JP7180651B2 - Electronics and wrist devices - Google Patents

Description

The present invention relates to electronic devices and wrist devices.

2. Description of the Related Art Conventionally, electronic devices such as wristwatches are known to be capable of receiving satellite radio waves in order to acquire accurate time information, position information, and the like (see, for example, Patent Document 1).
In the electronic device described in Patent Document 1, a ring-shaped antenna is arranged on the top of the main body case (enclosure exterior in Patent Document 1), and the bottom surface of the main body case functions as a ground plane.

JP 2013-183437 A

However, the characteristics of the antenna are affected by the material, shape, arrangement, and the like of members arranged around it, such as the body case and GND.
Therefore, it has been difficult to function as an antenna having desired characteristics (frequency, gain).

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electronic device and a wrist device capable of realizing a good antenna.

In order to solve the above problems, an electronic device according to the present invention includes:
an antenna element formed in an annular shape;
a conductive portion having the same potential as GND;
a dielectric member interposed between the antenna element and the conductive portion;
a body case provided below the antenna element;
an exterior member covering at least a portion of the antenna element on the top of the body case;
with
The antenna element, the dielectric member, and the conductive portion are arranged so as to overlap each other in a plan view ,
The exterior member is insulated from the antenna element and fixed to the main body case with screws that are electrically connected to the conductive portion.

ADVANTAGE OF THE INVENTION According to this invention, it is effective in the ability to implement|achieve a favorable antenna.

1 is a perspective view showing a main part of a watch body, which is an electronic device according to a first embodiment; FIG. FIG. 2 is a side cross-sectional view of the watch body shown in FIG. 1; FIG. 10 is a perspective view showing a main part of a watch body in a modified example of the first embodiment; 4 is a side perspective view of the watch body shown in FIG. 3; FIG. FIG. 4 is a side sectional view of the watch body shown in FIG. 3; FIG. 4 is a cross-sectional perspective view of a main part of a modified example of the first embodiment; FIG. 10 is a cross-sectional perspective view showing the essential parts of a watch body, which is an electronic device according to a second embodiment; (a) is a cross-sectional perspective view showing a main part of a watch body showing a case where the inner diameter of the body case is larger than that shown in FIG. 7, and (b) is a body case further than that shown in (a). 1 is a cross-sectional perspective view showing a main part of a timepiece main body, showing a case where the inner diameter of the watch body is large; FIG. 7 is a graph showing trends in results of simulating changes in frequency and gain when the inner diameter of the main body case is changed; FIG. 3 is a perspective view of a main part showing variations in the shape of the dielectric member, in which (a) shows an example in which the dielectric member is formed in a ring shape similar to that of the antenna element, and (b) shows an example in which the dielectric member (c) shows an example in which a recess is formed in the inner periphery of the dielectric member, and (d) shows an example in which a separate member is attached to the recess shown in (c). ing. 5 is a graph showing trends in results of simulating changes in frequency and gain when the width of insulation by the dielectric member is changed. FIG. 4 is a side cross-sectional view showing an example in which an antenna element is fixed to a main body case made of a metal material; FIG. 13 is a side cross-sectional view showing an example of fixing structure of an antenna element, enlarging a region XIII surrounded by a dashed line in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12; FIG. 13 is a side sectional view showing a modified example of the fixing structure of the antenna element shown in FIG. 12;

[First Embodiment]
A first embodiment of an electronic device according to the present invention and a wrist device to which the electronic device is applied will be described with reference to FIGS. 1 and 2. FIG. In this embodiment, the electronic device is a watch body, and the wrist device is, for example, a watch (wristwatch) configured to be worn on the wrist by attaching a band to the watch body.
Although various technically desirable limitations are attached to the embodiments described below for carrying out the present invention, the scope of the present invention is not limited to the following embodiments and illustrated examples.

FIG. 1 is a perspective view showing the essential parts of a watch body, which is an electronic device according to this embodiment. 2 is a side sectional view of the watch main body shown in FIG.
As shown in FIGS. 1 and 2, the watch body 100 of the present embodiment is a case (hereinafter referred to as "main body case 1”). Note that the shape of the watch body 100 is not particularly limited.
In this embodiment, the body case 1 is made of hard resin such as ABS resin.
In addition, the material forming the main body case 1 is not limited to resin, and for example, various materials such as ceramics can be applied. Also, various composite materials obtained by kneading carbon filler, glass fiber, or the like with various resins may be used. By forming the body case 1 from such a composite material, the strength of the body case 1 can be improved.

A light-transmissive windshield member 2 made of transparent glass or the like is provided at the opening on the surface side (viewing side, upper side of the watch) of the main body case 1 so as to cover the opening.
A back cover 3 is attached to the back side of the body case 1 to close the opening. The back cover 3 may be made of the same material as the main body case 1, or may be made of a different material. For example, when the body case 1 is made of various resins, the back cover 3 may be made of metal.
In this embodiment, the back cover 3 is made of a conductor such as metal, and the back cover 3 made of metal functions as GND. That is, the rear cover 3 serves as a GND arranged below the antenna element 4, which will be described later.

An antenna element 4 that constitutes an antenna (for example, a patch antenna) is arranged on the upper portion of the main body case 1 . Thereby, the body case 1 is interposed between the antenna element 4 and the back cover 3 as GND. The antenna element 4 in this embodiment is a ring-shaped bezel member, and is configured to be in a state of resonance with radio waves of a desired frequency. Note that the shape of the antenna element 4 is not limited to the illustrated example.
The material forming the antenna element 4 is not particularly limited, but if the forming material has low conductivity (high resistivity), there is a possibility that sufficient antenna gain cannot be obtained. For this reason, it is preferable that the material forming the antenna element 4 is a metal material having a certain degree of electrical conductivity (that is, a certain degree of resistivity or less). For example, SUS (stainless steel), titanium, etc. Used. Since it is not preferable for the watch body 100 as an electronic device to be too heavy, it is preferable that the antenna element 4 be made of a material that is as light as possible.

When the antenna element 4 is arranged on the upper part of the body case 1, the material forming the body case 1 affects the antenna characteristics.
For example, when the body case 1 is made of a resin material, the antenna element 4 made of metal is placed on top of the body case 1, and the back cover 3 made of metal is used as GND. and the GND opposite thereto.
Resin is generally an insulator and also a dielectric with a dielectric constant. When the antenna element 4 is arranged on the upper part of the main body case 1 made of resin, the frequency, matching, circular polarization axial ratio, Circular polarization frequency and gain change.
Even so, if the main body case 1 is formed only of a resin material, it is possible to deal with it to some extent by adjusting the matching and arrangement. However, for example, when a conductive fiber, carbon filler, or the like is kneaded into a resin, there is a problem that loss occurs due to the resistance of the resin, which significantly reduces the gain of the antenna.

That is, when the antenna element 4 is arranged above the body case 1 , an electric field is generated from the antenna element 4 through the body case 1 so as to face GND (for example, the back cover 3 ). If the main body case 1 is made of a composite material in which carbon filler or the like is kneaded with resin, it is considered that the electric field passing through the main body case 1 at this time causes a loss.

In this regard, in this embodiment, the conductive portion 5 is provided at the upper portion of the main body case 1 and at a position facing the antenna element 4 . That is, in this embodiment, the conductive portion 5 is provided below the antenna element 4 and at least above the main body case 1 .
Thus, by arranging the conductive portion 5, which is a metal sheet or thin film, between the main body case 1 and the antenna element 4, it is possible to prevent the generated electric field from passing through a portion where loss occurs. Therefore, the sensitivity of the antenna including the antenna element 4 can be maintained by suppressing the occurrence of loss.
The conductive portion 5 is preferably made of a material having a resistance lower than that of the main body case 1 . Specifically, the material forming the conductive portion 5 is, for example, various metals, and preferably has as low a resistance as possible. Specifically, aluminum or the like is preferably applied. Note that the material for forming the conductive portion 5 is not limited to this, and various materials can be applied as long as they are low-resistance conductors.
The thickness of the conductive portion 5 is not particularly limited, and it may be a sheet-shaped member, a foil, or the like, or may be a thin film formed by various vapor deposition methods, plating, or the like.

Various materials are expected to be used for the body case 1 according to the application of the electronic device such as the watch body 100, and the performance of the antenna element 4 as an antenna depends on the material of the body case 1. I don't like it.
In this regard, by providing the conductive portion 5 at least in the upper part of the main body case 1 and arranging the conductive portion 5 between the main body case 1 and the antenna element 4, the influence of the main body case 1 below the conductive portion 5 is reduced to the antenna. It is possible to prevent the element 4 from being reached, and the flexibility of the material forming the main body case 1 is improved.

