CN1299301C - Coil device and manufacture thereof - Google Patents

Abstract

To facilitate winding for a core, and enable automation by a method, wherein the core is constituted by core pieces facing each other across a magnetic gap, and insulation layers in which a clearance capable of passing a coil conductor is left behind in the magnetic gap, coating the surface of the core pieces. A core 4 is constituted by C-shaped core pieces facing each other across a magnetic gap 41a and having a pair of end faces, and insulation layers, in which a clearance capable of passing a coil conductor is left behind in the magnetic gap 41a, coating the surface of the core pieces. Furthermore, a magnetic or nonmagnetic spacer 6 is mounted into the gap of the core 4. Furthermore, a through direction of the magnetic gap 41a in a section perpendicular to the central axis of the core piece is inclined to the radial direction of the core piece. Furthermore, as a coil conductor, not only a conductor having a circular sectional shape but also a rectangular conductor or a trapezoid conductor, of which a lower bottom comes into contact with a core surface, is adopted.

Description

Coil device and manufacture method thereof

Technical field

The present invention relates to coil device and manufacture method thereof in a kind of rectification circuit, squelch-circuit and resonant circuit etc. that are equipped in the various interchange instruments.

Background technology

Existing choke device as shown in figure 17, it is package coil 8 and constitute on the iron core 7 of ring-type, unshakable in one's determination 7 as shown in figure 18, is by having C shaped iron core sheet 71 that width is the magnetic slit portion of G, accommodating upper half-shell 72 and the housing lower half 73 that the synthetic resin of lamination 71 makes and constitute.Coil 8 is inserted the leading section 81a of lead 81 to unshakable in one's determination 7 centre bore 70 and with the lead 81 regulation number of turns of reeling and is made shown in Figure 19 (a) and (b), (c) around unshakable in one's determination 7.Among Figure 17, coil 8 has leading part 83,84.

In above-mentioned choke device, can realize electric insulation between lamination 71 and the coil 8 by upper half-shell 72 and housing lower half 73.In addition, short circuit each other in order to go up around preventing to be wound on unshakable in one's determination 7, lead 81 is coated by insulating resin.

But, in the manufacture method of above-mentioned choke device, for lead 81 fitly being wound on unshakable in one's determination 7, will prolonging the length of the leading section 81a that inserts the lead 81 in centre bore 70 as much as possible, and will under maintaining lead 81 near the state of straight line, carry out winding operation.

, insert to the length of the leading section 81a of the lead 81 of unshakable in one's determination 7 centre bore 70 longly more, then the operator just must move according to the length of coiling, has the problem of operating difficulties.Be folded into and shortly can improve operability though will insert lead 81 in unshakable in one's determination 7 centre bore 70, because bending lead 81 and produce folding line on lead 81, lead 81 is difficult to wind the line afterwards.In addition, owing to the winding operation shown in Figure 19 (a) and (b), (c) is difficult to realize automation, must depend on manual operations, so also there is the low problem of productivity ratio.

Summary of the invention

The purpose of this invention is to provide a kind of winding operation to iron core is easy, can realize the novel structure of automation coil device and manufacture method thereof.

The invention provides a kind of coil device, comprise toroidal core or C shaped iron core with magnetic slit portion, with be wrapped in this iron core around on coil, it is characterized in that, the a pair of end face of the subtend of the magnetic slit portion of clamping iron core is parallel to each other, with the sectional plane of the central axis quadrature of iron core on, the perforation direction of this magnetic slit portion is with respect to the radial skew of iron core.

According to the present invention, a kind of coil device also is provided, comprise toroidal core or C shaped iron core with magnetic slit portion, with be wrapped in this iron core around on coil, it is characterized in that, the a pair of end face of the subtend of the magnetic slit portion of clamping iron core is parallel to each other, with the sectional plane of the central axis quadrature of iron core on, the central axis of the perforation deviation in driction iron core of this magnetic slit portion.

In existing coil device, whole lamination is coated by housing, and iron core is to make the ring-type that does not have joint-cutting, and in coil device of the present invention, because unshakable in one's determination 1 is to make the C font with gap 10, so can winding wire 21 easily is wound on unshakable in one's determination 1 by this gap 10.

