CN102891005B - Multi-wire winding method - Google Patents
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- CN102891005B CN102891005B CN201210170198.9A CN201210170198A CN102891005B CN 102891005 B CN102891005 B CN 102891005B CN 201210170198 A CN201210170198 A CN 201210170198A CN 102891005 B CN102891005 B CN 102891005B
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Abstract
The invention provides a multi-wire winding method in which, for example, the normal winding of wires is carries out while a delivery terminal of a delivery member from which the wires are delivered is close to the periphery of a winding core even if the number of the wires is two or more. In the multi-wire winding method, a plurality of wires (12-14), which are delivered side by side with center axes of the wires (12-14) arranged at specified intervals (L) along the axis of a winding core, are wound around the periphery of the winding core, and the plurality of wires can be normally wound around the periphery of the winding core in a manner that for each turn of the plurality of wires wound around the winding core, the new delivered plurality of wires move a specified amount (T) in the axial direction of the winding core. When the distance between the centers of adjacent wires in the axial direction of the winding core reaches an expected value (P) after winding, the specified amount (T) is set by multiplying the number of the plurality of wires and the expected value (P), and the predetermined interval (L) is set by adding a value of natural number times of the specified amount (T) with the expected value (P). Here, the natural number for solving the specified interval (L) is preferably 1.
Description
Technical field
The present invention relates to many wire rods to be neatly wound in many wire-wound line methods of core periphery.
Background technology
In the past, as the technology that the many wire rods of deriving part derivation from wire rod is neatly wound in to the periphery of the volume core pivoting, there is as everyone knows following Winder, this Winder uses the multiple line mouths corresponding with the radical of these many wire rods as deriving part, and by the many wire coils of deriving respectively from these multiple line mouths be around in volume core periphery (for example,, with reference to patent documentation 1).Fig. 5 illustrates the summary of this device.In this Winder, except making to roll up the unit that core 4 rotates, also possess the support 1 that makes to derive part that is the rotation of multiple line mouth, this support 1 is rotated, and the multiple line mouths 2,3 that make to be installed on this support 1 rotate shown in the arrow of Fig. 5 "+" or "-" together with support 1.And, in fact by derive wire rod 6,7 line mouth 2,3 end along with volume core 4 roughly orthogonal direction arrange, and eliminate from these line mouths 2,3 and derive and towards the gap of 6,7, many wire rods of volume core 4, thereby these many wire rods 6,7 are close to mutually.By by from deriving part that is deriving respectively and the many wire rods 6,7 be mutually close to are wound in the volume core 4 being rotated like that as shown by arrows with this state from multiple line mouths 2,3, these many wire rods 6,7 neatly can be wound in thus and roll up core 4 like this.
Patent documentation 1: TOHKEMY 2008-198955 communique (segment number [0006]~[0013], Figure 10)
At this, wire rod 6,7 is directed to the desired location of rolling up core 4 owing to deriving part that is line mouth 2,3, therefore the end of actual line mouth 2,3 of deriving wire rod 6,7 is preferably short as far as possible to the distance M of volume core 4.But, in above-mentioned existing Winder, owing to using the multiple line mouths 2,3 corresponding with the radical of many wire rods 6,7, and derive respectively wire rod 6,7 from these multiple line mouths 2,3, therefore by under the state of the axially-aligned of multiple line mouths 2,3 edge volume cores 4, cannot make the wire rod 6,7 of deriving respectively from these multiple line mouths 2,3 mutually be close in the stage of its derivation.Therefore in above-mentioned existing Winder, support 1 is rotated and by the end of line mouth 2,3 along with volume core 4 roughly orthogonal direction arrange.
But, when by the end of line mouth 2,3 when roughly orthogonal direction is arranged with volume core 4, even a side line mouth 3 is formed as near for example rolling up core 4, and the opposing party's line mouth 2 also must become the state away from volume core 4, the unfavorable condition that therefore exists the end of actual this opposing party's who derives wire rod 6 line mouth 2 to expand to the distance M of volume core 4.In the time that the end of the line mouth 2 from deriving wire rod 6 expands to the distance M of volume core 4, the amount that the wire rod of deriving from this line mouth 2 staggers at Width during arrival volume core 4 also increases like this.So, change with the distance of adjacent wire rod 7, exist the distance that makes to keep consistently between wire rod 7 that this is adjacent and the so-called neat coiling that these wire rods 6,7 are wound in to core 4 to become difficult problem.
