JP6769820B2 - Antenna device - Google Patents

Description

The present invention relates to an antenna device.

As an antenna device used for non-contact communication such as NFC (Near Field Communication), for example, the device described in Patent Document 1 is known. FIG. 9 is a perspective view showing a schematic configuration of the antenna device described in Patent Document 1.

As shown in FIG. 9, the RFID (Radio Frequency Identification) tag 200 as an antenna device includes an antenna element 210 and a power feeding device 220. The antenna element 210 is composed of a base sheet 211 and a coil conductor 212 formed on the upper surface thereof. Further, the power feeding device 220 is composed of a power feeding element 221 and an RFIC (Radio Frequency Integrated Circuit) 222. In the power feeding element 221, coil conductors 224 and 225 are wound around the upper surface of the base sheet 223 so as to form a closed magnetic path. The power feeding element 221 is arranged close to the antenna element 210, and is adhered to the coupling portion CA via, for example, a double-sided adhesive sheet.

International Publication No. 2013/035821 Pamphlet (International release on March 14, 2013)

However, the above-mentioned conventional technique has a problem that when the feeding device 220 is attached to the antenna element 210, the position shift occurs between the antenna element 210 and the feeding element 221.

One aspect of the present invention is to realize an antenna device capable of reducing the positional deviation between the antenna element and the feeding element at the time of mounting and assembling the antenna device.

In order to solve the above problems, the antenna device according to one aspect of the present invention includes an antenna element including a first coil conductor wound in a square shape and a feeding element, and the feeding element is provided with a feeding element. A second coil conductor is provided, and the magnetic flux generated by the second coil conductor constitutes a closed circuit, and the first coil conductor and the second coil conductor are magnetically coupled via an electromagnetic field. The coil device is characterized in that it is provided with two or more positioning portions for determining the relative positions of the antenna element and the feeding element.

According to one aspect of the present invention, there is an effect that the positional deviation between the antenna element and the feeding element can be reduced when assembling the antenna device.

It is sectional drawing which shows the schematic structure of the antenna device which concerns on Embodiment 1 of this invention. It is a top view which shows the schematic structure inside the antenna device which concerns on Embodiment 1 of this invention. It is a perspective view which shows the schematic structure of the power feeding device of the antenna device and the printed wiring board shown in FIG. It is a figure which shows typically the displacement due to the rotation of an antenna element when the distance between the positioning parts is shortened and separated, and when the distance between the positioning parts is increased and separated. It is a top view which shows the modification of the structure shown in FIG. 1 and FIG. It is a top view which shows the further modification of the structure shown in FIG. 1 and FIG. It is a top view which shows the schematic structure inside the antenna device which concerns on Embodiment 2 of this invention. It is a top view which shows the schematic structure inside the antenna device which concerns on Embodiment 3 of this invention. It is a perspective view which shows the schematic structure of the antenna device described in Patent Document 1. FIG.

[Embodiment 1]
Hereinafter, embodiments of the present invention will be described in detail. FIG. 1 is a cross-sectional view showing a schematic configuration of the antenna device 10 according to the present embodiment. FIG. 2 is a plan view showing a schematic configuration inside the antenna device 10 according to the present embodiment. Note that FIG. 2 shows the coil conductor 1b of the antenna element 1, the power feeding device 3, the printed wiring board 4, and the positioning portion 8 in the rear cover 2, and other components are omitted.

As shown in FIGS. 1 and 2, the antenna device 10 according to the present embodiment includes an antenna element 1, a rear cover 2 (cabinet), a power feeding device 3 (feeding element), and a printed wiring board 4 (wiring board). ), The cabinet 5, the internal holder 6 (holding portion), and the front side component group 7. The front side component group 7 refers to a component group provided on the side opposite to the rear cover 2 in the internal holder 6.

The antenna element 1 includes a base sheet 1a and a coil conductor 1b (first coil conductor) formed on the base sheet 1a. The coil conductor 1b is formed on the surface of the base material sheet 1a facing the rear cover 2, and is wound and wired in a square shape along the peripheral edge of the base material sheet 1a.

As shown in FIG. 3, the power feeding device 3 is mounted on the printed wiring board 4 and includes a coil conductor 3a (second coil conductor). The coil conductor 3a is provided so that the magnetic flux generated by the coil conductor 3a constitutes a closed circuit.

