阅读说明：本技术 天线接收装置以及电子表 (Antenna receiving device and electronic timepiece ) 是由 松江刚志 濑尾宗隆 胜田宽志 于 2021-05-28 设计创作，主要内容包括：本发明提供一种天线接收装置及电子表,能够更适当地并行进行基于多个天线的通信动作。天线接收装置具备：作为第一天线的表圈(13)；天线元件(214),其调谐到与表圈(13)不同的频带；基板(21),其具有供表圈(13)和天线元件(214)分别连接的接收电路；以及后盖(17),其至少一部分为导体。基板(21)具有表圈(13)的接地面,基板(21)及天线元件(214)位于表圈(13)与后盖(17)之间,天线元件(214)相对于基板(21)位于与表圈(13)相反的一侧,并与后盖(17)的导体电连接而接地。(The invention provides an antenna receiving device and an electronic timepiece, which can more appropriately perform communication operation based on a plurality of antennas in parallel. The antenna receiving device includes: a bezel (13) as a first antenna; an antenna element (214) tuned to a different frequency band than the bezel (13); a substrate (21) having a receiving circuit to which the bezel (13) and the antenna element (214) are connected, respectively; and a rear cover (17) at least a part of which is a conductor. The substrate (21) has a ground plane of the bezel (13), the substrate (21) and the antenna element (214) are positioned between the bezel (13) and the rear cover (17), and the antenna element (214) is positioned on the opposite side of the bezel (13) with respect to the substrate (21), is electrically connected to a conductor of the rear cover (17), and is grounded.)

1. An antenna receiving apparatus, comprising:

a first antenna;

a second antenna tuned to a different frequency band than the first antenna;

a substrate having a receiving circuit to which the first antenna and the second antenna are connected, respectively; and

a rear cover, at least a portion of which is a conductor,

the substrate has a ground plane for the first antenna,

the substrate and the second antenna are positioned between the first antenna and the rear cover,

the second antenna is located on the opposite side of the substrate from the first antenna, and is electrically connected to the conductor of the rear cover and grounded.

2. The antenna receiving device of claim 1,

the second antenna is connected to a surface of the substrate on a side opposite to the first antenna.

3. The antenna receiving device according to claim 1 or 2,

a conductor support member located between the substrate and the rear cover,

the second antenna is electrically connected to the conductor of the rear cover via the conductor support member.

4. The antenna receiving device of claim 3,

the conductor support member is a housing portion having a space in which the battery is located.

5. The antenna reception device according to any one of claims 1 to 4,

the first antenna is annular and is positioned in a plane parallel to the substrate.

6. The antenna reception device according to any one of claims 1 to 5,

the second antenna is a monopole antenna.

7. The antenna reception device according to any one of claims 1 to 6,

the first antenna receives radio waves from a positioning satellite, and the second antenna receives radio waves associated with radio wave communication at a short distance from an external device.

8. An electronic timepiece is characterized by comprising:

the antenna reception device according to any one of claims 1 to 7;

a time counting unit that counts a current time; and

and a control unit that corrects the current time counted by the time counting unit based on the radio wave received by at least one of the first antenna and the second antenna.

Technical Field

The present invention relates to an antenna receiving device and an electronic timepiece.

Background

In electronic devices that perform wireless communication, particularly small-sized portable electronic devices, an antenna is often disposed inside a housing. In japanese patent application laid-open No. 2019-124641, when receiving radio waves of a plurality of wavelengths, a plurality of antennas corresponding to the respective wavelengths may be arranged.

Disclosure of Invention

Problems to be solved by the invention

However, in a monopole antenna, a patch antenna, or the like, which is housed inside a case and is frequently used when performing transmission and reception of radio waves in a GHz band or the like, a ground plane is required for the antenna. In a case where a ground plane of a housing of an antenna reception device includes a wide range of the antenna reception device, if a plurality of antennas are intended to operate simultaneously, there is a problem that an electric field pattern generated on the ground plane in accordance with the operation of one antenna adversely affects the reception of radio waves by the other antenna.

Means for solving the problems

The present invention in claim 1 provides an antenna receiving apparatus comprising: a first antenna; a second antenna tuned to a different frequency band than the first antenna; a substrate having a receiving circuit to which the first antenna and the second antenna are connected, respectively; and a rear cover, at least a part of which is a conductor, the substrate having a ground plane of the first antenna, the substrate and the second antenna being located between the first antenna and the rear cover, the second antenna being located on a side opposite to the first antenna with respect to the substrate, and being electrically connected to the conductor of the rear cover to be grounded.