Particularly, when the radical of the wire rod of neat coiling is not such two of Fig. 5, and the radical of wire rod is while increasing to for example more than three or three, and the quantity that wire rod is derived part that is line mouth also can proportionally increase with this radical.So for fear of whole line mouth phase mutual interference of these increases, and distance between the line mouth that this need have been increased and volume core further expands.So, the amount staggering at Width during arrival volume core due to the wire rod of deriving from these line mouths also expands, therefore in the time that the radical of wire rod increases, with the quantity of this wire rod having increased proportionally, produce make these many wire rods all neat situations of reeling become more and more difficult trend.
In order to address this problem, although also consider the situation that many wire rods are derived from a line mouth with the state of being mutually close to, but in the time deriving many wire rods from a line mouth, want, in the situation that producing the hope such as gap between these many wire rods, to exist the adjustment in the gap between these wire rods to become difficult problem in existence on the contrary.
Summary of the invention
The object of the present invention is to provide a kind of many wire-wound line methods, even if wire rod is many, also can be so that derive the derivation termination of the derivation part of these many wire rods and closely roll up the state of the periphery of core and neatly reel.
Many wire-wound line methods of the present invention are to make the many wire coils of deriving side by side along the axial interval according to the rules of volume core between the central shaft of wire rod be around in the periphery of volume core, and new many wire rods of deriving, along the mode that moves axially ormal weight of volume core, are around in many wire coils the method for winding of volume core periphery so that many wire rods are often wound in that core one encloses.
It is characterized in that, be formed as between the adjacent wire rod Center-to-Center in axial direction of volume core being wound in core expecting spacing time, utilize the interval of ormal weight and regulation to adjust the spacing of this expection, ormal weight is that the radical of many wire rods is multiplied by the amount after the spacing of expection, and the interval of regulation is the interval as regulation, interval after the value of the natural several times of ormal weight adds the spacing of expection.
And, in these many wire-wound line methods, be preferably, the natural number that solves the interval of regulation is 1, and be preferably, in the situation that deriving many wire rods via derivation part, by making this derivation part deflection, the interval of regulation is finely tuned, wherein deriving part is to be uniformly-spaced arranged side by side in substrate and to be formed by multiple pilot pins.
At this, " neatly reel " and refer in this manual, wire rod is upwards not overlapping but be wound in the coiling of core along the axial arow of volume core in the footpath of volume core, comprising: along the axial adjacent wire rod of volume core be mutually close to and between adjacent wire rod, do not produce the coiling in gap and the coiling in the gap that generation is expected between adjacent wire rod and wire rod the two.
In many wire-wound line methods of the present invention, although the spacing of the expection to being wound in core between the adjacent wire rod Center-to-Center in the axial direction of volume core is adjusted, but because the amount radical of many wire rods being multiplied by after the spacing of expection is made as ormal weight, the value of the natural several times of this ormal weight is added to the interval after the spacing of expection is made as the interval of the axial regulation of the volume core of many wire rods, therefore while coiling under this condition, the wire rod of deriving and being first exported from coiling direction front towards volume core, to carry out nature for several times the volume core of rotation carry out this naturally reel for several times during along rolling up mandrel to the ormal weight that staggers.On the other hand, due to wire rod above, and be that this ormal weight adds the interval after the spacing of expection at the interval between the wire rod of adjacent this wire rod above, therefore at wire coil above around the stage of natural several, ensuing wire rod is directed into and separates the spacing of expection with the position that has been wound natural several of the wire rod before this and adjacent position.Therefore, be further rotated by volume core, ensuing wire rod the wire rod above of having reeled with this separate expection spacing and under adjacent state successively to be uniformly-spaced wound in this volume core.