Magnetic or nonmagnetic partition 3 can be installed in unshakable in one's determination 1 gap 10.Making under the situation of partition 3 by characteristic and lamination 11 different magnetic materials, in unshakable in one's determination 1, can obtain to synthesize the magnetic characteristic of the magnetic characteristic of the magnetic characteristic of lamination 11 and partition 3.

In the concrete structure of coil device of the present invention, unshakable in one's determination 1 the magnetic slit 11a of portion with the sectional plane of the central axis quadrature of lamination 11 on the perforation direction and the central axis of lamination 11 intersect or depart from the central axis of lamination 11.

The sectional plane of winding wire 21 is shaped as circle, rectangle or goes to the bottom and the tangent platform shape in surface unshakable in one's determination.

In addition, other coil device of the present invention comprise the iron core 4 of ring-type with magnetic slit 41a of portion or C font and be wrapped in this iron core 4 around on coil 5, unshakable in one's determination 4 the magnetic slit 41a of portion with the sectional plane of unshakable in one's determination 4 central axis quadrature on the perforation direction with respect to unshakable in one's determination 4 radial skew.

Unshakable in one's determination 4 central axis is meant the axle with respect to the center of unshakable in one's determination 4 perforations vertically 4 circles of being described unshakable in one's determination or circular arc.

According to coil device of the present invention, by experimental result described later as can be known, to compare with the existing coil device that the central axis of iron core intersects with the perforation direction of magnetic slit portion on the sectional plane of the central axis quadrature of iron core, core losses is little.Therefore, can improve the energy efficiency of the interchange instrument that has adopted this coil device.

In concrete structure, unshakable in one's determination 4 by have the above-mentioned magnetic of the clamping slit 41a of portion and mutually a pair of end face of subtend C shaped iron core sheet 41 and coat can constitute to the insulating barrier on the surface the gap 40 that the above-mentioned magnetic slit 41a of portion passes through except this winding wire on this lamination.

According to this concrete structure,, can easily winding wire 51 be wound on unshakable in one's determination 4 by this gap 40 because iron core 4 is made the C font with gap 40.

Magnetic or nonmagnetic partition 6 can be installed in unshakable in one's determination 4 gap 40.Making under the situation of partition 6 by characteristic and lamination 41 different magnetic materials, in unshakable in one's determination 4, can obtain to synthesize the magnetic characteristic of the magnetic characteristic of the magnetic characteristic of lamination 41 and partition 6.

According to the present invention, a kind of manufacture method of coil device also is provided, be used to make comprise iron core with magnetic slit portion and be wrapped in this iron core around on the coil device of coil, wherein iron core is to be made of the C shaped iron core sheet of a pair of end face of the mutual subtend with the described magnetic of clamping slit portion and the insulating barrier that coats this lamination surface, it is characterized in that, described manufacture method comprises following operation: the lamination production process is produced on the sectional plane with the central axis quadrature of lamination, the perforation direction of described magnetic slit portion is with respect to the lamination of the radial skew of lamination; Insulating barrier forms operation, can form insulating barrier on the surface the gap that described magnetic slit portion passes through except this winding wire on the lamination that is obtained by the lamination production process; The coil winding operation, a part that makes air core coil penetrates in the centre bore unshakable in one's determination by the gap of the iron core that formed operation by insulating barrier and obtain, with air core coil be wrapped in unshakable in one's determination around on.

In above-mentioned manufacture method, be not with Wire-wound iron core around on, but make air core coil 50 respectively with unshakable in one's determination 4 in advance, the gap 40 of a part that makes air core coil 50 afterwards from unshakable in one's determination 4 penetrates unshakable in one's determination 4 the centre bore, with air core coil 50 be installed in unshakable in one's determination 4 around on.Therefore, the coiling operation is more easy.

In addition, when the gap 40 of a part that makes air core coil 50 from unshakable in one's determination 4 penetrates unshakable in one's determination 4 the centre bore, the magnetic slit 41a of portion with the sectional plane of unshakable in one's determination 4 central axis quadrature on the central axis of perforation deviation in driction iron core 4, therefore, a side end face tilts towards the tangential direction of inner peripheral surface unshakable in one's determination in the lamination 41.Therefore, when the gap 40 of a part that makes air core coil 50 from unshakable in one's determination 4 penetrates unshakable in one's determination 4 the centre bore, for making this air core coil penetrate centre bore, the sectional plane of leading section unshakable in one's determination diminishes, make under the situation of its miniaturization as far as possible air core coil 50 being close on unshakable in one's determination 4 the surface, also be not difficult air core coil 50 is wrapped on unshakable in one's determination 4.

