Wireless transmission-reception control system

Abstract

 A wireless transmission-reception control system includes wireless transmitters respectively provided with each of different ID codes, and a wireless receiver which collates the ID code included in transmitted data from one of the transmitters with ID codes of already registered transmission data and generates an output when the transmitted data the registration of which is confirmed, whereby the ID code provided to the transmission data can be made automatically registrable on the side of the receiver and any house-code setting on end user side is made unnecessary.

Description

BACKGROUND OF THE INVENTION

[0001] This invention relates to a wireless transmission-reception control system which carries out a signal transmission utilizing an extremely low frequency wave.

[0002] The wireless transmission-reception control system of the kind referred to finds its utility when applied to first-aid communication system, security communication system, calling system, remote instrument control system and the like.

DISCLOSURE OF PRIOR ART

[0003] The wireless transmission-reception control systems have been widely utilized as remote control system in recent years, in which event it is intended to avoid mutual interference between the respective systems. For this purpose, a channel defining house code is provided to data transmitted in each system, coincidence of such house code is confirmed upon receiving the transmitted data, and any radio interference with another system is to be thereby prevented from occurring.

[0004] One of the systems of the kind referred to has been disclosed in Japanese Patent Application Laid-Open Publication No. 57-12891 by H. Ikeda, which is a reception arrangement comprising a single reception unit and a plurality of display units connected to the reception unit and including many display elements arranged for channel display. According to this arrangement, the reception unit is employed in common by the respective display units so as to render no receiving function required to be provided to the respective display units, to restrain in particular any deterioration in S/N ratio, and to allow calling order for the respective display elements to be easily discriminated.

[0005] When it is intended, however, to use a large number of such units in the first-aid communication, security communication, calling, remote instrument control and the like systems, it is not simple to set the house code for the wireless transmitters or receivers on the end user side, and there arise such problems that the house code setting may cause a risk of becoming a bar to the large scale use, radio interference may happen to occur if the house code setting involves an error, and so on.

TECHNICAL FIELD

[0006] A primary object of the present invention is, therefore, to provide a wireless transmission-reception control system which renders in particular the house code setting on the end user side to be unnecessary, and allows an ID code of transmitted data from the respective wireless transmitters to be automatically registered on the side of the wireless receiver.

[0007] According to the present invention, this object can be attained by providing a wireless transmission-reception control system in which the data transmitted as a radio wave from more than one wireless transmitter along with an ID code are received by a wireless receiver and decoded at a front end decoder means to be taken out, the ID code of the transmitted data thus received is compared at a comparing means with the ID code of the transmitted data already registered at a data registering means to discriminate if a collation of the data is to be made or not, and only the transmitted data the registration of which is confirmed are decoded to have an output ganerated, which system being featured in that the wireless transmitters are respectively provided fixedly with each of the ID codes made mutually different, and the wireless receiver is provided for being switched over at least between a mode of having the ID code registered and a mode of generating the output after the decoding of the transmitted date.

[0008] Other objects and advantages of the present invention shall become clear in following explanation of the invention detailed with reference to embodiments shown in accompanying drawings.

BRIEF EXPLANATION OF THE DRAWINGS

[0009] 

FIGURE 1 is an explanatory view for a basic example of the wireless tramsmission-reception control system according to the present invention;

FIG. 2 is a circuit diagram of each of wireless transmitters employed in the system of FIG. 1;

FIGS. 3 to 5 are explanatory views of different embodiments for providing to the wireless transmitters in the system of FIG. 1 with a fixed ID code;

FIG. 6 shows a format of the signals transmitted from the wireless transmitters in the system of FIG. 1;

FIG. 7 is a block diagram of a basic circuit for the wireless receiver in the system of FIG. 1;

FIG. 8 is a block diagram showing a more concrete circuit for the wireless receiver;

FIG. 9 is an operation flow-chart for the wireless receiver of FIG. 8;

FIG. 10 shows a sound signal generating circuit in the wireless receiver of FIG. 8;

FIGS. 11 and 12 are circuit diagrams showing different output means in the wireless receiver of FIG. 8;

FIG. 13 is a block circuit diagram of the wireless receiver in another embodiment provided with an automatic mode switching means;

FIG. 14 is an operation flow-chart of the wireless receiver of FIG. 13;

FIG. 15 is a time-chart showing operation sequence of the wireless receiver of FIG. 13;

FIG. 16 is a block circuit diagram of the wireless receiver in still another embodiment provided with an automatic mode switching means;

FIG. 17 is a time-chart showing operation sequence of the wireless receiver of FIG. 16;

FIG. 18 is a block circuit diagram of the wireless receiver in a further embodiment provided with an automatic mode switching means;

FIG. 19 is a perspective view as disassembled of a wireless receiver provided with an automatic mode switching means having a start switch in an embodiment;

FIG. 20 is a fragmentary sectioned view at a portion of the wireless receiver of FIG. 19;

FIG. 21 is a perspective view as disassembled of a wireless receiver provided with an automatic mode switching means having a start switch in another embodiment;

FIG. 22 is a block circuit diagram in an embodiment of the automatic mode switching means employed in the wireless receiver of FIG. 21;

FIG. 23 is a diagram showing the brightness with respect to electric current of red and green LEDs employed in the wireless receiver of FIG. 21;

FIG. 24 is perspective view as disassembled of the wireless transmitter in another embodiment of a card-shaped type;

FIG. 25 shows in a plan view a control circuit plate in the wireless transmitter of FIG. 24;