Therefore,, in many wire-wound line methods of the present invention, even if many wire rods separate the interval of regulation, ensuing wire rod also can separate the spacing of expection and be wound in volume core under adjacent state at the wire rod with respect to above, thereby carries out so-called neat coiling.Reeling irrelevantly with neat like this, owing to can separate the interval of regulation between many wire rods, is for example multiple line mouths even if therefore derive the derivation part of many wire rods, also can not make the plurality of line mouth mutually repeat and makes the end of these line mouths approach volume core.And, by making the derivation end of deriving part approach volume core, can prevent that thus the many wire rods of deriving from this derivation part from staggering at Width during arriving volume core, the interval that does not make this regulation change and by from derive part separate many wire rods that predetermined distance derives side by side with the state direct winfing of its arrangement in volume core.Therefore can many wire rods be neatly wound in to volume core exactly with the spacing of expection.
Brief description of the drawings
Fig. 1 is the front view that the state of many wire-wound lines of embodiment of the present invention is shown.
Fig. 2 illustrates to make with Fig. 1 corresponding front view of this derivation part towards the state of side's deflection.
Fig. 3 illustrates to make with Fig. 1 corresponding front view of this derivation part towards the state of the opposing party's deflection.
Fig. 4 is the front view corresponding with Fig. 1 that the state of other many wire-wound lines is shown.
Fig. 5 is the concept map that the state of existing many wire-wound lines is shown.
Description of reference numerals: 11 ... volume core; 12~14 ... wire rod; T ... ormal weight; P ... the spacing of expection; L ... the interval of regulation.
Embodiment
Then, based on accompanying drawing to describing for implementing best mode of the present invention.
As shown in Figure 1, many wire-wound line methods of the present invention are to make the many wire rods 12~14 of deriving side by side along the axial interval L according to the rules of volume core 11 between the central shaft of wire rod 12~14 be wound in the periphery of this volume core 11, and so that many wire rods 12~14 are often wound in core 11 1 circles and the mode that moves axially ormal weight T of new many wire rods of deriving 12~14 edge volume cores 11, many wire rods 12~14 are neatly wound in to the method for winding of the periphery of volume core 11.
As the volume core 11 in Fig. 1, the situation that uses pin that cross section grows for circle and length or bar-shaped parts is shown.In addition, many wire rods 12~14th, the cross section that never illustrated wire feeder structure is supplied with is circular so-called round line, three wire rods 12~14 that shown in figure, external diameter all equates are neatly wound in the situation of the periphery of volume core 11.In addition, the cross section of volume core 11 is not limited to circle, and cross section can be also square.In addition, wire rod 12~14 is also not limited to the situation of so-called round line, and wire rod 12~14 can be also that cross section becomes square so-called side's line.
Never three wire rods 12~14 that illustrated wire feeder structure is supplied with are exported part 20 and derive side by side along interval L according to the rules between the central shaft that axially makes them of volume cores 11.Derivation part 20 in this execution mode possesses: substrate 21, and it arranges along volume core 11; And three pilot pins 22~24, they make between the central shaft of three pilot pins being axially arranged side by side according to N uniformly-spaced along volume core 11 on this substrate 21.This derivation part 20 is configured to and can moves up at the axle of this volume core 11 along volume core 11, and at three wire rods 12~14, after these three pilot pins 22~24 are exported, these three wire rods 12~14 are configured to and are directed into volume core 11.And the interval N of three pilot pins 22~24 is formed as identical with the interval L specifying, thus, three wire rods of being derived by this derivation part 20 12~14 along volume cores 11 axially according to the rules interval L be exported side by side.
