1. Technical Field
The present invention relates to an inductance element such as a choke coil and to a case that contains the inductance element.
2. Background Art
An inductance element disclosed in JP 08-172019 A or the like has been known as one in which a magnetic ribbon such as an iron base amorphous alloy ribbon is wound around on a core having a hollow part, a lead is passed through the core, and the wound magnetic core is contained in a case.
The inductance element is constructed by a toroidal magnetic core having a magnetic alloy foil strip wound therearound, a case that contains the magnetic core, and a lead which is passed through the magnetic core and the case, and has a structure in which the lead is fixed to a body to be connected which is the surface mounting of a circuit board or the like.
This inductance element thinks of exfoliation prevention from said a body, and a front edge department of an above lead line consists of it to become parallel to the surface of a body.
Also, in the inductance element, it is suitable that a maximum length of a cross section of the lead is 0.8 times to 1.2 times the inner diameter of the magnetic core. In the inductance element, with a state in which the lead is inserted into the toroidal magnetic core, the magnetic core is subjected to heat treatment to produce distortion, thereby fixing the lead to the toroidal magnetic core.
Also, in the above-mentioned publication, it is noted that if a clearance is present between the case and the magnetic core, the magnetic core moves, so that it is necessary to fix the case and the magnetic core using a grease, an adhesive, a resin, or the like.
However, in the above-mentioned conventional technique, consideration is not given to vibration resulting from interaction between a current flowing through the lead and the magnetic core, vibration of the case caused due to the vibration, noises resulting from those vibrations, or the like.
Therefore, in a magnetic wound core around which a magnetic ribbon made of, for example, iron base amorphous metal is wound around on a core, when a current is made to flow through a lead, the magnetic core is excited. Magnetostriction is caused by the excitation, which reliably causes vibration. When the vibration thus caused is in an audio frequency range, there is the case where the vibration is propagated as noise throughout the surrounding area. In addition, when the inductance element is bonded to an object to be bonded such as a circuit board, there is the case where parts in the periphery of the inductance element are vibrated, thereby deteriorating operating characteristics of the object to be bonded.
Thus, consideration has been on the idea of containing the magnetic core in the case to obtain a hermetically sealed structure, thereby cutting off the noise caused in the magnetic core to reduce the outside noise leaked of the case, however, when the inductance element in which the lead is passed through the magnetic core is contained in the case, it is required to provide a manufacturing order in which the case is formed in advance so as to be composed of a plurality of members and the members are combined after the core is contained in the case.
Such bonding of the members is generally conducted by a method using an adhesive, ultrasonic bonding, or the like. Further, the larger the area of a bonding region, the more advantageous the above-mentioned bonding method is, in terms of bonding strengths of the respective members in the bonding.
The area of the bonding region is widened as thicknesses of the members composing the case increase. However, there is a problem in that when the thicknesses of the members are increased, a size of the case is accordingly increased.
The present invention has been made in view of such problems of the conventional techniques. Therefore, an object of the present invention is to, in the inductance element which is provided with the winding type magnetic core and the lead, reduce vibration resulting from a current flowing through the lead or noise leaked to the outside of the element.
Also, another object of the present invention is to, in the inductance element, increase the area of the bonding region of the members composing the case without increasing the size of the case that contains the element.
In order to solve the above-mentioned problem, the following means is employed in the present invention. In other words, according to the present invention, there is provided an inductance element comprising: a magnetic wound core having a hollow part, which is formed by winding a magnetic ribbon therearound; and a lead that has a cross sectional dimension smaller than the inner diameter of the hollow part of the magnetic core and is passed through the hollow part, in which a clearance is provided between the magnetic core and the lead.
By providing the clearance between the winding type magnetic core and the lead, the vibration is not propagated between the magnetic core and the lead, thereby reducing noise.
Also, it is preferable that the inductance element further comprise a case with a hermetically sealed structure that contains the magnetic core and that the lead be passed through the case in a hermetic sealing state. With such a case having the hermetically sealed structure, noise is further reduced.
