JPH11297533A - Inductor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the directional alignment and adaptability to the selection of the appearance by disposing an internal conductor in a base substance which is partially colored in a predetermined color by adding a coloring metal oxide and provide external electrodes on the base substance at predetermined positions to be electrically connected to the internal conductor. SOLUTION: An inductor 1 comprises a base substance 2, which is formed of a glass-base material and has a coil-shaped internal conductor provided therein, external electrodes 4a and 4b formed at both end portions of the base substance 2 in such a way as to have conduction with the coil conductor, and a marker 3 located on a predetermined surface (top surface) 2a of the base substance 2 at a predetermined position. In this inductor 1, the marker 3 is in black, the other portion 5 of the surface 2a where the marker 3 is formed is in white that is the color of the glass-base material itself, which constitutes the surface layer 6 of the base substance 2 and is not particularly colored, and the major portion 7 of the base substance 2 is colored to green by adding an oxide of CoO, Al2 O3 or Cr2 O3 .

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inductor,
More specifically, the present invention relates to an inductor excellent in compatibility with directional alignment and appearance selection.

[0002]

2. Description of the Related Art In recent years,
As an inductor having a low inductance value used in a high-frequency circuit, a laminated inductor in which a base material (chip body) is made of a glass-based material having a magnetic permeability close to 1 and a conductor is laminated and formed in a coil shape inside is used. It has become.

[0003] Such a laminated inductor usually has a so-called open magnetic circuit type structure in which magnetic flux leaks from a coil conductor in a base to the outside, and is affected by a circuit board and other surrounding components. There is a problem that the inductance value changes. Therefore, in order to solve such a problem, as shown in FIG.
A marker for indicating the positional relationship between the start end (winding start position) and the end (winding end position) of the coil conductor on a predetermined surface (predetermined position) 52a of the base (chip body) 52 on which the a and b are formed. 53 is formed so that the laminated inductor 51 can be always mounted in a predetermined posture, thereby preventing the characteristics from being changed due to a change in the positional relationship between the leaked magnetic flux and the circuit board and other surrounding components. There has been proposed a multilayer inductor that performs the above operation.

However, the multilayer inductor 51 as described above is used.
Since the glass material is used for the substrate 52 and the substrate 52 is usually white, the external electrodes 54a and 54b formed on both ends of the substrate 52 also have brightness close to white. Therefore, depending on the type of sensor used for appearance selection, the external electrode may also be determined to be white.For example, when an image recognition method for examining the attachment state of the external electrode is used, the appearance selection process is performed. There is a problem that the number of processed chip components per time is small, and it is difficult to improve productivity. This problem is not particularly peculiar to the laminated inductor having the marker, but also occurs to the laminated inductor having no marker.

An object of the present invention is to solve the above-mentioned problems, and an object of the present invention is to provide an inductor excellent in compatibility with directional alignment and appearance selection.

[0006]

In order to achieve the above object, an inductor according to the present invention (claim 1) is made of a glass-based material, at least a part of which is formed by adding a metal oxide for coloring. A base that is colored in any one of the above, an internal conductor provided in the base, and an external electrode provided at a predetermined position on the base so as to be electrically connected to the internal conductor. It is characterized by doing.

[0007] At least a part of the substrate made of a glass-based material is colored to a predetermined color by adding a color-forming metal oxide, so that when an external electrode is formed, the color and lightness between the external electrode and the substrate are increased. It is possible to make a distinction between the two by making the differences greatly. In addition, by making the color of a predetermined portion of the base different from that of the other portions, it is possible to easily determine the posture of the inductor from the outside, thereby improving the responsiveness to directional alignment and the like. Will be possible.

In the inductor according to a second aspect of the present invention, the substrate is formed of a white-based glass-based material, and at least a part thereof is colored to a predetermined color by adding a color-forming metal oxide. It is characterized by having.

When the base is formed using a white glass material, it is sometimes difficult to distinguish the base from the external electrode by a method such as image recognition. Is added to cause the substrate to develop a predetermined color, which can be easily distinguished, which is particularly significant.