FIGS. 26 and 27 and FIGS. 28 and 29 are respectively explanatory views for detailed operation in two different manners of key top member in the wireless transmitter of FIG. 24;

FIG. 30 is a perspective view as disassembled of a portion of the wireless transmitter in another embodiment as applied to a wireless chime;

FIGS. 31 to 33 are explanatory views for examples of arrangement of insulating seals setting tone pattern in the wireless transmitter of FIG. 30;

FIG. 34 shows an oscillation circuit included in a wireless transmitting means in the wireless transmitter of FIG. 30;

FIG. 35 is a diagram showing schematically manufacturing steps for a conducting shield plate employed in the wireless transmitter of FIG. 30;

FIG. 36 is a diagram for explaining a general operation in an event where the system according to the present invention is employed in a security system;

FIG. 37 is a format showing a security signal employed in the system of FIG. 36;

FIG. 38 shows in a block circuit diagram the wireless receiver in the system of FIG. 36;

FIG. 39 is an explanatory view for a data registering means in an embodiment employed in the wireless receiver of the system shown in FIG. 38;

FIG. 40 is a block diagram showing a transmission communication system including the system of FIG. 36 and utilizing telephone lines; and

FIG. 41 is an explanatory view for another embodiment of the system according to the present invention as applied to a remote controlling for opening and closing a garage shutter.

[0010] It should be appreciated here that, while the present invention shall now be explained with reference to the respective embodiments shown in the drawings, the intention is not to limit the invention only to these embodiments but rather to include all alterations, modifications and equivalent arrangements possible within the scope of appended claims.

DISCLOSURE OF PREFERRED EMBODIMENTS

[0011] Referring to FIG. 1, the wireless transmission-reception control system according to the present invention includes more than one or, in general aspects of use, a plurality (while only two are shown in the drawing) of wireless transmitters 11 and 11a which are preferably in a thin card type, and a wireless receiver 12 which receives data transmitted from the wireless transmitters 11 and 11a. A call switch 13 or 13a functioning as a control switch is provided in top surface of the wireless transmitter 11 or 11a, while the wireless receiver 12 generally comprises a body casing 14 and an antenna 15 mounted to the casing 14, while there are provided on the casing 14, as required, an operating slide switch 16, mode indicating lamp 17 and operation indicating lamp 18.

[0012] According to the present invention, preferably, a plurality of the wireless transmitters 11, 11a ... and the single wireless receiver 12 are combined to form the system in one unit, whereas, if desired, the system may be formed by combining a plurality of the wireless receivers 12 with the plurality of wireless transmitters 11, 11a ... into one unit.

[0013] The wireless transmitters 11 and 11a shall be detailed first. Referring to FIG. 2, there is shown a transmission control circuit 20 incorporated in each of the transmitters 11, 11a ..., and this circuit 20 includes a microcomputer formed by a one-chip CPU 21 to which the call switch 13 as well as a wireless transmitting means 22 including an antenna 15A and an ID code section 23 in which an ID code is fixedly set are connected. In the present instance, a set of transmission data defining, for example, a call sound of a tone pattern preliminarily set together with the ID code are provided from the CPU 21 to the wireless transmitting means 22 and are transmitted as a radio wave signal from the antenna 15A towards the wireless receiver 12. More concretely, the tone pattern is set by means of a switch assembly 24, that is, a voltage applied to the CPU 21 is varied by making on and off switches of the assembly 24 so as to set the tone pattern to be transmitted as the transmission data. To the CPU 21, further, an indicating lamp 25 to be lighted on upon operation of the call switch 13 is connected. While the wireless transmitters 11, 11a incorporate therein a cell (not shown), a cell voltage drop detector 26 is connected to the CPU 21 to detect a lower voltage level of the cell than a set level, so that a detection signal of the thereby detected voltage drop will be transmitted out of the CPU 21 as included in the transmission data. To the CPU 21, further, a reference clock generator 27 is connected.

[0014] In preliminarily fixedly providing to the respective wireless transmitters 11 and 11a each of mutually different ID codes, there may be employed such a setting means as shown, for example, in any of FIGS. 3 to 5. That is, in FIG. 3, lead wires 28, 28a ... 28n of the CPU 21 are provided respectively with each of first conduction pattern elements 29, 29a ... 29n, a pair of second conduction pattern elements 30 and 30a mutually isolated are formed adjacent the first elements 29, 29a ... 29n so that one of the second elements 30 and 30a will be at Vcc level while the other at ground level (GND), the first conducting pattern elements 29, 29a ... 29n are respectively connected to either one of the second conduction pattern elements 30 and 30a through conducting chips 31, 31a, ... 31n, and a specific ID code to each of the wireless transmitters 11 and 11a can be set and provided thereto. In another means of FIG. 4, a comb-teeth shaped conducting pattern 30A is formed as connected initially to the respective lead wires 28, 28a ... 28n of the CPU 21, and then the connection of the pattern 30A at ground level is broken with respect to proper ones of the lead wires 28, 28a ... 28n by means of punch holes 31A, 31Aa ... 31An made by punching off connecting portions of the pattern to the lead wires, and the ID code is thereby set. In the case of FIG. 5, the lead wires 28, 28a ... 28n are provided with conducting lands 29B, 29Ba ... 29Bn, a comb-teeth shaped conducting pattern 30B made at ground level is connected through jumpers 31B, 31Ba ... 31Bn, and then proper ones of the jumpers 31B, 31Ba ... 31Bn for setting the ID code are cut to break the connection. Utilizing any one of the foregoing ID code setting arrangement, it should be appreciated that the ID code setting can be executed advantageously at the same time as assembling and mounting steps for circuit substrate.

