JP2016004874A - Coil component - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coil component which enables coils to be easily provided in a core body forming an annular shape.SOLUTION: A coil component 10A is mounted on a mounting substrate and includes: a core body 20A which is formed by combining two or more core members 21A to form an annular shape; and coils 30A, each of which is formed by wiring a conducting wire 31A at the outer periphery side of the core member 21A and set so that its winding axis direction is arranged in parallel to the mounting substrate.

Description

  The present invention relates to a coil component used in various electronic devices.

  Among various coil components, there is a type as shown in Patent Document 1, for example. The coil component shown in Patent Document 1 is a common mode choke coil including a frame body (b-shaped) core body having a rectangular appearance. A coil is formed on a rectangular frame-shaped core by winding a conducting wire.

JP 2007-88405 A

  By the way, in the configuration disclosed in Patent Document 1, there is a problem that it is difficult to form a coil in an annular core body such as a rectangular frame shape. That is, it is difficult for the portion around which the winding wire of the winding machine is wound to pass through the inner peripheral hole of the rectangular frame-shaped core body. Therefore, it is difficult to wind a conducting wire around a rectangular frame-shaped core body using a winding machine. Therefore, at present, the conductor is wound manually. However, as the miniaturization of the coil component progresses, it takes time to wind the conductive wire, and it is difficult to wind the wire manually.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a coil component in which a coil can be easily provided on an annular core body. is there.

  In order to solve the above problems, a coil component of the present invention is a coil component mounted on a mounting board, and a core body configured by combining two or more core members so as to form an annular shape, and a core The coil is configured by winding a conducting wire on the outer peripheral side of the member, and has a coil whose winding axis direction is parallel to the mounting substrate.

  Further, according to another aspect of the coil component of the present invention, in addition to the above-described invention, the core member includes a winding shaft portion in which the coil is disposed on the outer peripheral side, and a winding shaft portion in a state in which the coil is separated from the mounting substrate. It is preferable to comprise a support part that supports

  Further, according to another aspect of the coil component of the present invention, in addition to the above-described invention, a pair of core members are provided, and each core member extends from both ends of the winding shaft portion in the axial direction of the winding shaft portion. The core body is provided in a rectangular frame shape by joining the end faces on the protruding side of the connecting part between the pair of core members. preferable.

  In addition to the above-described invention, another aspect of the coil component according to the present invention further includes a terminal member that is electrically connected to the terminal of the coil and electrically connected to the mounting substrate. The terminal member is provided with a locking portion for attaching the terminal member to the core body, and the support portion or the connecting portion is provided with a recess for allowing the locking portion to enter. It is preferable.

  Furthermore, in another aspect of the coil component of the present invention, in addition to the above-described invention, the core member further includes a first core member whose appearance is provided in a substantially U-shape and a substantially I-shape in appearance. A second core member provided, and the first core member supports the winding shaft portion in which the coil is arranged on the outer peripheral side and the winding shaft portion in a state in which the coil is separated from the mounting substrate. It is preferable that a supporting portion to be connected and a connecting portion extending from both ends of the winding shaft portion in a direction intersecting the axial direction of the winding shaft portion are provided.

  Moreover, it is preferable that the other side surface of the coil component of this invention is further provided with three or more core members which comprise a cyclic | annular core body in addition to the above-mentioned invention.

  Further, according to another aspect of the coil component of the present invention, in addition to the above-described invention, a suction cover is attached to the core body so as to cover the coil, and the suction cover is connected to an external suction nozzle. It is preferable that a flat plate portion to be adsorbed and a hook portion to be locked to any part of the core body are provided.

  According to the present invention, it is possible to easily provide a coil to an annular core body.

It is a perspective view which shows the whole structure of the coil component which concerns on 1st Embodiment. It is a disassembled perspective view which shows the structure of the coil component which concerns on 1st Embodiment. It is a perspective view which shows the structure of the core body which concerns on 1st Embodiment. It is a figure which shows the modification of the core member in 1st Embodiment, and is a semi-sectional view which shows the state which cut | disconnected the winding shaft part. It is a disassembled perspective view which shows the structure of the coil component of a 2nd form. It is a perspective view which shows the structure of the core body of 2nd Embodiment. It is a figure which shows the modification of the core member in 2nd Embodiment, and is a semi-sectional view which shows the state which cut | disconnected the winding shaft part. It is a disassembled perspective view which shows the structure of the coil component of 3rd Embodiment. It is a perspective view which shows the structure of the core body which concerns on 3rd Embodiment. It is a figure which shows the modification of the core member in 3rd Embodiment, and is a half sectional view which shows the state which cut | disconnected the winding shaft part. It is a perspective view which shows the structure of the suction cover which concerns on 4th Embodiment. It is a perspective view which shows the structure of the suction cover which concerns on 5th Embodiment. It is a disassembled perspective view which shows the structure of the coil component which concerns on 6th Embodiment. It is a perspective view which shows the structure of the core body which concerns on the modification of 6th Embodiment. It is a perspective view which shows the structure of the core body which concerns on 7th Embodiment. It is a top view which shows the structure of the core body which concerns on 8th Embodiment.

