JP2004109115A - Electronic apparatus with radio function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic apparatus with a radio function capable of providing a metallic appearance without having restriction in design. <P>SOLUTION: A radio-controlled timepiece 1 is provided with a timepiece case 9, a band 10 formed by connecting a plurality of piece members 100, an antenna 21 and a receiving means. The antenna 21 is disposed in the piece member 100A, and through-holes 95 and 106 are formed on facing end faces of the piece member 100A and the timepiece case 9. Both ends of a tube 110 are inserted into the respective through-holes, and tubular fixing members 115 are pressed in both the ends to tightly fit the tube 110 to the through-holes. Therefore, a waterproof property is secured, and a signal wire can be installed from the antenna 21 built in the piece member 100A to the timepiece case 9. Since the antenna 21 is built in the piece member, the timepiece case 9 can be made of metal without using plastics or the like by considering reception by the antenna, so that this electronic apparatus capable of providing the metallic appearance without having restriction in design. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic device with a wireless function including an antenna.
[0002]
[Background Art]
2. Description of the Related Art There are known electronic devices that operate by receiving wireless information from outside, for example, a radio-controlled timepiece that receives time information from outside and corrects time. The radio-controlled timepiece is a timepiece having a function of receiving a long-wave standard radio wave and correcting the time based on the received signal. The long-wave standard radio wave is a radio wave including a time code indicating the current time, and is transmitted at, for example, two frequencies of 40 kHz (East Japan) and 60 kHz (West Japan) in Japan.
The radio-controlled timepiece receives a long-wave standard radio wave using an antenna built in the watch case. Therefore, in a watch case composed of a ring-shaped casing (body, side), back cover, etc., if the casing and back cover are made of a conductive material such as metal, radio waves are shielded by the metal case portion and the built-in antenna Makes it difficult to receive. Therefore, a non-conductive member (electric insulator) such as plastic or ceramic has conventionally been used for the case of the radio-controlled timepiece. (For example, Patent Document 1)
[0003]
[Patent Document 1]
JP 2000-105285 A (page 3, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, when the watch case is made of plastic or the like, there is a problem in that a metallic appearance cannot be obtained, which is a limitation in design.
Such a problem is not limited to the radio-controlled timepiece, but is a problem common to various electronic devices having a built-in antenna for wireless communication. For this reason, in an electronic device with a wireless function such as a radio-controlled timepiece, there is a demand for an electronic device in which the main body case can be made of metal, a metal-like appearance can be obtained, and restrictions on design can be eliminated.
An object of the present invention is to provide an electronic device with a wireless function that can obtain a metallic appearance and has no design restrictions.
[0005]
[Means for Solving the Problems]
An electronic device with a wireless function according to the present invention includes a main body case, a band formed by connecting a plurality of pieces to each other and connected to the main body case, an antenna, and an external device through the antenna. A communication means for performing communication, wherein the antenna is arranged in a piece member of the band, and between the members connected to each other from the antenna built-in piece member in which the antenna is built to the main body case, that is, the main body case and each Between the piece members, there are provided through-holes penetrating from the end faces of the members facing each other to the inside of each member, and the through-holes are provided at both ends of a cylindrical member provided over the members. Parts are inserted, and both ends of the cylindrical member are sandwiched between a cylindrical fixing member press-fit into the cylindrical member from the inside of each member and an inner peripheral surface of the through-hole, and the main body case From the Until container built bridge member is for a signal line through each bridge member and the fixing member and the tubular member is characterized in that it is arranged.
Note that, among the plurality of piece members, the arrangement position of the piece member in which the antenna is built is not particularly limited. For example, it is preferable to dispose it on a portion directly connected to the main body case, that is, on a bridge member adjacent to the main body case, since the signal line from the antenna to the main body case can be shortened.
[0006]
In the present invention, the antenna is not disposed in the main body case but the antenna is disposed in the band piece member. Therefore, the main body case can be formed of a metal case, and the An electronic device with a wireless function that can provide an external appearance and has no design restrictions can be provided. For example, if the electronic device is a radio-controlled timepiece, the main body case of the timepiece, that is, the casing (body), the back cover, and the like can be made of metal. For this reason, it is possible to obtain a radio-controlled timepiece having a metallic appearance and no design restrictions.
In addition, both ends of the main body case and the piece member connected to each other, or both ends of the cylindrical member arranged between the piece members are provided with through holes formed in the main body case and the piece member, and the main body case and the piece. Since the cylindrical member is held in close contact with the through-hole by being sandwiched by the fixing member inserted into the cylindrical member from the inside of the member, sufficient waterproof performance is provided for the inside of the main body case and the piece member communicated by the cylindrical member. Can be increased. For this reason, the antenna can be built in the bridge member of the band, in which it was difficult to arrange the antenna because it was conventionally difficult to ensure waterproofness. In addition, since the tubular member can be processed and attached as a separate member from the signal line, the work of processing the signal line and the tubular member is not required, and the mounting operation can be facilitated, and an extra force is applied to the signal line. Without this, the durability of the signal line can be improved.
[0007]
It is preferable that a non-conductive member such as plastic is used as the material of the piece member in which the antenna is built, from the viewpoint of increasing the sensitivity of the antenna.
However, the piece member is usually smaller than the main body case, and the thickness required for securing the strength can be reduced accordingly, so that a certain degree of sensitivity can be ensured even if it is made of a conductive material such as metal. Therefore, depending on the conditions of wireless communication (such as when the signal strength is high), the bridge member may be made of a conductive material (such as various metals).
Further, the "signal line" is used to transmit a signal such as an electric signal, a magnetic signal, and an optical signal. Specifically, a conductive line formed of a conductive material, for example, copper, iron, gold, aluminum And the like formed into a stranded wire or a single wire from such materials. Not only the above-mentioned conductive wire, but also an electronic circuit or a magnetic circuit in which a circuit is formed by attaching a thin film conductive material such as a copper foil on a film-like substrate, and an optical fiber cable for transmitting an optical signal. Is included.
Further, the “cylindrical member” is a member having water tightness, and is formed by combining a stretchable elastic material such as rubber or synthetic resin, a synthetic resin or a metal material in a bellows shape or a spiral shape, and has flexibility or stretchability. It is formed from a member having properties. The shape includes a cylindrical shape, a substantially elliptical cross section, an elliptical cylindrical shape, and a rectangular cylindrical shape having a polygonal cross section. As the rubber, NBR (acrylonitrile-butadiene-rubber), IIR (butyl rubber), urethane rubber, and the like are particularly suitable.
As the communication means, one capable of transmitting and receiving wireless information to and from the outside, one capable of transmitting only, and one capable of receiving only is selected according to the function of the electronic device. For example, if the electronic device is a radio-controlled timepiece, it is sufficient that the electronic device has a function of receiving wireless information, and a communication means having only a receiving function can be used.
[0008]
Here, it is preferable that the antenna is a loop antenna, and the opening surface of the loop antenna is arranged so as not to face another member connected to the antenna built-in member. That is, the axial direction perpendicular to the opening surface of the loop antenna does not coincide with the connecting direction between the antenna built-in piece member and another piece member or the main body case, but faces in another direction such as orthogonal to the connecting direction. Preferably, they are arranged.
The loop antenna has directivity in which the axial direction (the direction orthogonal to the opening plane) is the maximum sensitivity direction. For this reason, if a conductive member such as a metal is arranged in a portion (axial direction of the loop antenna) facing the loop opening surface, the antenna characteristics deteriorate. Therefore, as in the present invention, if the opening surface of the loop antenna is arranged in a direction that does not face another member connected to the antenna built-in piece member, even if the other piece member or the main body case is made of metal. They do not degrade the antenna characteristics and prevent a decrease in antenna sensitivity.
