JP6711139B2 - Coil device - Google Patents

Description

The present invention relates to a coil device used as, for example, a transformer.

As the transformer, for example, one shown in Patent Document 1 shown below is known. As shown in Patent Document 1, when a plurality of primary windings and a plurality of secondary windings are wound around the same bobbin cylinder portion, a plurality of terminals are mounted on a terminal block (terminal mounting portion). ) Becomes longer than the outer shape of the bobbin cylinder portion (coil portion).

In such a case, the lead end of the wire forming the primary winding or the secondary winding wound around the coil part should be connected to the terminal of the extension part of the terminal block (the part protruding outside the coil part). Need to guide you. For this reason, a lateral guide groove for guiding the lead end of the wire to the terminal of the extension portion is formed on the surface of the terminal block on the mounting surface side along the longitudinal direction of the terminal block.

In the conventional transformer, the lateral guide groove is formed on the surface of the terminal block on the mounting surface side along the longitudinal direction of the terminal block.Therefore, the thickness of the lateral guide groove is added to the thickness for mounting the terminal. Then, the thickness (width) of the terminal block becomes thicker. Therefore, the mounting area of a coil device such as a transformer is large.

JP, 2011-129776, A

The present invention has been made in view of such circumstances, and an object thereof is to provide a coil device capable of reducing a mounting area.

In order to achieve the above object, the coil device according to the present invention,
A bobbin having a tubular portion on which a coil portion is formed, and terminal holding portions formed on both sides of the tubular portion in the winding axis direction,
A plurality of terminals to which a plurality of wires constituting the coil portion are connected,
A coil device having:
The terminal holding portion has a shape that is long in a direction intersecting the winding axis of the coil portion, and a central portion located within the outer shape of the coil portion along the longitudinal direction of the terminal holding portion; An extension portion protruding outward from the outer shape of the coil portion along the longitudinal direction of the terminal holding portion,
At least one of the plurality of terminals is fixed to each of the mounting surface of the central portion and the mounting surface of the extension portion,
In the central portion or the extended portion (including their boundaries), at least one main vertical guide groove for guiding the wire from the mounting surface toward the anti-mounting surface is formed,
A main lateral guide groove is formed on the non-mounting surface of the extension portion to guide the wire passed through the main vertical guide groove along the longitudinal direction of the extension portion to a terminal fixed to the extension portion. It is characterized by being done.

In the coil device of the present invention, at least one of the plurality of wires forming the coil portion is guided from the main vertical guide groove to the side opposite to the mounting surface, and is formed on the surface of the extension portion on the side opposite to the mounting surface. Through the main lateral guide groove, the terminal of the extended portion is guided and connected. Therefore, it is not necessary to form the main lateral guide groove along the longitudinal direction on the mounting surface side of the terminal holding portion. As a result, it is possible to design the terminal holding portion with the minimum thickness for mounting the terminal on the mounting surface, reduce the thickness (width) of the terminal holding portion, and reduce the mounting area. be able to.

Preferably, the main vertical guide groove and the main horizontal guide groove are connected. In that case, it becomes easy to guide the wire from the main vertical guide groove to the main horizontal guide groove.

A width guide groove is formed on the mounting surface of the central portion along a direction intersecting the longitudinal direction of the terminal holding portion so as to guide the connection portion of the terminal fixed to the central portion. However, it is preferable that no groove is formed along the longitudinal direction of the terminal holding portion. With this configuration, it is possible to easily connect to the terminal and reduce the thickness of the terminal holding portion in the central portion.

Preferably, the direction of the width guide groove, the direction of the main vertical guide groove, and the direction of the main lateral guide groove are three-dimensionally intersecting with each other. By forming such a three-dimensional intersection of the grooves, it becomes easy to reduce the thickness of the terminal holding portion.

An auxiliary vertical guide groove for directing the wire from the main horizontal guide groove to the connection portion of the terminal may be formed on a side surface of the extension portion. With this configuration, it is easy to connect the lead portion of each wire to each terminal.

The extension portion is formed with the main vertical guide groove, and the mounting surface of the extension portion is formed with a sub-horizontal guide groove for directing the wire from the central portion toward the main vertical guide groove. May be. On the mounting surface of the extension part, a part where the distance between the terminals is wide may be formed, and since it is not necessary to attach the terminal to such part, a sub-lateral guide groove is formed. However, the thickness of the holding portion does not increase.

Preferably, it further has a core portion having at least a middle leg portion mounted inside the tubular portion of the bobbin. By passing the middle leg of the core through the tubular portion of the bobbin, the magnetic characteristics of the coil device are improved.

FIG. 1A is a schematic perspective view of a transformer according to an embodiment of the present invention. FIG. 1B is a schematic perspective view of the transformer in which the cover plate shown in FIG. 1A is removed and the coil portion is indicated by a chain double-dashed line. FIG. 1C is a cross-sectional perspective view taken along the line IC-IC shown in FIG. 1A. FIG. 2 is an exploded perspective view of the transformer shown in FIG. 1A. FIG. 3 is a plan view of the transformer shown in FIG. 1B. FIG. 4 is a rear view of the transformer shown in FIG. FIG. 5 is a bottom side perspective view of the transformer shown in FIG. 1B. FIG. 6 is a bottom side perspective view of the transformer shown in FIG. 5 viewed from different angles. FIG. 7 is a schematic perspective view of the transformer shown in FIG. 1B (the core portion and the cover plate are omitted) as seen from the back side. FIG. 8 is a schematic perspective view of a transformer according to another embodiment of the present invention, in which the cover plate is removed and the core portion is indicated by a chain double-dashed line. FIG. 9 is a plan view of the transformer shown in FIG. FIG. 10 is a bottom view of the transformer shown in FIG. FIG. 11 is a bottom side perspective view of the transformer shown in FIG. FIG. 12 is a bottom side perspective view of the transformer shown in FIG. 11 viewed from different angles. FIG. 13 is a schematic perspective view of the transformer shown in FIG. 8 viewed from the back side.

Hereinafter, the present invention will be described based on the embodiments shown in the drawings.

First Embodiment As shown in FIG. 1A, a transformer 10 as a coil device according to an embodiment of the present invention includes a bobbin 20, a core portion 50, and a cover plate 80.

As shown in FIG. 2, the bobbin 20 has a tubular portion 22 in which a plurality of wires 72 forming the coil portion 70 are insulated and wound. A first terminal block (first terminal mounting part) 24 and a second terminal block (second terminal mounting part) 26 are integrally formed at both ends of the tubular part 22 in the Y-axis direction. In the present embodiment, these terminal blocks 24 and 26 have a longitudinal direction in the X-axis direction and are integrally formed at both ends in the Y-axis direction of the tubular portion 22 so as not to block the through holes 23 of the tubular portion 22. The collar portions 28a, 28b are formed integrally with the lower portions in the Z-axis direction.