(First embodiment)
The coil component 10A according to the first embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, when each part is provided with a reference numeral, an alphabet “A” is basically used for description.

  Moreover, in the following description, it may be described using an XYZ orthogonal coordinate system. Of these, the X direction is the direction in which the terminal member 40A is attached to the core body 20A in FIG. 1, the X1 side is the right front side in FIG. 1, and the X2 side is the left back side in FIG. The Z direction is the thickness direction (height direction) of the coil component 10A, the Z1 side is the upper side where the suction cover in FIG. 1 is located, and the Z2 side is the lower side opposite to that. The Y direction is a direction orthogonal to the X direction and the Z direction, the Y1 side is the right back side in FIG. 1, and the Y2 side is the left front side in FIG.

<About Overall Configuration of Coil Component 10A>
FIG. 1 is a perspective view showing the overall configuration of the coil component 10A. FIG. 2 is an exploded perspective view showing the configuration of the coil component 10A. FIG. 3 is a perspective view showing the configuration of the core body 20A. As shown in FIGS. 1 and 2, the coil component 10A includes a core body 20A, a coil 30A, a terminal member 40A, and a suction cover 50A.

  As shown in FIG. 2 and FIG. 3, the core body 20A is configured by abutting two core members 21A. These core members 21A are provided with a winding shaft portion 22A, a connecting portion 23A, and a support portion 24A. The winding shaft portion 22A is a portion where the coil 30A is disposed.

  The connecting portion 23A is a portion extending in the Y direction from both ends of the winding shaft portion 22A, and a pair is provided on each core member 21A. Therefore, when the core member 21A is viewed in plan, the core member 21A is provided in a substantially U shape by the winding shaft portion 22A and the connecting portion 23A. In the present embodiment, it is assumed that the connecting portion 23A is located on both ends in the X direction from the winding shaft portion 22A. Therefore, when it goes to the both ends in the X direction along the winding shaft portion 22A, it will reach the connecting portion 23A.

  Moreover, both end surface 23A1 of 23 A of connection parts are faced | matched, and the core body 20A as shown in FIG. 2 is formed by maintaining the face-matching state. As shown in FIG. 2, the core body 20A is provided in a rectangular frame shape. Note that the end surface 23A1 is an end surface located on the distal end side of the coupling portion 23A that is separated from the winding shaft portion 22A.

  The support portion 24A is a portion that supports the core member 21A from the lower side, and is a portion that separates the coil 30A from the mounting substrate when mounted on the mounting substrate. In the present embodiment, support portion 24A is provided integrally with connecting portion 23A. Therefore, the connection part 23A may have the function of the support part 24A, and the support part 24A may have the function of the connection part 23A.

  Here, a concave fitting portion 25A that is recessed toward the lower side (Z2 side) is provided on the upper surface side of the connecting portion 23A. Further, a concave fitting portion 26A that is recessed upward is provided on the lower surface side of the connecting portion 23A (or the support portion 24A). The upper locking portion 41A and the lower locking portion 42A of the terminal member 40A are fitted into the recessed fitting portions 25A and 26A, respectively. Thereby, the terminal member 40A can be attached to the core member 21A. The upper locking portion 41A and the lower locking portion 42A correspond to the locking portions, respectively.

  Further, of the connecting portion 23A, the end of the outer peripheral wall 22A1 (the wall portion opposite to the inner peripheral wall 22A2) of the winding shaft portion 22A is located on the end side (this portion is referred to as the end surface 23A2 side). A stop portion 27A is provided. In the configuration shown in FIGS. 2 and 3, the hook engaging portion 27A is located on the lower side (Z2 side) than the outer peripheral wall 22A1. Moreover, the hook engaging portion 27A is provided so as to be recessed toward the end surface 23A1. The hook locking portion 27A is a portion where the hook portion 53A of the suction cover 50A is located.