[0015] In the present embodiment, the transmission data are transmitted from the wireless transmitting means 22 of the wireless transmitter 11 as a radio wave signal, in such a signal format of one frame as shown in FIG. 6. That is, 20 bits of H0 to H19 are assigned for the ID code, a pre-receive TP is provided to the top, 3 bits of transmission data D0 to D2 are provided after the ID code, and a parity check P is provided to the last. With such 20 bits employed, it is made possible to set about 1,000,000 different ID codes, but the bit number for the ID code may be increased or decreased as occasion demands.

[0016] The wireless receiver 12 shall be referred to in detail next. In FIG. 7, there is shown a basic arrangement for a reception circuit 40, which generally comprises a front end/decoder means 41 for decoding and taking out the transmission data received through the antenna 15, a mode switching means 42 for switching the setting of the receiver operation mode between a registering mode and a normal mode, and a system data table 43 for registering therein at least the ID code provided to the transmission data, and the ID code taken out of the front end/decoder means 41 is provided to a discriminating means 44 for collating the ID code with the already registered ID code in the system data table 43 and discriminating whether or not they are in coincidence. When the coincidence is discriminated between the ID code provided to the transmission data and the already registered ID code, contents of the transmission data to which the coincidental ID code is provided are decoded by a transmission data discriminating means 45, and a necessary control signal is provided out of the discriminating means 45 for driving a later staged alarming means or the like (not shown). When the mode switching means 42 is actuated manually or by means of an automatic setting which employing a timer delay operation to be set into the registering mode, the ID code of the transmission data transmitted from the wireless transmitter 11 or 11a can be automatically registered at the table 43 and, when the means 42 is set in the normal mode, the Id code coincidence discriminating circuit 44 is actuated and the foregoing collation is executed. If necessary, the switch operation of the mode switching means 42 may be displayed by means of lighting on and off of the indicating lamp 17 connected to the means 42.

[0017] Provided that the mode switching means is to be manually switched over, it is preferable that a manual change-over switch 47 is provided to the mode switching means 42 as shown in FIG. 8, so that the means 42 can be set either into the registering mode or into the normal mode by manually actuating the switch 47.

[0018] Referring next to the operation of the wireless receiver 12 by references also to a flow-chart of FIG. 9, the manual switch 47 is first depressed to actuate the mode switching means 42 to switch the mode over to the registering mode, the indicating lamp 17 is thereby lighted on, and the data registered in the system data table 43 are all cleared. In this state, a depression of the call switch 13 at one 11 of the plurality of wireless transmitters included in the system according to the present invention causes the transmission data in the transmitter 11 to be transmitted thereout as the radio wave signal, the transmitted data received through the antenna 15 by the wireless receiver 12 are decoded at the front end/decoder means 41, and the ID code is taken out of the data. The thus taken out ID code is registered as it is at the system data table 43, and, when the call switches of the remaining wireless transmitters are sequentially depressed to have their data transmitted to the receiver 12, the ID codes of the plurality of the wireless transmitters included in the system are sequentially registered in the wireless receiver 12. In this case, any ID code identical with already registered ID code is nullified upon being provided to the system data table 43, so as to prevent any double registering of the same ID code. The system data table 43 is preferably of a storing capacity enough for registering all of the ID codes determined by the bit number but, in practice, the capacity may be the one good enough for the ID codes only of the number of the wireless transmitter included in the system.

[0019] Next, the manual switch 47 is depressed again to actuate the mode switching means 42, and the mode is switched over to the normal mode. When the call switch 13 of the wireless transmitter 11 in this state where the wireless receiver 12 is in the normal mode, the transmitted data received through the antenna 15 by the receiver 12 are decoded at the front end/decoder means 41, and the ID code is taken out of the data. As the coincidence of this ID code with one of the already registered ID codes in the system data table 43 is discriminated and its registration is thereby confirmed, the transmitted data of the particular ID code are provided to the transmission data discriminating means 45 to be decoded, and the control signal corresponding to the decoded data is provided as an output. Provided that the system is employed as such call chime system as shown in FIG. 8, the control signal is conveyed to a phonic signal generating circuit 49 in a chime means 48 and to a timer 50 and a phonic sign is produced by a speaker 51 with its tone varied as occasion demands. When, for example, the transmission data are formed by such 3 bits as DATA0 to DATA2, it is possible to prepare four different phonic call signs by actuating the phonic signal generating circuit 49 and speaker 51 with combinations of outputs at 1/0 ports PORT1 to PORT3 at the transmission data discriminating means 45. That is, when the bit DATA0 of the transmission data decoded is "1", the discriminating means 45 provides at the PORT1 an output of "1" and the timer 50 is activated upon rising of this output, so that the phonic call sign can be generated by the speaker 51 depending on the set time of the timer 50.

[0020] The bits of DATA1 and DATA2 are further discriminated to optimumly define the outputs at the PORT2 and PORT3 so that different phonic call signs as desired are to be produced, whereas, when DATA0 is "0", the PORT outputs are reset so as to wait for next output provision from the front end/decoder means 41.