[0009]
Further, it is preferable that at least the surface of the antenna built-in piece member facing the opening surface of the loop antenna is formed of a non-conductive member. That is, it is preferable that at least the surface of the piece with a built-in antenna that exists in the axial direction orthogonal to the opening surface of the loop antenna is formed of a non-conductive member such as plastic.
Specifically, the entire antenna built-in member may be formed of a non-conductive member such as plastic. Further, the surface of the antenna built-in member facing the antenna opening surface may be formed of a non-conductive member, and the other portion may be formed of a conductive member such as a metal.
According to such a configuration, since the surface facing the antenna opening surface that most affects the directivity of the antenna is formed of a non-conductive member, deterioration of antenna characteristics can be prevented.
[0010]
Further, when the whole antenna built-in member is formed of a conductive member, it is preferable that the thickness of the member facing the opening surface of the loop antenna is smaller than the thickness of the other surface.
According to such a configuration, while all the bridge members are formed of conductive members, only the surface opposed to the antenna opening surface which most affects the directivity of the antenna is formed of the thin conductive member. It is possible to prevent antenna characteristics from deteriorating while maintaining the appearance of the members.
[0011]
Here, it is preferable that a magnetic core is inserted in the loop antenna. A loop antenna having no core can be used, but if a magnetic core is inserted, the directivity can be sharpened and the antenna characteristics can be improved.
[0012]
Further, it is preferable that a tuning capacitance element connected to the antenna is arranged in the antenna built-in piece member.
When an antenna is built in a band piece member, the antenna wiring is longer than that of an electronic device having a built-in antenna in a main body case, so that the tuning frequency is likely to shift due to an angle with an arm or the main body case. On the other hand, if the tuning capacitive element (capacitor) is arranged in the antenna built-in piece, the antenna wiring to the tuning capacitive element can be shortened, and the influence from the outside can be reduced, and the wireless signal communication (reception and transmission) can be reduced. ) Can be performed stably.
[0013]
Further, it is preferable that the main body case is made of metal. Here, the main body case is a case that covers a main body portion in which various parts and the like of an electronic device are stored, except for a portion whose material is limited in terms of its function, such as glass on the front side of a watch, for example. Means a part (for example, a casing (body) or a back cover part except a surface glass in the case of a timepiece).
If the main body case can be made of metal, a metallic appearance can be obtained, and design restrictions can be reduced.
[0014]
At this time, it is preferable that the antenna built-in member is subjected to a surface treatment so as to have the same appearance as the other member and the metal main body case.
According to such a configuration, even if the antenna built-in piece member is formed of a non-conductive member such as plastic and the other piece member is formed of a conductive member such as metal and the material of each piece member is different, the surface of the piece has a different surface. By performing the processing, the appearance can be made similar, and the design of the band portion can be improved. Furthermore, since the antenna built-in piece member and the other piece members have the same appearance as the metal body case, the body case and the band portion have a uniform appearance design, and the design of the entire electronic device is also improved. be able to.
[0015]
Further, it is preferable that the external wireless information is wireless information including time information, and the electronic device is an electronic timepiece including a time display unit that is corrected and displayed based on the wireless information. If the present invention is applied to such a so-called radio-controlled timepiece, unlike a conventional radio-controlled timepiece, a metal watch case can be used. Restrictions can be reduced.
At this time, the dial of the timepiece is preferably a metal dial or a dial having a metal layer provided on the surface of a non-conductive member (such as plastic) by applying a treatment such as metallic coating. Conventional radio-controlled timepieces have an internal antenna inside the watch case, so the watch case could not be made of metal. The problem was that it was not possible to adjust the tone, which was a constraint on the design. On the other hand, in the present invention, since the watch case does not include an antenna, the dial is also made of metal such as brass (brass, Bs), nickel silver (nickel silver, NS), or a plastic plate. It is possible to use a metal plate which has been subjected to a surface treatment and provided with a metal layer, so that the dial can be given a metallic appearance and the design restrictions can be eliminated.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components will be denoted by the same reference symbols, and the description thereof will be omitted or simplified.
[First Embodiment]
FIG. 1 is a block diagram showing a configuration of a radio-controlled timepiece 1 as an electronic device according to a first embodiment of the present invention.
The radio-controlled timepiece 1 of the present invention has the same configuration as a general radio-controlled timepiece, and includes a receiving unit 2 as a communication unit for receiving a radio wave including time information, a drive control circuit unit 3, a pointer, , A counter unit 6 for counting time, a power supply unit 7 for supplying power, and an external input device 8 such as a crown.
[0017]
The receiving means 2 includes an antenna 21 for receiving a radio wave, a tuning circuit unit 22 composed of a capacitor or the like for tuning to a radio wave received by the antenna 21, a receiving circuit 23 for processing information received by the antenna 21, and a receiving circuit 23. And a time data storage circuit section 24 for storing the time data processed in the step (a).
As shown in FIG. 2, the antenna 21 is provided with a coil 212 wound around a magnetic core 211 made of ferrite, soft magnetic iron (SUY), amorphous (Co type) or the like, and is insulated by cationic electrodeposition coating having excellent corrosion resistance. Can be used. In addition, the winding method of the coil 212 is not particularly limited, and random winding may be used, but aligned winding is particularly preferable. If the aligned winding is adopted, there is no useless space between the coil wires, and the coil volume for obtaining the same inductance value can be reduced.
A flexible board 213 for connection to the outside is connected to the antenna 21, and both ends of the coil 212 are connected to two wiring patterns 214 on the board 213, respectively.
[0018]
As shown in FIG. 3, the reception circuit 23 includes an amplification circuit 231 that amplifies the long-wave standard radio signal received by the antenna 21 and a band-pass filter 232 that extracts only a desired frequency component from the amplified long-wave standard radio signal. A demodulation circuit 233 for smoothing and demodulating the long-wave standard radio signal, an AGC (Automatic Gain Control) circuit 234 for performing gain control of the amplifier circuit 231 and controlling the reception level of the long-wave standard radio signal to be constant, And a decoding circuit 235 for decoding and outputting the obtained long-wave standard radio signal.
The time data received and signal-processed by the receiving circuit 23 is output to the time data storage circuit unit 24 and stored.
The reception circuit 23 starts receiving time information based on a reception control signal output from the drive control circuit unit 3 by a preset schedule, a forced reception operation by the external input device 8, or the like.
[0019]
The drive control circuit unit 3 receives a pulse signal from the pulse synthesis circuit 31 as shown in FIG. The pulse synthesizing circuit 31 divides a reference pulse from a reference oscillator 311 such as a crystal oscillator to generate a clock pulse, and generates a pulse signal having a different pulse width and timing from the reference pulse.
[0020]
The drive control circuit unit 3 outputs a second drive pulse signal PS1 that is output once per second to drive the second hand and an hour / minute drive pulse signal PS2 that is output once per minute and drives the hour / minute hand. 41. Output to the hour and minute drive circuit 42 to control the driving of the hands. That is, the respective drive circuits 41 and 42 drive the second motor 411 and the hour / minute motor 421, which are stepping motors driven by pulse signals from the respective circuits 41 and 42, and are thereby connected to the respective motors 411 and 421. The second hand, the minute hand and the hour hand are driven.
[0021]
The counter section 6 includes a second counter circuit section 61 for counting seconds and an hour / minute counter circuit section 62 for counting hours and minutes.