  The material of the core member 21A is a magnetic material. Examples of the magnetic material include various magnetic materials such as various ferrites such as nickel-based ferrite or manganese-based ferrite, permalloy, sendust, and the like. It is possible to use a mixture of magnetic materials. Among these, nickel-based ferrites are preferable because they are inferior in conductivity as compared with manganese-based ferrites and the like, so that a separate coating for insulation is unnecessary.

  Here, what is shown in FIG. 4 can also be used as the core member 21A. FIG. 4 is a view showing a modification of the core member 21A in the first embodiment, and is a half sectional view showing a state in which the winding shaft portion 22A is cut. In the core member 21A shown in FIG. 4, the outer peripheral wall 22A1 and the inner peripheral wall 22A2 are provided in a curved shape such as an arc shape. When such a shape as shown in FIG. 4 is adopted, the coil 30A has no gap or a small gap with respect to the outer peripheral wall 22A1 and the inner peripheral wall 22A2 as compared with the core member 21A shown in FIG. It becomes possible to be located at. Moreover, since the angle of the corner | angular part which the conducting wire 31A contacts among winding-axis parts 22A becomes loose | gentle, it becomes possible to reduce the possibility that the conducting wire 31A which forms coil 30A may be disconnected.

  Next, the coil 30A will be described. As shown in FIG. 2, a coil 30A is disposed on the winding shaft portion 22A. The coil 30A is formed by winding the conducting wire 31A by a predetermined number of turns using a winding machine. In the present embodiment, the coil component 10A is formed on each core member 21A. However, the coil 30A may be formed only on one of the core members 21A.

  Next, the terminal member 40A will be described. In the present embodiment, the terminal member 40A has a substantially U-shaped appearance. This terminal member 40A has an upper locking portion 41A, a lower locking portion 42A, and an upper and lower connecting portion 43A. The upper locking portion 41A is a portion that enters the above-described recessed fitting portion 25A. Note that the terminal of the coil 30A may be electrically connected to the upper locking portion 41A, but a terminal may be connected to the upper and lower connecting portion 43A. Further, the lower locking portion 42A is a portion that enters the recessed fitting portion 26A, but is a portion that is in electrical contact with the connection portion of the mounting board when mounted on the mounting board. Further, the upper and lower connecting portion 43A is a portion extending in the vertical direction, and is a portion connecting the upper locking portion 41A and the lower locking portion 42A.

  Next, the suction cover 50A will be described. The suction cover 50A is a member attached so as to cover the coil 30A after the pair of core members 21A are abutted with each other. The suction cover 50A is provided with a flat plate portion 51A, a mounting leg portion 52A, and a hook portion 53A. The flat plate portion 51A is a portion provided in a flat plate shape, and is provided in a rectangular shape so as to cover the core body 20A in the present embodiment. On the upper surface side of the flat plate portion 51A, a suction nozzle of the transport device can be sucked. The suction nozzle holds the coil component 10 </ b> A by a vacuum suction force, and thus the flat plate portion 51 </ b> A is formed in a flat shape.

  Further, the mounting leg portion 52A extends from the four corners of the flat plate portion 51A toward the lower side (Z2 side). A hook portion 53A is provided on the lower end side (Z2 side) of the mounting leg portion 52A. The hook portion 53A is a claw-like portion that is hooked on the hook locking portion 27A described above, and the suction cover 50A is held by the core body 20A by the hook.

  The suction cover 50A is made of resin. As such a resin, an appropriate one of a thermoplastic resin and a thermosetting resin can be used. For example, the adsorption cover 50A can use various resins such as a phenol resin and a PBT (Polybutylene Terephthalate) resin. In addition, it is also possible to use a resin that hardly deteriorates, such as an acrylic resin.

<About the manufacturing method of coil component 10A>
When manufacturing the coil component 10A having the above-described configuration, the conductive wire 31A is wound around each core member 21A using a winding machine, thereby forming the coil 30A. That is, for a normal rectangular frame-shaped core body, the wire 31A cannot be wound using a winding machine, but in this embodiment, each core member 21A is used as a winding machine. By conducting chucking, the conducting wire 31A can be wound using a winding machine.

  Before and after the formation of the coil 30A, the terminal member 40A is attached to the core member 21A. In attaching the terminal member 40A, an adhesive is preferably used (the same applies to other embodiments). Then, the terminal of the coil 30A is electrically connected to the terminal member 40A. In this case, it is possible to use various methods such as soldering and laser welding.

  Further, at any stage after the formation of the coil 30A, the end faces 23A1 of the pair of core members 21A are butted against each other. At this time, it is preferable to improve the fixing strength by applying an adhesive to the end surface 23A1.

