Portable devices and transmitting/receiving systems including the portable devices

An wristwatch contains a time register mechanism within a watch case and an intervening member which contains a signal reception detecting/reporting device that detects/reports a signal received at a portable terminal. When there is a received signal at the portable terminal 1, respective lamps are turned on/off in accordance with a predetermined pattern. A device body which contains the signal reception detecting/reporting device, may be provided with a connector which is engaged at opposite ends with the device body.

BACKGROUND OF THE INVENTION
 The present invention relates to portable devices carried about by users
 and transmitting/receiving systems including the portable devices.
 One of conventional portable devices, for example, a wristwatch disclosed
 in Published Unexamined Japanese Patent Application Sho 59-31322 includes
 a watch body which has opposite concave ends engaged through spring rods
 to bands with one band extending through a case which contains a calling
 vibrator for reporting reception of a signal at a portable telephone by
 vibrations to a user.
 Therefore, the case and the band add in thickness in the case area and the
 resulting total thickness is large. Thus, when the wristwatch is carried
 about by a user, it can interfere with another person or his or her
 belongings to hinder his or her behavior as well as the case can be
 damaged so that a device set within the case can malfunction.
 In the area of the case, a back of the case which contacts with the user's
 wrist is raised toward the user's wrist relative to a back of the band
 which extends through the case. Thus, when the band is tightened around
 the user's wrist, the back of the case would press the user's wrist to
 give a feeling of discomfort to the user.
 The bands are rolled up and thicker at one end than their other portions.
 Through those rolled-up ends the corresponding spring rods are inserted,
 so that the case cannot be disposed close to the watch body. Thus, a
 design which gives a feeling that the watch body and case are formed as a
 unit cannot be obtained, which places restrictions on design.
 It is therefore an object of the present invention to provide a portable
 device which suppreses an increase in its thickness in the case area and
 eliminates a feeling of discomfort given when the device is worn, and
 which improves the degree of freedom in design.
 Another object of the present invention is to provide a portable device
 which has versatility, excellent fixing performance and an excellent
 feeling of wear.
 SUMMARY OF THE INVENTION
 In order to achieve the above objects, according to the present invention,
 there is provided a portable device including a wristwatch body carried
 about by a user, comprising:
 putting-on means for putting the wristwatch body on the user;
 an intervening member for engaging the putting-on means with the wristwatch
 body; and
 function realizing means provided in the intervening member for realizing a
 predetermined function.
 According to the present invention, since the intervening member is
 provided to engage the wearing means with the watch body, only the
 thickness of the intervening member itself acts as a quantity having a
 raising effect. Thus, a problem caused due to the raising effect of the
 intervening member is avoided as well as a feeling of discomfort which
 would otherwise be caused when the watch is worn on the user's wrist is
 avoided. The watch body can be disposed close to the intervening member
 without any limitation, so that a design which gives a feeling that the
 watch body and the intervening member which contains the device are formed
 as a unit can be provided.
 In another aspect, the present invention provides a portable device
 comprising a body in which a display unit for displaying data is provided,
 comprising:
 putting-on means for putting said device body on a user; and
 a receiving unit provided on said putting-on means for receiving an
 external signal and for reporting to the user that there is a received
 external signal on the basis of the received external signal,
 the device body and the putting-on means are arranged on the same smooth
 surface (FIG. 2B) which is brought into contact with the user for putting
 the device body on the user.
 According to the present invention, the portable device which has a
 function of reporting reception of an external signal to the user gives no
 feeling of discomfort in an area containing the device body and the
 putting-on members when the device is put on around the user's wrist.

DESCRIPTION OF THE PREFERRED EMBODIMENTS
 Embodiments of the present invention will be described below with reference
 to the accompanying drawings.
 FIG. 1 shows a whole composition of a wireless telephone system as a first
 embodiment of the present invention. In FIG. 1, reference numeral 1
 denotes a personal telephone; 10 a wristwatch; 50 a signal arrival
 detecting/reporting device provided on the wristwatch 10; and 40 wireless
 base station which sends a down signal CS to the personal telephone 1 and
 receives an up signal PS from the personal telephone 1 to relay
 communication.
 As shown in FIG. 2A, the wristwatch 10 comprises a watch body 11 whose case
 12 contains a watch side circuit 120 such as a time register.
 The case 12 has a display window 12a on its upper surface with opposite
 sides thereof having corresponding concave ends 12b and 12c engaged with a
 band 13 and an intervening member 14, respectively, in the vicinity of the
 back surface thereof.
 The intervening member 14 takes the form of a hollow trapezoid with a
 smooth back surface and has substantially the same thickness as the watch
 body 11. The intervening member 14 has opposite sides 14a and 14b from
 lower portions of which a convex engaging end 14c and the other band 15
 extend. The intervening member 14 has a slit 14d on another side thereof.
 The other band 15 is engaged through the convex engaging end 14c of the
 intervening member 14 in the concave end 12c of the watch case 12.
 The signal reception detecting/reporting device 50 is disposed within the
 intervening member 14 with an on/off switch 39 protruding outward through
 the slit 14d.
 As shown in FIG. 2B, the respective elements; that is, bands 13, case 12,
 intervening member 14 and band 15 of the wristwatch 10 are arranged on the
 same surface so that when the wristwatch 10 is worn on a user's wrist, it
 keeps close contact with the user's wrist.
 As shown also in FIG. 2B, an electroluminescence (EL) element 121 and a
 liquid crystal display (LCD) 122 are plased on the watch side circuit 120.
 The case 12 has a protruding terminal 123 which is in contact with a
 terminal 141 of the intervening member 14.
 When the personal telephone 1 receives and detects a down call signal CS
 with a telephone address transmitted at predetermined intervals of time or
 TDMA (Time Division Multiple Access) frame of 5 ms from the wireless base
 station 40 and sends an up response signal PS at predetermined intervals
 of time or TDMA frame of 5 ms to the base station 40, the signal reception
 detecting/reporting device 50 receives and detects the response signal PS
 and drives a built-in vibrator 37A to generate vibrations to thereby
 inform the user of reception or arrival of a signal at the wristwatch.
 FIG. 3 is a timing chart of transmission and reception of the down base
 station signal CS and the up telephone signal PS generated on a TDMA base
 in the wireless telephone system.
 On the TDMA basis, the wireless base station 40 communicates with a
 plurality of (in this embodiment, four) personal telephones 1 at intervals
 of a frame of 5 ms. Thus, a plurality of (in this embodiment, four)
 independent channels CS1-CS4 is allocated on a time divisional base to the
 corresponding plurality of personal telephones 1 for receiving a
 corresponding plurality of down base station CS signals.
 In this case, the respective personal telephones 1 send up response signals
 PS to the base station 40 in their corresponding channels PS1-PS4 a half
 frame (2.4 ms) after receiving the respective down base station signals CS
 so as to achieve time-divisional communication.
 That is, when a personal telephone 1 is allocated communication in a
 channel 1 in the TDMA frame and receives a down base station signal CS
 from the wireless base station 40, the telephone 1 sends an up response
 signal PS in the channel CH 1 a half frame later. In this case, the down
 signal CS from the base station 40 and the up response signal PS from the
 telephone 1 are both sent at intervals of a frame of 5 ms with a shift of
 a half frame (2.5 ms) in accordance with a predetermined protocol.
 When a personal telephone 1 comes into a service area of the base station,
 the user of the telephone re-enters its use in the service area in the
 base station 40 for enjoying services from the base station (which is
 hereinafter referred to as position entry). This procedure requires 3.5
 seconds at most.
 The signal reception detecting/reporting device 50 synchronously receives
 and detects response signals PS sent from the telephone 1 to the base
 station at intervals of a frame (5 ms) and also detects whether repetition
 of the response signals PS at intervals of the frame has continued for
 more than 3.5 ms to determine whether the communication relates to the
 position entry of the telephone 1 or processing for a call signal. If the
 response signal relates to processing for the call signal, the reporting
 device 50 determines that a call signal has been received by the telephone
 1.
 FIG. 4A is a block diagram of the detecting reporting device 50, which
 includes a controller 21 as a computer having a CPU which controls the
 operation of respective elements of the device 50 in accordance with a
 signal reception detecting/reporting program stored in a built-in ROM 21a
 or a signal reception detecting program read into a built-in RAM 21b of
 the controller 21 from an external recording medium (not shown).
 The reporting device 50 further includes an antenna 22r which receives an
 up response signal PS, a receiving unit 23, an AM detecting device 24, an
 on/off switch 39, an oscillator 26, a frequency divider 27, a first timer
 28a, a second timer 28b and a reporting unit 37.
 A signal in a predetermined frequency band for the personal telephone 1
 received by the receiving unit 23 via the antenna 22r is shaped via the AM
 detecting device 24 into a square signal, which is then delivered to the
 controller 21.
 An oscillation signal of a predetermined frequency generated by the
 oscillator 26 is changed by the frequency divider 27 to a basic clock,
 which is then delivered to the controller 21, and the first and second
 timers 28a and 28b.
 When the received signal is delivered to the controller 21, the first timer
 28a starts to measure 3.5 s corresponding to the longest communication
 time required for the position entry of the personal telephone 1 between
 the telephone 1 and the base station 40. The second timer 28b starts to
 measure 5 ms corresponding to an interval of transmission time (one TDMA
 frame) of an up response signal PS from the telephone 1.
 The controller 21 sends a report instruction signal to the reporting unit
 37, which then drives the built-in vibrator 37A to report the responding
 operation of the telephone 1 by vibrations to the user. The terminal 141
 (FIG. 2B) is connected to the controller 21.