As shown in FIG. 2, the coil conductor 1b of the antenna element 1 and the coil conductor 3a of the power feeding device 3 are arranged close to each other and are magnetically coupled via an electromagnetic field (mainly a magnetic field). When a current flows through the coil conductor 1b, the magnetic flux circulates around the coil conductor 1b. The magnetic flux excites an electromotive force in the coil conductor 3a, and power is supplied to the power feeding device 3. Further, when a current flows through the coil conductor 3a, the current is excited in the coil conductor 1b by the magnetic flux generated from the coil conductor 3a. The coil conductor 3a may have a configuration that can be magnetically coupled to the coil conductor 1b via an electromagnetic field as described above.

The rear cover 2 is a housing for accommodating various parts of the antenna device 10, and constitutes the appearance on the back side. An antenna element 1 is provided on the inner surface of the rear cover 2. Further, the cabinet 5 is a member for accommodating the printed wiring board 4 on which the power feeding device 3 is mounted and the front side component group 7. The cabinet 5 is provided with a mounting portion 5b for mounting the rear cover 2.

When the rear cover 2 is attached to the cabinet 5, the antenna element 1 is arranged in the space formed by the rear cover 2 and the cabinet 5. On the other hand, the power feeding device 3 is arranged in the cabinet 5. That is, in the antenna device 10, the antenna element 1 and the power feeding device 3 are arranged so as to be separated from each other by separating the wall portion of the cabinet 5.

The printed wiring board 4 on which the power feeding device 3 is mounted is attached to an internal holder 6 provided in the cabinet 5 with an adhesive tape. The power supply device 3 is held by the internal holder 6. The inner holder 6 has an elastic portion 6b that abuts on the inner wall of the cabinet 5 around the inner holder 6. The elastic portion 6b is configured to be elastically deformed in four directions in the cabinet 5. As a result, the internal holder 6 is flexibly positioned with respect to the cabinet 5 by balancing the elastic forces of the elastic portion 6b in the four directions.

Here, the antenna device 10 is assembled by attaching the rear cover 2 provided with the antenna element 1 to the main body of the device in which the power feeding device 3, the printed wiring board 4, the front side component group 7, and the like are housed in the cabinet 5. Be done. When the rear cover 2 is attached to the main body of the apparatus, the antenna element 1 and the feeding device 3 are arranged apart from each other, so that there is a problem that the relative position of the antenna element 1 with respect to the feeding device 3 is displaced.

Therefore, the antenna device 10 is provided with two positioning units 8 for determining the relative positions of the antenna element 1 and the power feeding device 3. The positioning portion 8 is provided in a rectangular region surrounded by the coil conductor 1b of the antenna element 1.

The positioning portion 8 includes a protrusion 2a and holes 1c, 5a, 4a, and 6a paired with the protrusion 2a, respectively. The protrusion 2a has a structure that protrudes from the rear cover 2 toward the printed wiring board 4. Further, the holes 1c, 4a, 5a, and 6a are formed in the antenna element 1, the printed wiring board 4, the cabinet 5, and the internal holder 6, respectively, and are configured so that the protrusions 2a can be inserted therethrough. The holes 1c, 4a, 5a, and 6a function as fixing portions for fixing the position of the protrusion 2a by inserting the protrusion 2a.

When assembling the antenna device 10, the position of the antenna element 1 with respect to the rear cover 2 is determined by inserting the protrusion 2a into the hole 1c of the antenna element 1. Then, by attaching the rear cover 2 so that the protrusion 2a is inserted into the holes 1c, 4a, 5a, and 6a in this state, the relative position between the antenna element 1 and the power feeding device 3 is determined.

By providing the positioning unit 8 in this way, the relative position between the antenna element 1 and the power feeding device 3 is determined. Further, since the two positioning portions 8 are provided and the antenna element 1 is positioned (fixed in position) at two places on the rear cover 2, the misalignment due to the rotation of the antenna element 1 can be reduced, and the positioning accuracy is high. Can be realized. As a result, the positioning accuracy of the antenna element 1 with respect to the power feeding device 3 is improved, and the antenna sensitivity and performance can be ensured. The number of positioning portions 8 is not limited to two, and may be two or more as long as the deviation due to rotation of the antenna element 1 can be reduced.