Also, it is preferable that the case have an accommodation space adaptable to an appearance shape of the winding type magnetic core and a clearance be provided between an inner surface of the accommodation space and an outer surface of the magnetic core. According to the structure, the vibration of the magnetic core is not propagated to the case, thereby reducing noise.
Also, according to the present invention, there is provided an inductance element including: a cylindrical magnetic core having a hollow part; a case for hermetically sealing the magnetic core, which has a cylindrical part composing a hollow part that contains the magnetic core and side wall members made of metal, the side wall members being opposed to side surfaces of both ends of the magnetic core in both ends of the cylindrical part and composing cover parts for the hollow part, and which hermetically seals the magnetic core; and a lead that is passed through the hollow part of the magnetic core both ends of which are connected with the respective side wall members, the side wall members have edge parts extended in an outside direction of the cylindrical part in both the ends of the above-mentioned cylindrical part, the edge parts compose conductive contact parts to an object to be bonded outside of the cylindrical part.
It is preferable that an iron base amorphous alloy ribbon be used as the above-mentioned magnetic ribbon. For the iron base amorphous alloy ribbon, iron base amorphous metals such as Fe—B, Fe—B—C, Fe—B—Si, Fe—Si—C, Fe—B—Si—Cr, Fe—Co—B—Si, or Fe—Ni—Mo—B can be given as an example.
Among the above-mentioned iron base amorphous metals, more preferably, FeXSiYBZMW can be given as an example. Here, X ranges from 50 to 85, Y ranges from 1 to 15, and Z ranges from 5 to 25 (X, Y, and Z respectively indicate atomic %). In addition, M represents one kind of metal such as Co, Mn, C, Al, or P or a combination of two or more kinds of those metals and metal with W=0 to 5 atomic % can be given as an example.
The iron base amorphous metal is a material that causes large magnetostriction at the time of excitation to readily cause vibration is easy to generate, though by adopting the above-mentioned structure, the vibration is not propagated, so that noise can be reduced.
Further, in order to solve the above-mentioned another problem, the following means is employed in the present invention. That is, according to the present invention, there is provided an inductance element including: a cylindrical magnetic core having a hollow part; a case that has a rectangular cross sectional outside shape and contains the magnetic core; and a lead that is passed through the hollow part of the magnetic core and the case, and an above case has a plurality of members and the members are bonded to each other in a surface including at least one ridge line of the case.
Also, according to the present invention, there is provided a case that has a rectangular cross sectional outside shape and contains an element including a cylindrical magnetic core having a hollow part and a lead that is passed through the cylindrical magnetic core, comprising two members bonded to each other in a surface including at least one ridge line of the case.
As described above, when the two members are bonded to each other, the bonding distance of a bonding region can be increased without increasing the dimensions of the case.
Hereinafter, an inductance element and a case according to embodiment modes of the present invention will be described with reference to the drawings.
An inductance element according to a first embodiment mode of the present invention will be described with reference to
The core 1 is manufactured by winding an iron base amorphous magnetic alloy foil strip produced by Allied Signal Inc. USA, one side surface of which is coated with a fine powder of Sb2O5, around on a roller having a diameter of 1.8 mm, and dimensions of the core thus manufactured are 1.8 mm in inner diameter (diameter, same for the following), 8.2 mm in outer diameter (diameter, same for the following), and 15 mm in length.
A wound portion of the core 1 is hardened by spark welding. Then, the core 1 is subjected to heat treatment for 2 hours at a temperature which is equal to or larger than a Curie temperature and equal to or smaller than a crystallization temperature, more specifically, at 435° C.