 FIG. 4B is a block diagram of the watch side electronic circuit 320, which
 includes a CPU 124 which is connected to a key-in unit 325, a timepiece
 unit 326, an EL driver 127, a LCD driver 128, a ROM 129, a voice output
 unit 130, a RAM 131, and the terminal 323 (FIG. 2B).
 The key-in unit 325 is provided with various keys outside the case 12 and
 generates a signal depending on a respective key when depressed. The
 timepiece unit 326 outputs a signal representing the present time.
 The EL driver 127 and the LCD driverl28 drive the EL 322 and LCD 322,
 respectively.
 The ROM 129 contains programs and voice data which report signal reception
 and the time when the signal reception occurred. The voice output unit 130
 includes a speaker which reproduces the voice data.
 The RAM 131 is used as a work area as well as a memory area where a time
 when a call is received by the telephone 1 and a telephone number of the
 caller are stored.
 When the case 12 is engaged at its concave end with the convex end 14c of
 the intervening member 14, both the terminals 323 and 341 are brought into
 contact with each other, and the watch side circuit 320 is connected via
 the terminals 323 and 341 to the signal arrival detecting/reporting device
 50. In this state, the CPU 124 causes the EL 321 to emit light to report
 that both the watch side circuit 320 and the reporting device 50 are
 placed in proper electrical connection.
 Light emission from the EL 321 may continue only for a predetermined time
 or limitlessly after the connection is established. When the intervening
 member 14 is removed from the case 12, the EL 321 is turned off.
 In a state where the case 12 and the intervening member 14 are connected to
 each other, the reporting device 50 is set within the intervening member
 14, and the intervening member 14 intervenes between the band 11 and the
 watch body 11. However, arrangement of the reporting device 50 within the
 intervening member 14 serves to avoid a great increase in the total
 thickness of the intervening member 14 and the reporting device 50, which
 prevents the intervening member 14 from interfering with another person or
 his or her belongings to thereby hinder his or her behavior in his or her
 daily action or from being damaged, so that the signal reception
 detecting/reporting device 50 enclosed within the intervening member 14
 does not malfunction. The back surface of the intervening member 14 is
 smoothed. Thus, when the wristwatch 10 is worn around the user's wrist by
 the bands 13 and 15 and the intervening member presses the user's wrist at
 its back, it does not give a feeling of discomfort to the user.
 Since the intervening member 14 is engaged directly at its convex engaging
 end 14c with the corresponding concave end 12c of the watch body 11, a
 design which gives a feeling that the watch body 11 and the intervening
 member 14 are formed as a unit is obtained to thereby improve the degree
 of freedom of design.
 When the wireless telephone system which includes the personal telephone 1
 and the wristwatch 10 which, in turn, includes the signal reception
 detecting/reporting device 50 is used, the wristwatch 10 is worn around
 the user's wrist by the bands 13 and 15, and then the on/off switch 35 is
 turned on. A signal receiving mode is then set in which no signal
 reception is sounded in the telephone 1, and the wristwatch 10 is then put
 into the user's bag or briefcase.
 When in this state the telephone 1 receives a down call signal CS including
 the telephone's address sent by the base station 40 and sends an up
 response signal PS at predetermined intervals of time or TDMA frame of 5
 ms to the base station 40, the reporting device 50 receives the up
 response signal PS via the receiving antenna 22r. This signal is AM
 detected by the AM detecting device 24 and the resulting signal is
 delivered to the controller 21.
 The reporting device 50 operates in accordance with a flow of a signal
 reception detecting process of FIG. 5. Thus, the controller 21 determines
 that there is an input signal and causes the first and second timers 28a
 and 28b to start to measure 3.5 s and 5 ms, respectively (steps S1, S2,
 S3).
 When the telephone 1 does not temporarily receive a response signal PS one
 cycle later, so that the controller 21 determines that there is no input
 signal (step S4), and the reporting device 50 then receives the next up
 response signal PS sent a predetermined interval of 5 ms later from the
 telephone 1, so that the controller 21 again determines that there is an
 input signal (step S5), the controller 21 determines whether the second
 timer 28b has measured 5 ms or determines whether the received signal in
 the reporting device 50 for which the controller 21 has determined that
 there is the input signal is truly the up response signal PS sent by the
 telephone 1 (steps S4, S5, S6).
 When the controller 21 determines that (1) there is an input signal at step
 S5, (2) the second timer 28b has measured 5 ms at step S6, and (3) the up
 response signal PS from the telephone 1 has been truly received, the
 controller 21 further determines whether the first timer 28a has measured
 3.5 s from the time when the first up response signal PS has been received
 at step S1 or whether reception of the up response signal PS sent from the
 telephone 1 has continued for more than 3.5 s corresponding to the longest
 communication time required for the position entry of the telephone 1
 (steps S6, S7).
 If the controller 21 determines that the first timer 28a is under
 measurement of 3.5 s, the controller iterates processing at steps S3-S7
 for confirmation of reception of an up response signal PS sent by the
 telephone 1.
 When the controller 21 determines that reception of the up response signal
 PS from the telephone 1 has continued for more than 3.5 s, so that the
 first timer 28a has measured 3.5 s, and confirms that transmission of a
 response signal PS from the telephone 1 is not for the position entry of
 the telephone 1, but for reception of the signal by the telephone 1, the
 controller 21 outputs a control signal to the reporting unit 37 (steps S7,
 S8). In response to this signal, the vibrator 37A of the reporting unit 37
 is driven to generate vibrations, which are transmitted through the
 intervening member 14 to the user's wrist, so that the user knows that the
 telephone 1 has received a signal.
 Thereafter, for example, when the base station 40 stops transmission of the
 down call signal CS, the telephone 1 stops sending the up response signal
 PS. Thus, when the reporting device 50 determines that no up response
 signal PS has been received, the controller 21 stops delivery of the
 control signal to the reporting unit 37. Thus, the signal detection or
 arrival detecting process returns to its initial state so that a standby
 state starts in which a new up response signal PS from the telephone 1 is
 monitored (steps S9, S1). In response, the reporting unit 37 stops driving
 the vibrator 37A to stop reporting the signal reception by the vibrations.
 Thus, according to the wireless telephone system of this embodiment, the
 controller 21 determines whether the signals received via the receiving
 antenna 22r of the reporting device 50 are an up response signal PS from
 the telephone 1 by determining whether the signals are inputted at
 intervals of time of 5 ms corresponding to one TDMA frame measured by the
 second timer 28b. In addition, the first timer 28 determines whether the
 received up response signal PS has continued more than 3.5 s corresponding
 to the longest communication time required for the position entry of the
 telephone. If so, the controller 21 determines that the up response signal
 PS has been sent not for the position entry of the telephone, but for
 reporting to the base station that the signal has been received, and then
 causes the reporting unit 37 to drive the vibrator 37A to report the
 reception of the signal to the user. That is, the reporting device
 securely detects reception of the signal at the telephone 1 and then
 reports this fact to the user. For example, when strong radio waves
 outputted from another portable digital telephone and having a frequency
 similar to that of the telephone 1 is received in an interfering manner,
 or an up response signal PS from a telephone 1 involving its position
 entry transmitted to the base station 40 is received, wrong signal
 detection and its reporting is prevented.
 The receiving unit 23 of the reporting device 50 is capable of receiving
 not only the response signal PS, but also the down signal CS and a
 telephone number of a sending party (or caller) from the base station 40
 or a telephone number of a sending party via the telephone 1. Receiving
 the telephone number of the sending party, the controller 21 sends the
 control signal and the telephone number of the sending party via the
 terminals 323 and 341 to the watch side circuit 320.
 The CPU 124 then reads from the ROM 129 reporting voice data and time voice
 data representing the present time which the timepiece circuit 326
 indicates, and produces corresponding voice from the voice output unit
 130. Thus, the user can know reception of the signal and its time based on
 the voice output. The keys provided on the side of the watch body 11 may
 be set so that both the signal reception reporting voice and signal
 reception time reporting voice are generated; only the signal reception
 reporting voice is generated; only the signal reception time reporting
 voice is generated; or neither the signal reception reporting voice nor
 the reception time reporting voice is generated.
 In addition, the CPU 124 displays the time when the signal is received and
 the telephone number of the sending party (or caller) on the LCD 122, and
 writes those data into the RAM 131. The user who has been advised of
 reception of the signal (or signal reception) by vibrations of the
 vibrator 37A watches the LCD 322 of the watch body 11 to easily and
 rapidly confirm the sending party. By a predetermined key operation, the
 CPU 124 reads the reception time and the sending party's telephone number
 stored in the RAM 131 and displays those data on the LCD 322. Thus, when
 the user re-calls the sending party, the user can visually recognize the
 reception time and the sending party's telephone number.
 FIG. 6 shows the composition of a whole wireless telephone system as a
 second embodiment of the present invention. In FIG. 6, reference numeral 1
 denotes a personal telephone; 20 a signal reception detecting device which
 detects the reception or arrival of a signal at the telephone 1; 10 a
 wristwatch; 30 a signal reception reporting device to report reception of
 a signal in response to the signal reception or detection by the signal
 reception detecting device 20.
 In the embodiment, unlike the above embodiment comprising the signal
 reception detecting/reporting device 50, the signal reception detecting
 device 20 is separated as a unit from the signal reception reporting
 device 30 which is provided within the intervening member 14.