[0021] For the phonic signal generating circuit 49, it may be possible to employ an arrangement, as shown in FIG. 10 as an example, which comprises a 3:4 decoder 52 formed by combining AND gates AND1 to AND3 and NOT gates NOT1 and NOT2 respectively arranged to receive the three port outputs PORT1 to PORT3 from the 1/0 ports of the discriminating means 45, and a melody IC 53 which receives four outputs from the decoder 52 to be thereby driven. As shown in FIG. 11, further, it may be also possible to add to the receiver, if required, means for transferring the sign to some other device associated by connecting a transistor 54 to the 1/0 port output terminal PORT1 of the discriminating means 45 so as to utilize the open output or, as in FIG. 12, by connecting a transistor 54A to the 1/0 port output terminal PORT1, further connecting a relay coil 54B to the collector of the transistor 54A, and disposing a relay contact 54C to oppose the relay coil 54B to be thereby opened and closed.

[0022] When the mode switching means is to be automatically actuated, the wireless receiver 12 should preferably be of such arrangement as shown in FIG. 13. In an aspect shown in FIG. 13, the mode switching means in the basic arrangement of FIG. 7 comprises a start switch 55 and a timer control circuit 56, in which event the transmitted data from one of the wireless transmitters will cause the start switch 55 to be actuated, as in the time-chart of FIG. 15, then the timer control circuit 56 is started as triggered by the start switch 55, and the state of the registering mode is attained during a set time at this timer control circuit 56. Upon elapsing of this set time, the mode is automatically switched over to the normal mode (see also FIGS. 14 and 15). In addition to the indicating lamp 17, if required, the operation indicating lamp 18 which is lighted on upon receipt at the wireless receiver 12 of the transmitted data may be provided in the timer control circuit 56. While the wireless receiver 12 in the present aspect is to be operated in accordance with the flow-chart of FIG. 14, other arrangement and operation in the present instance are substantially the same as those in the receiver which has been disclosed with reference to FIG. 7 or 8 except for the automatic mode switching, and the same constituents as those in the receiver of FIG. 7 or 8 are denoted by the same reference numerals. In the respective foregoing embodiments or aspects, as will be clear in view of the time-chart of FIG. 15, their arrangements are of a so-called cold starting with all registered data in the data table 43 cleared always when the normal mode is switched over the registering mode. However, the arrangement may be so made, if required, as to allow the already registered data maintained without being cleared and further data registered sequentially additionally. Further, the arrangement may be so made as to allow the registration to be reliably carried out even in an event where a delay is caused in the registering operation of the ID code, by replacing the timer control circuit 56 in the receiver of FIG. 13 with such a re-triggerable timer control circuit 56A as shown in FIG. 16, and extending the set time of the timer to have the registration carried out re-triggerably, as will be clear in view of FIG. 17 in comparison with FIG. 15.

[0023] In addition, the wireless receiver allows a plurality of ID codes to be registered for each of preliminarily set groups of the codes. In this case, as shown in FIG. 18, the system data table 43A is divided into a plurality of registering areas, and a group selecting switch 58 is connected to the table 43A so that one of the registering areas can be selected through this group selecting switch 58. Further in the present instance, a plurality of the operation indicating lamps 18a and 18b are connected to the mode switching means 42 for indicating the operation in respect of each of the divided registering areas so that any one of the registering areas in which the codes are being registered may be visualy confirmed, and the discriminating means 45 is provided with an output terminal means 59 having divided terminals O1 to On corresponding to the divided registering areas so as to obtain the control outputs in correspondence to the respective registering areas. According to the receiver arrangement of FIG. 18, a plurality of objects to be controlled may be controlled as divided into groups by means of the single wireless receiver, so that, in the case of forming, for example, a wireless security system, a plurality of objects can be monitored for each of divided groups of the objects, or, when a wireless chime system is formed, a plurality of the phonic call signs made mutually different for each of the divided object groups may be generated.

[0024] While the wireless receiver 12 of FIG. 18 is arranged for the mode switching by means of the manual switch in the same manner as in the receiver of FIG. 8, the arrangement can be modified as required into the automatic mode switching with such start switch and timer control circuit as in the case of FIG. 14 employed, or into such automatic mode switching arrangement as in the case of FIG. 16 where the re-triggerable operation is carried out by means of the re-triggerable timer control circuit.

[0025] For the start switch operably coupled to the mode switching means, such arrangement as shown in FIGS. 19 and 20 can be utilized. That is, a body casing 60 of the wireless receiver 12 comprises a bottom cover 61 securable to the casing 60 by means of screws not shown, at a stepped bottom part 62 of the casing 60, and such a movable member 63 of the start switch that renders the switch turned on in projected state under a spring load is provided to project out of lower surface of the bottom part 62. At a portion opposing the movable member 63 in the bottom cover 61, an operating hole 64 is provided through the cover for allowing the movable member 63 to be operated from the exterior by means of a proper jig passed through the hole 64 in a state where the bottom cover 61 is secured to the casing 60. With this arrangement, the start switch can be turned on by placing the movable member 63 of the start switch into such projected state as shown by broken lines in FIG. 20 by means of the jig on users' side even when the bottom cover 61 is fixedly secured to the body casing 60 on manufacturers' side. This start switch actuatable without requiring the bottom cover 61 to be detached allows the receiver to be placed into sales in a state of incorporating a back-up cell for the system data table in the receiver on the side of the manufacturers, and required labor on the users' side can be simplified.