[0010] The inductor according to claim 3 is characterized in that a marker of a color different from the color of the surface is formed on a predetermined surface of the base.

When a marker having a color different from the color of the surface is formed on a predetermined surface of the base, the posture of the inductor, for example, the position of the start and end of the coil when the internal conductor is a coil can be easily determined. Can be recognized, and the responsiveness to directional alignment can be improved. The marker can be easily formed by a method of adding a color-forming metal oxide to a glass-based material to form a predetermined color. However, the method of forming the marker is not limited to this, and the marker can also be formed by a method of applying another material.

Further, in the inductor according to the fourth aspect, the color of the marker is black. By making the marker black, it is possible to increase the difference in wavelength from other colors (the colors of the base and the external electrodes), and it is possible to improve discrimination.

According to a fifth aspect of the present invention, the surface of the substrate on which the marker is formed is white, which is not colored. The other surface of the base is colored and the surface on which the marker is formed is made uncolored white, so that the color and lightness of the surface on which the marker is formed and the other surface are significantly different, and in the mounting process etc. , It is possible to easily detect the surface on which the marker is formed,
Mounting efficiency can be improved.

According to a sixth aspect of the present invention, the developed color is at least one of yellow, green, and blue. The color that develops the substrate is yellow,
When at least one of green and blue is used, since these wavelengths are intermediate wavelengths as shown in Table 1, it is easy to identify, for example, an external electrode close to white or a black marker, for example. And the present invention can be made more effective.

[0015]

[Table 1]

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described, and features thereof will be described in more detail. FIG. 1 is a perspective view showing an inductor according to an embodiment of the present invention (a chip-type multilayer inductor in this embodiment), and FIG. 2 is an exploded perspective view schematically showing an internal structure thereof.

This inductor 1 has, as shown in FIG.
A base (chip body) 2 made of a glass-based material and having a coil-shaped internal conductor (coil conductor) 11 (FIG. 2) provided therein, and formed on both ends of the base 2 so as to conduct with the coil conductor 11. External electrodes 4a, 4b and coil conductor 1
In order to show the positional relationship between the start end and the end of 1, a marker 3 provided at a predetermined position on a predetermined surface (upper surface in FIG. 1) 2a of the base 2 is provided.

In this inductor 1, the marker 3 is black, and the other portion 5 of the surface 2a on which the marker 3 is formed is formed.
Is the white color of the non-colored glass-based material itself, which constitutes the surface layer 6 of the base 2, and the other portions 7 of the base
Is green. Further, the external electrodes 4a and 4b are formed by baking a conductive paste using metal powder as a conductor, and have a metallic color. Since the coil conductor 11 (FIG. 2) is formed in a predetermined pattern,
If one marker 3 can recognize one end (start end or end) of the coil conductor 11, the position of the other end (start end or end) can be recognized based on the positional relationship therewith.

Next, a method of manufacturing the inductor 1 will be described. First, a glass ceramic composition mainly composed of borosilicate glass (for example, SiO ₂ —B ₂ O ₃ —K ₂ O
(79% by weight of SiO _2, 19% by weight of B ₂ O ₃ , ₂ % by weight of K ₂ O) and 50% by weight of Al ₂ O ₃ as a ceramic) are mixed with water and a binder, and kneaded. To make a slurry. In addition, this glass-ceramic composition was prepared by adding a metal oxide as shown in Table 2 and calcining to obtain a predetermined color (red, yellow, green, blue,
Black).

[0020]

[Table 2]

In this embodiment, the slurry containing no metal oxide was mixed with the slurry so as to form a green color.
Oxides of _{O · Al 2 O 3 · Cr} 2 O 3 and a slurry was added in an amount of 0.3 to 10.0 wt%, as coloring in black, oxide mainly composed of CuO · Cr ₂ O ₃ 0.3 ~
And a slurry added at a rate of 10.0% by weight.