Many wire-wound line methods of the present invention are characterised in that, be formed as between adjacent wire rod 12~14 Center-to-Center in axial direction of volume core 11 being wound in core 11 expecting spacing P time, utilize the interval L of ormal weight T and regulation to adjust the spacing P of this expection.Particularly, the amount after the radical of many wire rods 12~14 is multiplied by the spacing P of this expection is as ormal weight T, and the interval after the value of the natural several times of this ormal weight T adds the spacing P of expection is as the interval L of regulation.; during many wire rods 12~14 are wound in core 11 1 circles; make axially movable amount that is the ormal weight T of many wire rods 12~14 along this volume core 11; and the predetermined distance L of the many wire rods 12~14 of deriving from derivation part 20 on the axial direction of volume core 11; the spacing P that is wound in the expection between the wire rod 12~14 that core 11 is afterwards adjacent by this wire rod 12~14 determines, and utilizes the interval L of this ormal weight T and regulation to make the spacing P of expection uniformly-spaced to change.
The spacing P of the expection between the adjacent wire rod 12~14 shown in Fig. 1 after neat wire rod 12~14 coiling is as the external diameter of wire rod 12~14, and between adjacent wire rod 12~14, do not produce the situation in gap being wound in core 11.It while coiling to so-called volume core 11, is to carry out in the following manner: the periphery that many wire rods 12~14 is derived and are wound in core 11 from deriving part 20, and during these many wire rods 12~14 are wound in core 11 1 circle, make this derivation part 20 move axially ormal weight T along volume cores 11.
And this ormal weight T in the present invention is that the radical of many wire rods 12~14 is multiplied by the amount after the spacing P of this expection.Therefore as this execution mode, use three wire rods 12~14 and the ormal weight T in the situation that producing gap between three wire rods 12~14 not, be the spacing P of expection that is 3 times of wire rod external diameter.
On the other hand, add the interval after the spacing P of expection from deriving the value of the L shaped natural several times that become this ormal weight T in interval of the regulation of the part 20 many wire rods 12~14 of deriving on the axial direction of volume core 11.Shown in Fig. 1, solving this specifies to such an extent that the natural number of interval L is 1 situation., the interval L of the regulation in Fig. 1 is that ormal weight T adds the interval (T+P) after the spacing P of expection.
Like this, when determining the interval L of ormal weight T and regulation, to reel many wire rods 12~14 and make to derive part 20 when arrow A direction moves in figure of volume core 11, first utilization is rolled up the initial once rotation of core 11 and is derived from deriving part 20, and the first wire rod 12 that is positioned at the direct of travel front end of this derivation part 20 is rolled up mandrel to the ormal weight T that only staggers in edge during being wound in these volume core 11 1 circles.
On the other hand, due to the first wire rod 12 of this front end, and interval between ensuing second wire rod 13 of the first wire rod 12 of this front end, that this ormal weight T adds the interval L after the spacing P of expection, therefore be wound as shown in the figure the stage of a circle at the first wire rod 12, the second wire rod 13 postpones the spacing P of expection and is directed into adjacent position from the position of having reeled of this first wire rod 12.Therefore by volume core 11 rotate, this second wire rod 13 stagger expection spacing P and adjacent with this first wire rod 12 of having reeled, and under this state be uniformly-spaced wound in successively volume core 11.
Equally, due to this second wire rod 13 be positioned at the interval L after the spacing P that this ormal weight T adds expection that is spaced apart that derives the 3rd wire rod 14 at the end of the direct of travel of part 20, therefore be wound two circles and the second wire rod 13 and be wound the stage of a circle at the first wire rod 12, utilizing derives part 20 and makes the 3rd wire rod 14 postpone the spacing P of expection and be directed into adjacent position from the position of having reeled of this second wire rod 13.And, by volume core 11 rotate, stagger expection spacing P and adjacent with this second wire rod 13 of having reeled, and with these adjacent states by the 3rd wire rod 14 be wound in volume core 11.At this, because wire rod 12~14 is during being wound in core 11 1 circles, the radical of deriving the amount that moves of part 20 that is ormal weight T and be wire rod 12~14 is multiplied by the amount after the spacing P of expection, therefore adjacent with the second wire rod 13 and be wound under the state of core 11 at the 3rd wire rod 14, be wound in core 11 and adjacent three wire rods 12~14 between this ormal weight T.Therefore, if the spacing P of this expection is the external diameter of wire rod 12~14, can not produce gap being wound between wire rod adjacent under the state of core 11 12~14, obtain thus that many wire rods 12~14 are close to mutually and with neat coil of reeling uniformly-spaced.