Particularly, a side end face is formed under the vertical range of the central axis of lamination 41 and the identical or roughly the same locational situation of the inner peripheral surface radius of lamination 41 in lamination 41, the sectional plane shape minimum of above-mentioned leading section unshakable in one's determination, thereby can make the internal diameter minimum of the air core coil 50 that can be installed on the lamination 41.

Usually, because the big more inductance of gap width of magnetic slit portion is more little, so according to coil device of the present invention, realizing under the inductance situation identical with existing coil device, can set the gap width of the magnetic slit 41a of portion biglyyer, therefore, air core coil 50 more is easily mounted on unshakable in one's determination 4.

In addition, according to above-mentioned manufacture method owing to make air core coil respectively, thus not only can adopt sectional plane be circular lead as winding wire 51, also can adopt sectional plane is rectangle or the lead with surperficial tangent platform shape unshakable in one's determination of going to the bottom.

In the coil device and manufacture method thereof of the invention described above,, then can omit the insulating barrier between lamination and the coil if adopt the lead that coats by insulating barrier to make coil.

According to coil device of the present invention and manufacture method thereof, easy to the winding operation of iron core than prior art, can realize automation.

Description of drawings

Fig. 1 is the stereogram of the choke device of expression the present invention the 1st embodiment.

Fig. 2 is the exploded perspective view of the iron core of this choke device of formation.

Fig. 3 is illustrated in the stereogram that carries out winding operation on this iron core.

Fig. 4 is the process chart when making the winding process automation.

Fig. 5 is the stereogram of other structure example of expression partition installation procedure and partition.

The view of gap width when Fig. 6 has installed the magnetic partition for explanation.

Fig. 7 is the curve chart of the relation of dc bias current and inductance in the characteristic of the different choke device of expression structure.

The curve chart of the relation of dc bias current and inductance in the characteristic that Fig. 8 obtains the characteristic of the characteristic of lamination and magnetic partition after synthetic for expression.

Fig. 9 is the stereogram of the choke device of expression the present invention the 2nd embodiment.

Figure 10 is the exploded perspective view of the iron core of this choke device of formation.

Figure 11 is the vertical view of this iron core.

Figure 12 is the stereogram of air core coil.

Vertical view when Figure 13 is installed in unshakable in one's determination going up for expression with air core coil.

Figure 14 is for being made the example key diagram of coil by the lead on circular cross-section plane.

Figure 15 is for being made the example key diagram of coil by the lead on plane, square-section.

The serve as reasons lead on platform tee section plane of Figure 16 is made the example key diagram of coil.

Figure 17 is the stereogram of the existing choke device of expression.

Figure 18 is the exploded perspective view of the iron core of this choke device of formation.

Figure 19 is the stereogram of winding process in this choke device of expression.

The curve chart of the dc bias current that Figure 20 obtains for the characteristic of 2 different choke devices of the perforation direction of magnetic slit portion relatively and the relation of inductance.

The curve chart of the magnetic flux density that Figure 21 obtains for the characteristic of 2 different choke devices of the perforation direction of magnetic slit portion relatively and the relation of core loss.

Embodiment

Below, with reference to accompanying drawing, the present invention is specifically described according to two examples in the choke device, implementing.

The 1st embodiment

The choke device of the 1st embodiment is coil 2 to be wrapped in shown in Figure 1 have on the C shaped iron core 1 of the magnetic slit 11a of portion that width is G, simultaneously partition 3 is installed among the 11a of portion of magnetic slit and constitutes, extend to same direction at the both ends of coil 2, forms pair of lead wires portion 23,24.