The conductive portion 5 may be provided at least on the upper portion (upper end surface) of the main body case 1 facing the main body case 1, but in the present embodiment, as shown in FIG. A conductive portion 5 is provided so as to cover from the upper portion to the inner surface of the main body case 1 . With such a configuration, it can be dropped to GND (for example, the back cover 3 functioning as GND) via the conductive portion 5 .
As a result, even when the antenna element 4 is arranged on the upper part of the main body case 1 made of resin, it is grounded through the conductive part 5, and the dielectric member 6 arranged between the antenna element 4 and the conductive part 5 is grounded. , the wavelength can be appropriately shortened, and the antenna element 4 can function as an antenna (patch antenna, etc.).

Also, the conductive portion 5 may be configured to cover the upper portion (upper end surface) of the main body case 1 to the inner surface of the main body case 1 and the inner surface of the back cover 3 that is the bottom surface. In this case also, it can be dropped to the back cover 3 functioning as GND via the conductive portion 5 .

However, if the antenna element 4 directly contacts the conductive portion 5, a short circuit will occur. Therefore, it is necessary to arrange an insulating member between the antenna element 4 and the conductive portion 5 . In this embodiment, a dielectric member 6 made of resin or the like is interposed between the conductive portion 5 and the antenna element 4 to prevent contact between the conductive portion 5 and the antenna element 4 .
The characteristics and shape of the dielectric member 6 are preferably set according to the functions required of the antenna element 4 . By adjusting the dielectric member 6 in this way, the antenna characteristics can be easily adjusted.

The dielectric member 6 is not particularly limited as long as it is made of an insulating material. For example, a resin having a high dielectric constant is applied.
For watches, it is important to keep the inside of the case watertight. Therefore, the dielectric member 6 may be configured to provide a watertight seal between the body case 1 and the antenna element 4 .
For example, when the conductive portion 5 is a thin film formed by vapor deposition or plating, the dielectric member 6 may be placed on the conductive portion 5 and pressed from above by the antenna element 4, which is a bezel.
Further, the conductive part 5 provided on the upper surface of the main body case 1 may not be provided to the outer peripheral edge, and the inside of the main body case 1 may be made watertight by the dielectric member 6 in the part where the conductive part 5 is not arranged.

The dielectric member 6 only needs to have a width sufficient to stably support the antenna element 4 so that the antenna element 4 does not come into contact with the conductive portion 5 . may not cover the entire range of
Moreover, if the dielectric member 6 is not particularly required to have a watertight function, the dielectric member 6 does not necessarily have to be provided over the entire circumference of the upper surface of the main body case 1 .

In addition, a substrate 7 having an electric circuit portion 71 is accommodated inside the body case 1 . The electric circuit unit 71 is, for example, a resonance circuit such as an LC circuit (not shown) mounted on the substrate 7, a detection IC, or the like.
Specifically, the substrate 7 is a resin substrate made of resin, for example, and the electric circuit section 71 is provided by forming a circuit pattern on the substrate 7 .
Antenna element 4 is connected to electric circuit section 71 of substrate 7 by first connector 73 . The first connector 73 may be composed of, for example, a coil spring.

The first connector 73 is contact means for feeding power, and the antenna element 4 is connected via the first connector 73 to, for example, an LC circuit or the like as the electrical circuit section 71 mounted on the substrate 7 .
A second connector 74 is connected from the antenna element 4 to the electric circuit portion 71 of the substrate 7 . A connector member 75 is provided on the lower surface side of the substrate 7 for electrically connecting the substrate 7 to the back cover 3 as GND and grounding it to GND.
When the conductive portion 5 is also provided on the inner side surface of the main body case 1 as in the present embodiment, it is possible to drop it to GND without necessarily providing the connector member 75. , the connector member 75 may be arranged at a predetermined position.

Although illustration is omitted, various members other than the substrate 7 are accommodated in the body case 1 .
As the members accommodated in the main body case 1, for example, a display unit constituting a display section (not shown) of the watch main body 100, a module for operating each part of the watch main body, and the like are assumed.

Next, the action of the watch main body as an electronic device will be described.

When forming the watch body 100 of this embodiment, first, the conductive portion 5 is provided by arranging a conductive foil or sheet or forming a thin film from the upper end surface to the inner surface of the main body case 1 . Then, a back cover 3 made of metal that functions as GND is attached to the opening on the back side of the main body case 1 so as to cover the opening. The back cover 3 as GND is electrically connected to the conductive portion 5 .
Also, the substrate 7 and the like on which the electric circuit portion 71 is mounted are accommodated in the body case 1 . A connector member 75 is arranged between the substrate 7 and the back cover 3 to electrically connect the substrate 7 and the back cover 3 .

An antenna element 4 such as a bezel made of metal is arranged on the upper part of the main body case 1 and above the conductive part 5 . A first connector 73 for power feeding and a second connector 74 for GND are connected to the antenna element 4 , and the antenna element 4 is connected to the substrate 7 via the first connector 73 and the second connector 74 . connected with Thereby, the antenna element 4 is electrically connected to the back cover 3 as GND.
A dielectric member 6 is provided between the antenna element 4 and the conductive portion 5 so that the conductive portion 5 and the antenna element 7 do not come into contact with each other.
Further, a windshield member 2 is attached so as to cover the opening on the surface side of the main body case 1. - 特許庁

When power is supplied to the antenna element 4 and the antenna element 4 functions as an antenna, if there is no conductive portion connected to the GND, the antenna element 4 faces the GND (for example, the back cover 3) through the main body case 1. An electric field is generated at As described above, when the body case 1 is interposed between the antenna element 4 and GND, if an electric field passes through the body case 1, a large loss may occur depending on the material forming the body case 1. FIG.
In this regard, by providing the conductive portion 5 between the main body case 1 and the antenna element 4 as in the present embodiment, the generated electric field can be prevented from passing through the main body case 1, resulting in generation of loss. can be suppressed.

As described above, according to the present embodiment, the watch body 100 as an electronic device includes the annular antenna element 4, the conductive portion 5 made of a conductor and having the same potential as GND, and the antenna element 4. and a dielectric member 6 interposed between the antenna element 4 and the conductive portion 5, and the antenna element 4, the dielectric member 6, and the conductive portion 5 are arranged so as to overlap each other in plan view.
As a specific configuration in this embodiment, the watch body 100 includes the antenna element 4, the body case 1 provided below the antenna element 4, and the body case 1 below the antenna element 4 and above the body case 1. a conductive portion 5 provided in the , a dielectric member 6 interposed between the conductive portion 5 and the antenna element 4 and preventing contact between the conductive portion 5 and the antenna element 4, and an electrical connection between the antenna element 4 and the conductive portion 5 and a back cover 3 functioning as GND connected to.
The characteristics of the antenna are affected by the material, shape, arrangement, etc., of the members arranged around it, such as the main body case and GND. In other words, various peripheral members are made of metal, resin, composite material, etc., and these materials have various properties such as conductors, insulators, dielectrics, and magnetics. Modulus, permeability, loss (tan δ), conductivity and their anisotropy affect antenna properties.
The body case 1 and the like may be made of various materials such as various metals and resins, and different materials have different properties.
For this reason, when the antenna element 4 is provided on the upper part of the body case 1 or the like, the antenna characteristics are influenced by the material constituting the body case 1. There is a problem that the antenna cannot be used for general purposes because it is necessary to adjust each antenna.
In this regard, if the configuration of the present embodiment is used, for example, when the body case 1 is formed of a composite material in which carbon filler or the like is kneaded with resin, the electric field generated from the antenna element 4 is The electric field can be kept from passing through the main body case 1 even if the main body case 1 is made of a material that causes a large loss when passing through the main body case 1 .
Therefore, it is possible to suppress the influence of the material properties of the main body case 1 and realize a high-gain antenna. That is, regardless of the material forming the main body case 1, it is possible to suppress the occurrence of loss and maintain the sensitivity of the antenna provided with the antenna element 4. FIG. As a result, the degree of freedom in selecting the materials for forming the body case 1 is increased, and the watch body 100 can be enjoyed with a wide variety of appearances and textures.

Further, in the present embodiment, the conductive portion 5 is a conductive film provided on at least part of the upper surface and inner surface of the body case 1 .
In this way, when the conductive portion 5 is made of a conductive film, the conductive portion 5 can be easily formed by means of vapor deposition, plating, or the like.
When the conductive portion 5 is provided so as to cover the inner surface of the main body case 1, the conductive portion 5 can be dropped to GND (for example, the back cover 3 functioning as GND).