Method for winding if so, many wire rods 12~14, with to separate predetermined distance L irrelevant, can neatly be wound in volume core 11 with the spacing P of expection by these many wire rods 12~14.Thus by the diameter of pilot pin 22~24 of derivation part 20 of interval L that separates regulation between many wire rods 12~14 being limited to the external diameter left and right of wire rod 12~14, just can avoid this pilot pin 22~24 to repeat, and make the derivation end of deriving part 20 approach volume core 11.And, in the time that the derivation end of derivation part 20 approaches volume core 11, can prevent that the many wire rods 12~14 of deriving from this derivation part 20 from departing from Width during arriving volume core 11, the interval L that separates this regulation of the many wire rods 12~14 that the interval L of regulation derives side by side from deriving part 20 does not change, but with this state direct winfing side by side in volume core 11.If therefore the spacing P of this expection is the external diameter of wire rod 12~14, can obtain effectively the coil that many wire rods 12~14 are neatly reeled mutually closely.
In addition, as shown in Figure 1, possess between the central shaft of pilot pin along the derivation part 20 of three pilot pins 22~24 that are axially arranged side by side according to the interval N equating with the interval L of regulation of volume core 11, as shown in FIG. 2 and 3, when making substrate 21 as the dotted line arrows when deflection, can make slightly to be changed by the interval L of the regulation in the axial direction of volume core 11 between the many wire rods 12~14 of above-mentioned multiple pilot pins 22~24 guiding together with this pilot pin 22~24.
That is, in the time reeling many wire rods 12~14 to volume core 11 and make new many wire rods of deriving 12~14 edges roll up moving axially of cores 11, the angle θ that new many wire rods 12~14 of deriving tilt to specify with respect to this volume core 11.Therefore as shown in Figure 2,, in the time making substrate 21 and pilot pin 22~24 together towards the direction deflection identical with the inclination of wire rod 12~14, the interval L of the axial regulation of the volume core 11 between many wire rods 12~14 expands gradually.And, with the inclination of many wire rods 12~14 in the same manner, tilted stage of angle θ of regulation deriving part 20, the interval L of this regulation is the interval N of pilot pin 22~24 value after divided by (cos θ), and represents maximum.On the other hand, as shown in Figure 3, in the time making substrate 21 and this pilot pin 22~24 together to the direction deflection contrary with the inclination of wire rod 12~14, the interval L of the regulation between many wire rods 12~14 in axial direction of volume core 11, correspondingly reduces gradually with the deflection angle of derivation part 20.
Therefore, via being disposed with the derivation part 20 of multiple pilot pins 22~24 and deriving many wire rods 12~14 with N uniformly-spaced at substrate 21, as shown in FIG. 2 and 3, by making to derive part 20 deflections, just can not make the derivation end of deriving the wire rod 12~14 in part 20 too away from volume core 11, can slightly carry out change and adjustment to the interval L of regulation.Therefore also consider before coiling or wind the line as required and slightly the interval L of regulation to be carried out the situation of change and adjustment midway, can more accurately many wire rods 12~14 be neatly wound in to volume core 11 with the spacing P of expection.
Fig. 4 illustrates other execution mode of the present invention.In Fig. 4, be illustrated in and derive in the situation that the derivation part 30 of three wire rods 12~14 is made up of three line mouths 31~33 of deriving respectively above-mentioned wire rod 12~14, solve and specify to such an extent that the natural number of interval L is 2 situation.The interval L of regulation is that the value of the natural several times of ormal weight T adds the interval after the spacing P of expection, owing to specifying to such an extent that the natural number of interval L is made as 2 by solving this, therefore the interval L of regulation is that the value of 2 times of ormal weight T adds the interval (2T+P) after the spacing P of expection.