Then, the above-mentioned CoO.Al ₂ O ₃ .C
The added slurry oxides r ₂ O ₃ in a proportion of 0.3 to 10.0% by weight was molded into a sheet, a green sheet 12 which constitutes the main part of the base body (12a to 12g) (Fig. 2)
And

The slurry to which the metal oxide is not added is formed into a sheet to form a green sheet 13 (FIG. 2) for the surface layer 6 of the substrate 2 constituting the surface 2a on which the marker 3 is to be formed. .

Then, as shown in FIG. 2, a conductor pattern 11a for the coil conductor 11 is printed in a predetermined shape on the green sheets 12 (12b to 12f). In addition, in a predetermined position of the green sheet 12 (12b to 12f),
Through holes 19, 20, 21, 22 are formed, and the respective conductor patterns 11a are connected via the through holes 19, 20, 21, 22 to form the coil conductor 11. The uppermost and lowermost conductor patterns 11a are led out to the ends of the green sheets 12 (12b, 12f) by the lead electrodes 11b.

The surface layer 6 to which no metal oxide is added
The above-mentioned CuO.Cr ₂ O ₃
The marker pattern 3a is formed by printing a slurry containing 0.3 to 10.0% by weight of an oxide mainly composed of.

Then, the green sheet 12 (12
b to 12f) and a green sheet 12 (12a, 12g) for an outer layer sheet on which the conductor pattern 11a is not printed.
And the green sheet 13 for the surface layer 6 on which the marker pattern 3a is formed, pressed and baked under predetermined conditions to form the external electrodes 4a and 4b.
An inductor (multilayer inductor) 1 as shown in FIG. 1 is obtained.

FIG. 2 shows the internal structure of one inductor, but in an actual manufacturing process, usually,
A method is used in which a plurality of inductors are simultaneously manufactured by laminating, crimping, and cutting a green sheet (mother green sheet) on which a plurality of conductor patterns are formed.

In this embodiment, the green sheets 12 (12a to 12g) constituting the main part of the base 2 are C
Since oxides of _{oO · Al 2 O 3 · Cr} 2 O 3 is added to green color in the firing step, the green sheet 13 for the surface layer 6 is white and made of a firing step so no added metal oxide The marker pattern 3a is made of CuO.Cr ₂ O ₃
Since the oxide mainly containing is added, a black color is formed in the firing step to be the marker 3 (FIG. 1).

In the inductor 1 of this embodiment,
The main part of the substrate 2 made of a glass material is made of CoO.Al
_{Since the} green color is developed by adding the oxide of ₂ O ₃ · Cr ₂ O ₃ , the colors and brightness of the external electrodes 4 a and 4 b and the base 2 are greatly different, so that the two can be reliably distinguished. become.

The coil conductor 11 is provided on the upper surface 2a of the base 2.
Since the black marker 3 for indicating the positional relationship between the start end and the end is formed, it is possible to easily recognize the posture of the inductor 1 and improve the responsiveness to the directional alignment. In addition, in the inductor 1 of this embodiment, since the marker 3 is black, it is possible to increase the difference in wavelength from other colors, and it is possible to improve discrimination.

Although the color of the marker is preferably black as described above, in the present invention, the color of the marker is not necessarily limited to black. For example, CoO.nA
By printing and baking a slurry to which an oxide mainly composed of l ₂ O ₃ is added, a blue marker can be formed, and other colors can be obtained.

In the above embodiment, at the stage of the green sheet 13 for the surface layer 6, CuO.Cr ₂
By printing a slurry containing 0.3 to 10.0% by weight of an oxide mainly composed of O ₃ , the marker pattern 3 is printed.
a, but a green sheet 12 (12b to 12f) on which the conductor pattern 11a is formed, a green sheet 12 (12a, 12g) for an outer layer sheet,
After laminating the green sheet 13 for the surface layer 6, the marker pattern 3a may be printed on the surface of the green sheet 13 for the surface layer 6.

Further, in the above embodiment, the case where the surface layer 6 constituting the surface 2a on which the marker is formed is white, which is not colored, has been described.
As shown in a, the surface 2a on which the marker 3 is formed may have the same color as the other parts of the base. In this case, the ease of detection of the surface 2a on which the marker 3 is formed is somewhat impaired, but there is an advantage that the manufacturing process can be simplified. In FIG. 3,
1 are the same as those of the inductor 1 of FIG.