Unshakable in one's determination 1 as shown in Figure 2, constitute by having as the C shaped iron core sheet 11 in the gap 10 of the above-mentioned magnetic slit 11a of portion and accommodating upper half-shell 12 and the housing lower half 13 that the resin of this lamination 11 makes, offer scarce 12a, the 13a that expose in the gap 10 that is used to make lamination 11 on upper half-shell 12 and the housing lower half 13 respectively, its width is consistent with the width G of magnetic slit portion.

In the manufacturing process of above-mentioned choke device, make lamination shown in Figure 2 11, upper half-shell 12 and housing lower half 13 at first respectively.Be assembled into the iron core 1 shown in Fig. 3 (a) afterwards.On this iron core 1, be formed with the corresponding to gap 10 of width G of width and magnetic slit portion.

Then, shown in Fig. 3 (b), (c), (d), the gap 10 of lead 21 from unshakable in one's determination 1 penetrated unshakable in one's determination 1 the centre bore, simultaneously lead 21 is wound on unshakable in one's determination 1 around on.Do not need to resemble the prior art operation that leading section with lead 21 inserts unshakable in one's determination 1 centre bore in this course, but repeating to make lead 21 shown in arrow among the figure, to move to the inside of centre bore by gap 10 from unshakable in one's determination 1 the outside, this operation of going up on every side that is wound on iron core 1 afterwards gets final product.

Therefore, in winding operation, the operator can carry out winding operation in narrower scope, and it was easier to wind the line, thereby can raise the efficiency.

In addition, the iron core 1 with magnetic slit 11a of portion also can be housed in the housing of ring-type by the lamination in ring-type, be made into the iron core of ring-type after, should become the magnetic slit 11a of portion the zone excision method and obtain.

Under the situation that makes above-mentioned winding operation automation, can be shown in Fig. 4 (a) and (b), (c), (d), the leading section 21a that employing will be wound on the lead 21 on the spool 22 is fixed on the surface of iron core 1, by this iron core 1 is rotated as shown in figure, lead 21 is emitted from spool 22, and is wound on unshakable in one's determination 1 last this operation on every side.Like this,, can increase substantially the productivity ratio of choke device, can realize the homogenizing of finished product simultaneously and improve quality by making the winding operation automation.

By above-mentioned winding operation, then shown in Fig. 5 (a), coil 2 surrounds 1 ground package unshakable in one's determination thereon.At last, partition 3 is embedded in the gap 10 of iron core 1, be fixed with bonding agent.At partition 3 is under the situation about being made by conductive material, after partition 3 is fixed, pastes insulating tape or coating coatings on the surface of partition 3.Thereby finish the manufacturing of choke device shown in Figure 1.

Partition 3 can be made by nonmagnetic substance or magnetic material, as nonmagnetic substance, can adopt pottery, aluminium, stainless steel etc.In addition, as magnetic material, can adopt the different material of material and lamination 11 or material is identical and ferrite that magnetic characteristic is different, silicone steel plate etc. for example, can adopt the iron core 31 of the lamination structure shown in Fig. 5 (b) or the iron core 32 of the molding structure shown in Fig. 5 (c).

Under the situation that nonmagnetic partition 3 has been installed, the gap width of left and right sides choke equipment energy characteristic is consistent with the gap width G that makes lamination 11, and it is irrelevant with the material of partition 3, but magnetic partition 3 has been installed, for example under unshakable in one's determination 31 the situation, the gap width G of choke device becomes the width G 1 in 2 slits that formed by the non magnetic bonding agent 33,34 that is filled in 31 both sides unshakable in one's determination and the aggregate value (G1+G2) of G2 then as shown in Figure 6.

Fig. 7 expresses the relation of dc bias current and inductance in the different choke device of structure.Characteristic C with choke device of the certain gap width G and the number of turns is divided into operating stably zone A and unstable operating space B.At this, if reduce gap width G or increase the number of turns, characteristic C then converts the characteristic C shown in the double dot dash line to, if increase gap width G or reduce the number of turns, characteristic C then converts the C of characteristic shown in the single-point line to ".

In addition, installed in unshakable in one's determination 1 gap 10 under the situation of the partition of being made by the magnetic material different with lamination 11 3, inductance characteristic then becomes the characteristic C2 of the characteristic C1 of lamination shown in Figure 8 11 and the magnetic partition 3 characteristic C0 after synthetic.At this, owing to operating stably zone A2 in the characteristic of operating stably zone A1 and unstable operating space B1, partition 3 in the characteristic of lamination 11 is different with the angle of inclination of unstable operating space B2, so in composite character C0, then form the regional and unstable operating space of the operating stably with its middle angle of inclination.