Under this condition, in the time starting the coiling of many wire rods 12~14, when many wire rods 12~14 are often wound in core 11 1 circle, do not make to derive part 30 that is three mutual interval L of line mouth 31~33 and change but move along arrow A direction in figure, and make to move axially ormal weight T from the new many wire rods of deriving 12~14 of these line mouths 31~33 along volume cores 11.So, first derive and be positioned at the first wire rod 12 of the direct of travel front end of this derivation part 30 from First Line mouth 31 by the initial once rotation of volume core 11, during being wound in volume core 11 1 circles along volume mandrel to the ormal weight T that staggers.On the other hand, because the first wire rod 12 of this front end and the interval of the second wire rod 13 that is positioned at the first wire rod 12 ensuing positions value of 2 times that is this ormal weight T adds the interval L after the spacing P of expection, therefore be wound as shown in the figure the stage of two circles at the first wire rod 12, the second wire rod 13 is directed to from the part that is wound two circles of the first wire rod 12 and postpones spacing P separation and adjacent position by the second line mouth 32.And, be directed into the second wire rod 13 of this position, rotate and first wire rod 12 of having reeled with this is adjacent to separate the mode of spacing P of expection by volume core 11, and to be uniformly-spaced wound in this volume core 11.
In addition, because this second wire rod 13 and the value of 2 times that is spaced apart this ormal weight T that is positioned at the 3rd wire rod 14 of deriving the end of the direct of travel of part 30 add the interval L after the spacing P of expection, therefore be wound four circles and the second wire rod 13 and be wound the stage of two circles at the first wire rod 12, the 3rd wire rod 14 is directed to this second wire rod 13 and is wound the position that the part of two circles is adjacent to postpone the spacing P of expection to separate by the 3rd line mouth 33.And, by volume core 11 rotate, the second wire rod 13 that the 3rd wire rod 14 has been reeled with this separate expection spacing P and adjacent, and be wound in volume core 11.At this, owing to be wound in core 11 1 circles at wire rod 12~14 during, the radical of deriving the amount that moves of part 30 that is ormal weight T and be wire rod 12~14 is multiplied by the amount after the spacing P of expection, therefore adjacent with the second wire rod 13 and be wound under the state of core 11 at the 3rd wire rod 14, be wound in three wire rods 12~14 of core 11 between this ormal weight T.Therefore, if the spacing P of this expection is the external diameter of wire rod 12~14, between the adjacent wire rod 12~14 of the part of this coiling, can not produce gap, thereby can obtain the coil that many wire rods 12~14 are neatly reeled mutually closely.
Like this, even specify to such an extent that the natural number of interval L is made as 2 by solving, make many wire rods 12~14 separate predetermined distance L deriving part 30, also the many wire rods of deriving from this derivation part 30 neatly can be wound in to volume core 11 with the spacing P of expection.And, owing to separating predetermined distance L between the many wire rods 12~14 of deriving in part 30, even if therefore deriving part 30 is made up of for example multiple line mouths 31~33, also can make the plurality of line mouth 31~33 mutually not repeat, and make the derivation end of the derivation part 30 being formed by these line mouths 31~33 approach volume core 11.
At this, the radical of wire rod 12~14 is not as shown in the figure three, but increase to for example four, five or more than the six roots of sensation, even if deriving quantity and this radical of part 30 that is line mouth 31~33, wire rod proportionally increases, as long as above-mentioned many wire rods 12~14 along volume cores 11 axially to make between central shaft be the interval L of regulation, can not make whole line mouth phase mutual interference of these increases and these many wire rods 12~14 of neatly reeling reliably.And by the derivation end of deriving in part 30 is approached to volume core 11, can prevent that thus the many wire rods 12~14 of deriving from this derivation part 30 from staggering respectively during arriving volume core 11, do not make this predetermined distance L change and many wire rods 12~14 that the interval L that separates regulation from deriving part 30 is derived side by side with this state direct winfing side by side in volume core 11.