Further, when the characteristics and shape of the dielectric member 6 are set according to the antenna function required for the antenna element 4 as in this embodiment, the shape of the main body case 1, for example, does not have to be changed. Also, desired antenna characteristics can be obtained only by adjusting the dielectric member 6 .

Further, the dielectric member 6 may also serve as sealing means for making the inside of the main body case 1 watertight. That is, since the dielectric member 6 is a member made of resin or the like, it can be used as a sealing means by forming it into a shape like a waterproof packing.
In this case, the inside of the main body case can be made watertight by using a member for preventing a short circuit between the antenna element 4 and the conductive portion 5 without providing a separate member.

Further, when such a watch body 100 is applied to a wrist device such as a wrist watch, the main body case 1 can be formed from various materials, so that the degree of freedom in design is increased, and the wrist watch is rich in design. equipment can be realized.
Moreover, good antenna characteristics can be maintained regardless of the material of the main body case 1 .

In this embodiment, the antenna element 4 is arranged on the upper part of the main body case 1, but an exterior member may be provided on the upper part of the main body case 1 to cover at least a part of the antenna element 4, for example.
3 to 5 show configuration examples of a watch main body as an electronic device provided with an exterior member.
3 is a perspective view of a watch main body having an exterior member as seen from the upper side, FIG. 4 is a perspective view of the watch main body shown in FIG. 3 as seen from the side, and FIG. 4 is a watch shown in FIG. Fig. 4 is a side cross-sectional view of the main body;
In FIGS. 3 to 5, members that are the same as those in FIGS. 1 and 2 are denoted by the same reference numerals, and description thereof will be omitted.

As shown in FIG. 3, the watch body 200 in this case has an exterior member 8 that is formed in a substantially annular shape. The example shown in FIG. 3 and the like illustrates the case where the exterior member 8 covers the entire antenna element 4 .
The exterior member 8 has an annular member main body 81 arranged so as to cover the antenna element 4 formed in a substantially annular shape, and a hanging portion 82 vertically provided from the outer peripheral edge of the member main body 81 . there is
The exterior member 8 is made of resin or the like, for example, and by arranging its color and texture, it is possible to realize the timepiece body 200 with excellent design.

As shown in FIGS. 3 to 5, the exterior member 8 covers the antenna element 4 and the dielectric member 6 so that they are not visible from the outside.
That is, as shown in FIGS. 4 and 5, the vertical portion 82 of the exterior member 8 is arranged so as to cover the antenna element 4, the conductive portion 5, and the dielectric member 6 interposed therebetween. Therefore, it is possible to prevent the antenna element 4, the conductive portion 5 and the dielectric member 6 from being seen from the outer surface, and it is possible to realize an excellent appearance.

In the example shown in FIGS. 4 and 5 , the vertical portion 82 of the exterior member 8 is configured such that its outer peripheral surface is substantially flush with the outer peripheral surface of the main body case 1 .
Specifically, as shown in FIG. 5, a stepped portion 11 is formed in which the outer peripheral end of the upper end face of the main body case 1 is one step lower than the portion near the central portion in the radial direction. 82 can be accommodated.
With this configuration, the appearance is excellent, and since there is no step between the main body case 1 and the exterior member 8, it is difficult for dirt and the like to accumulate.

As shown in FIG. 5, a waterproof O-ring 61 or the like may be provided separately from the dielectric member 6 to make the inside of the main body case 1 watertight. In this case, the conductive portion is provided only up to at least the inside of the position where the O-ring 61 is provided.
Thereby, a more reliable watertight structure can be realized.

3 to 5, the antenna element 41 (metallic bezel) has a cylindrical portion 411 and a flange portion 412 projecting outward from the lower end of the cylindrical portion 411. As shown in FIGS.
The inner diameter of the cylindrical portion 411 is substantially the same as the inner diameter of the main body case. The windshield member 2 is fitted inside the tubular portion 411 .
The method of attaching the windshield member 2 is not particularly limited. A sealing member may be provided between the windshield member 2 and the inner peripheral surface of the cylindrical portion 411 .
By fixing the windshield member 2 by press-fitting the antenna element 41 made of a metal material into the tubular portion 411, a stronger fixation can be realized.

Further, the flange portion 412 is arranged to face the upper portion (upper end surface) of the main body case 1 where the conductive portion 5 is arranged. A dielectric member 6 is arranged between the lower surface of the flange portion 412 and the conductive portion 5 to prevent the flange portion 412 of the antenna element 41 from coming into contact with the conductive portion 5 .

A plurality of through holes 83 are formed in the member main body 81 of the exterior member 8 along the circumferential direction. is inserted.
The exterior member 8 is screwed and fixed to the main body case 1 while being insulated from the antenna element 41 .
That is, if the screw 84 is made of a metal material, it short-circuits when it comes into contact with the antenna element 41 .
For this reason, for example, a through hole (not shown) larger than the through hole 83 is formed in the antenna element 41, and a ring member or the like made of an insulator is mounted inside the through hole and screwed. conduct. As a result, the antenna element 41 does not come into contact with the screws 84 even when the screws 84 are made of metal, and the exterior member 8 to the main body case 1 can be fixed without causing a short circuit.

Note that the exterior member 8 may be fixed with screws so as to be insulated from the antenna element 41 and electrically connected to the conductive portion 5 . In this case, the conductive portion 5 is provided with an insertion hole large enough to contact the screw 84 , and the screw 84 is inserted into the insertion hole of the conductive portion 5 so that the screw 84 comes into contact with the conductive portion 5 to provide electrical continuity. do.
In such a configuration, the metal screw 84 can be GND.

Furthermore, in this embodiment, the case where one dielectric member 6 is provided as an integral unit has been exemplified, but the configuration of the dielectric member 6 is not limited to this.
For example, as in a watch body 300 shown in FIG. 6, the dielectric member 60 may be divided into two members, a first dielectric member 61 and a second dielectric member 62 . In the illustrated example, the first dielectric member 61 is arranged in contact with the upper portion of the body case 1 , and the second dielectric member 62 is arranged in contact with the inner peripheral surface of the upper end portion of the body case 1 .

In the example shown in FIG. 6, a metallic bezel, which is the antenna element 42, is vertically installed from the main body portion 421 arranged opposite to the upper portion (upper end surface) of the main body case 1 and from the edge of the inner peripheral side of the main body portion 421. and a second vertically provided portion 423 vertically provided from the edge of the outer peripheral side of the main body portion 421 .
In this case, the first dielectric member 61 is interposed between the conductive portion 5 arranged on the upper portion of the main body case 1 and the antenna element 42 (the main body portion 421 of the antenna element 42) so that the two come into contact with each other. prevent this from happening.
The first dielectric member 61 may also function as a sealing member that keeps the inside of the main body case 1 watertight.
The first dielectric member 61 only needs to have a width sufficient to stably support the antenna element 42 so that the antenna element 42 does not come into contact with the conductive portion 5, and is necessarily arranged above the main body case 1. It does not have to cover the entire range of the conductive portion 5 .
Further, when the first dielectric member 61 is not particularly required to have a watertight function, the first dielectric member 61 does not necessarily have to be provided over the entire circumference of the upper surface of the main body case 1 . .

The second dielectric member 62 is interposed between the conductive portion 5 arranged on the inner surface of the main body case 1 and the antenna element 42 (the first vertical portion 422 of the antenna element 42). prevent contact.
Also, the second dielectric member 62 may function as a member that adjusts the characteristics of the antenna element 42 as an antenna.
In this case, desired antenna characteristics can be achieved by changing the size (cross-sectional area, thickness, width, etc.) and shape of the second dielectric member 62 .

In the example shown in FIG. 6, slits 424 are provided at predetermined intervals in the first vertical portion 422 of the antenna element 42 .
The antenna element 42 has an inward flange 425 projecting radially inward, and the windshield member 2 is arranged on the inward flange 425 .
The antenna element 42 is press-fitted and fixed to the main body case 1 in this state, and can be smoothly press-fitted when the slit 424 is formed.
Further, by forming the slit 424, it is possible to prevent the bite portion between the antenna element 42 (bezel) and the main body case 1 from operating as an unnecessary antenna element.

Although not shown in the drawings, a first positioning portion is provided at a portion of the body case 1 where the conductive portion 5 is not provided, and the antenna element 4 is attached to the first positioning portion when the antenna element 4 is attached to the body case 1. A second positioning portion that fits with the first positioning portion may be provided at a corresponding position.
Thereby, the antenna element 4 can be arranged with respect to the main body case 1 without being displaced.