The scheme 2 provides an electronic timepiece, which comprises: the above antenna receiving device; a time counting unit that counts a current time; and a control unit that corrects the current time counted by the time counting unit based on the radio wave received by at least one of the first antenna and the second antenna.

The invention aims to provide an antenna receiving device and an electronic watch capable of more appropriately performing receiving operations of a plurality of antennas in parallel.

Drawings

Fig. 1 is a plan view showing an appearance of an electronic timepiece.

Fig. 2 is a diagram illustrating a positional relationship of the antennas.

Fig. 3 is a view showing a part of a cross section of the electronic timepiece.

Fig. 4 is a diagram showing an antenna element.

Detailed Description

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a plan view showing an external appearance of an electronic timepiece 1 including an antenna receiving device according to the present embodiment.

The upper surface of the electronic timepiece 1 has a display portion 11 at the center and a bezel 13 around it. The electronic timepiece 1 further includes an exterior member 14 covering a part of the bezel 13, a connecting portion 16 for connecting the band to the main body, and the like. Push switches B1 to B4 and a handle C1 are provided on the side of the electronic timepiece 1. The exterior member 14 is fixed to the case 12 by screws 15 (see fig. 2). Accordingly, the bezel 13 is also fixed between the exterior member 14 and the case 12.

The exterior member 14 has a function as a design decoration in addition to protecting the main body of the electronic timepiece 1 including the push switches B1 to B4 and the bezel C1 by the irregularities thereof. The material of the exterior member 14 may be, for example, resin.

The bezel 13 is a conductor member (typically, a metal member) having a ring-like structure. The bezel 13 operates as a first antenna in the electronic timepiece 1. Here, the first antenna receives an electric wave (right-hand circularly polarized wave) from a Positioning Satellite (mainly a Satellite related to a GPS (Global Positioning System)).

Push switches B1 to B4 and handle C1 protrude outward through the side surface of case 12, and can receive the pushing operation of push switches B1 to B4 and the pulling operation and rotating operation of handle C1.

The display unit 11 has a digital display and displays a digital image.

Fig. 2 is a diagram illustrating a positional relationship of the antennas. This figure is a top view similar to fig. 1.

The case 12 has a cylindrical shape in which the operation modules such as the substrate 21 and the battery 30 (see fig. 3) are enclosed and protected, and is not particularly limited, and has a cylindrical structure, for example. The side surface of the housing 12 is provided with the through holes of the connection portion 16.

The two through holes 121 are located in the vicinity of the 1-point direction and the 11-point direction of the case 12. The through holes 121 are respectively inserted with connection pins 241 and 242. The connection pins 241 and 242 electrically connect the bezel 13 as an antenna and the substrate 21, respectively. The connecting pins 241, 242 need not engage (be fixed to) the housing 12 or other parts. The connecting pin 241 has one end in contact with the bezel 13 serving as a feeding point, and transmits and receives a signal from the other end to a receiving circuit (the receiving circuit may include a circuit that performs only reception and a circuit that performs both transmission and reception) connected via a signal line. The connection pin 242 is connected to a ground plane on the substrate 21.

The case 12 has an insertion groove 122 for an O-ring on the outer edge side of the through hole 121, and is fixed in contact with the bezel 13 and the exterior member 14 in a state where the O-ring is inserted, thereby providing a waterproof structure.

The antenna element 214 (second antenna) is located on the back surface of the substrate 21, i.e., in the vicinity of the 4-point direction on the opposite side of the substrate 21 from the bezel 13. The antenna element 214 is an antenna that performs short-range radio wave communication with an external device, here, communication (radio wave transmission and reception) by bluetooth (registered trademark), that is, a frequency band tuned to the bezel 13. Here, the antenna element 214 is a monopole antenna, but is not limited to a straight line, and may have a bent shape (meandering). The antenna element 214 is electrically connected to a communication circuit 213 (see fig. 3) located in the vicinity of the antenna element 214 on the substrate 21. As described later, the antenna element 214 is electrically connected to the rear cover 17 (see fig. 3) from a ground terminal on the substrate 21 and grounded.

Fig. 3 is a view showing a part (a) of a cross section including the connection pin 242 and a part (b) of a cross section including the antenna element 214 of the electronic timepiece 1. That is, the section of fig. 3 (a) is a portion shown by a section line AA in fig. 2, and the section of fig. 3 (b) is a portion shown by a section line BB in fig. 2. Fig. 4 is a diagram illustrating the antenna element 214.