In the drawings of the present embodiment, the X axis, the Y axis, and the Z axis are perpendicular to each other, the Y axis is parallel to the axial direction of the coil unit 70, and the X axis is the terminal block 24 and It is parallel to the longitudinal direction of 26, and the Z axis is parallel to the height direction from the mounting surface to the non-mounting surface.

A single or a plurality of flanges 28c may be formed integrally with the cylinder 22 at an intermediate position of the cylinder 22 located between the flanges 28a and 28b. The collar portion 28c may be discontinuous along the circumferential direction, and one notch is formed in the upward direction of the Z axis in the circumferential direction of the collar portion 28c as shown in FIG. As shown in FIG. 4, three or more notches 28d may be formed at the lower position in the Z-axis direction.

As shown in FIG. 2, the flanges 28a and 28b integrally formed at both ends of the tubular portion 22 in the Y-axis direction are respectively provided with engaging projections 29a and X-shaped portions thereof at the upper ends in the Z-axis direction. A pair of sandwiching convex portions 29b located on both sides in the axial direction are integrally formed. These convex portions 29a and 29b are formed so as to project in the Y-axis direction from the end surfaces of the respective collar portions 28a and 28b in the Y-axis direction.

The engaging protrusions 28a detachably engage with the engaging holes 84 of the attachment rings 82 formed on both sides of the cover plate 80 in the Y-axis direction. These mounting rings 82 are formed so as to project downward from the cover plate 80 in the Z-axis direction. When the engaging projection is fitted into the engaging hole 84 of the mounting ring 82, the sandwiching projection 29b sandwiches the mounting ring 82 from both sides in the X-axis direction and does not apply a special force to the mounting ring 82. As far as possible, the mounting cover 80 cannot be removed from the bobbin 20.

The upper surface of the mounting cover 80 is a flat surface and can be adsorbed to the tip of an adsorption nozzle for moving the transformer 10 as a completed product. Although the mounting cover 80 and the bobbin 20 are preferably made of insulating members, respectively, they are not necessarily made of the same material.

The bobbin 20 is formed by, for example, injection molding, and its material is not particularly limited, but is made of, for example, PBT, PET, LCP, PA, or a phenol resin or the like from the viewpoint of heat resistance. The mounting cover 80 can also be made of the same material as the bobbin 20, but since it has a simple shape, it may be made of an insulating member other than resin, such as ceramic or paper. The bobbin 20 may be made of an insulating material other than resin as long as it can be molded.

The terminals 40a to 40c and 42a to 42c, which will be described later, are insert-molded on the bobbin 20, but these terminals do not need to be insert-molded together with the bobbin 20, but press-fitted or bonded to the bobbin after molding. You may fix by the means of.

The middle leg portions 54a and 54b of the core portion 50 are inserted into the through holes 23 of the tubular portion 22 formed in the bobbin 20 from both sides in the Y-axis direction. In the present embodiment, the core section 50 is composed of a first split core 50a and a second split core 50b. The first split core 50a has a plate-shaped portion 52a that is parallel to a plane including the X-axis and the Z-axis, and an intermediate leg portion 54a that projects in the Y-axis direction from a substantially central portion of the plate-shaped portion 52a in the X-axis direction. .. Outer leg portions 56a project in the Y-axis direction at both ends of the plate-like portion 52a in the X-axis direction on both sides of the middle leg portion 54a in the X-axis direction, at a predetermined distance from the middle leg portion 54a. The protruding height of the middle leg portion 54a from the plate-shaped portion 52a and the protruding height of the outer leg portion 56a are substantially the same.

A notch 53a is formed at the center of the plate-shaped portion 52a in the X-axis direction and at the upper end in the Z-axis direction, and the notch 53a is formed up to near the base of the middle leg 54a. The cutout portion 53a is provided so that the attachment ring 82 of the cover plate 80 does not interfere with the core 50a.

The second split core 50b has a plate-shaped portion 52b that is parallel to a plane including the X-axis and the Z-axis, and an intermediate leg portion 54b that projects in the Y-axis direction from a substantially central portion of the plate-shaped portion 52b in the X-axis direction. .. Outer leg portions 56b project in the Y-axis direction at both ends of the plate-like portion 52b in the X-axis direction on both sides of the middle leg portion 54b in the X-axis direction, at a predetermined distance from the middle leg portion 54b. The protruding height of the middle leg portion 54b from the plate portion 52b and the protruding height of the outer leg portion 56b are substantially the same.

A notch 53b is formed at the center of the plate portion 52b in the X-axis direction and at the upper end in the Z-axis direction, and the notch 53b is formed up to near the base of the middle leg 54b. The cutout portion 53b is provided so that the attachment ring 82 of the cover plate 80 does not interfere with the core 50b.

As described above, the middle leg portions 54a and 54b of the cores 50a and 50b are inserted into the through holes 23 of the tubular portion 22 of the bobbin 20 from both sides in the Y-axis direction, and the tips of the middle leg portions 54a and 54b are projected. To be combined. In addition, in order to adjust the performance of the core portion 50, a gap may be provided between the tips of the middle leg portions 54a and 54b. Further, in the present embodiment, the outer leg portions 56a and 56b of the cores 50a and 50b are abutted at their tips so as to surround both sides of the coil portion 70, that is, the collar portions 28a to 28c in the X-axis direction. ..

The cores 50a and 50b are not particularly limited, but each is a magnetic material and is composed of a ferrite composition, a metal composition, a composite composition of these and a resin, and the like, and is fired after compression molding and firing after injection molding. Alternatively, it is manufactured by a method such as general powder molding.

As shown in FIG. 1B, the first terminal block 24 has a shape that is long in the X-axis direction that intersects the Y-axis that is parallel to the winding axis of the coil unit 70, and the outer shape of the coil unit 70 along the longitudinal direction thereof. Has a central portion 30a located within the range and extension portions 30b and 30c protruding from the outer shape of the coil portion 70 to the outside in the X-axis direction along the longitudinal direction. On the mounting surface 24a of the central portion 30a, one or more, in the figure, three central-side terminals 40a project from the mounting surface 24a in the Z-axis direction and are bent and fixed in the Y-axis direction.

On the mounting surface 24a of the extension portion 30b on the left side in FIG. 1B, one or more, in the figure, three extension-side terminals 40b project from the mounting surface 24a in the Z-axis direction and are bent and fixed in the Y-axis direction. In addition, one or more, in the figure, two extension-side terminals 40c project in the Z-axis direction from the mounting surface 24a and are bent and fixed in the Y-axis direction on the mounting surface 24a of the extension portion 30c on the right side in FIG. 1B. is there.