 FIG. 7A is a block diagram of the signal reception detecting device 20.
 FIG. 7B is a block diagram of the signal reception reporting device 30.
 The same reference numeral is used to denote similar components of FIGS. 7A
 and 4A, and further description thereof will be omitted with respect to
 FIG. 7. In stead of the on/off switch 39 and the reporting unit 37 of the
 signal reception detecting/reporting device 50 of the first embodiment, an
 ID code input unit 25 and a transmitting unit 29 are connected to a
 controller 21 of the signal reception detecting device 20 of this
 embodiment. A sending antenna 22t for a reporting control signal RS is
 connected to the transmitting unit 29.
 As shown in FIG. 8, the ID code input unit 25 is provided with switches
 SW1-SW4 which are operated by the user to input any ID code of 4 bits. The
 input ID code is stored in an ID memory IDm of the RAM 21bof FIG. 9 built
 in the controller 21 and used as a communication ID for the signal
 reception reporting device 30.
 The signal reception reporting device 30 of FIG. 7B includes a controller
 31 in the form of a computer having a CPU which controls the operation of
 the respective elements of the signal reception reporting device 30 in
 accordance with a reporting program contained in the ROM 31a.
 The signal reception reporting device 30 includes a receiving antenna 32
 for a reporting control signal RS, a receiving unit 33, an ID code input
 unit 34, an oscillator 35, a frequency divider 36, a reporting unit 37,
 and an on/off switch 39, each connected directly or indirectly to the
 controller 31.
 A reporting control signal RS from the signal reception detecting device 20
 received by the receiving unit 33 via the receiving antenna 32 is
 delivered to the controller 31. An oscillation signal having a
 predetermined frequency generated by the oscillator 35 is divided by the
 frequency divider 36, and the resulting signal is delivered as a basic
 clock to the controller 31.
 As shown in FIG. 8, like the ID code input unit 25 of the signal arrival
 detecting device 20, the ID code input unit 34 has switches SW1-SW4 which
 input any ID code of 4 bits matching an IC code set by the ID code input
 unit 25 of the signal reception detecting device 20. Thus, the ID code
 from the ID code input unit 34 is stored in the ID memory IDm (FIG. 9) of
 the RAM 31b built in the controller 31, and used as a communication ID for
 the signal reception detecting device 20.
 When a reporting control signal RS sent by the signal reception detecting
 device 20 is received by its signal reception detecting operation, the
 controller 31 determines whether an ID code entrained on the received
 reporting control signal RS matches an ID code stored in the ID memory 20
 IDm of the RAM 31b and sends a reporting instruction signal to the
 reporting unit 37 when the those ID codes matches each other. In response,
 the reporting unit 37 drives its built-in vibrator 37A to generate
 vibrations to thereby report to the user by its vibrations that the
 telephone 1 has received a signal.
 As described above, in the embodiment, the signal reception reporting
 device 30 of FIG. 7B is provided within the intervening member 14 with the
 on/off switch 39 protruding outside through the slit in the intervening
 member 14.
 When the wireless telephone system which includes the telephone 1, and the
 wristwatch 10 which includes the signal reception detecting device 20 and
 the signal reception reporting device 30 in this embodiment are used, the
 wristwatch 10 is worn by the bands 13 and 15 around the user's wrist and
 the on/off switch 39 is then turned on. A signal reception mode is set so
 that no signal reception sound is produced in the telephone, and the
 telephone is then put along with the signal reception detecting device 20
 into the user's bag or briefcase.
 In this state, when the personal telephone 1 receives a down call signal CS
 including an address of the telephone 1 sent by the base station 40 and
 sends the base station 40 an up response signal PS at intervals of
 predetermined time or TDMA frame of 5 ms, the up response signals PS sent
 at intervals of predetermined time are received by the receiving unit 23
 of the signal reception detecting device 20 via the receiving antenna 22r,
 and AM detected by the AM detecting device 24, and the resulting signal is
 delivered to the controller 21.
 In response, the signal reception detecting device 20 operates in
 accordance with a signal reception detecting process flow of FIG. 5. In
 this flow, at step S8, the signal reception detecting device 20 sends a
 reporting control signal SR to the signal reception reporting device 30
 via the antenna 22t from the transmitting unit 29 along with the ID code
 stored in the ID memory IDm of the RAM 21b.
 Thus, in the signal reception reporting device 30, the reporting control
 signal SR from the signal reception detecting device 20 is received by the
 receiving unit 33 via the receiving antenna 32, and then delivered to the
 controller 31. When the controller 31 determines that the ID code
 entraining on the reporting control signal SR received by the signal
 arrival detecting device 20 matches the ID code stored in the ID memory
 IDm of the RAM 31b, the vibrator 37A of the reporting unit 37 is driven to
 generate vibrations to thereby report to the user that the telephone 1 has
 received a signal.
 Thereafter, when the wireless base station 40 stops transmission of a down
 call signal CS, as in the above cases, the telephone 1 also stops sending
 an up response signal PS to the base station 40. Thus, when the signal
 reception detecting device 20 determines that reception of the up response
 signal PS has stopped, the transmitting unit 29 stops transmission of a
 reporting control signal RS, the signal reception detecting process
 returns to its initial state, and the signal reception detecting device 20
 is placed in a standby state where the reporting device 20 waits for
 reception of a new up response signal PS from the telephone 1 (step S9,
 S1). In response to this operation, the signal reception reporting device
 30 no longer receives the reporting control signal RS, so that driving the
 vibrator 37A of the reporting unit 3 and hence reporting the signal
 reception with vibrations is stopped.
 While in the last-mentioned embodiment the signal reception detecting
 device 20 is formed as a unit, and the signal reception reporting device
 30 is provided within the intervening member 14 of the wristwatch 10,
 reverse arrangement may be employed as shown in a third embodiment of FIG.
 10 where a signal reception reporting device 30 is formed as a unit
 whereas a signal reception detecting device 20 is provided within an
 intervening member 14 of a wristwatch 10.
 The device provided within the intervening member 14 is not limited to a
 device related to the personal telephone 1 such as the signal arrival
 detecting/reporting device 50, signal reception reporting device 20 or
 signal reception detecting device 30 illustrated in the above respective
 embodiments, but may be another electronic device such as a navigation
 device 51 as a fourth embodiment of FIG. 11.
 The navigation device 51 includes a map memory 52, an azimuth sensor 53, a
 distance sensor 54, a switch 55, a touch panel 56, an input interface 57,
 an internal bus 58, an output interface 59, a ROM 60, a RAM 61, a CPU 62
 and a LCD 63.
 Map data about any particular area is read out as requested from the map
 memory 52 and displayed on the LCD 63. The azimuth sensor 53 senses
 terrestrial magnetism to generate azimuth data. The distance sensor 54
 generates distance data at intervals of a unit distance. The switch 55 and
 touch panel 56 are operated by the user to input data on a
 destination/enlargement of the map to the RAM 61 when the navigation
 starts.
 The touch panel 56 is laminated on the LCD 63, and when a particular one of
 divided touch areas is touched, generates a corresponding signal.
 The input interface 57 is a signal converter for sending an input from each
 of the sensors, memories and switches to the internal bas 58.
 The ROM 60 contains programs for inputting/outputting/processing various
 data via the input interface 57, output interface 59 and internal bus 58.
 Thus, the CPU 62 executes those programs to calculate a distance through
 which the telephone has moved from its starting point, its moving
 direction, and the present place and displays them together on a map which
 is displayed on the LCD 63.
 The LCD 63 and the touch panel 56 laminated on the LCD 63 may be disposed
 on a surface of the intervening member 14 or on the display window 12a of
 the watch body 11 to be used together with a display of time by the watch
 body 11. A wristwatch 70 as a fifth embodiment of the present invention is
 shown in FIGS. 12A and 12B. In the wristwatch 70, the watch body 11 and
 one band 13 are the same in composition as the corresponding ones of FIG.
 2. More particularly, the watch body 11 contains a timer mechanism within
 the case 12, which has a display window 12a on its upper surface.
 The case 12 has at lower portions of opposite sides corresponding concave
 engaging ends 12b and 12c which are engaged by a convex engaging end 13a
 of a band 13 and an intervening member 71, respectively.
 The intervening member 71 is hollow and substantially rectangular in a plan
 view, and has substantially the same thickness as the watch body 11. The
 intervening member 71 has at a lower end of its watch side a convex
 engaging end 71a which has the same structure as a convex engaging end 72a
 of the other band 72. The intervening member 71 also has at a lower end of
 its other band side a concave engaging end 71bwhich has the same structure
 as a concave engaging end 12c of the case 12.
 A horizontal slit 71c is provided on a side of the intervening member 71.
 The other band 72 is engaged with the other concave engaging end 12c of the
 case 12 through the concave engaging end 12c of the intervening member 71.
 The intervening member 71 contains a predetermined electronic device 100
 such as the signal reception detecting/reporting device 50 or signal
 reception reporting device 30 with the on/off switch 37 protruding through
 the slit 71c to the outside.
 The other band 72 is engaged at its convex end 72a with the concave
 engaging end 71b of the intervening member 71 to be connected to the watch
 body 11.
 As described above, in this embodiment, the intervening member 71 has the
 convex engaging end 71a which has the same structure as the convex
 engaging end 72a of the other band 72, and the concave engaging end 71b
 which has the same structure as the concave engaging end 12c of the case
 12.