The display panel 111 and a translucent (usually transparent) protective layer 112 (contact glass) covering the display panel are located on the upper side with respect to the substrate 21, and cover the upper end face of the housing 12. A frame 22 (conductor support member, housing portion) and a battery 30 fixed or supported to the frame 22 are located on the lower side of the substrate 21. The lower end surface of the housing 12 is covered with a rear cover 17. The rear cover 17 is a conductor member as a whole, but if a part of the range suitable as a ground plane is a conductor, the remaining part may be an insulator.

A CPU or the like that operates as a part of circuits on the substrate 21, for example, a communication circuit and a control unit related to transmission and reception of radio waves, and performs various control operations such as counting, display, and correction of date and time is covered with a shield cover 211 or the like. The shield cover 211 is used to protect internal elements and the like from electromagnetic waves and static electricity, and is, for example, a box-shaped structure of a conductor. The structure on the other substrate 21, for example, an oscillation circuit, a timer unit for counting the current date and time (current time), a nonvolatile memory, and the like may be located outside the shield cover 211 and the like.

As shown in fig. 3 (a), the satellite radio wave receiving module 212 that receives and processes radio waves from a positioning satellite is located inside the shield cover 211 near the connection pins 241 and 242 on the upper surface side of the substrate. The satellite radio wave reception module 212 demodulates the received radio wave to decode the signal, and performs processing for determining the current date and time and the current position.

The display 111 is, for example, a liquid crystal display, but is not limited thereto, and the type of liquid crystal and the like do not matter. On the display panel 111, various kinds of display are performed based on a control signal from a control unit on the substrate 21.

The connection pin 242 is electrically connected to the ground terminal 210 on the substrate 21, and is connected to a ground plane G extending on the substrate 21 (here, the ground plane G shows only the vicinity of the connection portion with the ground terminal 210). In the case where the substrate 21 is a laminate substrate or the like, the ground plane may be extended to an unexposed intermediate layer. Although the ground terminal 210 and the ground plane G are shown for illustrative purposes, the actual thickness of the ground terminal 210 and the ground plane G may be sufficiently smaller than the thickness of the substrate 21.

The connection pin 24 inserted into the through hole 121 of the housing 12 may have a spring structure or the like that can expand and contract in the extending direction. In a state where the electronic timepiece 1 is assembled and sealed, both ends of the connecting pin 24 are respectively in contact with the base plate 21 and the bezel 13 in a state where the spring is contracted. Thus, even when some shock or the like is applied to the electronic timepiece 1, the contact on both sides can be maintained by the tension of the spring. Further, the width of the through hole 121 is two-stage, and the connecting pin 24 has a head shape fitted thereto, whereby positional displacement in the left-right direction can be prevented.

In this way, the bezel 13 connected to the connection pins 24 at two points is positioned in a plane parallel to the ground plane G on the substrate 21 to be connected, and operates as a pair like a microstrip antenna.

As shown in fig. 3 (b), a shield cover 211 is also provided on the lower surface of the substrate 21, and a bluetooth-related communication circuit 213 is located in the shield cover 211.

At least a part of the frame 22 is a conductor member, and the battery 30 is housed and held in the internal space thereof, and is protected, and is in contact with the ground surface G of the substrate 21 and the rear cover 17 (the conductor portion thereof) to extend the range of the ground surface to the rear cover 17. Frame 22 does not need to cover the entire side surface of battery 30, but each portion extending in the vertical direction has a plate-like or columnar structure, and has a sufficiently large conductor surface area compared to the wiring or the like on substrate 21. The frame 22 and the rear cover 17 may be electrically connected to each other via a plate spring 25 of a conductive member (metal or the like) so as to have a more stable and low resistance (low impedance).

The battery 30 is connected to a power supply terminal of the substrate 21 and supplies power to each circuit of the substrate 21 and the like. The battery 30 may be detachably replaced, or may be fixed to the frame 22. In the latter case, the battery 30 may be charged by electric power generated by a solar cell panel, not shown, or electric power supplied from the outside by being connected to an external connection terminal.

As shown in fig. 3 (b) and 4, an antenna element 214 is attached to a side surface of the frame 22. As described above, the antenna element 214 is an antenna (here, a monopole antenna bent into an S-shape) for transmitting and receiving communication radio waves when performing bluetooth communication, and is different from the tuning frequency (reception frequency) of the bezel 13. The antenna element 214 transmits a reception signal to the communication circuit 213 on the substrate 21 via the wiring 2141, and transmits a signal related to the transmission content acquired from the communication circuit 213.