Particularly, derive end and contact with this volume core 11 if be formed as, in when coiling, the wire rod of the derivation part 30 being made up of many line mouths is derived to wire rod that termination closely rolls up core 11 and make to derive part 30, just can be by the many wire rods 12~14 of deriving side by side from this derivation part 30 with this state direct winfing side by side in rolling up core 11.In addition, even if volume core 11 is elongated parts, and this volume core 11 bends etc. because of its length, as long as the wire rod derivation end of deriving part 30 is contacted with volume core 11, utilize this derivation part 30 contacting just can avoid rolling up core 11 by wire rod 12~14 stretchings and to the situation that derives part 30 lateral bends.Therefore according to the present invention, even if volume core 11 is elongated parts, and this volume core 11 is because its length bends etc., also many wire rods 12~14 neatly can be wound in to volume core 11 accurately with the spacing P of expection.
In addition, in the above-described embodiment, Fig. 1 illustrates that the natural number of the axial predetermined distance L of the volume core 11 that solves many wire rods 12~14 is 1 situation, though it is 2 situation that Fig. 4 illustrates the natural number of the interval L that solves this regulation, specify to such an extent that the natural number of interval L is not limited to above-mentioned 1 or 2 situation but solve this, the natural number that solves the interval L of this regulation can be also more than 3 or 4 or 5.In the time that increase solves the natural number of interval L of regulation, can make the interval L of the regulation at the interval that represents many wire rods 12~14 increase gradually like this, thereby can improve the degree of freedom that many wire rods 12~14 is directed to the design of the derivation part of volume core 11.
In addition, in the above-described embodiment, although the description of by many wire rods 12~14 are wound in to core 11 and make to derive part 20, 30 move along arrow A direction, make thus many wire rods 12~14 often be wound in core 11 1 circles and the situation that moves axially ormal weight T of new many wire rods of deriving 12~14 edge volume cores 11, but also can not make to derive part 20, 30 move, but by many wire rods 12~14 being wound in to core 11 and making the moving axially along volume core 11 of this volume core 11 own, make thus many wire rods 12~14 often be wound in core 11 1 circle and the new many wire rods of deriving 12~14 move axially ormal weight T along volume cores 11.
In addition, in the above-described embodiment, although exemplified with the situation of three wire rods of neat coiling, but the radical of wire rod is not limited to this, though not shown, but can be the situation of neat two wire rods of reeling, can be also the situation of four, five of neat coilings, the six roots of sensation, seven, eight, nine or ten above wire rods.
In addition, in the above-described embodiment, although being illustrated in substrate 21, Fig. 1 is provided with the derivation part 20 of three pilot pins 22~24, Fig. 4 shows the derivation part 30 being made up of three line mouths 31~33, but as long as many wire rods being derived side by side with the axial interval L according to the rules along volume core between its central shaft, deriving part and be not limited to above-mentioned structure, can be also other structures.For example, can be also the pulley that is provided with guiding wire rod on substrate.
In addition, in the above-described embodiment, although the description of three wire rods 12~14 that use external diameter all to equate, and using the spacing P of expection as the external diameter of this wire rod 12~14, whole wire rod 12~14 after neatly winding the line is along the axial situation about being wound with gap that do not separate of this volume core 11, but also can use the wire rod of different external diameters, and the spacing P of expection can be also the value that exceedes the external diameter of wire rod 12~14.In the time that the spacing P of expection is made as to the value of the external diameter that exceedes wire rod 12~14, the gap of the corresponding expection of difference of generation and the spacing P of expection and the external diameter of wire rod 12~14 between wire rod 12~14 that can be adjacent after neat coiling and wire rod 12~14.
Claims (3)
1. one kind many wire-wound line methods, to make the many wire rods (12~14) of deriving side by side along the axial interval (L) according to the rules of volume core (11) between the central shaft of wire rod (12~14) be wound in the periphery of described volume core (11), and new many described wire rods (12~14) of deriving are along the mode that moves axially ormal weight (T) of described volume core (11) so that many described wire rods (12~14) are often wound in described volume core (11) one circles, many described wire rods (12~14) are wound in to the method for winding of described volume core (11) periphery, it is characterized in that,
While being formed as the spacing (P) of expection being wound in described volume core (11) between adjacent described wire rod (12~14) Center-to-Center in the axial direction of described volume core (11), utilize the interval (L) of described ormal weight (T) and described regulation to adjust the spacing (P) of described expection
Described ormal weight (T) is that the radical of many described wire rods (12~14) is multiplied by the amount after the spacing (P) of described expection, and the interval (L) of described regulation is that the value of the natural several times of described ormal weight (T) is added to the interval after the spacing (P) of the above expection.