  Further, after the end faces 23A1 have been butted together and the end of the coil 30A is electrically connected to the terminal member 40A, the suction cover 50A is attached from the upper side (Z1 side) of the core body 20A, and the hook portion 53A is hooked. The locking portion 27A is locked. Thereby, the coil component 10A of the present embodiment is formed.

<Effect>
According to the coil component 10A having the above-described configuration, the core body 20A is configured by combining the pair of core members 21A so as to form an annular shape. Therefore, the coil 30A can be easily formed on the core member 21A by chucking each core member 21A to the winding machine.

  In the present embodiment, the core member 21A is provided with a winding shaft portion 22A in which the coil 30A is disposed on the outer peripheral side and a support portion 24A that supports the coil 30A in a state of being separated from the mounting substrate. For this reason, the coil 30A can be formed on the outer peripheral side of the winding shaft portion 22A. Further, the coil 30A can be separated from the mounting substrate due to the presence of the support portion 24A.

  Further, in the present embodiment, each core member 21A includes a connecting portion 23A extending from both ends of the winding shaft portion 22A. And between the pair of core members 21A, the projecting side end faces 23A2 of the connecting portion 23A are joined together to form a rectangular frame-shaped core body 20A. When the end faces 23A2 are abutted with each other, the abutting part is clear compared with the case where the other part is abutted, and therefore, the labor for manufacturing the coil component 10A is reduced as compared with the case where the abutting part is unclear. It becomes possible. Further, the presence of the connecting portion 23A makes the range of the winding shaft portion 22A clear. That is, it is possible to prevent problems such as a shift of the coil 30A located at the winding shaft portion 22A.

  In the present embodiment, the terminal member 40A attached to the core body 20A is provided with locking portions such as an upper locking portion 41A and a lower locking portion 42A. Then, the upper locking portion 41A and the lower locking portion 42A enter the recessed fitting portions 25A and 26A. For this reason, positioning of terminal member 40A to core body 20A becomes easy. Further, since the upper locking portion 41A and the lower locking portion 42A enter the recessed fitting portions 25A and 26B, the height of the terminal member 40A can be reduced, and the height of the coil component 10A can be reduced. .

  Furthermore, in the present embodiment, a suction cover 50A is attached to the core body 20A so as to cover the coil 30A, and the suction cover 50A includes a flat plate portion 51A that is sucked by an external suction nozzle, and the core body. A hook 53A that is locked to any part of 20A is provided. For this reason, it becomes possible to automatically carry the coil component 10A. In addition, it is possible to prevent the positional deviation of the two core members 21A.

(Second Embodiment)
The second embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, the configuration common to the configuration in the first embodiment described above will be described using the same numerals as the configuration, but adding “B” instead of the alphabet “A”. .

  FIG. 5 is an exploded perspective view showing the configuration of the coil component 10B of the present embodiment. FIG. 6 is a perspective view showing the configuration of the core body 20B. As shown in FIGS. 5 and 6, in the coil component 10B according to the present embodiment, the shape of the core member 21B constituting the core body 20B is different. That is, as shown in FIG. 5, in each core member 21B, compared to the core member 21A shown in FIG. 3, the winding shaft portion 22B is located closer to the end face 23B1 that is abutted against each other. Therefore, the winding shaft portion 22B is provided adjacent to the recessed fitting portions 25B and 26B.

  Accordingly, in the winding shaft portion 22B of the core member 21B, the outer peripheral wall 22B1 is located closer to the end surface 23A1 side than the end surface 23B2 of the connecting portion 23B. Moreover, when the coil 30B is disposed on the winding shaft portion 22B, the outer peripheral wall 22B1 is provided so as not to be positioned on the end portion side in the Y direction with respect to the end surface 23B2. In addition, the other structure in the coil component 10B is the same as that of the coil component 10A mentioned above.

  As the core member 21B, the one shown in FIG. 7 can be used. FIG. 7 is a view showing a modification of the core member 21B in the second embodiment, and is a half sectional view showing a state in which the winding shaft portion 22B is cut. Also in the core member 21B, the outer peripheral wall 22B1 and the inner peripheral wall 22B2 are provided in a curved shape such as an arc shape as in the core member 21A shown in FIG. Thus, the coil 30B can be positioned with no gap or a small gap with respect to the outer peripheral wall 22B1 and the inner peripheral wall 22B2. Moreover, since the angle of the corner | angular part which the conducting wire 31B contacts among the winding axis parts 22B becomes loose | gentle, it becomes possible to reduce a possibility that the conducting wire 31B which forms the coil 30B may be disconnected.