[0026] To prevent the start switch from being accidentally turned on, the bottom cover is required to be detached. However, the prevention of such accidental turning on of the start switch can be reliably achieved by such arrangement as in FIG. 21, in which an "off" plate 65 is provided on inner surface of the bottom cover 61 as held by supports 66 enclosing the operating hole 64, so that the off plate 65 urges the movable member 63 into its retreated position, and the start switch can be reliably prevented from being put into "on" state even when an impact is given to the wireless receiver 12. When the start switch is to be actuated, the bottom cover 61 is to be detached to remove the "off" plate 65, and the movable member 63 may be placed into the projected "on" state. The arrangement should preferably be also so made that, after the mounting of the bottom cover 61, the start switch can be turned off by restoring the retreated state of the movable member 63 by the jig inserted through the hole 64.

[0027] For the start switch, further, it is preferable to adopt such a circuit arrangement as shown in FIG. 22, in which a switch 75 is connected at its normally closed terminal NC to a minus side terminal of a back-up cell 70 and at normally opened terminal NO to a reset terminal RST of a CPU 67 forming a main element of the circuit, while a plus side terminal of the back-up cell 70 is connected to the anode of a diode 71 the cathode of which is connected to the cathode of another diode 72 connected at the anode to an external power source S, and a junction between the cathodes of the both diodes 71 and 72 is connected to a VDD terminal of the CPU 67. A resistor 73 is connected across the junction between the both diodes 71 and 72 and a junction between the normally opened terminal NO and the reset terminal RST, and a capacitor 74 is connected across the junction between the terminals NO and RST and the ground. As the start switch 75 is turned from the NC terminal side to the NO terminal side, the reset terminal RST of the CPU 67 will be at a voltage level of L, a reset signal is thus provided thereto and the receiver 12 is held in the reset state. As the start switch 75 is turned back to the NC terminal side, a back-up power source voltage is caused to be applied to the VDD terminal even in a state where the external power source S is not connected. In an event where the external power source S is connected, a series circuit of the resistor 73 and capacitor 74 acts to render the diode 71 to be in "off" state, and the voltage of the back-up power source 70 is not applied to the CPU.

[0028] A lighting control arrangement for the mode indicating lamp 17 is formed by connecting the lamp 17 to a control mode output terminal M1 and a registration mode output terminal M2 of the CPU 67 through two series circuits of a diode and a resistor and mutually parallel. In the present instance, the resistor 76 in the series circuit connected to the output terminal M2 is set to be of a value smaller than the resistor 75 in the series circuit connected to the CPU output terminal M1, whereby, in a state where the wireless receiver 12 is switched into the registering mode, an "L" level pulse signal is provided out of the registering mode output terminal M2 to have the indicating lamp 17 lighted on. Since the resistance values of the both resistors 75 and 76 are made to be mutually so different that the lamp 17 is lighted by a relatively larger current during the registering mode, the indication of the particular registering mode can be made easier to be visually confirmed. For the indicating lamp 17, therefore, it is preferable to employ a green color lamp, in view of that the green color light is larger in the brightness than, for example, red color light as seen in FIG. 23.

[0029] According to another remarkable feature of the present invention, the wireless transmitter 11 can be made to be sufficiently thin. Referring to FIGS. 24 and 25, the transmitter 11 comprises a thin card-type hollow casing 80, which includes a plurality of key-top members 81 made depressible inward by cutting out the members in a cantilever type, a light permeating hole 82 made in the center of a front part adjacent front end side edge, inward projected locking arms 83 and 83a provided in rear part, and a seating part 84 made in the center of a rear end side edge for seating a later disclosed cell holder. A control circuit board 85 is provided for being accommodated within the casing 80, and this circuit board 85 carries a loop-shaped antenna 15A formed on front part of the board in a conductor pattern, a plurality of switches 24 at next stage portion of the front part for allowing the key-top members 81 of the casing 80 to be resiliently brought into contact with them, the CPU 21 in a rear part and next to the switches 24, a reference frequency generator 87 for a transmission circuit and also provided in the rear part and next to the switches 24, and a reference clock generator 27 comprising a quartz oscillator disposed in rear part of the board 85, while an indicating lamp 25 is provided in the center of the front part adjacent the front end side edge, and a conductor part 88 is provided along the rear end side for connection of the power source.

[0030] The cell holder 90 to be fitted in the seating part 84 of the casing 80 is formed to have a cell supporter 92 for receiving a coin-shaped circular cell 91, and locking arms 93 and 93a at extended ends of the supporter 92 for lockingly engaging with the locking arms 83 and 83a of the casing 80 when the holder 90 is mounted to the casing 80, so that the cell holder 90 as well as the cell 91 will be held at a predetermined position. When the cell holder 90 is mounted to the casing 80, further, upper side "plus" electrode of the cell 91 is brought into contact with a projected conductor 89 while lower side "minus" electrode of the cell 91 comes into contact through a comb-teeth contactor 94 with the conductor part 88, for supplying a power to the CPU 21, reference frequency generator 87 and so on. On upper and lower surfaces of the casing 80, name-plate seals 95 and 96 on which article number, usage instructions and the like are printed are bonded, while the upper side seal 95 carries depression instructing prints 97 at positions opposing the key-top members 81 of the casing 80 and a light permeating part 98 formed in the center of front side end portion of the seal 95 to align with the lamp 25 of the circuit board 85 and the light permeating hole 82 of the casing 80. These control circuit board 85, casing 80 and seals 95 and 96 may preferably be joined integral by means of screws 99.

