JP3633375B2 - Wireless transmission system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless transmission system capable of reliably performing wireless communication.
[0002]
[Prior art]
Conventionally, wireless transmission systems have been used in various fields, and are used for calls from customers in restaurants and the like. The customer operates a button on a wireless transmitter (transmitter) installed on a table or the like. Then, since the wireless signal to which the table number or the like is added is transmitted, the wireless receiver provided in the kitchen or the like can receive this and display the table number or the like to serve customers.
[0003]
In addition, as a wireless transmitter, the wireless transmission system is connected to a device that outputs a contact signal by wire, and when a contact signal is input from this device, a contact input that transmits a wireless signal indicating the status of the device is sent. Some types use wireless transmitters and are used for alarm notifications. In this wireless transmitter, for example, a human body detection sensor is connected, and when this sensor detects a human body, when a contact signal is input from the sensor, a wireless signal is transmitted. The wireless receiver that has received this signal notifies the person on the receiver side that a person has entered by outputting a ringing tone or an alarm sound, or lighting or blinking a lamp or the like.
[0004]
FIG. 13 shows the operation at this time. Here, as the wireless receiver, a contact output type wireless receiver in which a device for inputting a contact signal is connected by wire is used. When the state of the input terminal of the contact input type transmitter changes from open to closed, an operation start command (ON) signal is transmitted, and when the input terminal state changes from closed to open, an operation stop command (OFF) signal is transmitted ((a), (b )reference). As a result, the receiver can operate in synchronization with the state of the input terminal on the transmitter side (see (c)).
[0005]
14A to 14E show an operation in the case where communication is performed between a transmitter and a receiver via a repeater. Here, as shown in (c) and (d), two repeaters (repeater 1 and repeater 2) are used, and the repeater 2 receives only the signal from the repeater 1, The receiver receives only the signal from the repeater 2. The repeater transmits a signal after a predetermined time T has elapsed after receiving the signal, thereby preventing the relayed signal from being transmitted correctly due to a signal collision.
[0006]
[Problems to be solved by the invention]
However, in the conventional wireless transmission system, there are cases where normal transmission cannot be performed to the wireless receiver due to the transmission timing from the wireless transmitter. FIG. 15 shows the operation when such a problem occurs, and the transmission of the ON signal from the repeater 2 is at the same timing as the transmission of the OFF signal from the transmitter. As a result, the signals collide, and the receiver cannot receive the OFF signal and cannot operate correctly. Here, the receiver can receive signals from both the repeater 1 and the repeater 2, but since it does not receive the OFF signal after receiving the ON signal from the repeater 1, the operation state is continued. Will remain.
[0007]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a wireless transmission system that prevents a signal collision and enables a signal to be correctly transmitted from a transmitter to a receiver. .
[0008]
[Means for Solving the Problems]
To achieve the above object, a wireless transmission system according to claim 1 of the present invention comprises at least a wireless transmitter and a wireless receiver that receives a wireless signal transmitted from the wireless transmitter. .
[0009]
As the wireless transmitter, a contact input type wireless transmitter is used, and devices connected to the contact input type wireless transmitter include various sensors and push buttons.
In this system, the wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as the transmission prohibition time, and the wireless transmitter transmits the wireless signal. Thereafter, the transmission of the wireless signal is prohibited until the transmission prohibition time elapses, and the wireless signal for which the transmission is prohibited is transmitted after the transmission prohibition time elapses.
[0010]
The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, the transmission of the wireless signal is prohibited, and after the elapse of the transmission prohibition time, the wireless signal whose transmission is prohibited is transmitted.
Here, the transmission prohibition time is set from the time a signal is transmitted from the transmitter until the signal reaches the receiver after passing through one or more repeaters.
[0011]
The wireless transmission system according to claim 2, at least when a contact signal input from a device that outputs a contact signal changes, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change; A wireless repeater that receives a wireless signal transmitted from the wireless transmitter, transmits the wireless signal after a certain time, and a wireless receiver that receives the wireless signal transmitted from the wireless repeater . This system differs from claim 2 in that it is limited to communicating via a wireless repeater.
[0012]
The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, the transmission of the wireless signal is prohibited, and after the elapse of the transmission prohibition time, the wireless signal whose transmission is prohibited is transmitted.
[0013]
The wireless transmission system according to claim 3 includes at least a wireless transmitter and a wireless receiver that receives a wireless signal transmitted from the wireless transmitter. The system configuration of this system is the same as that of claim 1. The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time has elapsed, if the first wireless signal and the last wireless signal that were prohibited from transmission are of the same type, When the first wireless signal is transmitted and the first wireless signal and the last wireless signal that are prohibited from being transmitted are of different types, the first wireless signal and the last wireless signal are transmitted.