 Thus, the conventional wristwatch which includes the pair of bands 13 and
 72 and the watch body 11 may be changed such that only the other band 72
 is removed, and the intervening member 71 is engaged with the watch body
 11 and the other band 72. Thus, without changing the watch body 11 and the
 pair of bands 13 and 72 in design, the function of the electronic device
 100 contained in the intervening member 71 may be added to the
 conventional wristwatch.
 FIGS. 13A and B show a wristwatch 70 as a sixth embodiment of the present
 invention. In this embodiment, the intervening member 71 has a step 71b
 whose vertical side is formed so s to include a concave engaging end 71b.
 The other remaining structural portions of this embodiment are similar to
 the corresponding ones of the embodiment of FIG. 12.
 In this embodiment, an engaging end of the other band 72 is shifted by the
 length of a horizontal flat of the step 71d, L, toward the watch body 11.
 Thus, when the intervening member 71 is provided in the wristwatch which
 includes the pair of bands 13 and 72 and the watch body 11, occurrence of
 a trouble in which the other band 72 will become uselessly long is
 avoided.
 FIGS. 14A and B show a wristwatch 80 as a seventh embodiment of the present
 invention. In this wristwatch 80, the watch body 11 is the same in
 structure as that of FIG. 2 in which the watch body 11 is engaged at
 opposite concave engaging ends 12b and 12c with intervening members 83 and
 84, respectively.
 The intervening member 83 has a horizontal extending portion 83a with a
 vertically downward lug 83b. The intervening member 83 has a through hole
 83c which extends through the end of the vertical lug 83b and the left end
 of the horizontally extending portion 83a thereof through which hole the
 band 85 extends.
 The other intervening member 84 has a substantially rectangular hollow body
 84a which has a convex engaging end 84b with a through hole 84c extending
 through the bottom and right end thereof through which hole the band 85
 extends. The hollow body 84a contains an electronic device 100 such as the
 signal reception detecting/reporting device 50 or signal reception
 reporting device 30 with an on/off switch 39 of the electronic device 100
 protruding through a slit 84d on a side of the hollow body 84a to the
 outside.
 The band 85 is disposed on the back of the case 12 and extends through the
 through holes 83c and 84c in the intervening members 83 and 84.
 According to this embodiment, the structure for combining the band 85 to
 the intervening members 83 and 84 is simplified, the whole structure of
 the wristwatch is simplified and the wristwatch is improved so as not to
 malfunction.
 While in the particular embodiment the electronic device 100 is illustrated
 as contained only in one intervening member 84, the other intervening
 member 84 may also have a hollow body which contains an electronic device
 100.
 In summary, the first-seventh embodiments have the following corresponding
 compositions:
 As shown in FIGS.1, 2A, 2B, 6, 10, 12A, 12B, 14A, 14B, the portable device
 (wristwatch 10, 70, 80) includes a wristwatch body (10) carried about by a
 user. The portable device comprises: putting-on means (bands 13, 15, 72)
 for putting the wristwatch body on the user; an intervening member (14,
 71) for engaging the putting-on means with the wristwatch body; and
 function realizing means (signal reception reporting device 50, 30;
 electronic device 100) provided in the intervening member for realizing a
 predetermined function.
 As shown in FIGS. 12A, B, the portable device (wristwatch 70) having a
 wristwatch body (10) carried about by a user comprises: an intervening
 member (71); function realizing means (signal reception reporting device
 50, 30; electronic device 100) provided in the intervening member for
 realizing a predetermined function; and the intervening member comprises
 at one end engaging means (convex engaging end 13a) engaged with the
 wristwatch body (11) and at the other end engaging means (convex engaging
 end 72a) engaged with the putting-on means (band 72) for putting the watch
 body on the user.
 As shown in FIG. 11, the function realizing means comprises self-position
 detecting means (navigation device 51) for detecting the position thereof.
 As shown in FIG. 11, the portable device further comprises display means
 (LCD 63) provided in said intervening member required for realizing a
 function by the function realizing means.
 As shown in FIGS. 12A, B, the putting-on means comprises a band (13, 72)
 for putting the wristwatch body (11) on a wrist of the user and each
 comprising engaging means (12b) for engaging with the wristwatch body.
 The intervening member (71) comprises at one end engaging means (14c) for
 engaging with said wristwatch body and at the other end engaged means
 (72a) with which the engaging means of said band is engageable.
 As shown in FIGS. 13A, B, the putting-on means comprises a band (13, 72)
 for putting said wristwatch body on a wrist of the user's wrist.
 The intervening member (71) comprises at one end engaging means (71a) for
 engaging with the wristwatch body and engaging means for engaging with one
 of the band (72) at a position closer to the one end than to the other end
 thereof.
 As shown in FIGS. 14A, B, the putting-on means comprises a band (85) for
 putting the watch body (11) on a wrist of the user. The portable device
 comprises: a pair of said intervening members (83, 84) provided each at a
 respective one of opposite ends of said wristwatch, at least one of the
 pair of intervening members containing the function realizing means (100),
 and the bands extending through the pair of intervening members.
 As shown in FIGS. 14A, B, intervening member comprises a pair of
 intervening members (83, 84) which each comprises at one end engaging
 means (12b, 12c) for engaging with the watch body (11) and at the other
 end a through hole (83c, 84c) through which a band (85) extends which puts
 the watch body (11) on a wrist of the user; and at least one (84) of the
 pair of intervening members contains said function realizing means (100).
 As shown in FIGS. 2A, B, the portable device comprises a body (watch body
 11) in which a display unit (LCD 322) for displaying data is provided. The
 portable device also comprises: putting-on means (bands 13, 15) for
 putting said device body on a user; and a receiving unit (signal reception
 reporting device 50) provided on the putting-on means for receiving an
 external signal and for reporting to the user that there is a received
 external signal on the basis of the received external signal, the device
 body and the putting-on means are arranged on the same smooth surface
 (FIG. 2B) which is brought into contact with the user for putting the
 device body on the user.
 As shown in FIGS. 2A, B; FIG. 11, the device body comprises at least one of
 a timepiece function unit (120) for displaying measured time data on the
 display unit (122) or a self-position detector (52 of FIG. 11) for
 displaying detected self-position data on the display unit.
 As shown in FIGS. 2A, B, the putting-on member (15) comprises at one end an
 engaging end (14c) engaged removably with one end of a portable device
 body.
 As shown in FIGS. 4A, 2A, 2B, the receiving unit (50) further comprises a
 timepiece function unit (26, 27) and the putting-on means comprise a
 wristband (13, 15).
 According to the first-seventh embodiments, as described above, an increase
 in a whole thickness of a limited area which contains the intervening
 member of the wristwatch is avoided and hence occurrence of an undesirable
 trouble is avoided in which when the user wears the wristwatch, its
 intervening member would interfere in the user's daily action with another
 person or his or her belongings to hinder the person's behavior and hence
 the device contained in the intervening member would malfunction. In
 addition, giving a feeling of discomfort to the user when the wristwatch
 is worn around the user's wrist is avoided. A design which gives a feeling
 that the wristwatch body and the intervening member are formed as a unit
 is possible. In addition, the function of a device provided within the
 intervening member adds to the timepiece function while the degree of
 freedom of design is improved.
 According to the first-seventh embodiments, a user's position detecting
 device excellent in portage is provided which can be worn around the
 user's wrist.
 In addition, according to the first-seventh embodiments, since the display
 means provided in the intervening member displays the user's position, the
 user can easily confirm his or her position in a manner similar to that in
 which the user confirms time by wristwatch.
 According to the first-seventh embodiments, since the intervening member is
 provided between the watch body and the band of the conventional
 wristwatch, the function of a device provided in the intervening member
 adds at low cost in the conventional wristwatch without changing its
 design.
 According to the first-seventh embodiments, even then the conventional
 wristwatch is used, the intervening member prevents the band connected
 thereto from lengthening substantially. Thus, an increase in the cost of
 the wristwatch is suppressed, using the conventional wristwatch while a
 reduction in the handiness of the wristwatch which would otherwise occur
 due to lengthening of the band is prevented.
 According to the first-seventh embodiments, since the band extends through
 the through hole provided in the intervening member, the connection
 between the band and the intervening member is simple, the cost required
 for this composition is low, an increase in the whole thickness of the
 wristwatch in the direction of its thickness is small. Thus, when worn,
 the wristwatch gives no feeling of discomfort to the user, and the degree
 of freedom of design remains high.
 According to the first-seventh embodiments embodiments, an electronic
 device is provided in which an electronic device body and its putting-on
 members give no feeling of discomfort to the user when the electronic
 device is worn around the user's wrist and which has a function of
 reporting to the user reception or arrival of an external signal, if any.
 In addition, the electronic device may have the function of displaying
 time data and the user's position data.
 According to the first-seventh embodiments, since the putting-on members
 and the receiving device are formed as a unit, the whole device becomes
 compact and reduced in cost.
 A signal reception/reporting device as an eighth embodiment of the present
 invention will be described next with reference to a block diagram of FIG.
 15. As shown, the signal reception reporting device comprises an antenna
 110 which receives a response signal which the portable terminal or
 telephone 1 generates in response to reception or arrival of a signal at
 the terminal 1. The antenna 110 is connected to a radio wave detecting
 device 111, which detects a radio wave received by the antenna 110 to
 produce a signal of a predetermined signal reception pattern, which is
 then amplified by an amplifier 112 to such an extent that the amplified
 pattern signal is recognized by a controller 113 which comprises a CPU.