The second counter circuit section 61 includes a second position counter 611, a second time counter 612, and a coincidence detection circuit 613. Each of the second position counter 611 and the second time counter 612 is a counter that counts 60, that is, loops in 60 seconds when a 1 Hz signal is input. The second position counter 611 counts a drive pulse signal (second drive pulse signal PS1) supplied from the drive control circuit unit 3 to the second drive circuit 41. That is, the position of the second hand indicated by the second hand is counted by counting the drive pulse signal for driving the second hand.
The second time counter 612 normally counts a 1 Hz reference pulse signal (clock pulse) output from the drive control circuit unit 3. Further, when the time data is received by the receiving means 2, the counter value is corrected in accordance with the second data of the time data.
[0022]
Similarly, the hour / minute counter circuit section 62 includes an hour / minute position counter 621, an hour / minute time counter 622, and a coincidence detection circuit 623. The hour / minute position counter 621 and the hour / minute time counter 622 are counters that loop when signals for 24 hours are input. The hour / minute position counter 621 counts the drive pulse signal (hour / minute drive pulse signal PS2) supplied from the drive control circuit unit 3 to the hour / minute drive circuit 42, and counts the position of the hour / minute hand indicated by the hour hand and the minute hand. are doing.
The hour-minute time counter 622 normally counts 1 Hz pulses (clock pulses) output from the drive control circuit unit 3 (exactly, 1 Hz is counted 60 times to count as 1). When the time data is received by the receiving means 2, the counter value is corrected in accordance with the hour and minute data of the time data.
[0023]
Each of the coincidence detection circuits 613 and 623 detects coincidence of the count values of each of the position counters 611 and 621 and each of the time counters 612 and 622, and outputs a detection signal indicating whether or not they are coincident to the drive control circuit unit 3. I do.
When a mismatch signal is input from each of the coincidence detection circuits 613 and 623, the drive control circuit unit 3 continues to output each of the drive pulse signals PS1 and PS2 until the coincidence signal is input. For this reason, at the time of normal hand operation, when the counter values of the time counters 612 and 622 are changed by the reference signal of 1 Hz from the drive control circuit unit 3 and become inconsistent with the position counters 611 and 621, the drive pulse signals PS1 and PS2 are changed. The hands are output and the hands move, and the position counters 611 and 621 match the time counters 612 and 622. By repeating this operation, normal hand movement control is performed.
When the time counters 612 and 622 are corrected by the received time data, the drive pulse signals PS1 and PS2 continue to be output until the counter values match the counter values of the position counters 611 and 621. Is fast-forwarded and corrected to the correct time.
[0024]
The power supply unit 7 includes a power generation device 71 as a power generation unit, and a high-capacity secondary power supply 72 that stores the power generated by the power generation device 71.
The external input device 8 as an external input means includes a crown and the like, and is used for performing a receiving operation, time adjustment, and the like.
[0025]
As shown also in FIGS. 4 and 5, the radio-controlled timepiece 1 having such a configuration is mounted on a casing (body) 91 formed in an approximately ring shape via a glass edge 92A on the surface side of the casing 91. A cover glass 92 and a back cover 93 detachably attached to the back surface of the casing 91 are provided. The casing 91 and the back cover 93 are made of a metal material such as stainless steel, brass, and titanium. Therefore, the casing 91 and the back cover 93 constitute a metal main body case (watch case) 9 in the present embodiment. The above-described components except for the antenna 21 are incorporated in the main body case 9. That is, a circuit board 150 constituting the drive control circuit section 3 and the counter section 6, a clock body (movement) 160 incorporating a motor and a train of wheels constituting the driving means 4, a battery 170 constituting the power supply means 7, Each component such as a dial 180 provided on the front side of the timepiece 160 is incorporated.
Here, the flexible board 213 is electrically connected to the circuit board 150. The dial 180 is made of a metal such as brass (brass, Bs) or nickel silver (nickel silver, NS) or a plastic plate or the like, and is provided with a metal layer by performing a surface treatment such as a metallic coating. It is composed of things.
[0026]
At two opposing positions of the casing 91, usually at 12 o'clock and 6 o'clock in the dial 180, connecting protruding pieces (cans) 91 A for connecting the watch band 10 are provided to protrude, respectively. The watch band 10 attached to the casing 91 is constituted by connecting a plurality of piece members 100 to each other by pins (spring bars or the like) so as to be rotatable. The end piece member 100 is also rotatably connected to the casing 91 by a pin 105.
[0027]
In the present embodiment, the antenna 21 is disposed on one of the two pieces 100A of the two pieces 100 attached to the casing 91 with the pins 105. The piece member 100A includes a piece body 101 arranged on the front side of the band 10 and a back cover 102 attached to the back side of the piece body 101. Since FIG. 4 is a view of the band 10 viewed from the back side, the back cover 102 is arranged on the upper side.
The frame body 101 is made of metal and has a substantially U-shaped cross section as shown in the figure. The frame body 101 has two protrusions 101A formed with through holes through which the pins 105 are inserted, and a protrusion 101B to which another piece member 100 is connected. The protrusion 101A and the connection protrusions are provided. The watch case 9 and the piece member 100A are rotatably connected to each other by inserting the pin 105 through the piece 91A.
By making the frame main body 101 made of metal, the durability of the surface side of the band 10 that is easily damaged can be improved, and the metal appearance similar to that of the watch case 9 can be obtained, so that the design can be improved. .
[0028]
On the other hand, the back cover 102 is formed to have a substantially U-shaped cross section, and is capable of forming a hollow space inside by being combined with the piece main body 101.
Here, the back surface portion 102A of the back cover 102 is formed of a conductive member such as metal or a non-conductive member (electric insulator) such as plastic or ceramic. On the other hand, the side surface portion 102B of the back cover 102 is formed of an electrical insulator such as plastic or ceramic, because the side surface portion 102B serves as an entrance for magnetic flux to the antenna 21. Therefore, as the back cover 102, one composed entirely of a non-conductive member such as plastic or ceramic, or one composed of a composite material including a metal part and a non-conductive part such as plastic can be used. The method of joining the frame main body 101 and the back cover 102 may be appropriately set according to the material of each member and the like, and an appropriate method using an adhesive, a screw, or the like can be used.
[0029]
Then, the antenna 21 is arranged such that the axial direction of the coil 212 is in a direction connecting the both side surface portions 102B, in other words, such that both end surfaces 211B of the magnetic core 211 of the antenna 21 face the respective side surface portions 102B. Is arranged in the internal space of the piece member 100A. Therefore, the piece member 100A functions as a piece member with a built-in antenna.
[0030]
The antenna 21 is connected to a circuit board disposed in the case 9 by inserting the flexible substrate 213 into the watch case 9.
That is, through-holes 95 and 106 are formed in the facing end faces of the casing 91 and the piece main body 101 that face each other. As shown in FIG. 5, a tube (tubular member) 110 is disposed across the through holes 95 and 106.
The tube 110 is formed in a substantially cylindrical shape from a rubber material such as NBR (acrylonitrile-butadiene-rubber). The outer diameter of the tube 110 is substantially the same as the inner diameter of the through holes 95 and 106. Further, at both ends of the tube 110, end protruding portions 110A projecting radially outward of the tube 110 and having an outer diameter larger than the inner diameter of the through holes 95 and 106 are formed. These end projections 110 </ b> A are in contact with the inner side edges of the through holes 95 and 106.
[0031]
Metal-made tubular fixing members 115 are press-fitted into the openings at both ends of the tube 110 from the inside of each member of the casing 91 and the piece main body 101, respectively. The fixing member 115 is formed in a substantially cylindrical shape having a flange formed on one end side. The outer diameter of the fixing member 115 is substantially the same as the inner diameter of the tube 110. Therefore, the tube 110 is sandwiched and fixed between the substantially cylindrical outer peripheral surface of the fixing member 115 and the inner peripheral surfaces of the through holes 95 and 106 of the casing 91 and the piece main body 101.