Here, the internal holder 6 is flexibly positioned with respect to the cabinet 5 by balancing the elastic forces of the elastic portion 6b in the four directions. Then, in the antenna device 10, the hole portion 1c of the antenna element 1 and the hole portion 6a of the internal holder 6 are positioned in a state in which the protrusion portion 2a is inserted in common. Therefore, when assembling the antenna device 10, the position of the power feeding device 3 follows the position of the rear cover 2 when it is attached. Therefore, it is possible to suppress the deviation of the mounting between the antenna element 1 and the feeding device 3, and it is possible to determine the relative position between the antenna element 1 and the feeding device 3.

Further, it is preferable that the two positioning portions 8 are arranged so as to be separated from each other by making the distance as long as possible. As a result, the displacement due to the rotation of the antenna element 1 can be further reduced.

FIG. 4 shows the antenna element 1 when the distance between the positioning portions is shortened and separated (positional relationship between the positioning portions 8a) and when the distance between the positioning portions is increased and separated (positional relationship between the positioning portions 8b). It is the figure which showed the position shift by the rotation of. In FIG. 4, in any case, the positional deviation due to the rotation of the antenna element 1 is the same (H1 = H2). Further, the distances between the rotation center of the antenna element 1 and the positioning portions 8a and 8b are set to the distances L1 and L2, respectively. Further, the rotation angle of the antenna element 1 in the positional relationship of the positioning unit 8a is θ1, and the rotation angle of the antenna element 1 in the positional relationship of the positioning unit 8b is θ2.

As shown in FIG. 4, when the distance L2 is larger than the distance L1 (L2> L1), the angle θ1 is larger than the angle θ2 (θ2 <θ1). Therefore, even if the positional deviation due to the rotation of the antenna element 1 is the same, the positional deviation due to the rotation of the antenna element 1 is larger when the distance between the positioning portions is increased and separated (positional relationship of the positioning portion 8b). It turns out that it becomes smaller. In the configuration shown in FIGS. 1 and 2, the positioning portion 8 is arranged at different corners of a rectangular region surrounded by the coil conductor 1b. As a result, the positional deviation due to the rotation of the antenna element 1 can be reduced.

FIG. 5 is a plan view showing a modified example of the configuration shown in FIGS. 1 and 2. As shown in FIG. 5, the two positioning portions 8 may be arranged at different corners of the region surrounded by the coil conductor 1b and may be arranged in the vicinity of the power feeding device 3. In other words, in a plan view, the power feeding device 3 is arranged at a position where a straight line connecting the two positioning portions 8 passes.

If the deviation between the center of rotation of the antenna element 1 and the center of the feeding device 3 is large, the deviation between the antenna element 1 and the feeding device 3 occurs when the antenna element 1 rotates due to this center deviation. , Leads to misalignment. With the configuration shown in FIG. 5, the center of rotation of the antenna element 1 and the center of the power feeding device 3 can be brought close to each other, so that the misalignment can be suppressed.

FIG. 6 is a plan view showing still another modification of the configuration shown in FIGS. 1 and 2. As shown in FIG. 6, the two positioning portions 8 may be arranged at diagonal positions in the region surrounded by the coil conductor 1b, respectively.

Further, in the above configuration, holes 1c, 4a, 5a, and 6a are provided as fixing portions for fixing the position of the protrusion 2a. However, the configuration of the fixing portion is not limited to the hole portion into which the protrusion portion 2a is inserted, and may be a fitting portion that fits with the protrusion portion 2a.

[Embodiment 2]
The other embodiments of the present invention will be described below with reference to FIG. 7. For convenience of explanation, the same reference numerals will be added to the members having the same functions as the members described in the above embodiment, and the description thereof will be omitted. FIG. 7 is a plan view showing a schematic configuration inside the antenna device 10A according to the present embodiment.

The antenna device 10A according to the present embodiment has a different positioning unit 8c from the first embodiment. As shown in FIG. 7, in the positioning portion 8c, the protrusion 6c is provided on the internal holder 6. The positioning portion 8c includes holes 1c, 5a, and 4a paired with the protrusion 6c. The protruding portion 6c has a configuration in which it protrudes from the internal holder 6 toward the rear cover 2.