The antenna element 214 is connected to the ground terminal 215 located on the back surface of the substrate 21 via a wiring 2142. The ground plane (not shown) including the ground terminal 215 is in contact with the conductor portion of the frame 22 in the vicinity thereof (sufficiently shorter than the antenna length of the monopole antenna, for example, in a distance range of 1/2 or less, 1/4 or less of the 1/4 wavelength). As described above, the frame 22 is electrically connected to the rear cover 17 via the leaf spring 25. The ground plane G to which the bezel 13 (ground terminal 210) is connected and the ground plane to which the antenna element 214 (ground terminal 215) is connected may be connected or separated from each other.

Thus, antenna element 214 and substrate 21 are located in the space inside case 12 between bezel 13 and back cover 17. In such a configuration, since the electric field component projected onto the ground plane of the antenna element 214, which is a monopole antenna, mainly extends from the frame 22 to the rear cover 17, the potential of the ground plane G on the substrate 21 is not greatly disturbed from the ground potential. This allows the ground surface G on the substrate 21 of the bezel 13 to function properly, and can receive radio waves from the positioning satellites with good sensitivity.

In the above-described configurations, the bezel 13, the antenna element 214, the substrate 21 including the satellite radio wave receiving module 212, the communication circuit, and the ground plane G, and the back cover 17 constitute the antenna receiving device of the present embodiment.

As described above, the antenna receiving apparatus of the present embodiment includes: a bezel 13 as a first antenna; an antenna element 214 tuned to a different frequency band than bezel 13; a substrate 21 having receiving circuits (a satellite radio wave receiving module 212 and a communication circuit 213) to which the bezel 13 and the antenna element 214 are connected, respectively; and a rear cover 17 at least a part of which is a conductor. The substrate 21 has a ground plane G of the bezel 13. The substrate 21 and the antenna element 214 are located between the bezel 13 and the back cover 17. The antenna element 214 is located on the opposite side of the bezel 13 from the substrate 21, and is electrically connected to the conductor portion of the rear cover 17 and grounded.

By separating the ground planes corresponding to the respective operations of the plurality of antennas in this manner, it is possible to reduce an adverse effect of an electric field pattern on the ground plane generated during one operation on the other operation. In addition, by dividing the antenna and the ground plane into the front surface side and the back surface side, respectively, the respective radio wave reception accuracy is not lowered. Therefore, in the antenna reception device, the communication operation by the plurality of antennas can be performed more appropriately in parallel. That is, in the conventional structure as disclosed in japanese patent application laid-open No. 2019-124641, a ground plane is required for a monopole antenna, a patch antenna, or the like which is housed in a case and is frequently used when transmitting and receiving radio waves in a GHz band or the like. In a case where a ground plane of a housing of an antenna reception device includes a wide range of the antenna reception device, if a plurality of antennas are intended to operate simultaneously, there is a problem that an electric field pattern generated on the ground plane in accordance with the operation of one antenna adversely affects the reception of radio waves by the other antenna. By using the present invention, it is possible to more appropriately perform the receiving operation by the plurality of antennas in parallel.

In particular, the antenna element 214 is grounded to the rear cover 17 via the ground plane of the substrate 21, so that the difficulty in manufacturing can be reduced. In the portable antenna receiving apparatus, it is often assumed that a large impact is applied when the portable antenna receiving apparatus is carried, but it is difficult to directly and firmly connect the antenna element 214 to the rear cover 17 due to manufacturing process and structural constraints during the impact. In contrast, it is relatively easy to connect the ground plane of the large-sized substrate 21 to the rear cover 17 in the antenna device, and even when a large impact is applied to the antenna receiving device, it is easy to prevent the substrate 21 and the rear cover 21 from being completely disconnected from each other. Therefore, the antenna receiving device grounded to the rear cover 17 via the ground surface of the substrate 21 can be easily manufactured, and can stably receive radio waves of a plurality of frequencies in parallel.

The antenna element 214 is connected to the surface of the substrate 21 opposite to the bezel 13. That is, by directly connecting the antenna element 214 located on the back surface of the substrate 21 and the back surface of the substrate 21, the wiring can be easily shortened, and the influence of parasitic resistance, parasitic capacitance, and the like in the middle can be reduced.