In the present embodiment, the back cover 3, which is arranged below the antenna element 4 with the main body case 1 interposed therebetween, is made of a conductor such as metal, and functions as GND. It is not limited to the lid 3.
For example, if the substrate 7, which is housed in the main body case, or the dial plate of the display unit (not shown) is formed of a metal material or the like, the substrate 7, the dial plate, or the like may function as GND.
Also, if the watch main body, which is an electronic device, is provided with a solar panel (not shown), the solar panel may function as GND.
Alternatively, the GND terminal of the electric circuit portion 71 in the body case 1 may be directly connected to the conductive portion 5 on the top of the body case 1 .
The position of the GND is not particularly limited, and depending on the member functioning as the GND, the GND may not be arranged below the antenna element 4 and the body case 1 intervenes between the antenna element 4 and the GND. and such cases are also included.

[Second embodiment]
Next, a second embodiment of an electronic device and a wrist device including the electronic device according to the present invention will be described with reference to FIGS. 7 to 22. FIG. In the first embodiment, the body case 1 is made of a resin material or the like. Different from the embodiment. In the following, points different from the first embodiment will be described.
7 to 22, members that are the same as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.

FIG. 7 is a cross-sectional perspective view showing the main part of the watch body, which is the electronic device according to the embodiment. Note that FIG. 7 omits illustration of the windshield member 2 and the like among the members that make up the main body of the timepiece.
As shown in FIG. 7, the watch main body of this embodiment includes a main body case 10 formed in the shape of a hollow short column that opens upward and downward in the thickness direction (front and back of the watch) in the same manner as in the first embodiment. ing. The watch body (body case 10 of the watch body) has a substantially annular shape when viewed from above. Note that the term “annular” as used herein includes not only a circular ring in a plan view, but also elliptical and rectangular shapes that are continuous. The shape of the watch main body (main body case 10 of the watch main body) is not particularly limited.
In this embodiment, the body case 10 is made of a metal material such as SUS or titanium. Note that the material forming the main body case 10 is not limited to those exemplified here.
In the present embodiment, an example will be described in which the body case 10 is made of a conductor such as metal, and the body case 10 made of metal functions as a conductive portion having the same potential as GND.

A windshield member (not shown) is provided to cover the opening on the front side of the main body case 10 (viewing side, upper side of the watch), and a backing that closes the opening is provided on the back side of the main body case 10. A lid 3 is attached. The back cover 3 may be made of the same material as the body case 10, or may be made of a different material. For example, when the body case 1 is made of a metal material, the back cover 3 may be made of various resins.

Note that when the body case 10 is made of a metal material as in the present embodiment, the body case 10 itself serves as a conductive portion, and there is no need to separately provide the conductive portion of the first embodiment. However, even in this case, the conductive portion shown in the first embodiment may be provided separately. In this case, the conductive portion is made of a metal having a resistance lower than that of the main body case 1 . That is, for example, when the body case 1 is made of SUS, titanium, or the like, the conductive portion is made of aluminum or the like. As a result, the effect of reducing the loss as an antenna can be expected compared to the case where the conductive portion (that is, the thin film of aluminum or the like) is not provided, and an antenna with higher sensitivity can be realized.

An antenna element 43 that constitutes an antenna (for example, a patch antenna) is arranged on the upper portion of the main body case 1 . The antenna element 43 in this embodiment is a ring-shaped bezel member, as in the first embodiment, and is configured to resonate with radio waves of a desired frequency.
Note that the shape of the antenna element 43 is not limited to the illustrated example.
Further, since the materials and the like for forming the antenna element 43 are the same as those in the first embodiment, the description thereof will be omitted.

A connector member 77 for dropping from the antenna element 43 to the body case 10 as GND is provided.
When the main body case 10 itself is a conductive part as in this embodiment, it can be grounded without necessarily providing the connector member 77, but the connector member 77 is placed at a predetermined position for further stability. Arrangement is preferred.
The connector member 77 is connected to the substrate 7 (circuit board) serving as GND via electronic components 711 such as a 0Ω resistor (R), a coil (L), and a capacitor (C). The GND to which the connector member 77 is connected does not necessarily have to be a circuit board, but it is preferable to connect via a coil (L) or a capacitor (C) because it facilitates obtaining characteristics.
Note that the connection of the connector 77 may be open.

In this embodiment, the main body case 10 on which the antenna element 43 is arranged is a conductive part having the same potential as GND as described above.
Therefore, when the antenna element 43 is arranged on the upper part of the body case 10 made of metal, it can be dropped to GND through the body case 10 .
However, if the antenna element 43 directly contacts the body case 10, which is a conductive portion, a short circuit will occur. Therefore, it is necessary to dispose an insulating member between the antenna element 43 and the main body case 10 . In this regard, in this embodiment, as in the first embodiment, a dielectric member 63 made of resin or the like is interposed between the main body case 10 and the antenna element 43 to prevent contact between the main body case 10 and the antenna element 43 . configured to prevent

In this embodiment, it is preferable that the dielectric member 63 is formed in substantially the same ring shape as the ring-shaped antenna element 43 and overlaps the antenna element 43 as shown in FIG.
Thus, in this embodiment, the antenna element 43 formed in a ring shape, the body case 10 functioning as a conductive portion having the same potential as GND, and the dielectric member 63 interposed between the antenna element 43 and the body case 10 are provided. , the antenna element 43, the dielectric member 63, and the body case 10 overlap each other in plan view.
The dielectric member 63 only needs to have a width sufficient to stably support the antenna element 43 so that the antenna element 43 does not come into contact with the main body case 10, and does not necessarily have to have the same shape as the antenna element 43 and overlap. .

The dielectric member 63 is not particularly limited as long as it is made of an insulating material. For example, a resin having a high dielectric constant is applied. It is preferable that the material, shape, etc. of the dielectric member 63 are set according to the function required for the antenna constituted by the antenna element 43 . By providing the dielectric member 63, suitable wavelength shortening or the like can be generated, and the antenna element 43 can be made to function as an antenna (patch antenna or the like).

Moreover, the dielectric member 63 preferably functions as a waterproof packing (sealing means) between the main body case 10 and the antenna element 43 to keep the inside of the main body case 10 watertight.
In this case, the inside of main body case 10 can be made watertight by using a member for preventing a short circuit between antenna element 43 and main body case 10, which is a conductive portion, without providing a separate member.
Note that the dielectric member 63 does not necessarily have to be provided over the entire circumference of the upper surface of the main body case 10 when the dielectric member 63 is not particularly required to function as a packing that maintains watertightness.

Further, the substrate 7 having the electric circuit portion 71 is housed inside the main body case 10 as in the first embodiment. The antenna element 43 is connected to the electric circuit portion 71 of the substrate 7 by a first connector 73 .
The first connector 73 is a contact means for power supply, and the antenna element 43 is connected via the first connector 73 to, for example, an LC circuit or the like as the electric circuit section 71 mounted on the substrate 7 .
The substrate 7 is arranged on the back cover 3 via spacers 76 and the like.

As in the present embodiment, when the antenna element 43 is formed above the main body case 10 made of a metal material with the dielectric member 63 interposed therebetween, the antenna characteristics (gain and frequency) can be adjusted.
Here, adjustment of characteristics such as the frequency and gain of the antenna when the main body case 10 is made of a metal material will be described with reference to FIGS. 7 to 11. FIG.
Note that the graphs shown in FIGS. 9 and 11 show the results of simulation, and are different from actual measurements.

In FIG. 7, the antenna element 43 and the dielectric member 63 are arranged on the upper surface of the body case 10 along the inner peripheral edge of the opening of the body case 10 .
In the example shown in FIG. 7, the radial width dimension of the antenna element 43 (the antenna element 43a and the dielectric member 63a overlapping it) is about half the radial width dimension of the upper surface of the main body case 10. .
In the example shown in FIG. 7, the entire antenna element 43a is placed on top of the body case 10 so as to overlap. In addition, the area of the portion where the antenna element 43a and the main body case 10 overlap and the area of the non-overlapping portion of the upper portion of the main body case 10 are substantially equal.

On the other hand, in the example shown in FIG. 8A, the inner diameter of the body case 10 is larger than in the case shown in FIG. As the inner diameter of the body case 10 increases, the inner peripheral side of the antenna element 43 (the antenna element 43b and the dielectric member 63b overlapping the antenna element 43b) is in contact with the upper surface of the body case 10 by about half the width of the antenna element 43c. Instead, it is in a floating state.
In the example shown in FIG. 8(b), the inner diameter of the main body case 10 is even larger than in the case shown in FIG. 8(a). Most of the antenna element 43 (the antenna element 43c and the dielectric member 63c overlapping the antenna element 43c) does not contact the upper surface of the main body case 10 and is in a floating state.