When assembling the antenna device 10A, the relative position between the antenna element 1 and the power feeding device 3 is determined by attaching the rear cover 2 so that the protrusion 6c is inserted into the hole 1c of the antenna element 1.

[Embodiment 3]
Another embodiment of the present invention will be described below with reference to FIG. For convenience of explanation, the same reference numerals will be added to the members having the same functions as the members described in the above embodiment, and the description thereof will be omitted. FIG. 8 is a plan view showing a schematic configuration inside the antenna device 10B according to the present embodiment.

The antenna device 10B according to the present embodiment has a different configuration of the positioning unit 8d from the first embodiment. As shown in FIG. 8, in the positioning portion 8d, a protrusion 4b is provided on the printed wiring board 4. The positioning portion 8d includes holes 1c and 5a paired with the protrusion 4b. The protrusion 4b has a configuration in which it protrudes from the printed wiring board 4 toward the rear cover 2.

When assembling the antenna device 10B, the relative position between the antenna element 1 and the power feeding device 3 is determined by attaching the rear cover 2 so that the protrusion 4b is inserted into the hole 1c of the antenna element 1.

[Summary]
The antenna device 10 according to the first aspect of the present invention includes an antenna element 1 having a first coil conductor (coil conductor 1b) wound in a square shape and a feeding element (feeding device 3), and the feeding device The element includes a second coil conductor (coil conductor 3a), and the magnetic flux generated by the second coil conductor constitutes a closed magnetic circuit, and the first coil conductor and the second coil conductor form a closed circuit. An antenna device that is magnetically coupled via an electromagnetic field and is provided with two or more positioning units 8, 8c, and 8d for determining the relative positions of the antenna element 1 and the feeding element. is there.

According to the above configuration, since the positioning portions 8, 8c, and 8d are provided, the relative position between the antenna element 1 and the feeding element is determined when the antenna device 10 is assembled. Further, since the number of the positioning portions 8 is two or more, the positional deviation due to the rotation of the antenna element 1 can be reduced, and high positioning accuracy can be realized. As a result, according to the above configuration, the positional deviation between the antenna element 1 and the feeding element can be reduced when assembling the antenna device 10.

In the antenna device 10 according to the second aspect of the present invention, in the first aspect, at least two of the positioning portions 8 are within a rectangular region surrounded by the first coil conductor (coil conductor 1b). It is configured to be arranged and close to two different corners of the region.

According to the above configuration, since the distance between the positioning portions 8 in the rectangular region is relatively long, the positional deviation due to the rotation of the antenna element 1 can be further reduced.

In the above aspect 1 or 2, the antenna device 10 according to the third aspect of the present invention holds the housing (rear cover 2) provided with the antenna element 1 on the inner surface thereof and the feeding element (feeding device 3). A portion (internal holder 6) is provided, and the positioning portion 8 is provided in the protrusion 2a and the antenna element 1, and is fitted with the hole 1c through which the protrusion 2a is inserted and the protrusion 2a. Or a fixing portion (hole portion 6a) into which the protrusion 2a is inserted, the protrusion 2a is provided so as to project from the housing toward the holding portion, and the fixing portion is the fixing portion. The configuration may be provided in the holding portion.

According to the above configuration, when assembling the antenna device 10, the position of the antenna element 1 with respect to the housing (rear cover 2) is determined by inserting the protrusion 2a into the hole 1c of the antenna element 1. Then, in this state, the antenna element 1 and the feeding element (feeding device 3) are formed by attaching the housing (rear cover 2) so that the protrusion 2a is fitted into or inserted into the fixing portion (hole 6a). The relative position with is determined. Therefore, according to the above configuration, the positional deviation between the antenna element 1 and the feeding element can be reduced when assembling the antenna device 10.