With this fixing structure, the tube 110 is in close contact with the inner surfaces of the through holes 95 and 106, preventing water from entering through the through holes 95 and 106, and ensuring waterproofness. In addition, a sealing material or the like is interposed, as necessary, at the joint surface portion between each piece main body 101 and the back cover 102 to ensure waterproofness.
[0032]
A flexible board 213 is provided from the antenna 21 in the piece member 100A to the circuit board in the casing 91 through the inside of the tube 110 and the fixing member 115 (the inner through-hole portion).
The casing 91 and the piece member 100A are rotatably connected to each other by a pin 105, and the rotation angle at this time is regulated within a predetermined angle range by a rotation angle regulating means. As the rotation angle restricting means, various configurations can be adopted. For example, when the piece member 100A rotates to a predetermined angle with respect to the casing 91, the casing 91 and the piece member 100A come into contact with each other and cannot rotate further. Such a configuration can be used.
Also, the appearance is better if the tube 110 is not seen from the gap between the piece member 100A and the casing 91 and the back cover 102. Therefore, a makeup member which also serves as the rotation angle regulating means is added, and the tube is further added. 110 may be covered and hidden.
[0033]
As described above, in the antenna 21 arranged in the piece member 100A, the side surface portion 102B of the back cover 102 made of an electric insulator is arranged in the axial direction of the magnetic core 211 around which the coil 212 is wound. The orientation is set.
When the antenna 21 receives a radio wave such as a long-wave standard radio wave, the magnetic field component, which is a part of the radio wave, passes through the core 211 of the antenna 21 from one end A to the other end B as shown in FIG. I do. Then, an AC current is induced in the coil 212 wound around the core 211, and an AC voltage is generated across the coil 212. Then, this AC voltage flows to the reception circuit 23 as an analog reception signal.
The analog reception signal is subjected to processing such as amplification, demodulation, and decoding by the reception circuit 23 to obtain digital time data, which is stored in the time data storage circuit unit 24.
That is, the antenna 21 has directivity that responds to a magnetic field in the direction of an extension connecting the one end A and the other end B of the core 211 (the axial direction of the core 211 and the coil 212). Therefore, the side surface portion 102B of the back cover 102 existing in the extension line direction is formed of an electric insulator so that the magnetic field component in the extension line direction passes easily without being interrupted by the bridge member 100A.
[0034]
When the piece member 100A and the piece body 101 are made of a metal material, it is desirable that the thickness of the side surface portion 102B be smaller than other portions. Ideally, if the thickness is reduced to 30 μm or less, in the case of long waves, radio waves can be transmitted and antenna characteristics can be secured. Since the piece member 100A and the piece main body 101 are all made of the same metal member, the sense of unity as a member is increased and the appearance of the appearance can be improved. If the strength of the bridge member is insufficient due to the reduced thickness of the conductive member of the side surface portion 102B, the inside of the bridge member may be reinforced with a non-conductive member such as plastic.
[0035]
The operation of the radio-controlled timepiece 1 having such a configuration will be described.
First, the normal time display will be described. Normally, the drive control circuit unit 3 uses a pulse signal (reference signal) input from the pulse synthesis circuit 31 and sends a 1 Hz pulse signal to count up the counter value of the second time counter 612. When the second time counter 612 counts up and differs from the counter value of the second position counter 611, the coincidence detecting circuit 613 detects the inconsistency and outputs an inconsistency signal to the drive control circuit unit 3. The drive control circuit unit 3 outputs a second drive pulse signal PS1 based on the mismatch signal. In response to the output of the second drive pulse signal PS1, the second position counter 611 is counted up, the second motor 411 is driven via the second drive circuit 41, and the second hand is driven. The above processing is performed until the values of the counters 611 and 612 match in the match detection circuit 613. Therefore, during normal hand operation, every time 1 Hz is input to the second time counter 612 and the counter value is counted up by “1”, one second drive pulse signal PS1 is output, and the second hand is moved step by step every one second. You.
Similarly, for the hour and minute, the hour and minute drive pulse signal PS2 is output from the drive control circuit unit 3 so that the count value of the hour and minute position counter 621 matches the count value counted by the hour and minute time counter 622. A pulse signal is output from the hour / minute drive circuit 42 to the hour / minute motor 421 in response to the drive pulse signal PS2, and the hour hand and the minute hand are driven.
[0036]
Next, an operation when time information is received will be described.
When the set reception start time comes, the drive control circuit unit 3 drives the reception circuit 23 to start receiving time information. In addition, it is also possible to forcibly start (forced reception) by the operation of starting the reception operation by the external input device 8.
When the receiving circuit 23 is operated, the radio wave (time information) received via the antenna 21 is processed by the receiving circuit 23 and then stored in the storage circuit unit 24. At this time, verification of whether the received time data is correct is also performed. More specifically, since the time information of the long-wave standard time signal is data every minute, it is determined whether or not a plurality of received time data are different at one-minute intervals.
When the received time information is determined to be correct data, the time data is output to the second time counter 612 and the hour / minute time counter 622 according to the instruction of the drive control circuit unit 3, and the second time counter 612 and the hour / minute time counter 622 are output. Is corrected. When the count values of the time counters 612 and 622 are corrected and become different from those of the position counters 611 and 621, the non-coincidence signals of the coincidence detection circuits 613 and 623 are received until the count values match. The drive control circuit 3 outputs the drive pulse signals PS1 and PS2 to drive the hands. The driving of the hands is continued at the rapid traverse until the respective counter values match.
[0037]
Each piece member 100 constituting the band 10 is formed of an integrated metal piece member 100 (not shown) having the same shape as the piece member 100A. The band 10 is configured such that a plurality of metal piece members 100 are rotatably connected to each other via a spring bar or the like. Of the plurality of metal piece members 100, the piece member arranged at the end is an end piece member 100A. By connecting the end piece member 100A to the casing 91, the band 10 is attached to the watch case 9. It is attached. Although not shown, the other end of the band 10 connected to both sides of the casing 91 (the watch case 9) is connected via a fixture having a zigzag buckle or the like, and is entirely annular. Is formed. When the watch 1 is worn on the wrist, the band 10 is adjusted to a length at which a good wearing feeling can be obtained by a clasp or the like, and the wrist is inserted through the wrist to fix the fixture.
[0038]
According to the above-described embodiment, the following effects can be obtained.
(1) Since the antenna 21 is arranged in the bridge member 100A of the band 10, the casing 91 and the like as the main body case (watch case) 9 can be formed of a metal case. For this reason, it is possible to use a metal such as titanium as compared to the case where the main body case is made of plastic or the like, unlike a conventional radio-controlled timepiece in which an antenna is arranged inside the main body case. An appearance can be obtained, thereby providing the radio-controlled timepiece 1 with few design restrictions.
In addition, when the watch case 9 is made of a material other than a metal material such as plastic, some measures must be taken to manufacture the case 9 such as increasing the thickness or providing reinforcing ribs in order to secure the necessary strength. For example, since the strength is generally higher than that of plastics or the like, the case 9 having higher strength can be formed, and the thickness dimension of the case 9 necessary for securing the same strength can be reduced.
Further, in the present embodiment, the dial 180 can also be made of metal or a metal layer, so that the dial 180 can also have a metal-like appearance and can be reduced in design restrictions, thereby reducing customer needs. Can design a high design.