  In the coil component 10B configured as described above, the coil 30A is positioned closer to the end face 23B1 than the coil 30A. That is, in the coil component 10A in the first embodiment, the winding shaft portion 22A is located on the outermost side in the Y direction of the core member 21A. On the other hand, in the core member 21B in the present embodiment, the outer peripheral wall 22B1 of the winding shaft portion 22B is provided so as not to be positioned on the end portion side in the Y direction with respect to the end surface 23B2. For this reason, the coil 30B does not protrude outward beyond the mounting area with respect to the mounting substrate. Accordingly, it is possible to prevent interference with other components mounted on the mounting board.

(Third embodiment)
Hereinafter, a third embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a configuration common to the configuration in the first embodiment described above will be described using the same numerals as the configuration but with “C” instead of the alphabet “A”. .

  FIG. 8 is an exploded perspective view showing the configuration of the coil component 10C of the present embodiment. FIG. 9 is a perspective view showing the configuration of the core body 20C. As shown in FIGS. 8 and 9, in the coil component 10C according to the present embodiment, the shape of the core member 21C constituting the core body 20C is different. That is, as shown in FIG. 9, in each core member 21C, compared with the core members 21A and 21B shown in FIGS. 3 and 6, the recessed fitting portions 25C and 26C are located on the end side in the Y direction. ing.

  And the recessed fitting part 25C, 26C is not provided in the site | part close | similar to the end surface 23C1 mutually face | matched among the connection parts 23C. In the configuration shown in FIGS. 8 and 9, the recessed fitting portion 26C is provided at a different position in the X direction in order to prevent interference with the hook locking portion 27C.

  That is, it is not preferable that the hook portion 53C of the suction cover 50C is positioned on the lowermost side (Z2 side). This is because the lower locking portion 42C of the terminal member 40C needs to contact the connection portion of the mounting board. Therefore, the lower locking portion 42C needs to be positioned on the lowermost side (Z2 side). Further, when attaching the suction cover 50C to the core body 20C, it is necessary that the terminal member 40C and the suction cover 50C do not interfere with each other.

  Therefore, in the present embodiment, as shown in FIGS. 8 and 9, the recessed fitting portion 26C and the hook engaging portion 27C are provided at different positions in the X direction. In order to separate the terminal members 40C from each other, the terminal members 40C are preferably positioned on the four corner sides of the core body 20C. Therefore, the recessed fitting portion 26C is located closer to the end portion in the X direction than the hook locking portion 27C.

  In the configuration shown in FIG. 8, the distance between the pair of hook engaging portions 27C is shorter than the distance between the pair of recessed fitting portions 26C. Therefore, the dimension of the suction cover 50C in the X direction is also small. Therefore, in the present embodiment, the suction cover 50C does not cover the entire core body 20C, and a part thereof protrudes. However, the suction cover 50C including the flat plate portion 51C that covers the entire core body 20C may be used without adopting such a configuration.

  As the core member 21C, one shown in FIG. 10 can be used. FIG. 10 is a diagram showing a modification of the core member 21C in the third embodiment, and is a half sectional view showing a state in which the winding shaft portion 22C is cut. Also in the core member 21C, similarly to the core member 21A shown in FIG. 4, the outer peripheral wall 22C1 and the inner peripheral wall 22C2 are provided in a curved shape such as an arc shape. Thus, the coil 30C can be positioned with no gap or a small gap with respect to the outer peripheral wall 22C1 and the inner peripheral wall 22C2. Moreover, since the angle of the corner | angular part which the conducting wire 31C contacts among winding part 22C becomes loose | gentle, it becomes possible to reduce a possibility that the conducting wire 31C which forms the coil 30C may be disconnected.

  In the coil component 10C configured as described above, the recessed fitting portions 25C and 26C are located on the end portion side in the Y direction of the core body 20C. Therefore, the distance in the Y direction of the terminal member 40C can be separated as compared with the configuration shown in FIGS. Accordingly, it is possible to prevent a problem such as discharge from occurring between the pair of terminal members 40C. Moreover, since the distance between the pair of terminal members 40C can be separated, the coil component 10C can be further reduced in size.

(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described. Although only the suction cover 50D is shown in the present embodiment, it is a portion or member not shown in the present embodiment, and is the same as already described in the first to third embodiments described above. The configuration will be described with an alphabet “D” (the same applies to the following embodiments).

  FIG. 11 is a perspective view showing a configuration of a suction cover 50D according to the fourth embodiment. In the present embodiment, the shape of the suction cover 50D is different from the suction covers 50A to 50C in the first to third embodiments described above. Specifically, in the suction cover 50D, the mounting leg portion 52D is provided to be inclined with respect to the vertical direction (Z direction).