Each of the center-side terminals 40a is electrically connected to the center-side terminal connection piece 41a protruding in the Y-axis direction from the outer surface 24c of the first terminal block 24 at the upper portion in the Z-axis direction. In the present embodiment, each center-side terminal 40a is composed of a substantially U-shaped metal terminal piece integrally formed with the center-side terminal connection piece 41a. A plurality of pairs of the center-side terminal 40a and the center-side terminal connecting piece 41a are fixed to the center portion 30a by insert-molding a substantially U-shaped metal terminal piece near the mounting surface 24a of the center portion 30a. ..

The extension-side terminals 40b and 40c are electrically connected to the extension-side terminal connection pieces 41b and 41c protruding in the Y-axis direction from the side surface 24c of the first terminal block 24 at the upper portion in the Z-axis direction. is there. In the present embodiment, each of the extension-side terminals 40b and 40c is composed of a substantially U-shaped metal terminal piece integrally formed with the extension-side terminal connection pieces 41b and 41c, for example. A plurality of pairs of the extension side terminals 40b, 40c and the extension side terminal connection pieces 41b, 41c are formed by insert-molding the substantially U-shaped metal terminal piece near the mounting surface 24a of each extension portion 30b, 30c. It is fixed to the extension portions 30b and 30c.

As shown in FIG. 7, the second terminal block 26 has a shape that is long in the X-axis direction that intersects the Y-axis that is parallel to the winding axis of the coil part 70, and the outer shape of the coil part 70 along the longitudinal direction thereof. Has a central portion 32a located within the range of, and extension portions 32b, 32c protruding from the outer shape of the coil portion 70 to the outside in the X-axis direction along the longitudinal direction. On the mounting surface 26a of the central portion 32a, one or more, and in the figure, two central terminals 42a project from the mounting surface 26a in the Z-axis direction and are bent and fixed in the Y-axis direction.

On the mounting surface 26a of the extension portion 32c on the left side in FIG. 7, one or more, in the figure, two extension-side terminals 42c project from the mounting surface 26a in the Z-axis direction and are bent and fixed in the Y-axis direction. In addition, one or more, in the figure, two extension-side terminals 42b project from the mounting surface 26a in the Z-axis direction and are bent and fixed in the Y-axis direction on the mounting surface 26a of the extension portion 32bc on the right side in FIG. is there.

Each of the center-side terminals 42a is electrically connected to the center-side terminal connection piece 43a projecting in the Y-axis direction from the outer surface 26c of the second terminal block 26 at the upper portion in the Z-axis direction. In the present embodiment, each center-side terminal 42a is configured by a substantially U-shaped metal terminal piece integrally molded with the center-side terminal connection piece 43a. By insert-molding a substantially U-shaped metal terminal piece near the mounting surface 26a of the central portion 32a, a plurality of pairs of the central side terminal 42a and the central side terminal connecting piece 43a are fixed to the central portion 32a. ..

The extension-side terminals 42b and 42c are electrically connected to the extension-side terminal connection pieces 43b and 43c, which are projecting in the Y-axis direction from the side surface 26c of the second terminal block 26 at the upper portions in the Z-axis direction, respectively. is there. In the present embodiment, each of the extension-side terminals 42b and 42c is composed of a substantially U-shaped metal terminal piece integrally formed with the extension-side terminal connection pieces 43b and 43c. A plurality of pairs of the extension side terminals 42b, 42c and the extension side terminal connection pieces 43b, 43c are formed by insert-molding the substantially U-shaped metal terminal piece near the mounting surface 26a of each extension portion 32b, 32c. It is fixed to the extension portions 32b and 32c.

In the present embodiment, the terminals 40a to 40c and 42a to 42c including the connection pieces 41a to 41c and 43a to 43c are not particularly limited, but are made of metal such as copper, copper alloy, iron, iron alloy, and CP wire. Configured. These terminals can be integrated with the bobbin 20 by insert molding when the bobbin 20 is formed by injection molding, but may be attached to the bobbin 20 by other methods.

The wire 72 in which the lead portion (the end portion of the wire 72) is connected to the connection pieces 41a to 41 and 43a to 43c of the terminals 40a to 40c and 42a to 42c, which form the coil portion 70, is not particularly limited. For example, a conductive wire such as copper, a copper alloy, iron, an iron alloy, or a CP wire coated with an insulating material is used. The insulating material forming the insulating coating is not particularly limited, but urethane, polyamideimide, ETFE, or the like is used.

As shown in FIG. 1B and FIG. 3, on the side surface 24c located between the center side terminal 40a and the extension side terminal 40b in the vicinity of the boundary between the center portion 30a and the extension portion 30b of the first terminal block 24, the main longitudinal guide is provided. A groove 34a is formed. The main vertical guide groove 34a guides at least one wire 72, three wires 72 in the illustrated example, from the mounting surface 24a toward the anti-mounting surface 24b. The main vertical guide groove 34a is recessed from the side surface 24c of the terminal block 24 in the Y-axis direction and is also open in the Z-axis direction.

On the non-mounting surface 24b of the extension portion 30b, the wire 72 passed through the main vertical guide groove 34a is fixed to the extension portion 30b along the longitudinal direction (X axis) of the extension portion 30b. A main lateral guide groove 36a for guiding to the extension side terminal connecting piece 41b is formed. The number of wires 72 passed through the main vertical guide groove 34a and the number of terminals 40b formed on the extension portion 30b are the same.

Sub-longitudinal guide grooves 35a, which are recessed in the Y-axis direction from the side surface 24c of the extension portion 30b, are formed between the extension-side connection terminal pieces 41b. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 30b located further outside of the extension-side connection terminal piece 41b located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36a.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 41b, and may penetrate the mounting surface 24a. .. One of the wires 72 guided through the main vertical guide groove 34a and the main horizontal guide groove 36a is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connection terminal piece 41b.

The lead portion of the wire 72 guided to each extension side connection terminal piece 41b through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension side connection terminal piece 41b. The method for connection is not particularly limited, and examples thereof include solder, laser welding, arc welding, thermocompression bonding, and resistance welding.

A main vertical guide groove 34b is formed on the side surface 24c located between the central terminal 40a and the extension terminal 40c near the boundary between the central portion 30a and the extension portion 30c of the first terminal block 24. The main vertical guide groove 34b guides at least one wire 72, two wires 72 in the illustrated example, from the mounting surface 24a toward the anti-mounting surface 24b. The main vertical guide groove 34b is recessed in the Y-axis direction from the side surface 24c of the terminal block 24 and is also open in the Z-axis direction.