FIG. 9 shows the results of simulating the changing tendencies of the antenna characteristics when the inner diameter of the body case 10 is changed and the thickness of the body case 10 in the circumferential direction is reduced.
In FIG. 9, the vertical axis on the left side of the graph represents frequency (GHz), the vertical axis on the right side represents gain (dBc), and the horizontal axis represents the inner diameter (mm) of the main body case.
In the graph, the solid line indicates the trend of frequency change, and the dashed line indicates the trend of gain change. In the example shown in FIG. 9, the results of a simulation using two types of dielectric members 64, "A" and "B", having different dielectric constants, the solid line indicates the trend of frequency change, and the dashed line indicates frequency change. showing a trend.

As shown in FIG. 9, in the simulation, the frequency tends to increase as the inner diameter of the body case 10 increases, and the gain tended to improve.
This indicates that the characteristics (frequency and gain) of the antenna realized with the antenna element 43 can be adjusted by changing the overlapping area of the main body case 10, the antenna element 43 and the dielectric member 64. there is
Specifically, the width (area) of the portion where the antenna element 43 and the dielectric member 64 overlap is greater than the width (area) of the portion where the antenna element 43 and the dielectric member 64 do not overlap when viewed in terms of the width in the radial direction in the upper portion of the main body case 10 . decreases, the frequency of the antenna realized with the antenna element 43 tends to increase and the gain tends to improve.

From the viewpoint of changing the antenna characteristics by changing the distance between the main body case 10 and the antenna element 43, other than changing the inner diameter of the main body case 10, forming an inner groove on the inner surface of the main body case 10, etc. Adjustments such as increasing the distance from the antenna element 43 arranged on the upper part of the main body case 10 may be considered. If the inner surface of the main body case 10 can be kept away from the antenna element 43 by forming an inner groove or the like, it is considered that the same effect as when the inner diameter of the main body case 10 is increased can be obtained.
Although not shown, similarly, from the viewpoint of changing the distance between the main body case 10 and the antenna element 43, the smaller the inner diameter of the antenna element 43, which is the bezel member, the higher the gain, and the larger the inner diameter of the antenna element 43. There is a tendency for the gain to decrease as the distance to the main body case 10 increases.
When the windshield member 2 is fixed by the antenna element 43, which is a bezel member, increasing the diameter of the windshield member 2 increases the inner diameter of the antenna element 43, thereby reducing the gain of the antenna. In this case, if the inner diameter of the antenna element 43 is increased without changing the outer diameter of the antenna element 43 to correspond to the diameter of the windshield member 2, the width of the antenna element 43 in the radial direction becomes narrower. Therefore, in this case, the gain tends to decrease but the frequency tends to increase.

Although illustration is omitted, even if the outer diameter of the main body case 10 was changed, no significant change was observed in both the frequency and the gain of the antenna.
Also, when the height of the main body case 10 (the distance from the substrate 7 to the back cover 3) is changed, the frequency does not change significantly, but the gain of the antenna increases with the height of the main body case 10. There was a tendency to improve (sensitivity improved).
Also, when the outer diameter of the antenna element 43 was changed, there was a tendency that the larger the outer shape, the larger the size of the antenna element 43 and the lower the frequency. Note that no significant change in gain was observed.
In addition, when GND was set to the substrate 7, the simulation was performed by changing this GND diameter. However, when the main body case 10 is made of a metal case as in this embodiment, both the frequency and the gain change almost. was not seen.

In addition, in this embodiment, a dielectric member is provided between the antenna element 43 and the body case 10 as a conductive portion. Therefore, the characteristics of the antenna realized with the antenna element 43 may be adjusted by changing the shape of the dielectric member.
Here, the adjustment of characteristics such as the frequency and gain of the antenna by changing the shape of the dielectric member will be described with reference to FIGS. 10(a) to 10(d) and FIG.
10(a) to 10(d) are perspective views of essential parts showing variations in the shape of the dielectric member. In FIGS. 10(a) to 10(d), the antenna element 43 is shown with a two-dot chain line for easy viewing of the dielectric member, and the lead line is also shown with a two-dot chain line.

FIG. 10( a ) illustrates a case where the dielectric member 64 ( 64 a ) is formed in an annular shape having substantially the same shape as the antenna element 43 . In this case, the dielectric member 64a has no discontinuity or the like, and is in contact with the antenna element 43 over the entire radial width (for example, 2.0 mm) of the dielectric member 64a. In this case, the remaining insulation width, which is the width in which the antenna element 43 and the main body case 10 as the conductive portion are in an insulated state, is 2.0 mm.
On the other hand, FIG. 10(b) shows a case where the dielectric member 64 (64b) is arranged in a ring substantially corresponding to the antenna element 43, but divided into a plurality of parts. In this case, the divided portion 640 of the dielectric member 64b is not in contact with the antenna element 43. FIG. Therefore, in this case, the remaining insulation width, which is the width in which the antenna element 43 and the main body case 10 as the conductive portion are in an insulated state, is "0 mm".
Also, FIG. 10(c) illustrates a case where the dielectric member 64 (64c) is formed in an annular shape having substantially the same shape as the antenna element 43, but is partially provided with a concave portion 641. FIG. The positions and number of recesses are appropriately set. When the recess 641 is provided, the dielectric member 64c is in contact with the antenna element 43 with a width smaller than the radial width (for example, 2.0 mm) of the dielectric member 64a in the recess 641, and the antenna element 43 and the conductive portion are in contact with each other. The remaining insulation width, which is the width in which the main body case 10 is in an insulated state, is about 1.2 mm.

FIG. 11 shows the change tendency of the antenna characteristics when the simulation is performed by changing the remaining insulation width of the dielectric member 64 in this way.
In FIG. 11, similarly to the graph shown in FIG. 9, the vertical axis on the left side of the graph represents frequency (GHz), the vertical axis on the right side represents gain (dBc), and the horizontal axis represents residual insulation width (mm). there is
Also, in the graph, the solid line indicates the change in frequency, and the dashed line indicates the change in gain.

As shown in FIG. 11, in the simulation, the frequency tended to decrease as the residual insulation width increased. As for the gain, a slight change was observed depending on the residual insulation width.

When the remaining insulation width of the dielectric member 64 was changed, neither the frequency nor the gain were dramatically changed, but it was confirmed that a constant change was obtained.
The shape of the dielectric member 64 does not appear on the exterior of the watch body. In particular, when changing the shape of the dielectric member 64 in the surface direction, such as when changing the remaining insulation width, the shape can be changed relatively easily without affecting the design. Therefore, it can be said that this method is effective as a technique for adjusting the antenna to a desired frequency and gain.

Note that the method for changing the shape of the dielectric member 64 is not limited to this.
For example, FIG. 10C illustrates the case where the recess 641 is formed on the inner peripheral surface of the dielectric member 64, but the recess may be formed on the outer peripheral surface of the dielectric member 64, or may be formed on the inner peripheral surface. It may be formed on both of the outer peripheral surfaces.
Also, the shape of the recess may be various shapes such as a rectangular notch, a semicircular notch, and the like. Also, the shape of the recess may be a combination of various shapes.

Further, as shown in FIG. 10(d), a second dielectric member 642 having a dielectric constant different from that of the body portion of the dielectric member 64 is mounted in the concave portion 641 as shown in FIG. 10(c). good too. A method for mounting the second dielectric member 642 is not particularly limited. The second dielectric members 642 may not be mounted in all the recesses 641, nor may they all be of the same type.
When the second dielectric member 642 is mounted as a separate member in the concave portion 641, the number, size, and type (dielectric constant) of the second dielectric member 642 are appropriately changed so that the antenna can obtain a desired frequency and gain. It is possible to make fine adjustments so that
As a result, the dielectric member 64d has no gaps or unevenness as a whole. is thought to be affected. Therefore, it is effective as a method for adjusting frequency and gain.
Note that FIG. 10D shows an example in which the second dielectric member 642 having a different dielectric constant is attached in the in-plane direction of the dielectric member 64, but the arrangement of the second dielectric member having a different dielectric constant is not limited to this. For example, a second dielectric member having a different dielectric constant may be provided in the stacking direction of the dielectric member 64 .