  Here, of the suction cover 50D, an axis that passes through the central portion in the X direction and is parallel to the Y direction is defined as an axis L. Considering the YZ plane passing through the axis L, the inclination direction of the mounting leg 52D is inclined so as to gradually approach the YZ plane passing through the axis L as it moves away from the flat plate portion 51D toward its lower side (Z2 side). doing.

  In the suction cover 50D having such an attachment leg 52D, the holding force for the core body 20D can be increased as compared with the suction covers 50A to 50C described above. That is, when attaching adsorption | suction cover 50D with respect to the core body 20D, the attachment leg part 52D will be largely bent compared with the attachment leg parts 52A-52C. Therefore, in the suction cover 50D of the present embodiment, it is possible to increase the holding force with respect to the core body 20D as compared with the suction covers 50A to 50C described above.

(Fifth embodiment)
Next, a fifth embodiment of the present invention will be described. In the present embodiment, only the suction cover 50E is shown, but it is a portion or member not shown in the present embodiment, which is the same as already described in the first to third embodiments. The configuration will be described with an alphabet “E” attached.

  FIG. 12 is a perspective view showing a configuration of a suction cover 50E according to the fifth embodiment. In the present embodiment, the shape of the suction cover 50E is different from the suction covers 50A to 50D in the first to fourth embodiments described above. Specifically, the suction cover 50E includes a core holding portion 54E in addition to the mounting leg portions 52A to 52D and the hook portions 53A to 53D described above. The core holding portion 54E is located at a portion where the pair of core members 21E are abutted.

  The core holding portion 54E is formed so that its external appearance is substantially L-shaped. Specifically, the core holding portion 54E is bent to the side where the core body 20A is located from the upper and lower extension portion 54E1 extending in the vertical direction (Z direction) and the lower end side (Z2 side) of the vertical extension portion 54E1. The horizontal extending portion 54E2 is provided. And the up-and-down extending | stretching part 54E1 contact | abuts to the outer side surface by the side of the end surface 23E1 among the connection parts 23E. Further, the horizontal extending portion 54E2 comes into contact with the lower surface on the end surface 23E1 side of the connecting portion 23E.

  Incidentally, in the core bodies 20A to 20C in the first to third embodiments, the end faces 23A1 to 23C1 of the other core members 21A to 23C are bumped with the end faces 23A1 to 23C1 of the one core members 21A to 21C. The butt portion is the boundary. However, the end faces 23A1 to 23C1 that are abutted may be displaced from each other. In particular, when the suction covers 50A to 50C are attached to the core bodies 20A to 20C, displacement of the core members 21A to 21C in the Y direction and the Z direction is prevented. However, the suction covers 50A to 50C are not locked to the core members 21A to 21C so as to prevent displacement in the X direction.

  On the other hand, in the present embodiment, when the suction cover 50E is attached to the core body 20E, the core holding portion 54E is located at the abutting portion between the end faces 23E1. Due to the presence of the core holding portion 54E, the core members 21E can be prevented from shifting in the X direction.

  In the suction cover 50E, the length of the mounting leg 52E is short, but it may be the same length. When shortening the length of the mounting leg portion 52E, the hook portion 53E can be positioned at a position that prevents interference with the lower locking portion 42E of the terminal member 40E.

(Sixth embodiment)
Next, a sixth embodiment of the present invention will be described. In the present embodiment, the configuration common to the configuration in the first embodiment described above will be described using the same numerals as the configuration, but adding “F” instead of the alphabet “A”. .

  FIG. 13 is an exploded perspective view showing a configuration of a coil component 10F according to the sixth embodiment. In the present embodiment, the shape of the core body 20F is different from that in the above-described embodiments. Specifically, the core body 20F includes a substantially U-shaped first core member 21F1 and a substantially I-shaped second core member 21F2. The first core member 21F1 includes two winding shaft portions 22F, and further includes one connecting portion 23F so as to connect the two winding shaft portions 22F. Further, the second core member 21F2 is configured not to include the winding shaft portion 22F.

  The first core member 21F1 and the second core member 21F2 are each provided with a connecting portion 23F, a support portion 24F, recessed fitting portions 25F and 26F, and a hook locking portion 27F, as in the above-described embodiments. It is.

  Further, in the present embodiment, the shape of the suction cover 50F is slightly different from that in each of the above-described embodiments. That is, the butted portion of the first core member 21F1 and the second core member 21F2 exists in the X direction that is the axial direction of the winding shaft portion 22F. Therefore, the suction cover 50F is configured to prevent a shift between the first core member 21F1 and the second core member 21F2 in the X direction. Specifically, the hook portion 53F is provided such that the X direction is the bending direction / locking direction with respect to the hook locking portion 27F.