On the non-mounting surface 24b of the extension portion 30c, the wire 72 passed through the main vertical guide groove 34b is fixed to the extension portion 30c along the longitudinal direction (X axis) of the extension portion 30c. A main lateral guide groove 36b for guiding to the extension-side terminal connection piece 41c is formed. The number of wires 72 passed through the main vertical guide groove 34b and the number of terminals 40c formed in the extension portion 30c are the same.

A sub-vertical guide groove 35a is formed between the extension-side connection terminal pieces 41c and is recessed in the Y-axis direction from the side surface 24c of the extension portion 30c. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 30c located further outside the extension-side connection terminal piece 41c which is located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36b.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 41c, and may penetrate the mounting surface 24a. .. One of the wires 72 guided through the main vertical guide groove 34b and the main horizontal guide groove 36b is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connection terminal piece 41c.

The lead portion of the wire 72 guided to each extension-side connection terminal piece 41c through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension-side connection terminal piece 41c. The method for connection is as described above.

As shown in FIGS. 7 and 3, the side surface 26c located between the central terminal 42a and the extension terminal 42b near the boundary between the central portion 32a and the extension portion 32b of the second terminal block 26 has a main longitudinal guide. A groove 34c is formed. The main vertical guide groove 34c guides at least one wire 72, two wires 72 in the illustrated example, from the mounting surface 26a toward the anti-mounting surface 26b. The main vertical guide groove 34c is recessed in the Y-axis direction from the side surface 26c of the terminal block 26 and is also open in the Z-axis direction.

On the non-mounting surface 26b of the extension portion 32b, the wire 72 passed through the main vertical guide groove 34c is fixed to the extension portion 32b along the longitudinal direction (X axis) of the extension portion 32b. A main lateral guide groove 36c for guiding to the extension-side terminal connection piece 43b is formed. The number of wires 72 passed through the main vertical guide groove 34c and the number of terminals 42b formed on the extended portion 32b are the same.

A sub-vertical guide groove 35a, which is recessed in the Y-axis direction from the side surface 26c of the extension portion 32b, is formed between the extension-side connection terminal pieces 43b. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 32b located further outside of the extension-side connection terminal piece 43b located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36c.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 43b, and may penetrate the mounting surface 26a. .. One of the wires 72 guided through the main vertical guide groove 34c and the main horizontal guide groove 36c is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connection terminal piece 43b.

The lead portion of the wire 72 guided to each extension side connection terminal piece 43b through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension side connection terminal piece 43b. The method for connection is as described above.

A main vertical guide groove 34d is formed on the side surface 24c located between the center side terminal 42a and the extension side terminal 42c near the boundary between the center portion 32a and the extension portion 32c of the second terminal block 26. The main vertical guide groove 34d guides at least one wire 72, two wires 72 in the illustrated example, from the mounting surface 26a toward the anti-mounting surface 26b. The main vertical guide groove 34d is recessed in the Y-axis direction from the side surface 24c of the terminal block 24 and is also open in the Z-axis direction.

On the non-mounting surface 26b of the extension portion 32c, the wire 72, which is passed through the main vertical guide groove 34d, is fixed to the extension portion 32c along the longitudinal direction (X axis) of the extension portion 32c. A main lateral guide groove 36d for guiding to the extension side terminal connecting piece 43c is formed. The number of wires 72 passed through the main vertical guide groove 34d and the number of terminals 42c formed on the extended portion 32c are the same.

Between the extension-side connecting terminal pieces 43c, sub-vertical guide grooves 35a recessed in the Y-axis direction from the side surfaces 26c of the extension portions 32c are formed. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 32c located further outside of the extension-side connection terminal piece 43c located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36d.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 43c, and may penetrate the mounting surface 26a. .. One of the wires 72 guided through the main vertical guide groove 34d and the main horizontal guide groove 36d is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connecting terminal piece 43c.

The lead portion of the wire 72 guided to each extension side connection terminal piece 43c through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension side connection terminal piece 43c. The method for connection is as described above.

As shown in FIGS. 4 to 6, on the mounting surface 24a of the central portion 30a of the first terminal block 24, only the width guide groove 31a is formed between the central side terminals 40a. The width guide groove 31a guides the wire 72 pulled out from the coil portion 70 to the side surface 24c of the terminal block 24. The lead portion of the wire 72 guided to the side surface 24c through each width guide groove 31a is connected to the center-side connecting terminal piece 41a located near each width guide groove 31a. The method for connection is as described above.

In addition, as shown in FIG. 4, in the vicinity of the boundary between the central portion 30a and the extension portion 30b of the first terminal block 24, the mounting surface 24a located between the central terminal 40a and the extension terminal 40b also has a width. A guide groove 31b is formed. The width guide groove 31b guides the wire 72 pulled out from the coil portion 70 to the side surface 24c of the terminal block 24. In this embodiment, the width guide groove 31b is directly connected to the main vertical guide groove 34a described above. The plurality of wires 72 guided to the side surface 24c through the width guide groove 31b are guided to the main vertical guide groove 34a, and from there, are guided to the main lateral guide groove 36a as shown in FIG.

Further, as shown in FIG. 4, in the vicinity of the boundary between the central portion 30a and the extended portion 30c of the first terminal block 24, the mounting surface 24a located between the central side terminal 40a and the extended side terminal 40b also has a width. A guide groove 31c is formed. The width guide groove 31c guides one of the plurality of wires 72 drawn from the coil portion 70 to the side surface 24c of the terminal block 24. The lead portion of the wire 72 guided to the side surface 24c through the width guide groove 31c is connected to the center-side connecting terminal piece 41a located near the width guide groove 31c. The method for connection is as described above.

Further, in the present embodiment, the width guide groove 31c is connected to the main vertical guide groove 34b through the sub lateral guide groove 37a formed on the mounting surface 24a of the extension portion 30c. The plurality of wires 72 guided to the side surface 24c through the width guide groove 31c and the sub lateral guide groove 37a are guided to the main vertical guide groove 34b, and from there, are guided to the main lateral guide groove 36b as shown in FIG. Get burned.

As shown in FIGS. 4 to 6, on the mounting surface 26a of the central portion 32a of the second terminal block 26, only the width guide groove 33a is formed between the central side terminals 42a. The width guide groove 33a guides the wire 72 pulled out from the coil portion 70 to the side surface 26c of the terminal block 26. The lead portion of the wire 72 guided to the side surface 26c through the width guide groove 33a is connected to the center-side connecting terminal piece 43a located near the width guide groove 33a. The method for connection is as described above.