In addition, although illustration is omitted, for example, it is conceivable to change the thickness of the dielectric member 64 in the height direction. As a result of the simulation, as the thickness of the dielectric member 64 increases, the frequency increases and the gain improved.
It is considered to be one of the effective adjustment methods if it is possible to adopt it from the viewpoint of the design and appearance of the watch.

As described above, there are various elements for adjusting the characteristics (frequency and gain) of the antenna realized by providing the antenna element 43, but when adjusting the inner diameter of the main body case 10, the shape of the dielectric member, etc. (especially The shape of the dielectric member in the surface direction) affects the frequency and gain of the antenna, and has relatively little effect on the appearance and design of the watch body. Therefore, it can be said that it is effective as a technique for adjusting to a desired frequency and gain.

It should be noted that when the body case 1 is made of resin as in the first embodiment, the antenna element (metal bezel) is fixed by being press-fitted into the body case 1, for example. When the body case 10 is a metal case as in this embodiment, it can be fixed by various methods as shown in FIGS. 12 to 22, for example. 12 to 22, the same members as those shown in FIG. 7, etc. of the present embodiment are denoted by the same reference numerals, and descriptions thereof are omitted. The method described below is an example, and the method of fixing the antenna element (metallic bezel) is not limited to this.

FIG. 12 is a side cross-sectional view showing an example of fixing an antenna element to a main body case made of a metal material, and FIG. 13 is an example of fixing structure of an antenna element by enlarging an area XIII surrounded by a dashed line in FIG. It is a side cross-sectional view showing the.
As shown in FIGS. 12 and 13, when fixing the antenna element 45 (metallic bezel) to the metallic body case 10, it is fitted into the opening of the body case 10 via the dielectric member 65. FIG.

In the example shown in FIG. 13, a cylindrical portion 450 in which the antenna element 45 is formed in a cylindrical shape, a flange portion 451 projecting outward from the upper portion of the cylindrical portion 450, and a and a blindfold portion 452 provided. The windshield member 2 is mounted inside the tubular portion 450 .
In addition, the dielectric member 65 includes a dielectric body portion 651 arranged between the lower surface of the flange portion 451 of the antenna element 45 and the upper surface of the main body case 10, and a dielectric body portion 651 extending from the inner end surface to the inner peripheral surface of the dielectric body portion 651. A tubular portion 652 protrudes downward along the antenna element 45 and is arranged between the outer peripheral surface of the tubular portion 450 of the antenna element 45 and the upper inner peripheral surface of the main body case 10 .

In this example, the dielectric member 65 can be deformed with some elasticity to generate stress to fix the antenna element 45, and is made of various resins.
The antenna element 45 is press-fitted into the body case 10 via a dielectric member 65 , and the dielectric member 65 functions as a waterproof packing (sealing member) that makes the inside of the body case 10 watertight.
If the dielectric member 65 is configured to also serve as a waterproof packing (sealing member) in this way, there is no need to separately provide a waterproof packing (sealing member) such as an O-ring for watertightness, and the number of parts can be reduced. can be done.

FIG. 14 is a side cross-sectional view showing a modification of the antenna element fixing structure shown in FIGS. 12 and 13, which differs in the structure of the dielectric member.
In the configuration shown in FIG. 14, the dielectric member 66 is made of various hard resins that are difficult to deform. and a dielectric body portion 661 that protrudes downward along the inner peripheral surface from the inner end surface of the dielectric body portion 661 and is arranged between the outer peripheral surface of the tubular portion 450 of the antenna element 45 and the upper inner peripheral surface of the main body case 10 . and a tubular portion 662 that

Threaded portions 663 are formed on the inner and outer peripheral surfaces of the cylindrical portion 662 .
A threaded portion 453 that meshes with the threaded portion 663 formed on the inner peripheral surface of the cylindrical portion 662 is formed on the outer peripheral surface of the tubular portion 450 of the antenna element 45 , and the threaded portion 453 on the side of the antenna element 45 and the dielectric are formed. The threaded portion 663 on the side of the body member 66 is engaged.
A threaded portion 101 is formed on the inner peripheral surface of the upper portion of the body case 10 to mesh with the threaded portion 663 formed on the outer peripheral surface of the cylindrical portion 662. The threaded portion 663 on the 66 side is engaged.
By screwing the dielectric member 66 to the body case 10 and screwing the antenna element 45 to the dielectric member 66 , the antenna element 45 is screwed and fixed to the body case 10 via the dielectric member 66 .

When the antenna element 45 is fixed by screwing in this way, for example, as shown in FIGS. 15 and 16, an O-ring may be provided as a sealing member.
That is, in FIG. 15, O-rings 665 are provided between the upper surface of the dielectric main body 661 and the lower surface of the flange portion 451 of the antenna element 45, and between the lower surface of the dielectric main body 661 and the upper surface of the main body case 10. exemplifies the case. Note that the number of O-rings 665 is not limited to two. The O-ring 665 may be provided on either one of the upper surface side and the lower surface side of the dielectric body portion 661 .
Further, in FIG. 16, the width of the extension of the dielectric body 661 to the outside is made smaller than the width of the extension of the flange 451 of the antenna element 45, and the antenna element is located outside the outer peripheral surface of the dielectric body 661. 45 and the upper surface of the main body case 10 are provided with an O-ring 666 .
As shown in FIGS. 15 and 16, when an O-ring is provided as a sealing member, the main body case 10 can be made watertight more reliably.

Also, the dielectric member is not limited to being an integral member.
For example, as shown in FIG. 17, a dielectric body portion 671 disposed between the lower surface of the flange portion 451 of the antenna element 45 and the upper surface of the body case 10, the inner end face of the dielectric body portion 671 and the body case 10 A tubular portion 672 arranged between the upper inner peripheral surface and the outer peripheral surface of the tubular portion 450 of the antenna element 45 and having a threaded portion 673 on the inner peripheral surface may be separately provided.
In this case, the threaded portion 453 formed on the outer peripheral surface of the tubular portion 450 of the antenna element 45 meshes with the threaded portion 673 formed on the inner peripheral surface of the tubular portion 672 and is screwed. In addition, a protruding portion 105 protruding inward is provided at the upper portion of the main body case 10 , and a flange portion 675 protruding outward is provided at the lower end portion of the tubular portion 672 . By locking the flange portion 675 to the lower surface of the projecting portion 105 of the main body case 10 , the antenna element 45 is screwed and fixed to the main body case 10 via the dielectric member 67 .

For example, as shown in FIG. 18, a dielectric main body portion 681 arranged between the lower surface of the flange portion 451 of the antenna element 45 and the upper surface of the main body case 10, and the inner peripheral side lower surface of the dielectric main body portion 681 A cylindrical portion 682 arranged between the upper inner peripheral surface of the main body case 10 and the outer peripheral surface of the tubular portion 450 of the antenna element 45 and having a threaded portion 683 on the inner peripheral surface is provided as a separate body. may be provided.
In this case, the threaded portion 453 formed on the outer peripheral surface of the tubular portion 450 of the antenna element 45 meshes with the threaded portion 683 formed on the inner peripheral surface of the tubular portion 682 and is screwed. In addition, a protruding portion 105 protruding inward is provided at the upper portion of the main body case 10 , and a flange portion 685 protruding outward is provided at the lower end portion of the cylindrical portion 672 . By locking the flange portion 685 to the lower surface of the projecting portion 105 of the main body case 10 , the antenna element 45 is screwed and fixed to the main body case 10 via the dielectric member 68 .

By dividing the dielectric member into a plurality of members in this way, it is possible to form each portion with a different material.
In particular, as in the example shown in FIG. 18, when the dielectric main body 681 and the member (cylindrical portion 682) having the threaded portion 683 are separated, the cylindrical portion 682 having the threaded portion 683 is The dielectric main body 681 can be made of a material that can be elastically deformed while being made of a hard material. (waterproof packing) to ensure watertightness.

Although illustration is omitted, in the case of a structure capable of fixing the positional relationship between the main body case and the antenna element (bezel) as shown in FIGS. You may provide the positioning part which fits each. As a result, by screwing the tubular portion of the dielectric member (tubular portion 672 in FIG. 17 and tubular portion 682 in FIG. 18) from the back side (back cover side) of the watch, for example, an antenna element (bezel ) can be matched with the 12 o'clock position on the body case. In this case, since the module, which is the internal structure of the watch including the dial, etc., is also aligned with the main body case, the 12 o'clock position on the dial and the marking at 12 o'clock on the antenna element (bezel) should be matched. The alignment can be completed easily.

Further, as shown in FIGS. 19 to 22, the antenna element 46, dielectric member 69 and main body case 10 may be fixed with screws.