[0039]
(2) The tube 110 is disposed across the casing 91 and the bridge member 100A, and the fixing member 115 is press-fitted into the tube 110 to bring the tube 110 and the through holes 95 and 106 into close contact. , 106 can be prevented, and the waterproof performance inside the casing 91 and inside the piece member 100A can be sufficiently enhanced. Specifically, in the timepiece 1 having the structure of the present embodiment, waterproof performance that can withstand a water pressure of about 10 atm can be secured. For this reason, even if the antenna 21 is disposed in the piece member 100A, a failure or the like due to water intrusion can be prevented, and stable performance can be secured for a long period of time.
[0040]
(3) Further, since the tube 110 can be processed and attached as a separate member from the signal line (the flexible substrate 213), the work of processing the flexible substrate 213 and the tube 110 is not required, and the mounting operation can be facilitated. 213 can be improved in durability without any extra force being applied. Further, since the tube 110 is formed of rubber, which is an elastic material such as NBR, and only its both ends are sandwiched and fixed between the fixing member 115 and the through holes 95 and 106, the watch case 9 and the piece member 100A are fixed. Even when the tubes 110 are rotated relative to each other, the deformation between the tubes 110 can be absorbed by the deformation of the intermediate portion of the tube 110, so that the tube 110 does not shift or come off, and the waterproof property can be secured.
[0041]
(4) In the piece member 100A in which the antenna 21 is built, the side surface portion 102B of the back cover 102 arranged in the axial direction of the coil 212 (axial direction of the core 211) is formed of a non-conductive member. Radio wave reception sensitivity can be increased.
Further, since the axial direction of the core 211 and the coil 212 of the antenna 21 is configured to be different from the extending direction of the band 10 and the direction of the watch case 9, the other piece member 100 and the casing 91 are made of metal. This does not hinder radio wave reception and can prevent a decrease in reception sensitivity.
[0042]
(5) The piece member 100A is composed of the piece body 101 and the back cover 102. Since the piece body 101 exposed on the surface side of the band 10 is made of metal, the back cover 102 is made of a non-conductive material such as plastic. Even in the case of the above, the design on the band surface side can be made of the same metal as the other piece members 100, so that the design property can be improved.
[0043]
(6) Since the magnetic core 211 is inserted in the loop antenna 21, the directivity can be sharpened, and the antenna characteristics can be improved.
[0044]
(7) The end protruding portions 110A formed at both ends of the tube 110 abut and are locked to the inner side edges of the through holes 95 and 106 formed in the casing 91 and the piece main body 101. In a state where the watch case 9 and the piece member 100A are rotated with respect to each other, even when a large tensile force is applied to the tube 110, the tube 110 is not shifted with respect to the through holes 95 and 106, and the waterproofness is further improved. Can be.
In addition, when the fixing member 115 is inserted into the tube 110, the end protruding portion 110A is locked to the inner side edge of the through-holes 95 and 106, and the tube 110 does not come out, so that the mounting operation is easy. Can be.
[0045]
(8) Since means for regulating the rotation angles of the watch case 9 and the piece member 100A are provided, it is possible to prevent these members from rotating more than necessary. Therefore, stress and deformation acting on the tube 110 and the signal line (the flexible substrate 213) can be suppressed to a predetermined amount or less.
[0046]
(9) Since the antenna 21 can be housed in the piece member 100A, the size and thickness of the watch case 9 can be reduced as compared with the conventional case where the antenna is disposed in the watch case 9. it can.
Furthermore, since components such as a battery, a circuit board, and a motor are arranged in the watch case 9, the layout and size of the antenna are limited when the antenna is arranged. Can not. On the other hand, in the present embodiment, the antenna 21 is arranged in the piece member 100A where no other components are arranged. Therefore, even if there is a limitation due to the size and thickness of the piece member 100A itself, the watch case The layout and size of the antenna 21 are less restricted as compared with the case where the antenna 21 is disposed in the antenna 9, and the antenna 21 having a relatively large number of turns or a large number of turns can be used.
[0047]
[Second embodiment]
Next, a second embodiment of the present invention will be described. In the second embodiment, only the structure of the piece member 100A and the structure of the magnetic core 211 of the antenna 21 are different from those of the first embodiment, and thus only those portions will be described. In the following embodiments, the same or similar components as those in the above-described embodiments will be denoted by the same reference numerals, and description thereof will be omitted or simplified.
The piece member 100A of the second embodiment includes a piece body 121 and an upper lid 122, as shown in FIG. The piece main body 121 is made of an electromagnetic insulator such as plastic, and is provided with a recessed storage portion 121A that opens on the upper surface (band surface side). Then, with the antenna 21 stored in the storage section 121A, the upper lid 122 is fixed to the upper surface of the storage section 121A to form the piece member 100A. The upper lid 122 may be made of metal or an electromagnetic insulator such as plastic or ceramic. Further, as a method of fixing to the piece main body 121, various fixing methods such as an adhesive method using an adhesive, ultrasonic welding, heat caulking, and screws can be used. These fixing methods may be appropriately selected according to the material of the bridge body 121 and the upper lid 122 and the like.
[0048]
The magnetic core 211 of the antenna 21 is formed by laminating various amorphous metal thin plates 211A such as a cobalt-based amorphous metal, an iron-based amorphous metal magnetic material, and the like. The amorphous metal sheet 211A can be manufactured by a continuous casting ultra-quick cooling device or the like that rapidly cools the molten raw material, and the manufacturing procedure is as follows, for example.
First, melt several types of metal as raw materials in an induction heating furnace, pressurize the molten raw material poured from the induction heating furnace with a feeder and eject it from the casting head, and rapidly cool the sprayed molten raw material with a quench drum Thus, a tape made of an amorphous metal is formed, and the tape is wound around a winding device.
The tape manufactured by this continuous casting super-quenching device is set in a pressing device for punching together with a take-up reel, and has a predetermined shape according to the planar shape of the magnetic core 211 from the tape by punching out with the pressing device. A magnetic thin material, in other words, an amorphous metal thin plate 211A having a predetermined shape is manufactured.
[0049]
Thereafter, the amorphous metal thin plate 211A having a predetermined shape is annealed by heating and cooling in a nitrogen gas or the like. At this time, the amorphous metal thin plate 211A is heated to a predetermined temperature, the temperature is maintained until a predetermined time has elapsed after the predetermined temperature has been reached, and then the amorphous metal thin plate 211A is cooled. For example, when manufacturing the cobalt-based amorphous metal sheet 211A, the rate of temperature rise during heating can be set to about 50 ° C./1 hour. The temperature drop rate during cooling can be set, for example, to about 300 ° C./1 hour. The predetermined temperature can be set within a range from 225 ° C. to 550 ° C. The predetermined time for maintaining the predetermined temperature can be set within a range of 30 minutes or more and 120 minutes or less.
[0050]
When the annealing is completed, a plurality of amorphous metal sheets 211A are stacked, and in this state, pressure is applied to the amorphous metal sheets 211A, and an adhesive is injected into gaps between these amorphous metal sheets 211A by a capillary phenomenon. A magnetic core 211 having a predetermined thickness is formed by bonding a plurality of amorphous metal thin plates 211A.
The thickness of the amorphous metal thin plate 211A can be set to, for example, 15 μm or 25 μm.
[0051]
According to the present embodiment, the following effects can be obtained in addition to the effects (1) to (9) described above.
(10) Since the magnetic core 211 is formed by laminating the amorphous metal thin plates 211A, the cross-sectional area in the direction in which the magnetic flux flows can be reduced, the eddy current generated by the change in the magnetic flux is suppressed, and the iron loss can be reduced.