 The controller 113 determines whether there is an input signal or a
 reception pattern signal and hence whether there is a received signal, and
 controls a driver 114 and a sounder 115 on the basis of the result of the
 determination. The driver 114 is connected to a first lamp 101a to an nth
 lamp 101n(n LEDs). The controller 113 contains a turning on/off pattern of
 the lamps 101a-101n and a sounding pattern produced by the sounder 114
 When the power supply is on in the particular embodiment, the controller
 113 operates in accordance with a flow chart of FIG. 16 based on a
 relevant program, and determines whether there is an input signal or a
 reception pattern signal from the amplifier 112 (step SA1). When the
 terminal 1 generates a response signal in response to reception of a
 signal at the terminal 1, the response signal is received by the antenna
 110, and hence the radio wave detecting device 111 generates a reception
 pattern signal, which is then input to the amplifier 112. The controller
 113 then shifts its control from step SA1 to SA2, where it turns on/off
 the lamps 101a-101n in accordance with a stored predetermined pattern
 (step SA2). According to the predetermined pattern, for example, as shown
 in FIG. 17A, the lamps 101a, 101b, 101c and 101d arranged at the
 respective corners of the device 4 are sequentially turned on and off in
 this order so that a light spot moves along a path circulating along the
 periphery of a square. Alternatively, as shown in FIG. 13B, lamps 101a,
 101b, 101c and 101d arranged on a straight line on the devices body 4 are
 turned on and off in this order so that a spot light moves along the
 straight line.
 At step SA3, the controller 113 controls the sounder 115 in accordance with
 that pattern. For example, sounds of different pitches are produced
 synchronously with the turning on and off of the lamps 101a-101d. Thus,
 the turning on/off of the lamps in that pattern are sufficient to
 stimulate the eyesights of people around the user and sounds from the
 sounder 115 also are sufficient to stimulate the persons'auditory senses
 to thereby draw their attention securely to the turning-on/off lamps.
 Thus, the user will feel satisfactory.
 The controller 113 operates at steps SA5-SA9 of a flow chart based on a
 relevant program. At step SA5 subsequent to step SA3, the controller 113
 determines whether the terminal 1 is in communication with the base
 station or whether the user at the terminal 1 is in telephonic
 communication with its party through the base station. If so, the
 controller 113 waits for the termination of the communication. As shown in
 broken lines, as long as the user at the terminal 1 is in telephonic
 communication with the user's party, the controller 113 iterates the
 turning on/off of the lamps 101a-101n(step SA2) and control over the
 sounding operation (step SA3).
 When the telephonic communication between the user at the terminal 1 and
 the user's party and hence the communication between the terminal 1 and
 the base station ends, the controller 113 outputs a predetermined set
 value, for example, corresponding to the length of the communication time
 or a random number, so that the lamps whose number corresponds to the
 output set value or random number are turned on/off (step SA6), and the
 last lamp continues to be on (step SA7).
 In summary, when the telephonic communication ends, the lamps whose number
 corresponds to the set value or random number are sequentially turned
 on/off. Thereafter, the last lamp (for example, 101b of FIG. 17 A)
 continues to be on.
 Thus, the user's fortune at that time can be told from characters (for
 example, "BEST LUCK", "AVARAGE GOOD LUCK", "A LITTLE BETTER LUCK" or "BAD
 LUCK", etc.) printed on a indicator label (not shown) pasted on the device
 body corresponding to the lamp (for example, 101b in this case) which last
 continues to be on. When the last lamp has continued to be on for a
 predetermined time (step SA8), the lamp is turned off (step SA9) and the
 processing involving this flow chart end.
 While in the embodiment the last lamp is automatically turned off after the
 predetermined time has elapsed, the lamp may be turned off by a manual
 switch. While in the particular embodiment the oracle is illustrated as
 consulted, another game such as a roulette or dice game can be played
 instead.
 The arrangement of the lamps and the turning on/off pattern of the lamps
 are not limited to the ones described and illustrated above. Various other
 forms of arrangement of the lamps and the turning on/off pattern of the
 lamps may be employed, of course. In addition, a manual switch may also be
 provided for turning on/off the sounder 115 or the sounder 115 itself may
 be omitted.
 FIG. 18A and B show a ninth embodiment of the present invention related to
 a signal reception detecting device 105 and a signal reception reporting
 device 106. As shown in FIG. 18A, the signal reception detecting device
 105 includes an antenna 116 which receives a response signal which is
 generated by a portable terminal 1 in response to reception of a signal at
 the terminal 1. The antenna 116 is connected to a radio wave detecting
 device 111, which detects a radio wave signal received by the antenna 116
 to produce a predetermined reception pattern signal. An amplifier 112
 amplifies the pattern signal to such a level to which a controller 113
 which comprises a CPU can sufficiently recognize the signal. An output of
 the controller 113 is modulated by a modulator 117 and then sent by a
 transmitting unit 118 through a sending antenna 119. The signal reception
 reporting device 106 comprises a receiving unit 121 which receives a
 signal sent by the sending antenna 119 via a receiving antenna 120, and a
 demodulator 122 which demodulates the signal received by the receiving
 unit 121. The reporting device 106 also includes a controller (CPU) 123
 which controls a driver 114 and a sounder 115 based on an output from the
 demodulator 122, and a plurality of lamps 101a-101n connected to the
 driver 114.
 When the antenna 116 of the signal reception detecting device 105 receives
 a response signal from the portable terminal 1, the radio wave detecting
 device 111 generates a reception pattern signal which is then amplified by
 the amplifier 112, and the resulting signal is then input to the
 controller 113. The controller 113 controls the modulator 117 so that a
 modulated signal from the modulator 117 is sent via the transmitting unit
 118 and the sending antenna 119 to the signal reception reporting device
 106.
 More particularly, the signal from the sending antenna 119 is received by
 the receiving antenna 120 of the signal reception reporting device 106,
 and then intercepted by the receiving unit 121. This signal is then
 demodulated by the demodulator 122 and input to the controller 123. In
 response, the controller 123 operates in accordance with a flow chart of
 FIG. 16. Thus, the lamps 101a-101n are turned on and off in a
 predetermined pattern and the sounder 115 is controlled in accordance with
 that pattern.
 That is, in the particular embodiment, the signal reception detecting
 device 105 detects a response signal from the terminal and the signal
 reception reporting device 106 receives the radio waves from the signal
 reception detecting device 105 to control the lamps and sounding. Thus,
 the coverage of the signal reception reporting device 106 which detects
 the signal from the signal reception detecting device 105 can be set in a
 narrow range, for example, of 40-50 cm, depending on the output of the
 detecting device 105. Thus, even when there are several persons around the
 user, who each have a signal reception detecting device 105 and a signal
 reception reporting device 106, malfunction of the signal reception
 reporting devices 106 of those persons is prevented.
 FIG. 19 illustrates a signal reception reporting device as a tenth
 embodiment, and comprises an antenna 110, a radio wave detecting device
 111, an amplifier 112, a controller 113, a driver 114 a plurality of lamps
 101a-101n, and a sounder 115, as in the eighth embodiment of FIG. 15. The
 signal reception reporting device of the tenth embodiment further
 comprises an integrator 124 and a comparator 125 through which an output
 from the radio wave detecting device 111 is delivered to the controller
 113.
 When the radio wave detecting device 111 receives a response signal from a
 portable terminal 1 in this particular embodiment, the radio wave
 detecting device 111 generates a reception pattern signal of a waveform 1
 whose height increases as the radio wave received by the antenna 110
 increases, and the reception pattern signal is inputted to the amplifier
 112 and the integrator 124. In response to this pattern signal, the
 integrator 124 integrates the reception pattern signal to form a
 substantially triangular waveform 2. The comparator 125 shapes only a
 waveform 2 whose height is higher than a predetermined comparator
 threshold L into a signal of a waveform 3 having a predetermined voltage
 level and a width which reflects the strength of the received radio wave.
 This signal is then output to the controller 113.
 The controller 113 operates in accordance with a flow chart of FIG. 20
 based on a relevant program. The controller 113 determines whether there
 is an input signal or a reception pattern signal from the amplifier 112
 (step SB 1). When the radio wave detector 111 generates a reception
 pattern signal, and the controller 113 receives this pattern signal
 through the amplifier 112, the controller 113 then determines that there
 is an input from the comparator 125 (step SB 2).
 At this time, the comparator 125 outputs a waveform 3 as described above,
 only when the crest value of the waveform 2 is above the predetermined
 comparator threshold L. Thus, when the received radio wave is weak and the
 crest value of the waveform 2 is lower than the comparator threshold L, as
 in the case where the device of FIG. 19 has received a response signal
 from a third party's terminal 1, the comparator 125 provides no output for
 the controller 113. Thus, in this case, the control ler 113 shifts its
 control from step SB 2 to SB 3, where the controller controls the lamp
 101a-101n in accordance with a pattern corresponding to a weakest radio
 wave, so that, for example, only one lamp is turned on or off.
 If there is an input from the comparator 125 as the result of the
 determination at step SB 2, however, the controller 113 detects its
 waveform width (step SB 4), turns on/off the lamps 101a-101n in a pattern
 corresponding to the detected waveform width different from the pattern
 corresponding to the weakest radio wave (step SB 5), and turns on/off
 lamps the number of which corresponds to the waveform width. At step S6
 continuing from step SB 3 or SB 5, the controller 13 controls the sounder
 115 in the same pattern as the turning-on/off pattern for the lamp
 101a-101n.