  When the coil component 10F having such a configuration is formed, it is difficult to form the coil 30F using a winding machine. Therefore, the coil 30F is formed in an air core state, and the coil 30F is disposed on the outer peripheral side of the winding shaft portion 22F by inserting the air core-shaped coil 30F into the winding shaft portion 22F.

  In the sixth embodiment, it is also possible to use a core body 20F configured as shown in FIG. FIG. 14 is a perspective view showing a configuration of a core body 20F according to a modification of the sixth embodiment. In the configuration shown in FIG. 14, the direction in which the terminal member 40F is attached is different from the direction in which the hook portion 53F is attached. That is, the terminal member 40F is fitted into the terminal recess 28F in which the end face 23F1 is recessed. In addition, since the connection part 23F of the first core member 21F1 does not have a butt portion to the second core member 21F2, there are end faces 23F1 on both ends in the Y direction of the connection part 23F. 23F1 is provided with a terminal recess 28F. Also, terminal concave portions 28F are provided on both end surfaces 23F1 of the second core member 21F2.

  In the configuration shown in FIG. 14, a configuration in which the recessed fitting portions 25F and 26F are provided and the recessed fitting portions 25F and 26F communicate with the terminal recessed portion 28F may be employed.

  In the coil component 10 </ b> F configured as described above, the substantially I-shaped second core member 21 </ b> F <b> 2 can be shared with the first core member 21 </ b> F <b> 1 having a different length of the winding shaft portion 22 </ b> F. Further, the first core member 21F1 includes a winding shaft portion 22F, a connecting portion 23F, and a support portion 24F, similarly to the core member 21A and the like in the above-described embodiments. For this reason, it is easy to arrange the coil 30F on the outer peripheral side of the winding shaft portion 22F, and it is easy to mount on the mounting substrate.

(Seventh embodiment)
Next, a seventh embodiment of the present invention will be described. In the present embodiment, the configuration common to the configuration in the first embodiment described above will be described using the same numerals as the configuration, but adding “G” instead of the alphabet “A”. . Further, in the present embodiment, only the core body 20G is illustrated and described in FIG. 15, but it is a part or member not illustrated in FIG. 15, and has already been described in the first to third embodiments described above. A configuration similar to that described in FIG.

  FIG. 15 is a perspective view showing the configuration of the core body 20G of the coil component 10G according to the seventh embodiment. In the present embodiment, the shape of the core body 20G is different from those in the above-described embodiments. Specifically, the core body 20G is composed of two substantially U-shaped core members. However, the shapes of the two core members 21G are different. Specifically, the winding shaft portion 22G of the first core member 21G1 is provided longer than the winding shaft portion 22G of the second core member 21G2.

  The other configurations of the first core member 21G1 and the second core member 21G2 are the same as those of the first core member 21F1 in the sixth embodiment described above.

  Even when the coil component 10G is formed using the core body 20G having the above-described configuration, the coil 30G is formed in an air-core state, similarly to the case where the coil component 10F in the sixth embodiment described above is formed. The coil 30G is arranged on the outer peripheral side of the winding shaft portion 22G by inserting the air-core coil 30G into the winding shaft portion 22G.

  In the coil component 10G having such a configuration, the core members 21G having different lengths of the winding shaft portion 22G can be combined, thereby increasing variations in the coil component 10G. Moreover, since the configuration is made to abut the winding shaft portion 22G, it becomes possible to prevent the abutting portion from becoming unclear.

(Eighth embodiment)
Next, an eighth embodiment of the present invention will be described. In the present embodiment, a configuration common to the configuration in the first embodiment described above will be described using the same numerals as the configuration but with “H” instead of the alphabet “A”. . Further, in the present embodiment, only the core body 20H of the coil component 10H is illustrated and described in FIG. 16, but is a portion or member not shown in FIG. 16, and in the first to third embodiments described above. A configuration similar to that already described will be described with an alphabet “H”.

  FIG. 16 is a plan view showing the configuration of the core body 20H according to the eighth embodiment. As shown in FIG. 16, the core body 20H of the present embodiment includes four core members 21H. In the configuration shown in FIG. 16, two core members 21H are provided in parallel to each other, and there are two sets of two core members 21H parallel to each other. Among them, one set of two parallel core members 21H (in FIG. 16, the core member 21H whose longitudinal direction is the X direction) has a function as the winding shaft portion 22H. Further, the remaining set of core members 21H parallel to each other (in FIG. 16, the core member 21H whose longitudinal direction is the Y direction) has a function as the connecting portion 23H.