In addition, as shown in FIG. 4, in the vicinity of the boundary between the center portion 32a and the extension portion 32b of the second terminal block 26, the mounting surface 26a located between the center side terminal 42a and the extension side terminal 42b also has a width. A guide groove 33b is formed. The width guide groove 33b guides one of the plurality of wires 72 drawn from the coil portion 70 to the side surface 26c of the terminal block 26. The lead portion of the wire 72 guided to the side surface 26c through the width guide groove 33b is connected to the center-side connecting terminal piece 43a located near the width guide groove 33b. The method for connection is as described above.

Further, in the present embodiment, the width guide groove 33b is connected to the main vertical guide groove 34c through the sub lateral guide groove 37b formed on the mounting surface 26a of the extension portion 32b. The plurality of wires 72 guided to the side surface 26c through the width guide groove 33c and the sub lateral guide groove 37b are guided to the main vertical guide groove 34c, and from there, are guided to the main lateral guide groove 36c as shown in FIG. Get burned.

Further, as shown in FIG. 4, in the vicinity of the boundary between the central portion 32a and the extended portion 32c of the second terminal block 26, the mounting surface 26a located between the central side terminal 42a and the extended side terminal 42c also has a width. A guide groove 33c is formed. In the present embodiment, the width guide groove 33c is connected to the main vertical guide groove 34d through the sub lateral guide groove 37c formed on the mounting surface 24a of the extension portion 32c. The plurality of wires 72 guided to the side surface 24c through the width guide groove 33c and the sub lateral guide groove 37c are guided to the main vertical guide groove 34d, and from there, are guided to the main lateral guide groove 36d as shown in FIG. Get burned.

In the transformer 10 of the present embodiment, at least one of the plurality of wires 72 forming the coil portion 70 is guided from the main vertical guide grooves 34a to 34d to the non-mounting surface 24a, 26a side. The wire 72 is connected to the terminals of the extension portions 30b, 30c, 32b, 32c through the main lateral guide grooves 36a-36c formed on the surfaces of the extension portions 30b, 30c, 32b, 32c on the side opposite to the mounting surfaces 24a, 26a. The pieces 41b, 41c, 43b, 43c are guided and connected.

Therefore, it is not necessary to form the main lateral guide groove along the X-axis direction on the mounting surfaces 24a, 26a in the central portions 30a, 32a of the terminal blocks 24, 26 so as to overlap the terminals 40a, 42a in the Y-axis direction. .. Further, also on the mounting surfaces 24a, 26a of the extended portions 30b, 30c, 32b, 32c, it is necessary to overlap the terminals 40b, 40c, 42b, 42c in the Y-axis direction and form the main lateral guide groove along the X-axis direction. Disappear.

As a result, it becomes possible to design the terminal blocks 24, 26 with a minimum thickness in the Y-axis direction in which the terminals 40a-40c, 42a-42c are mounted on the mounting surfaces 24a, 26a. The thickness (width) in the Y-axis direction can be reduced, and the mounting area can be reduced.

Further, in the present embodiment, as shown in FIG. 3, the main vertical guide grooves 34a to 34d and the main horizontal guide grooves 36a to 36d are connected to each other. Therefore, it is easy to guide the wire 72 from the main vertical guide grooves 34a to 34d to the main horizontal guide grooves 36a to 36d.

Further, on the mounting surfaces 24a, 26a of the central portions 30a, 32a, the width guide grooves 31a, 33a, so as to guide the connection pieces 41a, 43a of the terminals 40a, 42a fixed to the central portions 30a, 32a. 33b is formed. With this configuration, the central portions 30a and 32a can be easily connected to the terminals 40a and 42a and the thickness of the terminal blocks 24 and 26 can be reduced.

In the present embodiment, the directions of the width guide grooves 31a to 31c, 33a to 33c, the main vertical guide grooves 34a to 34d, and the main lateral guide grooves 36a to 36d are three-dimensionally intersecting with each other. is there. By realizing such a three-dimensional intersection of the grooves, it becomes easy to reduce the thickness of the terminal blocks 24 and 26.

Further, in the present embodiment, the auxiliary vertical guide grooves 35a, 35b for directing the wire 72 from the main lateral guide grooves 36a to 36d to the terminal connection portion are formed on the side surfaces 24c, 26c of the extension portions 30b, 30c, 32b, 32c. I am doing it. With this configuration, it is easy to connect the lead portions of the wires 72 to the terminals 40b, 40c, 42b, 42c arranged on the extension portions 30b, 30c, 32b, 32c.

Further, in the present embodiment, the main longitudinal guide grooves 34a to 34d are formed in the extended portions 30c, 32b and 32c, and the wires 72 are attached to the mounting surfaces 24a and 26a of the extended portions from the central portions 30a and 32a. Sub-horizontal guide grooves 37a to 37c are formed to face the main vertical guide grooves 34b to 34c. For example, on the mounting surface 24a of the extension portion 30c, a portion where the distance between the terminals 40a and 40c is wide may be formed, and since it is not necessary to attach the terminal to such a portion, the sub lateral Even if the guide groove 37a is formed, the thickness of the terminal block 24 does not increase. The same applies to the sub lateral guide grooves 37b and 37c of the terminal block 26.

Further, in the present embodiment, as shown in FIG. 2, the transformer 10 has the core portion 50 having at least the middle leg portions 54a and 54b mounted inside the tubular portion 22 of the bobbin 20. The characteristics of the transformer 10 are improved by allowing the middle leg portions 54a and 54b of the core portion 50 to pass through the tubular portion 22 of the bobbin 20.

Second Embodiment A transformer 10a according to the embodiment shown in FIGS. 8 to 13 is different from the transformer 10 shown in FIGS. 1 to 7 only in the configuration of a bobbin 20a including terminals, and common members have common reference numerals. The description of common parts will be omitted, and different parts will be described in detail below. The parts not described below are the same as those described in the first embodiment.

As shown in FIG. 8, the first terminal block 24 has a shape that is long in the X-axis direction that intersects with the Y-axis that is parallel to the winding axis of the coil unit 70, and the outer shape of the coil unit 70 along the longitudinal direction thereof. Has a central portion 30a located within the range and extension portions 30b and 30c protruding from the outer shape of the coil portion 70 to the outside in the X-axis direction along the longitudinal direction. On the mounting surface 24a of the central portion 30a, one or more, in the figure, three central-side terminals 40a project from the mounting surface 24a in the Z-axis direction and are bent and fixed in the Y-axis direction.