In the above aspect 1 or 2, the antenna device 10A according to the fourth aspect of the present invention holds the housing (rear cover 2) provided with the antenna element 1 on the inner surface thereof and the feeding element (feeding device 3). A portion (internal holder 6) is provided, and the positioning portion 8c is provided in the protrusion 6c and the antenna element 1, and is fitted with the hole 1c through which the protrusion 6c is inserted and the protrusion 6c. Alternatively, the protrusion 6c is provided with a fixing portion (hole 1c) into which the protrusion 6c is inserted, the protrusion 6c projects from the holding portion toward the housing, and the hole 1c functions as the fixing portion. It is a composition.

According to the above configuration, when assembling the antenna device 10A, the housing (rear cover 2) is attached so that the protrusion 6c is inserted into the hole 1c as the fixing portion of the antenna element 1 to form the antenna element 1. The relative position with the power feeding element (power feeding device 3) is determined. Therefore, according to the above configuration, when assembling the antenna device 10A, the positional deviation between the antenna element 1 and the feeding element can be reduced.

In the antenna device 10B according to the fifth aspect of the present invention, in the above aspect 1 or 2, the housing (rear cover 2) in which the antenna element 1 is provided on the inner surface thereof and the feeding element (feeding device 3) are mounted. A wiring board (printed wiring board 4) is provided, and the positioning portion 8d fits into the protrusion 4b, the hole 1c provided in the antenna element 1 through which the protrusion 4b is inserted, and the protrusion 4b. A fixing portion (hole portion 1c) for fitting or inserting the protrusion portion 4b is provided, and the protrusion portion 4b is provided so as to project from the wiring board toward the housing, and the hole portion 1c is provided. Is a configuration that functions as the fixing portion.

According to the above configuration, when assembling the antenna device 10B, the housing (rear cover 2) is attached so that the protrusion 4b is inserted into the hole 1c as the fixing portion of the antenna element 1 to form the antenna element 1. The relative position with the power feeding element (power feeding device 3) is determined. Therefore, according to the above configuration, the positional deviation between the antenna element 1 and the feeding element can be reduced when assembling the antenna device 10B.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the embodiments obtained by appropriately combining the technical means disclosed in the different embodiments. Is also included in the technical scope of the present invention. Furthermore, new technical features can be formed by combining the technical means disclosed in each embodiment.

1 Antenna element 1b Coil conductor (first coil conductor)
1c hole 2 rear cover (housing)
2a Protrusion 3 Power supply device (power supply element)
3a coil conductor (second coil conductor)
4 Printed wiring board (wiring board)
4b Protrusion 6 Internal holder (holding part)
6a Hole (fixed part)
6c Projections 10, 10A, 10B Antenna device

Claims (5)

An antenna element having a first coil conductor wound in a square shape and a feeding element are provided.
The feeding element includes a second coil conductor, and the magnetic flux generated by the second coil conductor constitutes a closed magnetic circuit.
An antenna device in which the first coil conductor and the second coil conductor are magnetically coupled via an electromagnetic field.
An antenna device including two or more positioning portions for determining the relative positions of the antenna element and the feeding element. The claim is characterized in that at least two of the positioning portions are respectively arranged in a rectangular region surrounded by the first coil conductor and are close to two different corner portions of the region. The antenna device according to 1. A housing provided with the antenna element on its inner surface and a holding portion for holding the power feeding element are provided.
The positioning portion includes a protrusion, a hole provided in the antenna element through which the protrusion is inserted, and a fixing portion that fits the protrusion or inserts the protrusion.
The antenna device according to claim 1 or 2, wherein the protrusion is provided so as to project from the housing toward the holding portion, and the fixing portion is provided on the holding portion. .. A housing provided with the antenna element on its inner surface and a holding portion for holding the power feeding element are provided.
The positioning portion includes a protrusion, a hole provided in the antenna element through which the protrusion is inserted, and a fixing portion that fits the protrusion or inserts the protrusion.
The antenna device according to claim 1 or 2, wherein the protruding portion projects from the holding portion toward the housing, and the hole portion functions as the fixing portion. A housing provided with the antenna element on its inner surface and a wiring board on which the power feeding element is mounted are provided.
The positioning portion includes a protrusion, a hole provided in the antenna element through which the protrusion is inserted, and a fixing portion that fits the protrusion or inserts the protrusion.
The antenna device according to claim 1 or 2, wherein the protrusion is provided so as to project from the wiring board toward the housing, and the hole functions as the fixing portion.

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