[0031] Therefore, when one of the key-top members 81 is depressed through the top seal 95, corresponding one of the switches 24 is turned on, the transmission circuit including the CPU 21 is thereby driven, the transmission data including the ID code as has been partly referred to are transmitted through the antenna 15A, and this operating state is indicated by the lamp 25. In this case, as will be clear when FIGS. 26 and 27 are compared with FIGS. 28 and 29, the key-top members 81 are provided for being depressed not by body portion of a finger but rather by tip end portion of the finger. That is, when a key-top member 81′ of a casing 80′ is depressed from non-actuated state of FIG. 26 into actuated state of FIG. 27 with body portion of a finger, the key-top member 81′ made thin at base portion for easy depression can be bent down to engage the switch 24′, but the depression made by the finger body portion is likely to cause depressing stroke of the key-top member 81′ to be relatively larger. In contrast, the depression by the finger tip from the non-actuated state of FIG. 28 to actuated state of FIG. 29 of the key-top member 81 renders the depressing stroke to be relatively smaller.

[0032] Such smaller depressing stroke of the key-top members 81 is contributive to a realization of the thin card-type wireless transmitters 11, in combination with such features that the planar loop-shaped antenna 15A is employed in the wireless transmitters, the ID code setting for the respective transmitters can be made preliminarily on the manufacturers' side to render any connecting member for connecting work on the users' side to be unnecessary, the key-top member is made thin at base portion to render the member elastically bendable and restorable without requiring any separate return spring, and so on. Further, the antenna 15A is disposed so as not to be covered by the user's hand upon depression of the key-top members 81, and the radio wave radiation efficiency of the antenna 15A is not to be reduced.

[0033] In FIG. 30, there is shown another arrangement suitable for applying the wireless transmitter 11 to a wireless chime system, in which the control circuit board 85 in the transmitter of FIG. 24 is made to include an insulating seal 100 having a plurality of apertures 101 and 101a and interposed between the conductor part 88 and the comb-teeth contactor 94. Here, the conductor part 88 is so provided that, in the same manner as in the case of setting the mutually different ID codes in the foregoing embodiments, some of a plurality of branch conductors 102, 102a ... 102n brought into contact with the minus electrode of the cell 91 in different pattern will cause a set of transmission data appointing different chime sounds towards the wireless receiver 12, and the provision of such switches 24 that are required for the tone pattern modification in the case of FIG. 2 but are rendering the thickness of the transmitter to be increased can be made no more necessary. Now, the insulating seal 100 is prepared to have the apertures 101 and 101a at different positions or in different size from other seals for all other transmitters, different ones only of the branch conductors 102, 102a ... 102n forming the conductor part 88 can be brought into contact with the minus electrode of the cell 91 through some of the teeth of the contactor 94 not covered by the insulating seal 100.

[0034] More specifically, as shown in FIG. 31, for example, the insulating seal 100A is provided with the apertures allowing first, third and sixth teeth of the contactor 94 to contact with the cell 91 so that a sound of such sequential tone of marimba will be produced. Another insulating seal 100B of FIG. 32 having apertures allowing first, second and sixth teeth of the contactor 94 to contact with the cell 91 produces an intermittent sound tone of the marimba, whereas still another insulating seal 100C of FIG. 33 having apertures which allow first and sixth teeth of the contactor 94 to contact with the cell 91 is to produce an ordinary buzzar sound. Other arrangements in the wireless transmitter shown in FIG. 30 are substantially the same as those in the transmitter shown in FIGS. 24 and 25, and the same constituents in the transmitter of FIG. 30 as those in FIGS. 24 and 25 are denoted by the same reference numerals.

[0035] For the wireless transmitting means 22 of the wireless transmitter 11, it is preferable to employ such circuit arrangement as shown in FIG. 34. Thus, the wireless transmitting means 22 comprises an oscillation circuit 110 and a frequency multiplier 111, to the latter of which the loop shaped antenna 15A is connected. The oscillation circuit 110 is formed to oscillate at a frequency determined by a crystal oscillator X11, coil L11 and capacitor C11, the oscillation of which is stabilized by means of a positive feedback amount determined by a capacitor C12 and a negative feedback amount determined by capacitors C13 and C14 and a coil L12. The oscillation circuit 110 includes a transistor Q11 for the crystalline oscillation, as DC biased by resistors R11 and R12 and with a negative feedback applied by a resistor R13.

[0036] An output of the oscillation circuit 110 is applied through a capacitor C15 to a transistor Q12 biased by resistors R14 and R15 in the frequency multiplier 111, in which a higher harmonic of frequencies provided by a resonance circuit formed by a coil L13 and a capacitor C16 is selectively amplified to be provided through capacitors C17 and C19 to the loop antenna 15A and radiated thereout as a radio wave signal. The amplified higher harmonic is synchronized with a predetermined oscillation frequency by means of a parallel oscillation circuit of a capacitor C18 and a coil L14 so as to be of a low impedance with respect to other frequencies and to perform a filtration for removing any disturbing wave. The loop antenna 15A includes a capacitor C20 for improving the antenna radiation efficiency together with inductance component of the antenna 15A.

[0037] In providing to one surface of a circuit-board substrate 86 a circuit pattern 120 including such wireless transmitting means 22 as in the above, it is desirable to provide a conducting shield 121 on the other surface of the substrate except for a portion corresponding to the loop antenna 15A, as will be seen in FIG. 35 showing the both surfaces of the substrate 86. With this provision of the conducting shield 121, a magnetic field which acts to prevent any eddy current induced within the conducting plate due to a magnetic field produced by high frequencies from the oscillation circuit, and consequently any interference of disturbing waves can be removed. In this case, it is possible to employ a both-surface copper clad laminate as the circuit substrate, to form the circuit pattern including the antenna 15A with copper layer on one surface of the laminate, and to form the conducting shield with copper layer on the other surface of the laminate while removing part of the copper layer corresponding to the antenna 15A.