(11) Since the storage portion 121A is formed in the frame main body 121, the upper lid 122 can be formed in a plate shape. Therefore, even when the upper lid 122 is formed of metal, ceramic, or the like, the processing is easy and can be provided at low cost. In addition, since the piece main body 121 is also made of plastic or the like, it can be easily manufactured by injection molding or the like, and can be manufactured relatively inexpensively. Further, since the piece main body 121 in which the antenna 21 is housed is made of an electromagnetic insulator (non-conductive member), the piece body 121 of the electromagnetic insulator is arranged in the axial direction of the coil 212 (axial direction of the core 211). Since the antennas are arranged, the radio waves are not shielded, and the reception sensitivity of the radio waves can be increased.
Furthermore, since the upper lid 122 has little effect on antenna sensitivity, a conductive member such as a metal can be used. Therefore, in consideration of the surface design and the like of the band 10, the same metal upper cover 122 as the other piece member 100 can be used so as to have the same appearance as the other piece member 100. Properties can be easily improved.
[0052]
[Third embodiment]
Next, a third embodiment of the present invention will be described. The third embodiment is different from the first and second embodiments in the structure of the piece member 100A. Note that the antenna 21 has the same configuration as that of the second embodiment, and a description thereof will be omitted.
The piece member 100A of the third embodiment includes a piece body 131 and a side cover 132 as shown in FIG. The piece main body 131 is made of a metal member and formed in a hollow cylindrical shape. The side cover 132 is made of a non-conductive member (an electromagnetic insulator) such as plastic.
The antenna 21 is accommodated in a hollow portion (accommodating portion) 131A of the frame main body 131, and side covers 132 are attached to both openings. At this time, the antenna 21 is housed in a direction in which the axial direction of the coil 212 (the axial direction of the core 211) matches the axial direction of the hollow portion 131A. Therefore, the side cover 132 made of a non-conductive member is disposed in the axial direction of the coil 212, thereby preventing a decrease in the receiving sensitivity.
In addition, a part of the outer periphery of the frame body 131 is cut from a metal part, and an insulating material 133 is sandwiched therebetween. In the present embodiment, the insulating material 133 is formed on the back surface side of the band, and prevents the design of the piece member 100A on the band surface side from being deteriorated.
[0053]
According to the present embodiment, the following effects can be obtained in addition to the effects (1) to (10) described above.
(12) Since the bridge main body 131 is made of metal and formed in a hollow shape, the back side of the band 10, that is, the side in contact with the wrist when the watch 1 is mounted on the wrist, can also be made of metal. In this case, the deviation of the tuning frequency can be minimized, and stable antenna characteristics can be realized. That is, when the back surface of the band of the piece member 100A in which the antenna 21 is built is made of a non-conductive member, the difference in tuning frequency between when the band is worn on the arm and when it is not worn is large, so that adjustment is necessary. Become. On the other hand, if the back surface of the band is made of metal, the difference in tuning frequency depending on whether or not the band is worn on the arm is small, and the band can be adjusted in advance without being worn on the arm, so that stable antenna characteristics can be obtained.
[0054]
(13) Further, if the entire circumference of the loop antenna 21 is made of metal, eddy current may be generated and the antenna efficiency may be deteriorated. However, in the present embodiment, an insulating material is provided on a part of the metal in the circumferential direction. Since 133 is inserted and insulated, generation of eddy current can be suppressed, and deterioration of antenna efficiency can be prevented.
[0055]
(14) In the frame member 100A, only the side lid 132 is formed of a non-conductive member such as plastic, and the frame main body 131 is made of metal. Can be.
[0056]
Although the best configuration and method for carrying out the present invention have been disclosed in the above description, the present invention is not limited to this.
That is, the present invention has been particularly shown and described with particular reference to particular embodiments, but without departing from the spirit and scope of the present invention with respect to the embodiments described above. Those skilled in the art can make various modifications in the shape, material, quantity, and other detailed configurations.
For example, as the configuration of the antenna 21, as shown in FIG. 9, the coil 212 may be wound so that the surface of the magnetic core 211 having a large cross-sectional area is orthogonal to the axial direction of the coil 212. When the antenna 21 is arranged on the piece member 100A, the axial direction of the coil 212, that is, the core 211, is usually the direction connecting the front surface and the back surface of the piece member 100A.
In this case, the sensitivity at the time of transmission / reception to a magnetic field component in a direction orthogonal to the surface of the band 10 can be increased. For this reason, for example, the antenna 21 can be used as an RF-ID antenna in an authentication system using a non-contact IC (RF-ID) used in an automatic ticket gate of a train or the like. That is, since the reader / writer antenna installed on the authentication machine side such as a ticket gate communicates information by bringing the card incorporating the RF-ID antenna close thereto, the magnetic field component of the wireless information is orthogonal to the reading surface. Direction (for example, up and down). Therefore, it is necessary for the antenna 21 in the band 10 to direct the axial direction of the antenna 21 in a direction orthogonal to the reading surface. At this time, if the configuration shown in FIG. 9 is adopted, the surface of the band 10 may be made to face the reading surface of the authenticator, so that there is an advantage that the authentication operation is facilitated and the authentication can be surely performed.
Further, when communication is performed using radio waves in a low frequency band of 40 kHz or 60 kHz, such as a standard radio wave (JJY), it is necessary to increase the antenna inductance value. A configuration is preferred. On the other hand, when using a high frequency such as a non-contact IC card (ISO14443) such as 13.56 MHz, the configuration shown in FIG. 9 has an advantage that the antenna characteristics can be improved. Therefore, the configuration of the antenna 21 may be set according to the type of radio signal to be used and the like.
[0057]
As the antenna 21, as shown in FIG. 10, a tuning capacitor 230 may be arranged on the flexible substrate 213, and may be arranged in the piece member 100A together with the coil 212. When the antenna 21 is arranged in the piece member 100A of the band 10, the antenna wiring is longer than in the case where the antenna 21 is built in the watch case 9, so that the tuning frequency is likely to shift due to the angle between the arm and the case 9. . Therefore, if the capacitor 230 is built in the piece member 100A and arranged near the coil 212 of the antenna 21, the influence from the outside can be reduced, and the antenna characteristics can be further stabilized.
[0058]
Further, the present invention is not limited to the analog radio-controlled timepiece 1 but may be applied to a digital radio-controlled timepiece 1A. As shown in FIG. 11, the digital radio-controlled timepiece 1A includes an antenna 21, a receiving circuit 23, a time data storage circuit 24, a drive control circuit 3, a pulse synthesizing circuit 31, a battery 73 as a power supply means 7, It has the same configuration as the radio-controlled timepiece 1 such as an external input device 8 such as a crown. Further, a time counter 630 is provided in the drive control circuit unit 3, and the time data of the time counter 630 is configured to be displayed on the liquid crystal panel 430 as time display means via the liquid crystal panel drive circuit 43. I have.
The value of the time counter 630 changes according to the pulse signal from the pulse synthesizing circuit 31, and when it is determined that the time data received by the receiving circuit 23 and stored in the time data storage circuit unit 24 is correct, It is updated with the time data.
[0059]
Also in such a digital radio-controlled timepiece 1A, since the antenna 21 can be disposed not in the case body but in the piece member 100A of the band 10, the timepiece case 9 can be reduced in size and thickness. In particular, in the case of a digital timepiece, the timepiece can be composed of the liquid crystal panel 430, the circuit board, the battery 73, and the like, and has a smaller number of components than an analog timepiece.