For example, as shown in FIG. 19 , the antenna element 46 is provided with a through hole 461 , and the dielectric member 69 is provided with a hole portion 691 at a position corresponding to the through hole 461 . A screw 91 is inserted from above the antenna element 46 through the through hole 461 into the hole 691 to fix the antenna element 46 and the dielectric member 69 with screws.
A recess may be provided around the through hole 461 in the antenna element 46 so that the head of the screw 91 can be placed in the recess. In this case, the head of the screw 91 does not protrude from the surface of the antenna element 46, and a beautiful appearance can be achieved.

Moreover, the dielectric member 69 and the main body case 10 are fixed with screws 92 . Specifically, a through hole 693 is formed in the dielectric member 69 , and the upper portion of the through hole 692 is a large diameter portion 692 larger than the diameter of the head of the screw 92 . Further, the body case 10 is provided with holes 102 at positions corresponding to the through holes 692 and 693 . A screw 92 is inserted from above the dielectric member 69 through the through holes 692 and 693 into the hole portion 102 to screw the dielectric member 69 and the main body case 10 together. Although the depth of the through holes 692 and 693 formed in the dielectric member 69 is not particularly limited, it is preferable that the through holes 692 and 693 be formed to a depth sufficient to prevent the screws 92 from floating and coming into contact with the antenna element 46 . A member formed of an insulator (dielectric) interposed between the through holes 692 and 693 and the outer peripheral surface of the screw 92 may be arranged. An adhesive (sealant) or the like made of a body) material may be put into the through holes 692 and 693, or a member made of an insulator (dielectric) may be fitted. This reliably prevents the screw 92 from coming into contact with the antenna element 46 .
When fixing the antenna element 46, the dielectric member 69 and the main body case 10 with the screws 92 and 93 in this way, the dielectric member 69 and the main body case 10 are first fixed with screws, and then the antenna element 46 is attached thereon. Then, the dielectric member 69 and the antenna element 46 are fixed with screws.

Also, as shown in FIG. 20, for example, an exterior member 70 that covers the antenna element 46 may be further provided. The exterior member 70 is a decorative member made of, for example, various resin materials or ceramics.
In this case, through holes 701 are formed in the exterior member 70 . Further, it is preferable to provide a recess 702 around the through hole 701 so that the head of the screw 91 can be placed in the recess 702 . Since the exterior member 70 is the outermost exterior of the watch body, a beautiful appearance can be achieved by preventing the heads of the screws 91 from protruding.
A through hole 462 is formed in the antenna element 46 at a position corresponding to the through hole 701 . The through hole 462 is formed with a sufficient diameter so that the screw 91 does not contact the inside of the through hole 462 of the antenna element 46 .
Furthermore, holes 691 are formed in the dielectric member 69 at positions corresponding to the through holes 701 and 462 .
Then, screws 91 are inserted into the holes 691 through the through holes 701 and 462 from above the exterior member 70 to fix the exterior member 70, the antenna element 46 and the dielectric member 69 with screws.
A member formed of an insulator (dielectric) interposed between the outer peripheral surface of the screw 91 may be arranged in the through hole 462 of the antenna element 46, or after the screw 91 is inserted, the insulator An adhesive (sealing agent) or the like made of a (dielectric) material may be added. Thereby, it is possible to reliably prevent the screw 91 from coming into contact with the antenna element 46 .
The dielectric member 69 and main body case 10 are fixed with screws 92 in the same manner as described with reference to FIG.

Further, as shown in FIG. 21, for example, when an exterior member 70 covering the antenna element 46 is provided, the exterior member 70 to the main body case 10 may be fixed with a series of screws 93 .
In this case, through holes 703 are formed in the exterior member 70 . Moreover, it is preferable to provide a recess 704 around the through hole 703 so that the head of the screw 93 can be placed in the recess 704 .
A through hole 463 is formed in the antenna element 46 at a position corresponding to the through hole 703 . The through hole 463 is formed with a sufficient diameter so that the screw 93 does not contact the inside of the through hole 463 of the antenna element 46 .
Further, through holes 694 are formed in the dielectric member 69 at positions corresponding to the through holes 703 and 463 .
Further, the body case 10 is provided with holes 103 at positions corresponding to the through holes 703 , 463 and 694 .
Then, screws 93 are inserted into the holes 103 through the through holes 703, 463 and 694 from above the exterior member 70, and the exterior member 70, the antenna element 46, the dielectric member 69 and the main body case 10 are screwed together. stop and fix.
A member formed of an insulator (dielectric) interposed between the through hole 463 of the antenna element 46 and the outer peripheral surface of the screw 93 may be arranged. An adhesive (sealing agent) or the like made of a (dielectric) material may be added. This reliably prevents the screw 93 from coming into contact with the antenna element 46 .

If the exterior member is not provided, the head of the screw 93 and the portion of the screw 93 located inside the antenna element 46 may be coated with an insulating coating or the like so that the screw 93 does not come into direct contact with the antenna element 46 . As shown in FIG. 22, an insulating washer 705 made of an insulating material is placed in the through hole 464 of the antenna element 46 . As a result, a short circuit does not occur between the screw 93 and the antenna element 46 .

As described above, according to the present embodiment, the watch body 100 as an electronic device includes the antenna element 43 formed in an annular shape, the body case 10 made of a metal material and having the antenna element 43 disposed thereon, , the dielectric member 63 is interposed between the antenna element 43 and the body case 10, and the body case 10 functions as a conductive portion having the same potential as GND.
As a result, the main body case 10 itself serves as a conductive portion, so there is no need to provide a separate conductive portion.
If the body case 10 is made of a metal case, it is possible to realize the timepiece body 100 with a high-class appearance and excellent design, and a wrist device (wristwatch, etc.) equipped with the watch body 100 .
Furthermore, since the dielectric member 63 is interposed between the antenna element 43 and the main body case 10, characteristics such as the frequency and gain of the antenna configured with the antenna element 43 can be controlled by the dielectric member 63 or the like. It becomes easy to adjust so that the characteristics can be obtained.

Further, the dielectric member 63 may also serve as sealing means for making the inside of the main body case 10 watertight.
With such a configuration, a watertight structure can be realized without providing an O-ring or the like separately.

Further, the characteristics of the antenna realized by providing the antenna element 43 may be adjusted by changing the overlapping area between the main body case 10 and the antenna element 43 .
For example, the body case 10 is formed so that the area of the portion overlapping the antenna element 43 in the upper portion of the body case 10 is smaller than the area of the portion not overlapping.
In this case, it is possible to adjust the characteristics of the antenna by a method that has little effect on the appearance. Specifically, the gain of the antenna can be improved. Therefore, it is possible to achieve both designability and designability of an electronic device such as a watch and adjustment of the frequency and gain of the antenna.

Further, the characteristics of the antenna realized with the antenna element 43 may be adjusted by changing the distance between the main body case 10 and the antenna element 43 .
In this case as well, it is possible to adjust the characteristics of the antenna using a method that has little effect on the appearance. Therefore, it is possible to achieve both designability and designability of an electronic device such as a watch and adjustment of the frequency and gain of the antenna.

Further, the characteristics of the antenna realized with the antenna element 43 may be adjusted by changing the shape of the dielectric member 63 .
Since the dielectric member 63 is a member that does not easily appear in the appearance, it is possible to adjust the characteristics of the antenna using a method that does not affect the appearance in this case as well. Therefore, it is possible to achieve both designability and designability of an electronic device such as a watch and adjustment of the frequency and gain of the antenna.

As a method for changing the shape of the dielectric member 64 , a concave portion 641 may be formed on the peripheral surface of the dielectric member 64 .
This makes it possible to finely adjust the characteristics of the antenna using a relatively simple technique.

When the recessed portion 641 is formed in the peripheral surface of the dielectric member 64 , a second dielectric member 642 having a different dielectric constant from that of the body portion of the dielectric member 64 may be mounted in the recessed portion 641 .
This makes it possible to finely adjust the characteristics of the antenna using a relatively simple method.

The dielectric member 65 may be made of an elastically deformable material, and the antenna element 45 may be press-fitted and fixed to the main body case 10 via the dielectric member 65 .
With this configuration, the antenna element 45 can be fixed to the main body case 10 without increasing the number of parts even when the main body case 10 is made of metal.
By press-fitting and fixing, it can be expected to ensure watertightness.

The dielectric member 66 has a threaded portion 663 formed on the surface on the side of contact with the antenna element 45 and the surface on the side of contact with the body case 10 . may be screwed and fixed to the
In this case, the antenna element 45 and the main body case 10 can be fixed by the dielectric member 66 without providing a separate member.