The antenna receiving device (electronic timepiece 1) further includes a frame 22 located between the substrate 21 and the rear cover 17. The antenna element 214 is electrically connected to the conductor portion of the rear cover 17 via the frame 22. Since the support member such as the frame 22 is wider and thicker than the wiring, the frame 22 itself can also serve as a ground plane. Therefore, the ground area is increased particularly in the vicinity of the antenna element 214, and the portion serving as the ground plane of the antenna element 214 and the portion serving as the ground plane G of the bezel 13 can be separated more appropriately for appropriate reception.

The frame 22 is a housing portion having a space in which the battery 30 is located. In particular, in a small-sized portable device such as an electronic watch, the volume occupied by the battery 30 is also large, and accordingly, the frame 22 is also large, so that the ground contact area can be effectively enlarged by the conventional structure. In addition, the rear cover 17 is also easily connected with low resistance, and it is difficult to reduce the reception sensitivity of the antenna element 214.

The bezel 13 is annular and is positioned in a plane parallel to the base plate 21. With this arrangement, when a central display unit, particularly a circular display unit such as a wristwatch, is provided, wireless communication can be appropriately performed without obstructing the display unit.

In addition, the antenna element 214 is a monopole antenna. In the monopole antenna, the 1/4 wavelength component appears as a mirror image on the ground plane, and therefore the influence of the ground plane defining an area in particular is large. In this case, the influence of bezel 13 on radio wave reception can be reduced by separating the ground plane from substrate 21 to back cover 17 or the like.

In addition, the bezel 13 receives radio waves from a positioning satellite, and the antenna element 214 receives radio waves related to bluetooth-based radio wave communication of an external device. Radio waves of two wavelengths, which are often used in recent portable electronic devices, can be received simultaneously more appropriately, and the convenience of the portable electronic devices can be improved.

The electronic timepiece 1 of the present embodiment includes: the above-described antenna receiving apparatus; a time counting unit that counts a current time; and a control unit that corrects the current time counted by the time counting unit based on the radio wave received by at least one of the bezel 13 and the antenna element 214. According to the electronic timepiece 1, it is possible to transmit and receive radio waves of two wavelengths in parallel without increasing the size of the timepiece or the like, thereby improving the function of the electronic timepiece 1.

The present invention is not limited to the above embodiment, and various modifications can be made.

For example, in the above-described embodiment, the case where the bezel 13 serving as the first antenna is annular in accordance with the configuration of the electronic timepiece 1 has been described, but the present invention is not limited thereto. If there is no problem in the arrangement, the antenna may have another shape such as a planar antenna. Alternatively, although the case where the antenna element 214 is a monopole antenna has been described, the antenna element 214 may be a patch antenna or the like that receives radio waves in pair with the rear cover. Even in an electronic watch, the first antenna need not be a bezel.

In the above-described embodiment, the case where the bezel 13 on the upper surface side of the substrate 21 receives radio waves from a positioning satellite and the antenna element 214 on the outer surface side of the substrate 21 is an antenna for performing communication by bluetooth has been described, but the combination is not limited thereto. As long as the antenna can be disposed at each position in an appropriate shape and positional relationship, transmission and reception of other radio waves can be performed. For example, the antenna element 214 may transmit and receive a communication radio wave related to a wireless LAN.

The communication circuit 213 connected to the antenna element 214 does not necessarily have to be located on the outer surface side of the substrate 21. The wiring 2141 in this case may include a through hole, a via hole, or the like penetrating the substrate 21.

The frame 22 in the above embodiment may not be used to house the battery 30. The substrate 21 may be supported, or other structures, for example, a structure for driving a movable portion such as a pointer, may be housed therein. The battery 30 may include not only the storage portion but also various structures for obtaining electric power by solar power generation or vibration power generation.

In the above-described embodiment, the case where the electronic timepiece 1 (wristwatch) of the wrist-worn type has an antenna receiving device has been described, but the present invention may be applied to electronic devices other than a wristwatch. For example, an activity meter, various measurement devices (sensors), and the like may be used. These electronic devices may also have a timing function. The electronic timepiece 1 may have various functions other than the timer function.

The specific configurations, shapes, configurations, positional relationships, contents and orders of processing operations, and the like shown in the above embodiments can be appropriately modified within a scope not departing from the gist of the present invention.

While the present invention has been described with reference to the embodiments, the scope of the present invention is not limited to the embodiments described above, and includes the scope of the invention described in the claims and the equivalent scope thereof.

The present application is based on and claims priority from Japanese patent application No. 2020-92797, filed on 35/28/2020, according to the provisions of section 119 of the American Law, the entire disclosure of which, including the description, claims, drawings and abstract, is incorporated herein by reference in its entirety.