In other respects, the present invention is not limited to the above embodiment, but includes the shape of the base, the constituent material thereof, the specific shape of the internal conductor, the type of the conductive material forming the internal conductor, and the like. With respect to the above, various applications and modifications can be made within the scope of the invention.

[0035]

As described above, the inductor of the present invention has the following features.
Since at least a part of the base made of a glass-based material is colored to a predetermined color by adding a color-forming metal oxide, when an external electrode is formed, the color and lightness between the external electrode and the base are changed. The two can be surely distinguished by making them greatly different from each other. In addition, by making the color of a predetermined portion of the base different from that of the other portions, it is possible to easily determine the posture of the inductor from the outside, thereby improving the responsiveness to directional alignment and the like. Will be possible.

In the case where the substrate is formed using a white glass material as in the inductor of the second aspect, it is particularly difficult to distinguish the substrate from the external electrodes by a method such as image recognition. However, by adding a metal oxide for coloring to cause the substrate to develop a predetermined color, the distinction can be easily made, which is significant.

Further, when a marker having a color different from the color of the surface is formed on a predetermined surface of the base as in the inductor according to the third aspect, the posture of the inductor, for example, when the internal conductor is a coil. It is possible to easily recognize the start and end positions of the coil and the like, and it is possible to improve the responsiveness to the directional alignment.

Further, by making the marker black as in the inductor according to the fourth aspect, it is possible to increase the wavelength difference from other colors (colors of the base and the external electrodes), thereby improving the discrimination. Can be improved.

Further, as in the inductor according to the fifth aspect, the other surface of the base is colored and the surface on which the marker is formed is made white without being colored, so that the surface on which the marker is formed and the other surface are colored. By making the color and brightness of the surface largely different, it is possible to easily detect the surface on which the marker is formed in a mounting process or the like, and to improve the mounting efficiency.

When the color for coloring the substrate is at least one of yellow, green and blue as in the inductor according to claim 6, these wavelengths are intermediate wavelengths as shown in Table 1. Therefore, for example, it is possible to easily identify a white external electrode or a black marker, for example, and to make the present invention more effective.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an inductor according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view showing a structure of a main part of the inductor according to the embodiment of the present invention.

FIG. 3 is a perspective view showing an inductor according to another embodiment of the present invention.

FIG. 4 is a perspective view showing a conventional inductor.

[Explanation of symbols]

1, 1a Inductor 2 Base 2a Predetermined surface of base (surface on which marker is formed) 3 Marker 3a Marker pattern 4a, 4b External electrode 5 Other part of surface on which marker is formed 6 Surface layer 7 Other part of base DESCRIPTION OF SYMBOLS 11 Coil conductor 11a Conductor pattern which constitutes a coil conductor 11b Leader electrode 12 (12a to 12g) Ceramic green sheet 13 Green sheet for surface layer 19, 20, 21, 22 Through hole

Continuation of the front page (72) Inventor Yoshihiro Nishinaga 2-26-10 Tenjin, Nagaokakyo-shi, Kyoto Inside Murata Manufacturing Co., Ltd.

Claims (6)

[Claims] 1. A base made of a glass-based material, at least a part of which is colored to a predetermined color by adding a color-forming metal oxide; an internal conductor disposed in the base; An inductor, comprising: an external electrode disposed at a predetermined position on the base so as to be electrically connected to an internal conductor. 2. The method according to claim 1, wherein the base is formed using a white-based glass material, and at least a part of the base is colored to a predetermined color by adding a coloring metal oxide. The inductor according to claim 1. 3. The inductor according to claim 1, wherein a marker having a color different from the color of the surface is formed on a predetermined surface of the base. 4. The inductor according to claim 3, wherein the color of the marker is black. 5. The color of the surface of the substrate on which the marker is formed,
5. The inductor according to claim 3, wherein the inductor is white which is not colored. 6. The color-developed color is at least one of yellow, green, and blue.
The inductor according to any one of claims 1 to 5.