The antenna element 46, the dielectric member 69, and the body case 10 may be fixed via screws 91, 92, and 93.
In this case also, the antenna element 46, the dielectric member 69 and the main body case 10 can be fixed by a relatively simple method.

Although the embodiments of the present invention have been described above, the present invention is not limited to such embodiments, and it goes without saying that various modifications are possible without departing from the scope of the invention.

For example, in each of the above-described embodiments, the electronic device is the watch body 100, and the wristwatch provided with the electronic device is a wrist watch. It is possible and not limited to watches (watches).
For example, the electronic device of the present invention may be applied to various devices such as a pedometer, an altimeter, and a barometer. Furthermore, the electronic device of the present invention may be applied to various terminal devices such as smart phones.

Although several embodiments of the present invention have been described above, the scope of the present invention is not limited to the above-described embodiments, and includes the scope of the invention described in the claims and equivalent ranges thereof. .
The invention described in the scope of claims originally attached to the application form of this application is additionally described below. The claim numbers in the appendix are as in the claims originally attached to the filing of this application.
[Appendix]
<Claim 1>
an antenna element formed in an annular shape;
a conductive portion having the same potential as GND;
a dielectric member interposed between the antenna element and the conductive portion;
with
An electronic device, wherein the antenna element, the dielectric member, and the conductive portion are arranged so as to overlap each other in a plan view.
<Claim 2>
a body case provided below the antenna element;
further comprising
The conductive portion is provided below the antenna element and above the main body case,
The dielectric member is interposed between the conductive portion and the antenna element to prevent contact between the conductive portion and the antenna element,
2. The electronic device according to claim 1, wherein the antenna element and the conductive portion are electrically connected to the GND.
<Claim 3>
3. The electronic device according to claim 2, wherein the body case is interposed between the antenna element and the GND.
<Claim 4>
An electric circuit portion is provided inside the main body case,
4. The antenna element and the GND are electrically connected by electrically connecting the electric circuit section to the antenna element and the GND. electronics.
<Claim 5>
5. The electronic device according to claim 2, wherein the conductive portion is a conductive film provided on at least part of the upper surface and the inner surface of the body case.
<Claim 6>
The electronic device according to any one of claims 2 to 5, wherein the conductive portion is made of a material having a resistance lower than that of the main body case.
<Claim 7>
The electronic device according to any one of claims 2 to 6, wherein the dielectric member has characteristics and a shape set according to a function required of the antenna element.
<Claim 8>
An exterior member is provided on the upper part of the main body case to cover at least a part of the antenna element,
8. The electronic device according to claim 2, wherein the exterior member is fixed to the main body case with screws while being insulated from the antenna element.
<Claim 9>
9. The electronic device according to claim 8, wherein the exterior member is screwed and fixed to the main body case with screws that are insulated from the antenna element and electrically connected to the conductive portion.
<Claim 10>
10. The electronic device according to claim 8, wherein the exterior member covers the antenna element and the dielectric member so that they are not visible from the outside.
<Claim 11>
The electronic device according to any one of claims 2 to 10, wherein the dielectric member also serves as sealing means for making the inside of the body case watertight.
<Claim 12>
The main body case is provided with a first positioning portion at a location where the conductive portion is not provided, and the antenna element is provided at a position corresponding to the first positioning portion when mounted on the main body case. The electronic device according to any one of claims 2 to 11, further comprising: a second positioning portion that fits into the first positioning portion.
<Claim 13>
13. The electronic device according to claim 1, wherein the GND is arranged below the antenna element.
<Claim 14>
A main body case formed of a metal material and having the antenna element disposed thereon,
The dielectric member is interposed between the antenna element and the main body case,
2. The electronic device according to claim 1, wherein the body case functions as the conductive portion having the same potential as the GND.
<Claim 15>
15. The electronic device according to claim 14, wherein the dielectric member also serves as sealing means for making the inside of the body case watertight.
<Claim 16>
16. The electronic device according to claim 14, wherein characteristics of an antenna realized by providing the antenna element are adjusted by changing an area where the body case and the antenna element overlap.
<Claim 17>
17. The electronic device according to claim 16, wherein the body case is formed such that the area of the portion overlapping the antenna element in the upper portion of the body case is smaller than the area of the portion not overlapping.
<Claim 18>
18. The antenna according to any one of claims 14 to 17, wherein characteristics of an antenna realized with said antenna element are adjusted by changing a distance between said body case and said antenna element. Electronics.
<Claim 19>
19. The electronic device according to any one of claims 14 to 18, wherein characteristics of an antenna realized by including the antenna element are adjusted by changing the shape of the dielectric member.
<Claim 20>
20. The electronic device according to claim 19, wherein said dielectric member has a recess formed on its peripheral surface.
<Claim 21>
21. The electronic device according to claim 20, wherein a second dielectric member having a dielectric constant different from that of the body portion of said dielectric member is mounted in said recess.
<Claim 22>
22. The dielectric member is formed of an elastically deformable material, and the antenna element is press-fitted and fixed to the main body case via the dielectric member. or the electronic device according to item 1.
<Claim 23>
The dielectric member has a threaded portion formed on a surface on a contact side with the antenna element and a surface on a contact side with the main body case, and the antenna element is attached to the main body case via the dielectric member. 22. The electronic device according to any one of claims 14 to 21, wherein the electronic device is fixed with screws.
<Claim 24>
22. The electronic device according to any one of claims 14 to 21, wherein the antenna element, the dielectric member, and the body case are fixed via insulating screws.
<Claim 25>
A wrist device comprising the electronic device according to any one of claims 1 to 24.

1 Body case 2 Windshield member 3 Back cover 4 Antenna element 5 Conductive part 6 Dielectric member 7 Substrate 71 Electric circuit part 100 Watch body

Claims (16)

an antenna element formed in an annular shape;
a conductive portion having the same potential as GND;
a dielectric member interposed between the antenna element and the conductive portion;
a body case provided below the antenna element;
an exterior member covering at least a portion of the antenna element on the top of the body case;
with
The antenna element, the dielectric member, and the conductive portion are arranged so as to overlap each other in a plan view ,
The electronic device according to claim 1, wherein the exterior member is screwed and fixed to the main body case by a screw that is insulated from the antenna element and electrically connected to the conductive portion. The conductive portion is provided below the antenna element and above the main body case,
The dielectric member is interposed between the conductive portion and the antenna element to prevent contact between the conductive portion and the antenna element,
2. The electronic device according to claim 1, wherein the antenna element and the conductive portion are electrically connected to the GND. 3. The electronic device according to claim 2, wherein the body case is interposed between the antenna element and the GND. An electric circuit portion is provided inside the main body case,
4. The antenna element and the GND are electrically connected by electrically connecting the electric circuit section to the antenna element and the GND. electronics. 5. The electronic device according to claim 2, wherein the conductive portion is a conductive film provided on at least part of the upper surface and the inner surface of the body case. The electronic device according to any one of claims 2 to 5, wherein the conductive portion is made of a material having a resistance lower than that of the main body case. The electronic device according to any one of claims 2 to 6, wherein the dielectric member has characteristics and a shape set according to a function required of the antenna element. 2. The electronic device according to claim 1 , wherein the exterior member covers the antenna element and the dielectric member so that they are not visible from the outside. 9. The electronic device according to claim 1 , wherein the dielectric member also serves as sealing means for making the inside of the body case watertight. The main body case is provided with a first positioning portion at a location where the conductive portion is not provided, and the antenna element is provided at a position corresponding to the first positioning portion when mounted on the main body case. 10. The electronic device according to any one of claims 1 to 9 , further comprising: a second positioning portion that fits into the first positioning portion. 11. The electronic device according to claim 1, wherein the GND is arranged below the antenna element. A body case formed of a metal material and in which the antenna element is arranged,
The dielectric member is interposed between the antenna element and the main body case,
2. The electronic device according to claim 1, wherein the body case functions as the conductive portion having the same potential as the GND. 13. The electronic device according to claim 12 , wherein the dielectric member also serves as sealing means for making the inside of the body case watertight. 14. The dielectric member according to claim 12 or 13, wherein the dielectric member is made of an elastically deformable material, and the antenna element is press-fitted and fixed to the main body case via the dielectric member. electronics. The dielectric member has a threaded portion formed on a surface on a contact side with the antenna element and a surface on a contact side with the main body case, and the antenna element is attached to the main body case via the dielectric member. 14. The electronic device according to claim 12 or 13, wherein the electronic device is fixed with screws. A wrist device comprising the electronic device according to any one of claims 1 to 15 .

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