[0038] The wireless transmission-reception control system according to the present invention can be utilized as such security system as shown in FIG. 36. For the wireless transmitters 11, they may be any of various aspects of transmitting various security signals as the transmission data, and they may be formed in the form of such a transmitter 130 that generates the transmission data relative to fire alarming in association with a fire sensor, a transmitter 131 that provides monitoring data as the transmission data of opened/closed state detection signal or the like as to windows and doors in association with a crime prevention switches, or transmitters 132-134 that are to be carried by aged persons, patients and so on as hung on their neck for generating emergency signals. The transmission data from these transmitters are transmitted towards the wireless receiver 12 as driven by a driving member of the fire sensor, crime prevention switch or the like or by a manual depression of the call switch 13 of the transmitters. While the interior arrangement of the wireless receiver 12 is as has been disclosed in the above, its front body face carries, for example, an area-code indicator 12a, a mode state indicator 12b, a security-information indicator 12c, control switches 12d, and a registering mode switch 12e.

[0039] The transmission data from the security system are also the same in the basic structure as such format as in the case of the ID code referred to in the above with reference to FIG. 6, but they may be such that a pre-receive signal TP is provided at the top of each of the two frame data divided by, for example, a pause Tk, the frames are respectively formed by such security data S5-S0 disposed next to the ID code as alarming signal, dead-cell warning signal and crime preventing signal, function codes E1 and E0 disposed at next stage, and odd number parity check code P at the last stage.

[0040] The system may be so arranged that the transmission data are transmitted continuously periodically as normal information and an abnormality is confirmed when the transmission of the normal information is interrupted.

[0041] In FIG. 38, there is shown a block circuit of the wireless receiver of the present invention when the same is applied to the foregoing security system, the basic arrangement of which is the same as that in the foregoing embodiments of FIGS. 7 and 8 and so on, and the same constituents are denoted by the same reference numerals. In the present instance, there is provided means 45B for decoding outputs of the ID code coincidence detecting means 44 into a zone unit code, and the security data contained in output security signal of the zone unit code decoding means 45B is to be indicated at a security information indicating means 59A, while the output of the decoding means 45B is provided to an alarm operating means 59B to have such proper alarm means as a buzzar, siren or the like actuated. When the security signal from the ID code coincidence discriminating means 45 includes a plurality of data, it is preferable to incorporate means 45C for discriminating the type of the security data so that an output discrimination signal will be provided from the discriminating means 45C to the security information indicating means 59A. In the receiver 12, further, there is provided means 59C for scroll-indicating and controlling the watching zone code which denoting monitoring zone assigned to the respective wireless transmitters as well as the unit code, so that an output of the scroll indicating means 59C is provided to an address designating means 43B and an address designating signal is to be provided from this address designating means 43B to the system data table 43. The receiver 12 may also be designed to provide an output of the front end/decoder means 41 directly to an ID code indicating means 59D, to have the ID code displayed prior to the discrimination of its coincidence or non-coincidence.

[0042] When, in the foregoing arrangement of the wireless receiver 12 of FIGS. 36 and 38, the control switches 12d in the front operating face are operated for the respective indications, the zone unit scroll indicating means 59C is actuated and, as the security signal is provided from one of the wireless transmitters 11 while the zone and unit are indicated at the indicator 12a, the particular zone and unit codes being indicated at the moment are assigned to the ID code of the security signal received and are registered. The system data table 43 may be provided, as will be clear when FIG. 39 is also referred to, for registering 64 different ID codes with divisions of, for example, 8 zones and 8 units, together with other data.

[0043] The wireless transmission-reception control system according to the present invention can be employed as a transmission communication system utilizing telephone office line 140A as will be shown in FIG. 40, in which event a communication transmitting means 140 in which the wireless receiver 12 is included incorporates therein a communication control station 141 which transmits through the telephone line 140A the output of the receiver 12, while a communication receiving means 150 to which the information from the transmitting means 140 is provided comprises a communication control station 151 which receives the output from the communication control station 141 in the transmitting means 140, so that a communication can be achieved between the both communication control stations 141 and 151 respectively through telephone sets 142 and 155. The communication control stations 141 and 151 comprise respectively a MODEM and an NCU, by the latter of which the stations are connected and disconnected automatically with the telephone line 140A in a manner known per se. An output of the MODEM on the side of the communication receiving means 150 is provided through a controller 152 and a driving circuit 153 to an indicating means 154, so that the transmission data from the wireless transmitter 11 and decoded by the wireless receiver 12 on the side of the communication transmitting means 140 can be displayed on the indicator 154 at a further remote place than the receiver. It is made possible, therefore, to establish the data transmission beyond the transmission-reception zone between the wireless transmitters 11 and the wireless receiver 12. With the foregoing automatic mode switching arrangement employed here, it is made possible to automatically transmit the data to the indicator 154 installed at a remote position.

[0044] In addition, the wireless transmission-reception control system according to the present invention may also be employed for opening and closing operation of garage entrance shutters, as schematically shown in FIG. 41, in which event the chime means 48 in the embodiment of FIG. 8 is replaced by a shutter elevator 160 and the wireless transmitters 11, 11a ... are provided respectively with three operating switches 24 for elevating, lowering and stopping the shutter.