Therefore, the characteristic that can adjust the choke device by the material or the size of suitable selection magnetic partition 3.

The 2nd embodiment

The choke device of the 2nd embodiment is coil 5 to be wrapped in shown in Figure 9 have on the C shaped iron core 4 of the magnetic slit 41a of portion that width is G, simultaneously partition 6 is installed among the 41a of portion of magnetic slit and constitutes, extend to same direction at the both ends of coil 5, forms pair of lead wires portion 53,54.

Unshakable in one's determination 4 as shown in figure 10, constitute by having as the C shaped iron core sheet 41 in the gap 40 of the above-mentioned magnetic slit 41a of portion and accommodating upper half-shell 42 and the housing lower half 43 that the resin of this lamination 41 makes, offer breach 42a, 43a that the magnetic slit 41a of portion that is used to make lamination 41 exposes on upper half-shell 42 and the housing lower half 43 respectively, its width is consistent with the width G of magnetic slit portion.

But, the magnetic slit 11a of portion of the choke device among the 1st embodiment connects with the direction that central axis unshakable in one's determination intersects in the sectional plane upper edge with central axis quadrature unshakable in one's determination, the magnetic slit 41a of portion of iron core 4 in the present embodiment then as shown in figure 11, with the sectional plane (X-Y plane) of unshakable in one's determination 4 central axis Z quadrature on, its perforation direction is the radial skew with respect to unshakable in one's determination 4, and departs from unshakable in one's determination 4 central axis Z.

That is, in X-Y-Z coordinate system shown in Figure 11, above-mentioned perforation direction and the positive intersecting and merging of X-axis of unshakable in one's determination 4 the magnetic slit 41a of portion depart from Y-axis and Z axle.At this, though can with relative with the magnetic slit 41a of portion to a pair of end face of lamination in depart from the Z axle away from the end face T of Z axle amount set for greater than 0 and be not more than the radius of inner peripheral surface unshakable in one's determination, preferably set for bigger as much as possible.When this bias is set maximum for, promptly set the distance identical with the radius of inner peripheral surface unshakable in one's determination for when last, an above-mentioned side's end face T is tangent at some Q and inner peripheral surface unshakable in one's determination that X-axis and inner peripheral surface unshakable in one's determination intersect.

In addition, be that the magnetic slit 41a of portion becomes the structure identical with the 1st embodiment by the some R that Y-axis and inner peripheral surface intersect under 0 the situation in the bias of the magnetic slit 41a of portion.

In the manufacture method of above-mentioned choke device, when making iron core shown in Figure 11 4 and this iron core 4 make air core coil shown in Figure 12 50 respectively.This air core coil 50 be installed in iron core shown in Figure 94 around, become coil 5, and have the centre bore that is a bit larger tham along the sectional plane shape of unshakable in one's determination 4 radius, and be wound with the number of turns of regulation.

Air core coil 50 is not limited in square tube shape coil shown in Figure 12, also can be made into coil cylindraceous.In this case, unshakable in one's determination 4 the magnetic slit 41a of portion will make suitable width.

Then, shown in Figure 13 (a), with the part of air core coil 50 from unshakable in one's determination 4 centre bore is inserted in unshakable in one's determination 4 gap 40, with air core coil 50 be installed in unshakable in one's determination 4 around on.At this moment, in the iron core 4 shown in Figure 11 between a side end face T and the surface unshakable in one's determination distance W along X-direction slightly littler than the width H of the centre bore of air core coil shown in Figure 12 50, before the some Q of front end by iron core 4 of air core coil 50, sustainable front end with unshakable in one's determination 4 inserts in the centre bore of air core coil 50, and air core coil 50 is pushed away before Y direction.

Like this, when pushing away before further with air core coil 50, this air core coil 50 will be shown in Figure 13 (b), the circular shape strain along unshakable in one's determination 4, thereby with whole length be installed in unshakable in one's determination 4 around on.Afterwards, partition 6 is installed, is fixed in the gap 40 of iron core 4.In addition, partition 6 can be made by magnetic material or nonmagnetic substance similarly to Example 1.In addition, be under the situation about making at partition 6 by conductive material, implement insulation on the surface with insulating tape or coatings.