The lead 2 having a diameter of 1.8 mm is inserted into the hollow part 3 of the core 1 to produce an element L1. In addition, a lead 2 having a diameter of 1.6 mm is inserted into a core 1 which has the same shape as that of the above-mentioned core 1 and is made of the same material as that of the above-mentioned core 1 to produce an element L2. Further, a lead 2 having a diameter of 1.0 mm is inserted into a core 1 which has the same shape as that of the above-mentioned core 1 and is made of the same material as that of the above-mentioned core 1 to produce an element L3.
Therefore, in the element L1, there is no clearance between an inner wall 3A of the hollow part 3 and an outer surface 2A of the lead 2. Further, in the elements L2 and L3, clearances of 0.1 mm and 0.4 mm are respectively created between the inner wall 3A of the hollow part 3 and the outer surface 2A of the lead 2.
A current is supplied to the three kinds of inductance elements under the following measurement condition described in Table 1 below and sound production quantities from the elements are measured by using a microphone.
As is apparent from
An inductance element according to a second embodiment mode of the present invention will be described with reference to FIGS. 3 to 6.
In the above-mentioned first embodiment mode, the noise generation amount characteristic of the inductance element in which the lead 2 has been passed through the core 1 having the hollow part 3 has been described. In this embodiment mode, an inductance element provided with a case 4 that has a hermetically sealed structure and contains the core 1 described in the first embodiment mode will be described. In this embodiment mode, a structure other than the case 4 is the same as that in the first embodiment mode. Accordingly, the same reference symbols are given to the same structural elements and the description thereof is omitted here.
As shown in
The element composed of the core 1 and the lead 2 is inserted into a hollow part 5 of the case 4. Then, the side wall members 9 and the lead 2 are soldered at both end portions of the case 4 to fix the case 4 and the side wall members 9 with an adhesive to manufacture the inductance element according to this embodiment mode.
Here, the side wall members 9 each have a bottom wall that covers the end surface of the case 4, and four side walls 9A to 9D which are bent with respect to the bottom wall and provided perpendicular to the bottom wall. The four side walls 9A to 9D are bonded to the side walls 4A to 4D of the case 4, respectively with an adhesive to hermetically seal the case 4.
Also, the side walls 9A to 9D form conductive contact portions on the side walls 4A to 4D of the case 4. Therefore, the inductance element is constructed which is capable of being mounted through an arbitrary surface of the side walls 4A to 4D.
Note that, in order to facilitate soldering, an opening 9E through which the lead 2 is passed may be provided near the center of the bottom wall of the case 4.
Sectional views of the inductance element are shown in
Further, in the case 4, the opening parts 6 are covered with a pair of side wall members 9 from both sides thereof. Upon the covering, the side wall members 9 and the lead 2 are soldered by solder 10.
Furthermore, the side wall members 9 are bonded to the case 4 with adhesives 11. As a result, the inductance element composed of the core 1 and the lead 2 is hermetically sealed by the case 4 and the side wall members 9.
Note that, in
Also, in
As shown in
As described above, in this embodiment mode, the element is inserted through the opening part 6 of the case 4 having the hollow part 5 to manufacture the inductance element having the hermetically sealed structure. However, the embodiment of the present invention is not limited to such a structure and a procedure.
Also, in the present invention, the case 4 may be composed of parts divided in a cross section parallel to the longitudinal direction. In addition, the case 4 may be composed of a cylindrical part having an opening end in which a side wall is provided perpendicular to a bottom of the case 4 and a cover part that hermetically seals the opening end of the cylindrical part. Further, the parts 4× and 4Y composing the case may be bonded to each other by ultrasonic bonding without using an adhesive. Furthermore, the case 4 may be made of a resin other than PPS or a material other than the resin.
As shown in
In the above-mentioned embodiment mode, the example in which the core 1 and the lead 2 have been hermetically sealed with the side wall members 9 in the surface-mount type inductance element has been described. However, the embodiment of the present invention is not limited to such a structure. For example, even in an inductance element having a structure in which end portions of the case 4 are hermetically sealed with a resin and the lead 2 is passed through the case in a hermetically sealed state, the noise generation amount can be reduced.