On the mounting surface 24a of the extension portion 30b on the left side in FIG. 8, one or more, in the figure, three extension side terminals 40b project from the mounting surface 24a in the Z-axis direction and are bent and fixed in the Y-axis direction. In addition, one or more, in the figure, two extension-side terminals 40c project in the Z-axis direction from the mounting surface 24a and are bent and fixed in the Y-axis direction on the mounting surface 24a of the extension portion 30c on the right side in FIG. is there.

Each of the center-side terminals 40a is electrically connected to the center-side terminal connection piece 41a protruding in the Y-axis direction from the side surface 24c of the first terminal block 24 at the upper portion in the Z-axis direction. The extension-side terminals 40b and 40c are electrically connected to the extension-side terminal connection pieces 41b and 41c protruding in the Y-axis direction from the side surface 24c of the first terminal block 24 at the upper portion in the Z-axis direction. is there.

As shown in FIG. 13, the second terminal block 26 has a shape that is long in the X-axis direction that intersects with the Y-axis that is parallel to the winding axis of the coil unit 70, and the outer shape of the coil unit 70 along the longitudinal direction thereof. Has a central portion 32a located within the range of, and extension portions 32b, 32c protruding from the outer shape of the coil portion 70 to the outside in the X-axis direction along the longitudinal direction. On the mounting surface 26a of the central portion 32a, one or more, and in the figure, two central terminals 42a project from the mounting surface 26a in the Z-axis direction and are bent and fixed in the Y-axis direction.

On the mounting surface 26a of the extension portion 32c on the left side in FIG. 13, one or more, in the figure, three extension-side terminals 42c project from the mounting surface 26a in the Z-axis direction and are bent and fixed in the Y-axis direction. Further, one or more, in the figure, three extension-side terminals 42b project in the Z-axis direction from the mounting surface 26a and are bent and fixed in the Y-axis direction on the mounting surface 26a of the extension portion 32b on the right side in FIG. is there.

Each of the center-side terminals 42a is electrically connected to the center-side terminal connecting piece 43a protruding in the Y-axis direction from the side surface 26c of the second terminal block 26 at the upper portion in the Z-axis direction. The extension-side terminals 42b and 42c are electrically connected to the extension-side terminal connection pieces 43b and 43c, which are projecting in the Y-axis direction from the side surface 26c of the second terminal block 26 at the upper portions in the Z-axis direction, respectively. is there.

As shown in FIGS. 8 and 9, the side surface 24c located between the central terminal 40a and the extension terminal 40b near the boundary between the central portion 30a and the extension portion 30b of the first terminal block 24 has a main longitudinal guide. A groove 34a is formed. The main vertical guide groove 34a guides at least one wire 72, three wires 72 in the illustrated example, from the mounting surface 24a toward the anti-mounting surface 24b. The main vertical guide groove 34a is recessed from the side surface 24c of the terminal block 24 in the Y-axis direction and is also open in the Z-axis direction.

On the non-mounting surface 24b of the extension portion 30b, the wire 72 passed through the main vertical guide groove 34a is fixed to the extension portion 30b along the longitudinal direction (X axis) of the extension portion 30b. A main lateral guide groove 36a for guiding to the extension side terminal connecting piece 41b is formed. The number of wires 72 passed through the main vertical guide groove 34a and the number of terminals 40b formed on the extension portion 30b are the same.

Sub-longitudinal guide grooves 35a, which are recessed in the Y-axis direction from the side surfaces 24c of the extension portions 30b, are formed between the extension-side connection terminal pieces 41b. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 30b located further outside of the extension-side connection terminal piece 41b located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36a.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 41b, and may penetrate the mounting surface 24a. .. One of the wires 72 guided through the main vertical guide groove 34a and the main horizontal guide groove 36a is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connection terminal piece 41b.

The lead portion of the wire 72 guided to each extension side connection terminal piece 41b through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension side connection terminal piece 41b.

In the present embodiment, since the connecting piece 41b of the extension side terminal 40b is located near the main vertical guide groove 34a, the lead portion of the wire 72 connected to the connecting piece 41b has a main horizontal guide groove. The main vertical guide groove 34a is directly guided to and connected to the connecting piece 41b without passing through 36a. This point is different from the first embodiment. In addition, in the extension portion 30b, the distance between the extension-side terminal 40b located near the central portion 30a and the extension-side terminal 40b located near the end portion in the X-axis direction is between other extension-side terminals 40b. Since it is wider than the distance, a side vertical guide groove 35d through which the wire 72 does not pass is formed on the side surface 24c. This point also differs from the first embodiment. The wire may be passed through the sub-vertical guide groove 35d.

Further, a main vertical guide groove 34b is formed on the side surface 24c located between the center side terminal 40a and the extension side terminal 40c near the middle position of the extension portion 30c of the first terminal block 24. The main vertical guide groove 34b guides at least one wire 72, two wires 72 in the illustrated example, from the mounting surface 24a toward the anti-mounting surface 24b. The main vertical guide groove 34b is recessed in the Y-axis direction from the side surface 24c of the terminal block 24 and is also open in the Z-axis direction.

On the non-mounting surface 24b of the extension portion 30c, the wire 72 passed through the main vertical guide groove 34b is fixed to the extension portion 30c along the longitudinal direction (X axis) of the extension portion 30c. A main lateral guide groove 36b for guiding to the extension-side terminal connection piece 41c is formed. The number of wires 72 passed through the main vertical guide groove 34b and the number of terminals 40c formed in the extension portion 30c are the same.

A sub-vertical guide groove 35a that is recessed in the Y-axis direction from the side surface 24c of the extension portion 30c is formed between the extension-side connection terminal pieces 41c. Further, a sub-vertical guide groove 35b is also formed at a corner portion of the extension portion 30c located further outside the extension-side connection terminal piece 41c which is located most outside in the X-axis direction. The upper ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction communicate with the main lateral guide groove 36b.

The lower ends of the sub-vertical guide grooves 35a and 35b in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 41c, and may penetrate the mounting surface 24a. .. One of the wires 72 guided through the main vertical guide groove 34b and the main horizontal guide groove 36b is located in the sub vertical guide grooves 35a, 35b near the sub vertical guide grooves 35a, 35b. Guide each extension side connection terminal piece 41c.

The lead portion of the wire 72 guided to each extension-side connection terminal piece 41c through each sub-vertical guide groove 35a, 35b is electrically connected and fixed to each extension-side connection terminal piece 41c.