At last, shown in Figure 13 (c), the winding department distance of arrangement air core coil 50 forms leading part shown in Figure 9 53,54 again, thereby finishes choke device of the present invention.

Manufacture method according to above-mentioned choke device, because can be after producing air core coil 50 respectively with unshakable in one's determination 4, this air core coil 50 is installed on unshakable in one's determination 4 and makes coil 5,, can make air core coil 50 by coil winding machine simple in structure so winding operation is easier.

Under the situation that makes the winding operation automation, the lead that forms coil 5 is not limited in the sectional plane shown in Figure 14 (a) and (b) and is circular lead 51, also can adopt the sectional plane shown in Figure 15 (a) and (b) is the lead 55 of rectangle, or adopt shown in Figure 16 (a) and (b) go to the bottom and unshakable in one's determination 4 surperficial tangent sectional plane is the lead 56 of platform shape.Like this, not only can improve the sectional plane of unshakable in one's determination 4 centre bore long-pending in the long-pending shared ratio of the whole sectional plane of lead, be the fill-in ratio of lead and make choke equipment miniaturization, lightweight, also can obtain to reduce the good result of loosening capacity between line.

Be the lead 56 of platform shape particularly according to the sectional plane shown in Figure 16 (a) and (b), crooked easily because upper base one side of lead 56 stretches, the side of going to the bottom is shunk in the production process of air core coil 50, so the making of air core coil 50 is simple.

Produce choke device shown in Figure 1 and choke device shown in Figure 9, and compared its characteristic.It the results are shown in Figure 20 and Figure 21.Figure 20 has represented the relation of dc bias current and inductance, and Figure 21 has represented the relation of magnetic flux density and core loss.In these figure, the result of the choke device shown in the A presentation graphs 9, the result of the choke device shown in the B presentation graphs 1.And in arbitrary choke device, size unshakable in one's determination all is that external diameter is that 22mm, internal diameter are 15mm, highly are that 15mm, gap width are 1mm.Core material is an iron powder in addition.

From the result of Figure 20 as can be known, the operating stably zone, promptly the inductance in the low bias current zone is that the choke device shown in Fig. 9 is higher than the choke device shown in Fig. 1.On the other hand, from result shown in Figure 7 as can be known, in the operating stably zone, gap width is big more, and inductance is more little.Therefore, in two choke devices, realize under the situation of identical inductances, make the gap width of choke device of Fig. 9 bigger than the gap width of the choke device of Fig. 1.By in choke device shown in Figure 9, increasing gap width like this, the operation that in the manufacturing process shown in Figure 13 (a) and (b), (c) air core coil 50 is installed on unshakable in one's determination 4 is become easily, the littler air core coil of diameter 50 can be installed.If requiring has high permeability in low bias current zone, then on the basis of keeping the gap width identical, adopt choke device shown in Figure 9 to get final product with choke device shown in Figure 1.

From the result of Figure 21 as can be known, regardless of frequency, the core loss of the choke device of Fig. 9 is littler than the choke device of Fig. 1.Therefore, by adopting the choke device of Fig. 9, can improve the energy efficiency that exchanges instrument.

In addition, in being accommodated in choke device in the housing shown in Figure 180 72,73, lamination shown in Figure 10 41 can obtain Figure 20 and effect shown in Figure 21 too.

Each several part structure of the present invention is not limited in the foregoing description, can carry out various distortion in not breaking away from the subject area of the present invention described in the claim.For example, in the 1st embodiment, epoxies or nylon-type coating (varnish) can be coated on the surface of lamination 11, form insulating barrier, replace upper half-shell 12 and the housing lower half 13 that becomes the insulating barrier between lamination 11 and the coil 2 with this.In addition, in the 2nd embodiment, also lamination shown in Figure 10 41 can be accommodated in the housing shown in Figure 180 72,73 and constitute the choke device.