 Thus, in this embodiment, the strength of the received radio wave is
 indicated by the turning on/off of the lamps 101a-101n. Thus, by viewing
 the turning on/off display of the lamps, the user can discriminate between
 the case where the user has received a response signal from a third
 party's terminal 1 and the case where the user has received an appropriate
 response signal from the user's own terminal 1. In addition, the user can
 also know the strength of the received radio wave based on the turning
 on/off state of the lamps.
 FIG. 21 shows a signal reception reporting device as an eleventh embodiment
 of the present invention directed to a combination of the embodiment of
 FIG. 19 and a counter 116. The counter 116 counts between 0 and 99 the
 number of waveforms 1 received from the radio wave detector 111 via the
 antenna 110 and the amplifier 112 during communication of the terminal 1
 with the base station.
 The period of the waveform 1 used for communication between the terminal 1
 and the base station is 20 or 40 ms. Thus, the counter 126 changes a count
 between 0 and 99 at a rate of 25 or 50 per second or 1500 or 3000 per
 minute during communication.
 As shown in FIG. 22, the device body 104 has lamps 101a-101d corresponding
 nearby labels 107a-107d which have thereon prints "BEST LUCK", "AVERAGE
 GOOD LUCK", "BAD LUCK", and "A LITTLE BETTER LUCK" indicating the result
 of divination in printed oracles.
 In this signal reception reporting device, the controller 113 operates in
 accordance with a flow chart of FIG. 23 based on a relevant program. In
 this flow chart, the processing at steps S1-S6 is the same as that at
 steps SB1-SB6 in the flow chart of FIG. 20. At step SC7, the controller
 113 determines whether the user at the terminal is in (telephonic)
 communication with his or her party through the base station. If so, the
 controller 113 waits for termination of the communication (step SC8). As
 shown in broken lines in FIG. 22, as long as the communication continues,
 the controller 113 iterates the turning on/off of the respective lamps
 101a-101n (step SC5) and the sounding operation (step SC6).
 During this operation, the counter 116 counts up between 0 and 99 at a rate
 of 25 or 50 times per second or 1500 or 3000 times per minute. When the
 user's telephonic communication with his or her party, and hence the
 communication between the terminal 1 and the base station ends, the
 counter 116 stops at a count in a count range of 0-99 depending on the
 length of the duration time required for the communication. The controller
 113 then reads the count in the counter 116, sequentially turns on/off
 lamps the number of which corresponds to the count (step SC9), and causes
 the last lamp (for example, 101b) to continue to be on (step SC10).
 Thus, the user's fortune can be told from printed divination characters on
 an appropriate one of the labels 107a-107d stuck on the device body 104 in
 the vicinity of the lamp 101b which is last turned on and continues to be
 on (in the case of FIG. 22, "AVERAGE GOOD LUCK"). After the last lamp has
 continued to be on for a predetermined time (step SC 11), the controller
 113 turns off the lamp to thereby terminate this processing.
 While in the particular embodiment the last lamp is automatically turned
 off when the predetermined time has elapsed, the lamp may be turned off by
 a manual switch. While in the particular embodiment, divination is
 illustrated in a printed oracle, the present invention is not limited to
 this particular case. For example, other games such as roulette or a dice
 game may be played.
 Arrangement of the lamps and the turning on/off pattern of the lamps is not
 limited to that of the particular embodiment mentioned above. Various
 other arrangements of lamps and other turning on/off patterns of the lamps
 may be employed, of course. A manual switch may be provided to turn on and
 off the sounder 115 to control its sounding. Alternatively, the sounder
 115 may be eliminated.
 In summary, the eighth to eleventh embodiments have the following
 corresponding compositions, respectively:
 As shown in FIGS. 15, 16, 17A, B, the portable device (50) includes
 detecting means (radio wave detector 111-CPU 113) for detecting reception
 of a signal at a portable terminal (1). The portable device comprises: a
 plurality of turnable-on/off light emitters (lamps 101a-101n); controls
 means (CPU 113; SA 2), responsive to said detecting means (radio wave
 detector 111-CPU 113) detecting reception of a signal at a portable
 terminal (1), for turning on/off the plurality of light emitters in
 accordance with a predetermined pattern to report the reception of the
 signal to the user.
 As shown in FIGS. 18A, B, the portable device (106) includes receiving
 means (receiving antenna 120) for receiving a predetermined signal from
 sending means (sending antenna 119) which detects reception of a signal at
 a portable terminal (1) and which sends the predetermined signal. The
 portable device comprises: a plurality of turnable-on/off light emitters
 (lamps 101a-101n); controls means (CPU 123) for turning on/off said
 plurality of light emitters based on the predetermined signal received by
 said receiving means in accordance with a predetermined pattern to report
 the reception of the signal to the user.
 As shown in FIGS. 19, 20, the portable device includes detecting means
 (radio wave detector 111) for detecting a response signal from a portable
 terminal (1). The portable device comprises: determining means (CPU 113;
 comparator 125) for determining the strength of the response signal
 detected by the detecting means; a plurality of turnable-on/off light
 emitters (lamps 101a-101n); controls means (CPU 113; SB3) for turning
 on/off the plurality of light emitters base on a result of the
 determination by the determining means in accordance with a predetermined
 pattern to report the reception of the signal to the user.
 As shown in FIG. 21, The determining means comprises: signal generating
 means (125) for generating a signal representing a width of a waveform
 depending on the strength of the response signal; and judging means (113)
 for judging the strength of the response signal based on the width of the
 waveform of the signal generated by the signal generating means.
 As shown in FIG. 21, the determining means comprises: integrating means
 (124) for integrating the waveform of the response signal; waveform
 shaping means (125) for shaping the waveform integrated by said
 integrating means; and judging means (113) for determining the strength of
 the response signal based on the width of the waveform shaped by the
 waveform shaping means.
 As shown in FIGS. 16, 23, the control means further turns on/off the
 plurality of light emitters in response to the end of communication (SA5;
 SC 8) of the portable terminal.
 As shown in FIGS. 16, 23, the control means randomly determines one of the
 plurality of light emitters to be last turned on (SAG, SA7, SC 9, SC 10).
 As shown in FIGS. 16, 23, the control means controls the light emitter to
 be last turned on so as to have a light emitting form different from that
 represented by the pattern (SC 10; continuous lighting).
 As shown in FIG. 22, the plurality of light emitters (101a-101d) have a
 corresponding plurality of indicators (107a-107d) each representing a
 predetermined sense of play.
 As shown in FIGS. 18A, B, The transmission/reception system includes a
 transmitter (transmitting unit 118; a signal reception detecting device
 105) for detecting a response signal from a portable terminal (1) and for
 transmitting a predetermined signal, and a receiver (receiving unit 121;
 signal reception reporting device 106) for receiving the response signal
 from the transmitter, wherein the receiver comprises: a plurality of
 turnable-on/off light emitters (lamps 101a-101n); and control means (CPU
 123) for turning on/off said plurality of light emitters based on the
 received signal in accordance with a predetermined pattern and for
 reporting reception of the signal to the user.
 As described above, according to the eighth to eleventh embodiments, the
 light emitters 101a-101n are controlled so as to turn on and off in a
 predetermined pattern in response to detection of a received signal at the
 terminal 1. Thus, the turning on/off of the light emitters sufficiently
 stimulates the eyesights of persons around the user to draw the
 persons'attention securely to the turning on/off of the light emitters.
 Thus, the user feels satisfactory.
 According to the eighth to eleventh embodiments, a predetermined signal is
 sent by the transmitting unit 118 in response to detection of reception or
 arrival of a signal at the portable terminal 1. When the predetermined
 signal is received by the signal reception reporting device, the
 controller turns on and off a plurality of light emitters 10a-101n. Thus,
 an area in which a signal is received or detected is set in a narrow range
 of distances. Thus, even when there are other persons who have similar
 signal reception reporting devices around the user, interference of the
 user's terminal with their signal reception reporting devices and hence
 their malfunction is prevented.
 According to the eighth to eleventh embodiments, the strength of the
 response signal of the terminal 1 in response to signal reception or
 arrival at the terminal is determined, and the plurality of light emitters
 101a-101n are turned on/off depending on the result of the determination.
 Thus, interception of a response signal from the user's own terminal 1 is
 clearly discriminated from interception of a response signal from a third
 party's terminal 1.
 According to the eighth to eleventh embodiments, the strength of a response
 signal from the terminal 1 is determined based on a signal of a waveform
 width depending on the strength of the response signal from the portable
 terminal 1. Thus, the strength of the response signal is accurately
 determined, so that the light emitters are controlled accurately depending
 on the strength of the response signal from the terminal 1.
 According to the eighth to eleventh embodiments, the light emitters
 101a-101n are tuned on/off in response to the termination of (telephonic)
 communication between the terminal 1 and the base station. Thus, not only
 when a signal is received, but also (telephonic) communication between the
 user and the user's party is terminated, light emitted by the light
 emitters stimulates the eyesights of persons around the user to thereby
 draw their attention securely to the user's device.
 According to the eighth to eleventh embodiments, the last one of the
 plurality of light emitters which are turned on and off is determined, for
 example, depending on the length of the duration time of the telephonic
 communication. Thus, a function of playing a divination game involving the
 last turned-on light emitter may be added to the device.
 According to the eighth to eleventh embodiments, the last turned-on light
 emitter is controlled so as to emit light in a different manner from those
 in which the other remaining turned on/off light emitters emit light.