As shown in FIGS. 13 and 9, a pair of main vertical guide grooves 34c and 34d are formed on the side surface 26c located between the central side terminals 42a in the central portion 32a of the second terminal block 26. The main vertical guide grooves 34c and 34d respectively guide at least one wire 72, in the illustrated example, two wires 72 in the direction from the mounting surface 26a to the anti-mounting surface 26b. Each of the main vertical guide grooves 34c, 34d is recessed in the Y-axis direction from the side surface 26c of the terminal block 26 and is also open in the Z-axis direction.

In the illustrated example, the main vertical guide grooves 34c and 34d are formed separately, but a common single main vertical guide groove 34c or 34d is provided, and the single main vertical guide groove 34c or 34d is A plurality of (four) wires 72 may be passed through and distributed to any of the extended portions 32b and 32c.

On the non-mounting surface 26b of the extension portion 32b, the wire 72 passed through the main vertical guide groove 34c is fixed to the extension portion 32b along the longitudinal direction (X axis) of the extension portion 32b. A main lateral guide groove 36c for guiding to the extension-side terminal connection piece 43b is formed. The number of wires 72 passed through the main vertical guide groove 34c and the number of terminals 42b formed on the extended portion 32b are the same.

A sub-vertical guide groove 35a, which is recessed in the Y-axis direction from the side surface 26c of the extension portion 32b, is formed between the extension-side connection terminal pieces 43b. The upper end of the sub vertical guide groove 35a in the Z-axis direction communicates with the main horizontal guide groove 36c.

The lower ends of the sub-vertical guide grooves 35a in the Z-axis direction extend along the Z-axis direction at least near the respective extension-side connecting terminal pieces 43b, and may penetrate the mounting surface 26a. One of the wires 72 guided through the main vertical guide groove 34c and the main horizontal guide groove 36c is provided in each of the sub-vertical guide grooves 35a, and each extension located near the sub-vertical guide grooves 35a, 35b. Guide to the side connection terminal piece 43b.

The lead portion of the wire 72 guided to each extension-side connection terminal piece 43b through each sub-vertical guide groove 35a is electrically connected and fixed to each extension-side connection terminal piece 43b.

Further, the main vertical guide groove 34d guides at least one wire 72, in the illustrated example, two wires 72, from the mounting surface 26a toward the anti-mounting surface 26b. The main vertical guide groove 34d is recessed in the Y-axis direction from the side surface 24c of the terminal block 24 and is also open in the Z-axis direction.

On the non-mounting surface 26b of the extension portion 32c, the wire 72, which is passed through the main vertical guide groove 34d, is fixed to the extension portion 32c along the longitudinal direction (X axis) of the extension portion 32c. A main lateral guide groove 36d for guiding to the extension side terminal connecting piece 43c is formed. The number of wires 72 passed through the main vertical guide groove 34d and the number of terminals 42c formed on the extended portion 32c are the same.

Between the extension-side connecting terminal pieces 43c, sub-vertical guide grooves 35a recessed in the Y-axis direction from the side surfaces 26c of the extension portions 32c are formed.

The lower ends of the sub-vertical guide grooves 35a in the Z-axis direction extend along the Z-axis direction at least near the extension-side connecting terminal pieces 43c, and may penetrate the mounting surface 26a. One of the wires 72 guided through the main vertical guide groove 34d and the main horizontal guide groove 36d is connected to each of the sub-vertical guide grooves 35a at each extension side connection located near the sub-vertical guide groove 35a. Guide to the terminal piece 43c.

The lead portion of the wire 72 guided to each extension-side connection terminal piece 43c through each sub-vertical guide groove 35a is electrically connected and fixed to each extension-side connection terminal piece 43c.

As shown in FIGS. 10 to 12, on the mounting surface 24a of the central portion 30a of the first terminal block 24, only the width guide groove 31a is formed between the central side terminals 40a. The width guide groove 31a guides the wire 72 pulled out from the coil portion 70 to the side surface 24c of the terminal block 24. The lead portion of the wire 72 guided to the side surface 24c through each width guide groove 31a is connected to the center-side connecting terminal piece 41a located near each width guide groove 31a.

Further, as shown in FIG. 10, the mounting surface 24a located between the center side terminal 40a and the extension side terminal 40b near the boundary between the center portion 30a and the extension portion 30b of the first terminal block 24 also has a width. A guide groove 31b is formed. The width guide groove 31b guides the wire 72 pulled out from the coil portion 70 to the side surface 24c of the terminal block 24. In this embodiment, the width guide groove 31b is directly connected to the main vertical guide groove 34a described above. The plurality of wires 72 guided to the side surface 24c through the width guide groove 31b are guided to the main vertical guide groove 34a, and from there, are guided to the main lateral guide groove 36a as shown in FIG.

Further, as shown in FIG. 10, in the vicinity of the boundary between the central portion 30a and the extended portion 30c of the first terminal block 24, the mounting surface 24a located between the central side terminal 40a and the extended side terminal 40b also has a width. A guide groove 31c is formed. The width guide groove 31c guides one of the plurality of wires 72 drawn from the coil portion 70 to the side surface 24c of the terminal block 24. The lead portion of the wire 72 guided to the side surface 24c through the width guide groove 31c is connected to the center-side connecting terminal piece 41a located near the width guide groove 31c.

Further, in the present embodiment, the width guide groove 31c is connected to the main vertical guide groove 34b through the sub lateral guide groove 37a formed on the mounting surface 24a of the extension portion 30c. The plurality of wires 72 guided to the side surface 24c through the width guide groove 31c and the sub lateral guide groove 37a are guided to the main vertical guide groove 34b, and from there, guided to the main lateral guide groove 36b, as shown in FIG. Get burned.

As shown in FIGS. 10 to 11, on the mounting surface 26a of the central portion 32a of the second terminal block 26, only the width guide groove 33a is formed between the central side terminals 42a. The width guide groove 33a guides the wire 72 pulled out from the coil portion 70 to the side surface 26c of the terminal block 26. One of the plurality of wires 72 guided to the side surface 26c through the width guide groove 33a is connected to the center-side connecting terminal piece 43a located near the width guide groove 33a.

In the present embodiment, each width guide groove 33a is directly connected to the main vertical guide grooves 34c and 34d. Of the plurality of wires 72 drawn out from the coil portion 70, the wire 72 guided to the main vertical guide groove 34c through the sub guide groove 33a is guided to the main horizontal guide groove 36c from there, as shown in FIG. .. The wire 72 guided to the main vertical guide groove 34d through the sub guide groove 33a is then guided to the main horizontal guide groove 36c, as shown in FIG.