Claims (13)

1. coil device, comprise toroidal core or C shaped iron core (4) with magnetic slit portion (41a), with be wrapped in this iron core (4) around on coil (5), it is characterized in that, the a pair of end face of the subtend of the magnetic slit portion (41a) of clamping iron core (4) is parallel to each other, with the sectional plane of the central axis quadrature of unshakable in one's determination (4) on, the perforation direction of this magnetic slit portion (41a) is with respect to the radial skew of (4) unshakable in one's determination.

2. coil device according to claim 1 is characterized in that, (4) unshakable in one's determination are made of the C shaped iron core sheet (41) of a pair of end face of the mutual subtend with the described magnetic of clamping slit portion (41a) and the insulating barrier on this lamination of coating (41) surface.

3. coil device according to claim 1, it is characterized in that, unshakable in one's determination (4) by the C shaped iron core sheet (41) of a pair of end face of mutual subtend with the described magnetic of clamping slit portion (41a) and coat on this lamination (41) can be except this winding wire (51) to the insulating barrier formation on the surface the gap (40) that described magnetic slit portion (41a) passes through.

4. according to claim 2 or 3 described coil devices, it is characterized in that described insulating barrier upward forms on the surface except described a pair of end face by coating lamination (41).

5. according to claim 2 or 3 described coil devices, it is characterized in that, away from central axis one side's of lamination (41) end face, be formed at vertical range apart from the central axis of lamination (41) in the described a pair of end face on the position identical with the inner peripheral surface radius of lamination (41).

6. coil device according to claim 3 is characterized in that, in the gap (40) of (4) unshakable in one's determination magnetic or nonmagnetic partition (6) is installed.

7. coil device, comprise toroidal core or C shaped iron core (4) with magnetic slit portion (41a), with be wrapped in this iron core (4) around on coil (5), it is characterized in that, the a pair of end face of the subtend of the magnetic slit portion (41a) of clamping iron core (4) is parallel to each other, with the sectional plane of the central axis quadrature of unshakable in one's determination (4) on, the central axis of the perforation deviation in driction iron core (4) of this magnetic slit portion (41a).

8. coil device according to claim 7 is characterized in that, (4) unshakable in one's determination are made of the C shaped iron core sheet (41) of a pair of end face of the mutual subtend with the described magnetic of clamping slit portion (41a) and the insulating barrier on this lamination of coating (41) surface.

9. coil device according to claim 7, it is characterized in that, unshakable in one's determination (4) by the C shaped iron core sheet (41) of a pair of end face of mutual subtend with the described magnetic of clamping slit portion (41a) and coat on this lamination (41) can be except this winding wire (51) to the insulating barrier formation on the surface the gap (40) that described magnetic slit portion (41a) passes through.

10. according to Claim 8 or 9 described coil devices, it is characterized in that described insulating barrier forms by coating the surface that lamination (41) goes up except described a pair of end face.

11. according to Claim 8 or 9 described coil devices, it is characterized in that, away from central axis one side's of lamination (41) end face, be formed at vertical range apart from the central axis of lamination (41) in the described a pair of end face on the position identical with the inner peripheral surface radius of lamination (41).

12. coil device according to claim 9 is characterized in that, in the gap (40) of (4) unshakable in one's determination magnetic or nonmagnetic partition (6) is installed.

13. the manufacture method of a coil device, be used for making comprise iron core (4) with magnetic slit portion (41a) and be wrapped in this iron core (4) on every side on the coil device of coil (5), (4) wherein unshakable in one's determination are by the C shaped iron core sheet (41) of a pair of end face of the mutual subtend with the described magnetic of clamping slit portion (41a) and coat the insulating barrier formation on this lamination (41) surface, it is characterized in that described manufacture method comprises following operation:

The lamination production process is produced on the sectional plane with the central axis quadrature of lamination (41), the perforation direction of described magnetic slit portion (41a) is with respect to the lamination (41) of the radial skew of lamination (41);

Insulating barrier forms operation, can form insulating barrier on the surface the gap (40) that described magnetic slit portion (41a) passes through except this winding wire (51) on the lamination (41) that is obtained by the lamination production process;

The coil winding operation, a part that makes air core coil (50) penetrates in the centre bore of iron core (4) by the gap (40) of the iron core (4) that formed operation by insulating barrier and obtain, with air core coil (50) be wrapped in iron core (4) around on.

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