2. many wire-wound line methods according to claim 1, is characterized in that,
The natural number that solves the interval (L) of described regulation is 1.
3. many wire-wound line methods according to claim 1 and 2, is characterized in that,
Derive many described wire rods (12~14) via deriving part (20), and finely tune at the interval (L) to described regulation by making described derivation part (20) deflection, wherein said derivation part (20) is that multiple pilot pins (22~24) are arranged side by side in substrate (21) and are formed with uniformly-spaced (N).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2011-158520 | 2011-07-20 | ||
JP2011158520A JP5858568B2 (en) | 2011-07-20 | 2011-07-20 | Multiple wire winding method |
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CN102891005A CN102891005A (en) | 2013-01-23 |
CN102891005B true CN102891005B (en) | 2014-07-23 |
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CN201210170198.9A Active CN102891005B (en) | 2011-07-20 | 2012-05-28 | Multi-wire winding method |
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CN105742053A (en) * | 2016-04-26 | 2016-07-06 | 江苏雷特电机股份有限公司 | Electromagnetic wire winding device |
CN110034643A (en) * | 2018-01-11 | 2019-07-19 | 奥曼埃斯珀尔坎普有限公司 | Outlet mouthpiece configures system |
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1756048A (en) * | 2004-09-13 | 2006-04-05 | 日特机械工程株式会社 | Wind coiling method and wind coiling device of multipolar armature |
CN1828794A (en) * | 2005-03-03 | 2006-09-06 | 日特机械工程株式会社 | Multilayer coil, winding method of same, and winding apparatus of same |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62114203A (en) * | 1985-11-13 | 1987-05-26 | Goto Denki Seisakusho:Kk | Method and apparatus for detecting winding disorder |
JP2001148320A (en) * | 1999-11-19 | 2001-05-29 | Nidec Potrans Corp | Coil and magnetic circuit component using the same |
JP4497699B2 (en) * | 2000-10-24 | 2010-07-07 | 日特エンジニアリング株式会社 | Winding device |
JP3755488B2 (en) * | 2001-08-09 | 2006-03-15 | 株式会社村田製作所 | Wire wound type chip coil and its characteristic adjusting method |
JP4309801B2 (en) * | 2004-05-06 | 2009-08-05 | Tdk株式会社 | Winding method of coil parts |
JP4866577B2 (en) * | 2005-07-26 | 2012-02-01 | 三工機器株式会社 | Para winding method and para winding apparatus |
JP4873911B2 (en) * | 2005-09-14 | 2012-02-08 | 三工機器株式会社 | Para winding method and para winding apparatus |
JP2007209140A (en) * | 2006-02-02 | 2007-08-16 | Sumitomo Electric Ind Ltd | Coil manufacturing method |
JP2008198955A (en) * | 2007-02-16 | 2008-08-28 | Toyota Motor Corp | Winding method and winding machine |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1756048A (en) * | 2004-09-13 | 2006-04-05 | 日特机械工程株式会社 | Wind coiling method and wind coiling device of multipolar armature |
CN1828794A (en) * | 2005-03-03 | 2006-09-06 | 日特机械工程株式会社 | Multilayer coil, winding method of same, and winding apparatus of same |
Non-Patent Citations (6)
Title |
---|
JP昭62-114203A 1987.05.26 |
JP特开2001-148320A 2001.05.29 |
JP特开2007-209140A 2007.08.16 |
JP特开2007-37272A 2007.02.08 |
JP特开2007-82340A 2007.03.29 |
JP特开2008-198955A 2008.08.28 |
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JP5858568B2 (en) | 2016-02-10 |
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