[0060]
Further, the antenna 21, the tuning circuit section 22, and the receiving circuit 23 may be built in the piece member 100 </ b> A without being limited to the case where only the antenna 21 or the antenna 21 and the tuning capacitor 230 are built in. In this case, a signal line for transmitting the received time data, a control line for transmitting a signal for controlling the reception circuit 23, and a power supply line for the reception circuit 23 may be provided from the piece member 100A to the main body case via the tube 110. Good.
[0061]
In each of the above-described embodiments, the tube 110 has the configuration in which the end protrusions 110A are provided at both ends. However, the present invention is not limited to this, and both ends may not have the end protrusions 110A. Only the end protrusion 110A may be formed. By doing so, the tube 110 (tubular member) can be easily inserted into the through holes 95 and 106, and the mounting operation can be facilitated. Further, one or both sides of the cylindrical member may be fixed to the case 9 or the piece member 100A by a method such as adhesion, welding, or pressure bonding. By doing so, the cylindrical member is more securely fixed, and the waterproofness of the case 9 and the inside of the piece member 100A is improved.
[0062]
Further, in each of the above-described embodiments, the flexible substrate 213 is used as a signal line disposed between the casing 91 and the bridge member 100A. However, the present invention is not limited to this. Another signal line such as a conductive line described above may be used. Further, for example, when a signal line for transmitting a digital signal is arranged, such as when the receiving circuit 23 is arranged in the frame member 100A, a signal line such as an optical fiber may be used. Various signal lines that can transmit various signals such as a magnetic signal and an optical signal may be used.
In addition, NBR (acrylonitrile-butadiene-rubber) is used as the tube 110, but the invention is not limited to this, and natural rubber, IIR (butyl rubber), urethane rubber, or the like can be used as the rubber. Any material having elasticity and water-tightness can be applied. Further, the shape of the cylindrical member is not limited to the cylindrical shape, and may be a cylindrical shape having a substantially elliptical cross section, an elliptical cross section, or a polygonal cross section.
Further, silicone oil may be applied between the tube 110 and the edges of the through holes 95 and 106 into which the tube 110 is inserted. By doing so, it becomes more difficult for water to enter between the tube 110 and the through holes 95 and 106, and the waterproof property can be improved.
[0063]
Further, another configuration may be adopted as the rotation angle restricting means for restricting the rotation angle between the casing 91 and the piece member 100A, and the rotation angle restriction means may not necessarily be provided.
[0064]
Further, in each of the above-described embodiments, the antenna 21 is built in the piece member 100 adjacent to the watch case 9. The antenna 21 may be provided. In this case, a through hole 106 is formed not only between the watch case 9 and the piece member 100 but also to each piece member 100 up to the piece member 100 in which the antenna 21 is built, and between these piece members 100. The tube 110 and the fixing member 115 may be arranged so that signal lines can be arranged. Then, a signal line may be provided from the piece member 100 in which the antenna 21 is incorporated to the watch case 9 via one or more other piece members 100 and each tube 110.
[0065]
In the above-described embodiment, the main body case 9 and the dial 180 including the casing 91 and the back cover 93 are made of a metal material such as stainless steel, brass, or titanium. It may be formed of a conductive material, or may be formed by forming a metal layer by applying a surface treatment such as metallic coating to these plastics and the like. Also in this case, the effect of arranging the antenna 21 on the piece member 100A side can achieve the effect of reducing the size and thickness of the watch case 9.
In the case where the main body case is made of metal, if there is a portion made of a non-conductive member in the required function, the portion other than the portion may be made of metal. For example, in the watch case 9, the casing 91 and the back cover 93 are usually made of metal, but depending on the timepiece, the back cover 93 is fitted into a metal ring and the inside thereof so that the internal movement can be visually recognized. It may be composed of glass. In this case, the other parts except the glass part may be made of metal. In short, the portion of the main body case from which the material can be selected may be made of metal.
Further, the fixing member 115 is not limited to metal, but may be made of a material having strength and rigidity capable of holding and fixing the tubular member, and may be made of, for example, a synthetic resin.
[0066]
The material of the piece member 100A is not limited to the above embodiment. For example, in the piece member 100A, a portion (the side surface portion 102B, the piece body 121, and the side cover 132) formed of a non-conductive member such as plastic is subjected to a surface treatment such as a metallic coating, and the other piece member 100 or The surface design of the main body case 9 may be unified with a sense of unity.
In particular, if the surface member 100A is subjected to a surface treatment to have the same surface design as that of both the main body case 9 and the member member 100, the whole timepiece can have a unified design.
The surface design of the body case 9 and the band 10 may be different in design. In this case, when the piece member 100A is in the middle of each piece member 100, the surface treatment may be performed so as to have the same surface design as the piece member 100. On the other hand, when the piece member 100A is disposed adjacent to the body case 9, that is, between the piece member 100 and the body case 9, the piece member 100A is subjected to the same surface treatment as that of the body case 9 in consideration of design. Alternatively, the same surface treatment as that of the piece member 100 may be performed. These may be appropriately set in consideration of the design of the electronic device.
[0067]
Further, in the piece member 100A, the surface facing the opening surface of the loop antenna 21, that is, the surface arranged in the axial direction of the coil 212 is formed of a non-conductive member, but is formed of a conductive member such as a metal. You may. When the antenna is formed of a conductive member, the antenna characteristics are deteriorated. However, since the piece member 100A can be formed thinner than the watch case 9, the antenna characteristics are improved as compared with the case where the antenna 21 is arranged in the metal watch case 9. This is because the signal can be received even if the antenna 21 is arranged in the metal piece member 100A depending on the type and strength (such as the distance from the transmission source) of the wireless signal.
[0068]
Further, the wireless information received by the antenna 21 built in the piece member 100A is not limited to the long-wave standard radio wave including time information. For example, even when time information is received, a weak radio wave in the 300 MHz band, a specific low power radio in the 400 MHz band, Bluetooth (Bluetooth) in the 2.4 GHz band, or the like may be used as the radio signal. When these radio waves are received, the frequency is high, so the number of turns of the coil 212 may be small, and the antenna 21 can be small.
[0069]
The invention is not limited to wireless communication using radio waves, and another wireless communication method such as an electromagnetic coupling method or an electromagnetic induction method may be used. In the electromagnetic coupling and the electromagnetic induction method, it is necessary to bring communication devices close to each other. However, if a non-magnetic material such as stainless steel is used, transmission can be performed even through a metal portion, so that a piece member 100 having a built-in antenna can be used. Can be made of metal such as stainless steel.
[0070]
Further, wireless information communicated using the antenna 21 is not limited to time information. For example, it may be used for transmitting and receiving information such as a train commuter pass and various prepaid IC cards. For example, an IC chip, an antenna, and the like are incorporated in the piece member 100, and information can be exchanged by bringing a watch close to a ticket gate, an entry / exit management machine, various billing / payment machines, and the like using an IC card. An IC card function may be incorporated in the band 10. In this case, there is no need to separately insert and remove the IC card, and it is only necessary to approach the hand wearing the watch, so that the operability can be greatly improved. In addition, since such an additional function can be incorporated in the piece member 100, it can be easily realized by simply replacing the band 10 with an existing watch or the like.
Therefore, the antenna 21 built in the antenna piece member 100A of the present invention may be a dedicated antenna for receiving a standard radio wave, or may transmit and receive information like a tag using a non-contact IC. May be used for transmission, or may be used exclusively for transmission, and these may be appropriately selected according to the type of electronic device to which the present invention is applied.
[0071]
The electronic device with a wireless function of the present invention is not limited to the above-described radio-controlled timepiece, but is also applicable to various electronic devices such as an electronic device having only the IC card function (an IC card device with a mounting band). it can. For example, as electronic devices, measuring devices and communication such as pulse and body temperature, communication devices with a call function, calendar and schedule, a portable information terminal device with an address book function, a portable computer with an electronic calculation function, The present invention can be applied to electronic devices having various wireless information communication functions, such as AV devices having a music, image, and video reproduction function, and personal information management devices having a non-contact communication function.