In this embodiment mode, two kinds of inductance elements different from each other in the outer diameter of a core 1 will be manufactured without providing the hermetically sealed structure using adhesives 11 in the inductance element shown in
That is, in this embodiment, an inductance element having the core 1 with an outer dimension of 8.2 mm and a length of 15 mm is inserted into the case 4 having an opening part 6 which is 8.2 mm in inner diameter to produce an element L4, and an element L5 which is produced with the outer diameter of the core being 7.6 mm.
In this case, in the element L4, the outer surface of the core 1 is closely in contact with the inner surface of the hollow part 5 of the case 4′. On the other hand, in the element L5, a clearance of 0.3 mm is present between the outer surface of the core 1 and the inner surface of the hollow part 5 of the case 4.
With respect to such two elements, the sound production quantities of the two elements are measured by the same procedure as that in the first embodiment mode.
As shown in
Next, a case according to the present invention will be described. The case according to the present invention is constructed based on the following embodiment mode in addition to the above-mentioned embodiment modes 1 to 3.
In this embodiment mode,
The inductance element is produced according to the following procedure. First, amorphous metal is wound to form the core 1 having the hollow part. Then, the lead 2 is passed through the core 1 to obtain the inductance element.
The case 4 is formed such that its appearance is of a rectangular parallelepiped shape, and has an accommodation space for accommodating the core 1 in an inner portion. As shown in
As a material of the case 4, for example, a synthetic resin such as PPS (polyphenylene sulfide) can be used.
In the case 4, the inductance element through which the lead 2 covers contained in one member 14A, and the other member 14B covers the member 14A. An adhesive is applied in advance onto bonding surfaces of the members 14A and 14B, and the members 14A and 14B are bonded to each other with the adhesive.
As shown in
Therefore, in the comparative example, the bonding surface is formed in a thin portion of the case, so that a bonding distance is short. On the other hand, in the member 14A, a long bonding distance can be ensured, so that an area of the bonding region can be increased.
In the above-mentioned fourth embodiment mode, the members 14A and 14B are bonded within the surface including two ridge lines 12 which are present at the diagonal positions of the case 4 having the rectangular parallelepiped shape. However, the embodiment of the present invention is not limited to such a structure.
For example, in the case of adopting such a manufacturing procedure in which the core 1 is contained in the case 4 and then the lead 2 is passed therethrough, it is unnecessary to divide the opening part 6 for the members 14A and 14B. FIGS. 12 to 14 are perspective views each showing such a structure.
In a case 15 shown in
Also, in a case 16 shown in
Also, a case 17 shown in
In the above-mentioned embodiment mode, the members 14A and 14B are boned to each other with the adhesive. However, the embodiment of the present invention is not limited to such a structure. For example, the member 14A and the member 14B may be bonded to each other by ultrasonic bonding.
Note that, in any of the above-mentioned cases, it is preferable to hermetically seal the core 1 using the case 4 in view of noise insulation.
As described above, according to the present invention, in an inductance element provided with a magnetic wound core and a lead, vibration and noise leaked to the outside of the element can be reduced.
Also, according to the present invention, in a case that contains the magnetic core, an area of a bonding region of members composing the case can be increased without increasing the size of the case, whereby an increase in bulk of the inductance element can be prevented.
Number | Date | Country | Kind |
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2001-101247 | Mar 2001 | JP | national |
2001-196108 | Jun 2001 | JP | national |
This application is a divisional of application Ser. No. 10/670,571, filed on Sep. 26, 2003, which was a continuation of Application PCT/JP02/03181, filed on Mar. 29, 2002, now abandoned.
Number | Date | Country | |
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Parent | 10670571 | Sep 2003 | US |
Child | 11586498 | Oct 2006 | US |
Number | Date | Country | |
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Parent | PCT/JP02/03181 | Mar 2002 | US |
Child | 10670571 | Sep 2003 | US |