Further, as shown in FIG. 10, the mounting surface 26a located between the center-side terminal 42a and the extension-side terminal 42b has a width near the boundary between the center portion 32a and the extension-portion 32b of the second terminal block 26. A guide groove 33b is formed. The width guide groove 33b guides one of the plurality of wires 72 drawn from the coil portion 70 to the side surface 26c of the terminal block 26. The lead portion of the wire 72 guided to the side surface 26c through the width guide groove 33b is connected to the extension-side connection terminal piece 43b located near the width guide groove 33b.

Further, as shown in FIG. 10, in the vicinity of the boundary between the central portion 32a and the extended portion 32c of the second terminal block 26, the mounting surface 26a located between the central terminal 42a and the extended terminal 42c also has a width. A guide groove 33b is formed. The width guide groove 33b guides one of the plurality of wires 72 drawn from the coil portion 70 to the side surface 26c of the terminal block 26. The lead portion of the wire 72 guided to the side surface 26c through the width guide groove 33b is connected to the extension side connection terminal piece 43c located near the width guide groove 33b.

In the present embodiment, on the mounting surface 26a of the extension portion 32b, there is a larger space between the terminal 42b near the central portion 32a and the terminal 42b near the end of the X axis than the gap between the other terminals 42b. Therefore, a sub-lateral guide groove 37d is formed on the mounting surface 26a corresponding to the space. The sub guide groove 37d is connected to the sub vertical guide groove 35a, but the wire is not passed therethrough. The sub-guide groove 37d may also be used as a wire passage groove.

Similarly, on the mounting surface 26a of the extension portion 32b, there is a space larger than the gap between the other terminals 42c between the terminal 42b near the central portion 32a and the terminal 42c near the end of the X axis. Therefore, a sub-lateral guide groove 37d is formed on the mounting surface 26a corresponding to the space. The sub guide groove 37d is connected to the sub vertical guide groove 35a, but the wire is not passed therethrough. The sub-guide groove 37d may also be used as a wire passage groove.

The transformer 10a of the present embodiment also has the same effects as the transformer 10 of the first embodiment.

It should be noted that the present invention is not limited to the above-described embodiment, but can be variously modified within the scope of the present invention.

For example, the coil device of the present invention can be used not only as a transformer but also as a filter or the like.

The number of terminals attached to the coil device of the present invention is not particularly limited, but the effect is great when the number is preferably 6 or more, more preferably 8 or more, and particularly preferably 10 or more. Further, the effect is great when one or more, preferably two or more terminals are attached to each of the extended portions.

Further, in the above-described embodiment, either the center-side terminal 40a or the extension-side terminals 40b and 40c attached to the first terminal block 24 may be the primary wire of the transformer. Then, any one of the extension side terminals 40b and 40c may be the primary wire of the transformer, and the terminals 42a to 42c attached to the second terminal block 26 are the secondary wires of the transformer. However, it is not limited thereto.

10, 10a... Coil device 20, 20a... Bobbin 22... Cylindrical portion 23... Through hole 24... First terminal block (first terminal mounting portion)
24a... Mounting surface 24b... Anti-mounting surface 24c... Side surface 26... Second terminal block (second terminal mounting portion)
26a... Mounting surface 26b... Anti-mounting surface 26c... Side surfaces 28a-28c... Collar part 29a... Engagement convex part 29b... Clamping convex part 30a... Central part 30b, 30c... Extension part 31a, 31b, 31c... Width guide groove 32a... Central part 32b, 32c... Extension part 33a, 33b... Width guide groove 34a-34d... Main vertical guide groove 35a-35b... Sub-vertical guide groove 36a-36d... Main lateral guide groove 37a-37c... Sub-lateral guide groove 40a... Center Side terminals 40b, 40c... Extension side terminals 41a... Center side terminal connection pieces 41b, 41c... Extension side terminal connection pieces 42a... Center side terminals 42b, 42c... Extension side terminals 43a... Center side terminal connection pieces 43b, 43c... Extension side Terminal connection piece 50... Core portion 50a... First split core 50b... Second split core 52a, 52b... Base portions 54a, 54b... Middle leg portions 56a, 56b... Outer leg portion 70... Coil portion 72... Wire 80... Cover plate 82... Mounting ring 84... Engagement hole

Claims (9)

A bobbin having a tubular portion on which a coil portion is formed, and terminal holding portions formed on both sides of the tubular portion in the winding axis direction,
A plurality of terminals to which a plurality of wires constituting the coil portion are connected,
A coil device having:
The terminal holding portion has a shape that is long in a direction intersecting the winding axis of the coil portion, and a central portion located within the outer shape of the coil portion along the longitudinal direction of the terminal holding portion; An extension portion protruding outward from the outer shape of the coil portion along the longitudinal direction of the terminal holding portion,
At least one of the plurality of terminals is fixed to each of the mounting surface of the central portion and the mounting surface of the extension portion,
In the central portion or the extension portion, a main vertical guide groove for guiding the plurality of wires from the mounting surface toward the direction opposite to the mounting surface is formed,
A main lateral guide groove that guides the plurality of wires, which are passed through the main vertical guide groove, to a terminal fixed to the extension part, on the anti-mounting surface of the extension part, along the longitudinal direction of the extension part. A coil device characterized by being formed. The coil device according to claim 1, wherein the main vertical guide groove and the main horizontal guide groove are connected to each other. The terminal has a connecting portion to which the lead portion of the wire is connected, and the connecting portion projects from a lower outer surface of the central portion or the extension portion in a winding axis direction of the coil portion. The coil device according to claim 1, wherein the coil device is a coil device. Wherein the said mounting surface of the central portion, so as to guide the connecting portions of the terminals is fixed to the central portion, the width guide groove along a direction intersecting the longitudinal direction of the terminal holding portion is formed The coil device according to claim 3 , wherein the groove is formed along the longitudinal direction of the terminal holding portion. The coil device according to claim 4 , wherein the direction of the width guide groove, the direction of the main vertical guide groove, and the direction of the main lateral guide groove are directions that three-dimensionally intersect each other. An auxiliary vertical guide groove is formed on a side surface of the extension portion so as to direct each of the plurality of wires guided by the main lateral guide groove from the main lateral guide groove toward a connecting portion of the terminal. The coil device according to any one of 1 to 5 . The extension portion is formed with the main vertical guide groove, and the mounting surface of the extension portion is formed with a sub-horizontal guide groove for directing the wire from the central portion toward the main vertical guide groove. coil device according to any one of claims 1-6. Coil apparatus according to any one of claims 1 to 7, further comprising a core portion having at least a center leg that is mounted inside the cylindrical portion of the bobbin. At least one of the wires connected to the connection portion of the terminal formed in the extension portion is directly connected to the connection portion of the terminal from the main vertical guide groove without passing through the main lateral guide groove. The coil device according to any one of claims 1 to 8, which is provided.

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