  In addition, it is preferable that the hook engaging part 27H is provided in the core member 21H of mutually parallel of any group. Moreover, it is preferable that the concave fitting parts 25H and 26H are provided in the core member 21H parallel to one another.

  According to the coil component 10H having the above configuration, the core body 20H is configured by combining the four core members 21H. For this reason, for example, by preparing core members 21H having various lengths and cross-sectional areas and combining them, various types of core bodies 20H can be easily manufactured. Moreover, since each core member 21H has a relatively simple shape, it is easy to manufacture a mold.

<Modification>
As mentioned above, although each embodiment of this invention was described, this invention can be variously deformed besides this. This will be described below.

  In the above-described embodiments, the case where there are two and four core members constituting the annular core body has been described. However, the number of core members constituting the core body may be three, or may be five or more.

  In each of the above embodiments, the coil component is provided with a suction cover. However, the suction cover may be removed from the coil component after the mounting of the coil component on the mounting substrate is completed. The thing from which such a suction cover is removed may be included in the coil component of the present invention.

Moreover, in each above-mentioned embodiment, the axial direction (stretching direction) of a connection part is provided so that it may orthogonally cross with respect to the axial direction of a winding axis part. However, the axial direction (stretching direction) of the connecting portion may be provided obliquely without being orthogonal to the axial direction of the winding shaft portion. That is, the axial direction (extending direction) of the connecting portion may be any direction as long as it intersects the axial direction of the winding shaft portion.

10A to 10H ... Coil parts, 20A to 20H ... Core body, 21A to 21H, ... Core member, 21F1, 21G1 ... First core member, 21F2, 21G2 ... Second core member, 22A to 22H ... Winding shaft part, 23A to 23H: Connecting portion, 23A1-23H1, 23A2-23H2 ... End face, 24A-24H ... Supporting portion, 25A-25H, 26A-26H ... Recessed fitting portion, 27A-27H ... Hook locking portion, 28F ... Recessed portion for terminal, 30A -30H ... coil, 31A-31H ... conducting wire, 40A-40H ... terminal member, 41A-41H ... upper locking part (corresponding to locking part), 42A-42H ... lower locking part (corresponding to locking part), 43A-43H ... Upper and lower connecting part, 50A-50H ... Suction cover, 51A-51H ... Flat plate part, 52A-52H ... Mounting leg part, 53A-53H ... Hook part, 54E ... Core holding part,

Claims (7)

A coil component mounted on a mounting board,
A core body configured by combining two or more core members so as to form a ring;
The coil is configured by winding a conducting wire on the outer peripheral side of the core member, and the winding axis direction is parallel to the mounting substrate,
A coil component comprising: The coil component according to claim 1,
The core member includes a winding shaft portion on which the coil is disposed on the outer peripheral side, and a support portion that supports the winding shaft portion in a state in which the coil is separated from the mounting substrate.
A coil component comprising: The coil component according to claim 2,
A pair of the core members are provided,
Each of the core members includes a connecting portion extending from both ends of the winding shaft portion in a direction intersecting the axial direction of the winding shaft portion,
The end surfaces on the protruding side of the connecting portion are joined together between the pair of core members, so that the core body is provided in a rectangular frame shape.
A transbobbin characterized by that. The coil component according to claim 3,
A terminal member that is electrically connected to the end of the coil and electrically connected to the mounting substrate is attached to the core body,
The terminal member is provided with a locking portion for attaching the terminal member to the core body,
The support part or the connection part is provided with a recess for allowing the locking part to enter.
Coil parts characterized by that. The coil component according to claim 1,
The core member is provided with a first core member whose outer appearance is provided in a substantially U shape, and a second core member whose outer appearance is provided in a substantially I shape,
The first core member includes a winding shaft portion on which the coil is disposed on the outer peripheral side, a support portion that supports the winding shaft portion in a state in which the coil is separated from the mounting substrate, and both ends of the winding shaft portion. From the side, a connecting portion extending in a direction crossing the axial direction of the winding shaft portion is provided, and
Coil parts characterized by that. The coil component according to claim 1,
Three or more core members constituting the annular core body are provided,
Coil parts characterized by that. The coil component according to any one of claims 1 to 6,
A suction cover is attached to the core body so as to cover the coil,
The suction cover is provided with a flat plate portion that is sucked by an external suction nozzle and a hook portion that is locked to any part of the core body.
Coil parts characterized by that.

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