling through squinting and to form said second coil part based on the side-play amount that is obtained.
3. according to the coil formation method of claim 2, wherein, in the said second rectangular wire feeding process, said rectangular wire is with the feeding excessively of coil spacing length quilt, so that guarantee the interval between said coil part and said second coil part.
4. according to the coil formation method of claim 2 or claim 3; Wherein, In the said second coil part winding process, obtain said side-play amount, be the length of regulation with the distance between the axle core of axle core and said second coil part of guaranteeing said first coil part.
CN2007800171130A 2006-05-11 2007-05-11 Coil and coil shaping method CN101443860B (en)

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