 Thus, the last turned-on light emitter is clearly recognized, so that when
 a game playing function is provided additionally, the result of a game to
 be played is clearly displayed
 According to the eighth to eleventh embodiments, the plurality of light
 emitters have the corresponding plurality of indicators (labels) each
 expressing a respective predetermined sense of play. Thus, each indicator
 and a corresponding light emitter can be selected as a last combination
 selected, for example, depending on the length of time required for the
 telephonic communication, and hence an interesting game can be played.
 Therefore, the value of the device as a commodity is enhanced.
 A wristwatch as a twelfth embodiment of the present invention will be
 described next with reference to the accompanying drawing. As shown in
 FIGS. 24A and B, the wristwatch 10 includes a watch body 202, bands 203a
 and 203b engaged at opposite ends with the watch body 202, and an
 additional device 204 attached to the band 203b.
 The additional device 4 includes a case 205 which contains a signal
 reception detecting/reporting device 100 which detects and reports
 reception of a signal at a portable telephone 1, and a connector 206
 engaged at opposite ends with the case 205, which includes a lower subcase
 207 and an upper subcase 208 fitting to the lower subcase.
 As shown in FIGS. 25 and 26, the lower subcase 207 includes a rectangular
 bottom 209, a pair of longer opposite front and rear upstanding sides 211
 and 2where the respective upstanding sides 210-213 have the same height.
 A pair of horizontal front and rear ribs 215 and 214 are provided so as to
 extend close to and inside the pair of front and rear sides 211 and 210,
 respectively, and as shown in FIG. 27, upward relative to the pair of
 front and rear sides 211 and 210 from an upper surface of the bottom 209.
 A plurality of arcuate battery support ribs 216 are arranged along a
 circle on the upper surface of the bottom 209. A battery 250 (FIGS. 41,
 42) which drives a signal reception detecting/reporting 100 is disposed
 within an area surrounded by the plurality of support ribs 216.
 The right and left sides 213 and 212 have right and left cuts 213a and 212a
 of the same size at the centers thereof, respectively. A pair of right
 stops 218 are provided each at a respective one of opposite ends of the
 right cut 213a. A pair of left stops 217 are provided each at a respective
 one of opposite ends of the left cut 212a. As shown in FIG. 28, the two
 pairs of right and left stops 218 and 217 are at positions shifting
 somewhat outward relative to the right and left sides 213 and 212,
 respectively, and have the same height as the pair of horizontal ribs 214
 and 215.
 A pair of left hooks 219 are provided each adjacent to a corresponding one
 of the pair of stops 217 inside the left side 212 and as shown in FIGS. 29
 and 30, each have an engaging recess 219a on its outer surface at a lower
 position.
 A pair of right hooks 220 are provided each adjacent to a respective one of
 opposite ends of the right side 213 and each have an outer engaging
 hemispheric convexity 220a at an upper position thereof.
 As shown in FIGS. 31 and 32, the upper subcase 208 has an upper rectangular
 ceiling member 221 of the same shape as the bottom 209 of the lower
 subcase 207.
 The upper subcase 208 has a pair of opposite longer vertical front and rear
 sides 223 and 222 and a pair of shorter opposite vertical right and left
 sides 225 and 224. The sides 222-225 have the same height.
 A plurality of device support ribs 226 are arranged on the ceiling member
 221 for support of a signal reception detecting/reporting device 251
 (FIGS. 41, 42) which operates with power from the battery.
 A pair of right and left cuts 225a and 224a are provided on the pair of
 right and left sides 225 and 224 so as to receive the pair of right stops
 218 and the pair of left stops 217, respectively.
 As shown in FIGS. 33 and 34, a pair of right and left press members 228 and
 227 are provided on the ceiling member 221 outside the pair of right and
 left cuts 225a and 224a, respectively.
 The pair of right and left press members 228 and 227 have widths which can
 intervene between the right stops 218 of the pair and between the left
 stops 217 of the pair, respectively. As shown in FIG. 34, the pair of
 right and left press members 228 and 227 protrude further outward relative
 to the pair of right and left sides 225 and 224, respectively. As shown in
 FIG. 35, the pair of right and press members 228 and 227 are composed of a
 pair of inner and outer members 228a, 228b and a pair of inner and outer
 members 227a, 227b, respectively.
 A pair of left hooks 229 are provided on the left side 224 of the upper
 subcase 208 at positions corresponding to those of the pair of left hooks
 219 provided on the lower subcase 207. As shown in FIG. 36, the pair of
 left hooks 229 each have an internal engaging rib 229a.
 A pair of right hooks 230 are formed on the right side 225 of the upper
 subcase 208 at positions corresponding to those of the pair of right hooks
 220 provided on the lower subcase 207. As shown in FIG. 36, the pair of
 right hooks 230 each have an engaging hemispheric recess 230a on the upper
 inside thereof and an opening cut 230b on its outer lower end.
 As shown in FIG. 37, the connector 26 has a shape symmetrical with
 reference to its vertical centerline (not shown) and is made of a strong
 flexible material of a large frictional coefficient such as silicon
 rubber. It includes a central rectangular section 231 of a thickness of
 about 0.5 mm.
 A pair of outward tapering and thickening right and left shoulders 232 are
 provided each integrally with a respective one of opposite ends of the
 central section 231.
 A pair of right and left necks 233, extending upward from an upper surface
 of the rectangular section 231, are provided integrally with ends of the
 pair of shoulders 232, respectively, and have widths pressed into between
 the right stops 218 of the pair and between the left stops 217 of the
 pair, respectively, on the lower subcase 207.
 Each neck 233 has a head 234 integral therewith on the top thereof. The
 head 234 is much thicker than the central section 231. As shown in FIGS.
 38 and 39, the head is larger in size than the neck 233 and extends
 outward relative to an adjecent neck.
 When the connector 206 is attached to the case body 205, the connector 206
 is placed under the lower subcase 207.
 As shown in FIG. 40, the pair of heads 234 are disposed between the right
 stops 218 of the pair and between the left stops 217 of the pair,
 resepctively, of the lower subcase 207. The pair of necks 233 are pressed
 into between the right stops 218 of the pair and between the left stops
 217 of the pair, respectively.
 The connector 206 has such an overall length that it receives an
 appropriate tension when it is attached to the lower subcase 207, and
 hence in this state the connector 206 is not loosened to become an
 obstacle to handling the device.
 After the connector 206 is assembled with the lower subcase 207, the
 engaging ribs 229a of the pair of left hooks 229 provided on the upper
 subcase 208 are engaged in the corresponding recesses 219a of the pair of
 left hooks 219 provided on the lower subcase 207 (FIG. 41).
 The upper subcase 208 is then turned clockwise around the left engaging
 ends 229a by pressing down the right end thereof. Thus, the pair of right
 hooks 230 provided on the upper subcase 208 are pressed on the outsides of
 the pair of right hooks 220 provided on the lower subcase 207. As shown in
 FIG. 41, both the right hooks 220 and 230 are thus engaged at their
 engaging ribs and recesses 220a and 230a, respectively.
 Thus, both the upper and lower subcases 208 and 207 fit to and abut on each
 other at their rear sides 222, 210; their front sides 223, 211; their left
 sides 224, 212; and their right sides 225, 213.
 As the upper and lower subcases 208 and 207 fit to each other, the pair of
 right and left press members 228 and 227 of the upper subcase 208 press on
 the pair of heads 233 of the connector 206, respectively. That is, as
 shown in FIG. 42, the pair of heads 233 of the connector 206 are confined
 in a pair of openings formed by the cuts 213a, 225a and 212a, 224a on the
 subcases 208 and 207, respectively. As a result, the case body 205 becomes
 integral with the connector 206.
 The right and left heads 233 of the connector 206 are pressed between the
 upper and lower subcases at their right and left cuts 213a, 225a and 212a,
 224a and to be shrunken and deformed, so that moisture is prevented from
 entering the case through the openings formed by the right and left cuts
 213a, 225a and 212a, 224a.
 When the additional device 204 which includes the case body 205 and the
 connector 205 is attached to the wristband 203b, a minus screw driver d is
 inserted into the respective opening recesses 230b provided on the right
 hooks 230 of the upper subcase 208 and then rotated, as shown in FIG. 4.
 As a result, the engaging ribs 220a are disengaged from the recesses 230a,
 so that both the subcases 207 and 208 are easily separated from each other
 and opened on the side of the opening recess 230b.
 From between the opened ends of the separated cases 207 and 208, an
 adjacent one of the heads 234 of the connector 206 is then taken out, the
 connector 206 is separated from the back side of the wristwatch 10 by
 pressing the connector down at its taken-out head, and the band 203b is
 then inserted into a resulting gap between the lower subcase 207 and the
 connector 206.
 The taken-out head 234 is then disposed between the pair of right stops 218
 of the lower subcase 207, and the head 234 is then pressed into between
 the pair of right stops 218.
 When the upper subcase 208 is then turned downward at its right end, the
 pair of right hooks 230 of the upper subcase 208 press on the outer sides
 of the pair of right hooks 220, respectively, of the lower subcase 207.
 Thus, both the pair of right hooks 220 and 230 engage each other at their
 engaging ribs and recesses 220a and 230a. Thus, both the subcases 207 and
 208 again fit into each other, the band 203b is inserted into between the
 connector 206 and the lower subcase 207 and engaged at the other end with
 the case body 206, and the additional device 204 is attached to the band
 203b.
 In this case, the connector 206 is composed of a flexible material having a
 large frictional coefficient such as silicon rubber, as mentioned above,
 so that the additional device 204 is difficult to shift on the band 203b
 or attached in a stable manner to the band to thereby prevent a
 deterioration in the feeling of wearing the wristwatch due to a possible
 shift of the additional device 204.