Also in these electronic devices, for example, a liquid crystal display unit or the like is provided in the main body, and information to be received by an antenna built in the piece member 100 or transmitted to the outside, for example, information such as balance information and usage history is displayed. It may be. Further, the electronic device may be configured to allow communication of user ID information, and the system that communicates with the electronic device may provide the information to the user. For example, a message is sent to all users or a special message (specified by an ID) to all users when getting on or off a transportation system, entering or leaving an event venue or store, or entering or leaving a company. (Point information, event information).
[0072]
In the case of an electronic device, an LCD (Liquid Crystal Display) is used as information display means. However, arranging an antenna in a band piece has the advantage of preventing erroneous reception of the antenna due to electric noise generated from the LCD. In order to prevent a malfunction while the LCD and the antenna are close to each other, a metal shield plate is required between the two, so that only the main body becomes thick, the design becomes poor, and it becomes difficult to carry. On the other hand, disposing the antenna in the band piece has the effect of reducing the thickness of the entire device.
[0073]
Further, the antenna 21 is not limited to the loop antenna, and other antennas such as a derivative antenna may be used, and these may be appropriately set according to the type of wireless information to be transmitted or received. When a loop antenna is used, an antenna without a magnetic core may be used.
[0074]
Further, what is incorporated in the band piece member 100 is not limited to the antenna, and a power source such as a battery, a secondary battery, or a solar cell may be incorporated. These power supplies are usually incorporated in the main body case, but if they are incorporated in the bridge member 100, the main body case can be made smaller and thinner. Furthermore, if a solar cell is incorporated so as to be exposed on the surface of the plurality of bridge members 100, the light receiving area can be increased and the amount of power generation can be improved. When various batteries are incorporated in the plurality of bridge members 100, each signal line (wiring) may be arranged so that these batteries are connected in series or in parallel.
[0075]
Further, as a device that can be installed on the piece member 100, a push type switch, a four-direction pointer, an eight-direction pointer, a dial rotary type switch, or the like may be used. Such switches are usually incorporated in the main body case portion, but by arranging them on the piece member 100 side, there is an advantage that the space of the main body case can be effectively used, and the liquid crystal display portion can be made larger, for example. Further, since the operation can be performed at a portion of the main body which is remote from the display section, the operability can be improved depending on the layout, and the display can be easily confirmed at the time of operation.
In addition, as a device that can be installed on the piece member 100, a sub-display device including an LCD, an LED, or the like may be used. For example, date and time information may be displayed on the secondary display device, and the display unit of the main body may be used for displaying various information. The display content of the sub display device may be the presence or absence of setting of an alarm or the like (displayed with a bell figure or the like), the time until the next schedule, or the like, and it is preferable that the user can appropriately set the content.
Further, a cover may be provided on the main body, and when mail incoming information or the like is displayed on the sub-display device, the cover may be opened and its contents checked on the display unit of the main body.
[0076]
The band of the electronic device of the present invention is not limited to the wrist worn, but may be provided merely for decoration for wearing on other parts of the body, belongings such as bags, and the like. .
[0077]
【The invention's effect】
As described above, according to the electronic apparatus of the present invention, there is an effect that an electronic apparatus with a wireless function that can obtain a metallic appearance and has no design restrictions can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a first exemplary embodiment of the present invention.
FIG. 2 is a perspective view showing a configuration of the antenna of the embodiment.
FIG. 3 is a block diagram illustrating a configuration of a receiving circuit of the embodiment.
FIG. 4 is an exploded perspective view showing a main part of the embodiment.
FIG. 5 is a cross-sectional view showing a connection portion between the timepiece case and the piece member of the embodiment.
FIG. 6 is a conceptual diagram illustrating reception of a radio wave by an antenna.
FIG. 7 is an exploded perspective view showing a main part of a second embodiment of the present invention.
FIG. 8 is an exploded perspective view showing a main part of a third embodiment of the present invention.
FIG. 9 is a perspective view showing a modification of the antenna of the present invention.
FIG. 10 is a perspective view showing another modified example of the antenna of the present invention.
FIG. 11 is a block diagram showing a configuration of a digital timepiece according to a modification of the present invention.
[Explanation of symbols]
1, 1A: radio-controlled timepiece, 2: receiving means, 3: drive control circuit section, 4: drive means, 6: counter section, 7: power supply means, 8: external input device, 9: watch case, 10: watch Band 21, loop antenna 22, tuning circuit section 23, receiving circuit 24, time data storage circuit section 91, casing 91A, connecting piece, 92 cover glass, 93 back cover, 95, 106 ... Through hole, 100, 100A ... piece member, 101 ... piece body, 102 ... back cover, 102A ... back face, 102B ... side face, 105 ... pin, 110 ... tube, 110A ... end protrusion, 115 ... fixing member Reference numerals 121, piece main body, 121A, storage section, 122, upper lid, 131, piece main body, 131A, hollow section, 132, side cover, 133, insulating material, 180, dial, 211, magnetic core, 211A, amorphous Sheet metal, 212 ... coil, 213 ... flexible substrate, 230 ... tuning capacitor, 430 ... liquid crystal panel.

Claims (9)

A main body case, a band formed by connecting a plurality of pieces to each other and connected to the main body case, an antenna, and communication means for performing wireless communication with the outside via the antenna,
The antenna is disposed within a piece of the band,
Between each member connected to each other from the antenna built-in piece member in which this antenna is built to the main body case, a through hole is provided which penetrates from each end face of each member facing each other to the inside of each member,
Both ends of a tubular member provided across the respective members are inserted into the respective through holes, and both ends of the tubular member are press-fitted into the tubular member from the inside of the respective members. Shaped fixing member, sandwiched between the inner peripheral surface of the through hole,
An electronic device with a wireless function, wherein a signal line is provided from the main body case to the antenna built-in piece member through each piece member, the fixed member and the tubular member. The electronic device with a wireless function according to claim 1, wherein the antenna is a loop antenna, and the antenna opening surface is arranged so as not to face another member connected to the antenna built-in piece member. Electronic equipment with wireless function. 3. The electronic device with a wireless function according to claim 1, wherein the antenna is a loop antenna, and the antenna built-in piece has a non-conductive member at least a surface facing an opening surface of the loop antenna. 4. An electronic device with a wireless function, characterized by being formed by: The electronic device with a wireless function according to claim 1, wherein the antenna is a loop antenna, and at least an outer surface of the antenna built-in piece is formed of a conductive member. An electronic device with a wireless function, wherein the thickness of the conductive member on the opposite surface is smaller than the thickness of the other surface. 5. The electronic device with a wireless function according to claim 1, wherein the antenna is a loop antenna, and the loop antenna has a magnetic core inserted therein. 6. Electronics. 6. The wireless function-equipped electronic device according to claim 1, wherein a tuning capacitive element connected to the antenna is arranged in the antenna built-in piece. With electronic equipment. The electronic device with a wireless function according to claim 1, wherein the main body case is made of metal. The electronic device with a wireless function according to claim 7, wherein the piece member with a built-in antenna is subjected to a surface treatment so as to have an appearance similar to that of another piece member and the main body case made of metal. Electronic equipment with wireless function. 9. The electronic device with a wireless function according to claim 1, wherein the external wireless information is wireless information including time information, and the electronic device is modified and displayed based on the wireless information. 10. An electronic timepiece provided with a time display means.

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