[0045] It should be appreciated that the wireless transmission-reception control system according to the present invention can be employed in various types of remote operating systems.

Claims

1. A wireless transmission-reception control system wherein transmission data transmitted as radio wave signals along with an ID code from more than one of wireless transmitters are received by a wireless receiver, the transmission data are decoded at a front end/decoder means to take out the data transmitted, the ID code of the data transmitted is compared with other ID codes of the transmission data already registered in a data registering means to discriminate at a discriminating means if a collation of the data is executed or not, and the data transmitted the registration of which is confirmed are decoded to have an output generated, characterized in that said wireless transmitters are respectively provided fixedly with each of a plurality of the ID codes which are mutually different, and said wireless receiver is provided for being switched over at least between a mode of registering the ID code and a mode of decoding the data transmitted and thereafter generating an output.

2. A system according to claim 1 wherein said wireless receiver further comprises a mode switching means provided for switching operating state of the system at least between a mode of registering said ID code and a normal mode of processing said data transmitted after their reception and encoding.

3. A system according to claim 1 which forms a security system in which said wireless transmitters are provided respectively with a call switch and for being portable, and said wireless receiver is provided for driving an associated alarm means upon receipt of said data transmitted from the transmitters.

4. A system according to claim 1 which forms a wireless call system in which said wireless transmitters respectively include a call switch and are formed for providing a call signal to said transmission data, and said wireless receiver is provided for driving an associated call sound output means upon receipt of said data transmitted from the transmitters.

5. A system according to claim 1 which forms a wireless equipment control system in which said wireless transmitters respectively include a control switch and are formed for transmitting a control signal as said transmission data, and said wireless receiver is provided for controlling an associated equipment to be controlled upon receipt of said control signal from the transmitters.

6. A system according to claim 1 wherein said wireless transmitters respectively includes an IC chip having a plurality of conductor lines led out of said chip, and said ID code is provided by preliminarily fixing signal level of each of said conductor lines.

7. A system according to claim 2 wherein said mode switching means of said wireless receiver comprises a manual operating switch, a setting of said manual operating switch to said registering mode causing said ID code for said wireless transmitter to be written and registered in said system data registering means, and a setting of the switch to said normal mode causing said writing of the ID code to be stopped.

8. A system according to claim 2 wherein said mode switching means of said wireless receiver comprises a start switch which actuates the receiver for receiving and registering said data transmitted, and a timer circuit activated by said start switch and provided to maintain said registering mode for registering said ID code of said data transmitted at least in said system data registering means for a predetermined time, and switching the mode over to said normal mode after elapsing of said time.

9. A system according to claim 2 wherein said mode switching means of said wireless receiver comprises a start switch which actuates the receiver for receiving and registering said data transmitted, and a retriggerable timer circuit activated by said start switch and provided to maintain said registering mode for registering said ID code of said data transmitted at least in said system data registering means for a predetermined time, extending said predetermined time for a fixed time in order to catch late coming ID code, and switching the mode over to said normal mode after elapsing of said time as extended for said fixed time.

10. A system according to claim 1 wherein said system data registering means has a plurality of divided registering areas for registering said ID code in groups and providing an output for each of said groups.

11. A system according to claim 10 wherein said wireless receiver further comprises a switch for selecting one of said groups to be registered in said system data registering means having said plurality of registering areas.

12. A wireless transmitter for use in a wireless transmission-reception control system in combination with a wireless receiver, the transmitter comprising an operating switch, means for transmitting transmission data as converted into radio wave signals with an ID code provided thereto, a loop-shaped antenna means connected to said transmitting means for radiating said radio wave signals toward said wireless receiver, a control circuit plate on which at least main parts of said transmitting and antenna means are mounted in a conductor pattern and including more than one switch, a thin type casing for housing therein said control circuit plate and having a switch actuating part formed in a cantilevered shape for being inward bendable to actuate said switch of the control circuit plate, and a thin type cell mounted into said casing for supplying a power to said transmitting and antenna means.

13. A transmitter according to claim 12 wherein said transmitting means is provided with means for preliminarily fixedly providing said ID code to the transmitting means.

14. A transmitter according to claim 13 wherein said fixedly ID code providing means comprises a plurality of first conductor branches made at Vcc level, a plurality of second conductor branches made at ground level, and means for connecting between selective ones of said first and second conductor branches.

15. A transmitter according to claim 14 wherein said first and second conductor branches are preliminarily separated, and said selectively connecting means comprises jumper lines connecting said first and second conductor branches in a predetermined pattern.

16. A transmitter according to claim 14 wherein said first and second conductor branches are preliminarily separated, and said selectively connecting means comprises conductor chips connecting said first and second conductor branches in a predetermined pattern.

17. A transmitter according to claim 14 wherein said first and second conductor branches are preliminarily mutually connected, and said selectively connecting means comprises said mutually connected first and second conductor branches left connected in a predetermined pattern, the rest of the conductor branches being disconnected by means of punched holes.

18. A transmitter according to claim 12 wherein said switch actuating part of said casing is formed depressible with a finger tip of an operator whose fist of other fingers being disposed free of said antenna means.

19. A radio transmission/reception system in which a plurality of transmitters are pre-set with respective identity codes and transmit data together with the respective identity code, and a receiver is operable in a first mode to learn identity codes and in a second mode to receive data transmissions and detect whether the received transmissions include a previously learned identity code.

Drawing