 Since the connector 206 is composed of the flexible material, the band 203b
 is attachable to the connector 206 even when it is wider than the case
 body 205 or changes in thickness, so that the connector finds a wide use.
 Since the central section 231 of the connector which contacts with a skin
 of the user's wrist is wide and has flexibility, it does not interfere
 with the user's wrist skin, and gives a good feeling of wearing and not a
 feeling of discomfort.
 Since the connector 206 is composed of a highly flexible material such as
 silicon rubber, it can be molded into a small size to a high degree of
 freedom of molding, using a mold. This degree of freedom of molding can be
 combined with the degree of freedom of molding a resin used for molding
 both the subcases 207 and 208 to produce an additional device which is
 greatly miniaturized and optimal for use with the wristwatch 10.
 In addition, the shoulders 232 of the connector 206 taper, so that the
 heads 233 are easy to pinch and assemble with associated members of the
 wrstwatch.
 Since the central section 231 is wide, the additional device is attached in
 a stabilized manner, which is compatible with easy attachment of the
 additional device.
 Generally, provision of both wider and narrower portions on the connector
 206 would bring about concentration of a stress in a particular portion
 thereof when it is extended, so that an area of the connector on which the
 additional device can be attached would be limited as well as the
 particular portion may be cracked.
 In the present embodiment, however, the tapering shoulders 232 increase in
 thickness in inverse proportion to the width thereof. Thus, the connector
 can extend/contract at a constant rate in the area of the shoulders. Thus,
 in this case, provision of both the wider and narrower portions on the
 connector 206, does not crack in the particular portion, and brings about
 stabilized attachment and easy assembly of the additional device.
 The heads 234 and necks 233 of the connector which have flexibility similar
 to that of other portions of the connector 206 sealingly close the
 openings formed by the cuts 212a and 213a in both the subcases 207 and
 208. Thus, moisture is prevented from entering the cases through the
 openings.
 FIGS. 43-46 show a case for the additional device as a thirteenth
 embodiment of the present invention in which the fitting structure for an
 upper subcase 208 and a lower subcase 207 is similar to that of the above
 embodiments, excluding the following points.
 Both the upper and lower subcases 208 and 207 have no cuts such as shown by
 213a and 212a in the above embodiment, and both the subcases 208 and 207
 are fitted sealingly to each other.
 Two pairs of holders 240 are formed integrally with outer surfaces of right
 and left sides, resepctively, of the upper subcase 208. Each pair of
 holders 240 includes a pair of opposite J-like walls 240a and a
 corresponding pair of substantially horizontal support bottoms 240b
 provided at the lower ends of the corresponding J-like walls 240a.
 A connector 206 is made of a material similar to that of the connector of
 the above embodiment, and has a pair of rectangular support heads 206a
 each provided at a respective one of opposite ends thereof and each
 received between a corresponding pair of J-like walls 240a of a holder 240
 concerned and between a pair of side support bottoms 240b of the holder.
 In this embodiment, when an additional device 200 is attached to a band
 203a of the wristwatch 10, any one of the support heads 206a is removed
 from a corresponding one of the pair of holders 240, the connector 206 is
 then spaced from a back of the band 203b by pressing the connector down at
 the removed support head 206, the wristband 203b is then disposed between
 the pair of lower subcase and the connector, the head 106a is then again
 fitted into between the J-like walls 240a of the holder 240 concerned and
 between the pair of support bottoms 240b of that holder. Thus, the
 wristband 203b is tightly held between the connector 206 and the lower
 subcase 207, so that the additional device 200 is fixed to the watchband
 203b.
 Thus, in this embodiment, when the additional device is attached to the
 band 203b, none of the subcases 207 and 208 are required to be separated
 from each other, so that attachment is easy and moisture resistance is
 easily ensured.
 While in the particular embodiment the signal reception detecting/reporting
 device of the portable terminal is illustrated as received within the
 case, the present invention is not limited to the particular case. Another
 electronic device may be received.
 In summary, the twelfth to thirteenth embodiments have the following
 compositions:
 As shown in FIGS. 24A, B, 37-39, a portable device (wristwatch 10) carried
 about by a user comprises a portable device body (additional device 204),
 a predetermined member (band 203b), and a connector (206) for fixing the
 portable device body to said predetermined member (203b), wherein: the
 connector (206) is disposed along the device body and has a length
 corresponding to the length of the device body, and atached at least one
 of opposite ends (234) removable to the device body.
 As shown in FIGS. 24A, B, the predetermined member (203b) comprises a band
 (203b) for the wristwatch body (10).
 As shown in FIGS. 24A, B, 27, 37-39, the portable device comprises:
 a device body (204) built-in containing function realizing means (100) for
 realizing a predetermined function; a connector (206) disposed along the
 device body and having a length corresponding to the device body; and
 attaching means (217, 218, 234) for attaching at least one of opposite ends
 of said connector removably to the device body.
 As shown in FIGS. 24A, B, the device body (204) is attached to a band
 (203b) for a wristwatch body.
 As shown in FIGS. 25-39, the device body comprises a lower subcase (207 of
 FIGS. 25-30) and an upper subcase (208 of FIGS. 31-36) fitted removably to
 each other; and the attaching means comprises engaging means (234) formed
 at opposite ends of the connector (206 of FIGS. 37-39), and restricting
 means (217, 228) for restricting the engaging means to within said fitted
 lower and upper subcases (207, 208).
 As shown in FIG. 39, the connector (206) comprises a portion pressed and
 deformed between both said subcases (207, 208) as both the subcases fit to
 each other.
 As shown in FIG. 39, the engaging means (234) is integral with said
 connector (206) and is thicker than the other portions of the connector.
 As shown in FIGS. 37, 38, the connector (206) comprises a first wide
 central portion (231), a pair of second portions (232) tapering and
 thickening each outward from a respective one of opposite sides of the
 first wide central portion, and a pair of third portions (234) each
 provided at a remote end of a respective one of the pair of second
 portions and engaged with the device body.
 As shown in FIGS. 43, 44, the attaching means comprises engaging means
 (240; 240a, 240b) provided outside the device body; and engaged means
 (206a) provided at an end of the connector (206) for being engaged by the
 engaging means.
 As shown in FIG. 42, the device body comprises a signal reception
 detecting/reporting device (250) for detecting reception of a signal at a
 portable terminal and for reporting this fact to the user.
 As described above, according to the twelfth and thirteenth embodiments,
 the band is flexible, so that even when an object on which the additional
 device is to be attached or a wristband is wider than the case body or
 varies in thickness, the additional device can be attached to the band.
 Thus, the inventive attaching structure has versatility. The connector has
 flexibility, so that even when the wristwatch is worn on the user's wrist
 and the connector is brought into the contact with the user's wrist skin,
 it does not interfere with the user's wrist skin, giving no feeling of
 discomfort to the user.
 According to the twelfth and thirteenth embodiments, the case is composed
 of the removably fitted lower and upper subcases, and the engaging means
 formed at the opposite sides of the connector are confined within both the
 fitted subcases. Thus, no means for engaging the connector is required to
 be provided outside the case body which includes the upper and lower
 subcases. Thus, the outer surface of the case is smooth without any lugs
 to thereby prevent the case from interfering with a third party's wear.
 According to the twelfth and thirteenth embodiments, since the connector is
 pressed and deformed between the fitting portions of the upper and lower
 subcases. Thus, moisture resistance is given to the additional device.
 According to the twelfth and thirteenth embodiments, the engaging means are
 provided integrally with the connector and are thicker than the other
 remaining portions of the connector. Thus, the connector having such
 engaging means is easily molded with a mold at low cost. Since the
 engaging members are thicker than the other remaining portions of the
 connector, they are not deformed by a tensile force produced when it is
 attached.
 According to the twelfth and thirteenth embodiments, the connector has a
 first central wide section, a pair of second outward tapering thickening
 portions each provided at a respective one of opposite ends of the first
 section, and a pair of third outward extending portions each provided
 integral with an end of a respective one of the second portions and
 engaged with the case body. Thus, the first section is put in close
 contact with the wristband, so that the wristwatch is worn in a stabilized
 manner. Since the pair of second portions outward taper and thicken, the
 pair of third portions are easy to pinch when the pair of third portions
 are engaged with the case body to thereby achieve assembly or disassembly
 easily. Generally, provision of both wider and narrower portions on the
 connector brings about concentration of stress and may cause cracks in a
 particular portion of the connector when the connector is extended.
 However, the second portions thicken in inverse proportion to the tapering
 thereof, so that the connector can extend/contract at a constant rate in
 this area. Thus, even when there are wider and narrower portions on the
 connector, no cracks occur in the particular portion. Thus, attachment of
 the wristwatch in the stabilized manner is compatible with easy attachment
 of the wristwatch without any obstacle. engaging means includes engaging
 members provided outside the case and corresponding recesses provided at
 ends of the connector in which the engaging members engage. Thus, even
 when the case body is composed of an upper and lower subcases, the
 wristwatch is attached to the band without separating both the subcases
 from each other.
 According to the twelfth and thirteenth embodiments, a signal reception
 detecting device which detects/reports reception of a signal at the
 portable terminal is provided within a case. Thus, even when the wristband
 is wider than the case body or varies in thickness, the signal reception
 detecting/reporting device is attached to the wristband, which is worn
 around the user's wrist, giving a good feeling of wearing to the user and
 not a feeling of wrongness.