[0014]
The wireless transmission system according to claim 4, wherein when there is a change in the input of the contact signal from the device that outputs the contact signal, at least a contact input type wireless transmitter that transmits a wireless signal corresponding to the change; And a wireless receiver for receiving a wireless signal transmitted from the wireless transmitter. The system configuration of this system is the same as that of claim 1.
[0015]
The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time has elapsed, if the first wireless signal and the last wireless signal that were prohibited from transmission are of the same type, When the first wireless signal is transmitted and the first wireless signal and the last wireless signal that are prohibited from being transmitted are of different types, the first wireless signal and the last wireless signal are transmitted.
[0016]
The wireless transmission system according to claim 5 includes at least a wireless transmitter, a wireless repeater that receives a wireless signal transmitted from the wireless transmitter, and transmits the wireless signal after a predetermined time, and the wireless repeater And a wireless receiver that receives a wireless signal transmitted from the terminal.
[0017]
The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time has elapsed, if the first wireless signal and the last wireless signal that were prohibited from transmission are of the same type, When the first wireless signal is transmitted and the first wireless signal and the last wireless signal that are prohibited from being transmitted are of different types, the first wireless signal and the last wireless signal are transmitted.
[0018]
The wireless transmission system according to claim 6, at least when a contact signal input from a device that outputs a contact signal is changed, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change; A wireless repeater that receives a wireless signal transmitted from the wireless transmitter, transmits the wireless signal after a certain time, and a wireless receiver that receives the wireless signal transmitted from the wireless repeater . The system configuration of this system is the same as that of claim 4.
[0019]
The wireless transmitter sets the time from when the wireless signal is transmitted until the wireless receiver receives the wireless signal, or more than that time, as the transmission prohibition time. After transmitting the wireless signal, the wireless transmission is prohibited. Until the time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time has elapsed, if the first wireless signal and the last wireless signal that were prohibited from transmission are of the same type, When the first wireless signal is transmitted and the first wireless signal and the last wireless signal that are prohibited from being transmitted are of different types, the first wireless signal and the last wireless signal are transmitted.
[0020]
A wireless transmission system according to a seventh aspect of the present invention is the wireless transmission system according to any one of the first to sixth aspects, wherein the wireless transmitter sets the transmission prohibition time to approximately the same time as the legal minimum transmission prohibition time. To do. In order to comply with the regulations, the transmission prohibition time needs to be longer than the minimum transmission prohibition time.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an example of the internal configuration of a wireless transmitter 1 in the wireless transmission system of the present invention. In the figure, 10 is composed of a CPU and the like, a signal processing unit for controlling each part, 11 is a battery as a power source, 12 is an operation part composed of operation switches for mode switching, 13 is composed of an EEPROM and the like, An ID writing unit for writing an ID code assigned to the transmitter 1, 14 is a transmission prohibition time setting unit for setting a transmission prohibition time to be described later, 15 is a channel setting unit for setting a channel for wireless transmission, and 16 is a liquid crystal display. (LCD), a display unit composed of LED lamps, etc., 17 is a sub clock (for example, 32.768 MHz) which is an operation clock in a stop mode for reducing power consumption when the signal processing unit 10 is on standby, and 18 is a signal processing unit 10. This is a main clock (for example, 3.6864 MHz) for normal operation.
[0022]
The wireless transmitter 1 includes, as a radio unit 20, an antenna 21 that transmits a wireless signal, a radio transmission unit 22, a VCO 23 that controls a transmission frequency, a PLLIC 24 that is a phase control circuit for the VCO 23, a wireless signal And a reference clock 25 (for example, 12.8 MHz) for generating a frequency. In this wireless transmitter 1, the signal processing unit 10 generates a wireless signal of a calling signal when a call button or the like of the operation unit 12 is operated, and transmits this signal from the wireless transmission unit 22 through the antenna 21. An ID code read from the ID writing unit 13 is added to the signal to be transmitted, and the signal is transmitted by the wireless transmission unit 22 whose oscillation is controlled by the VCO 23. When the wireless signal is transmitted, the display unit 16 displays the transmission and the transmission content.
[0023]
Next, FIG. 2 is a block diagram showing an example of the internal configuration of the wireless receiver 3 in the wireless transmission system of the present invention. In the figure, 30 is a signal processing unit configured by a CPU or the like and controls each unit, 31 is a display unit configured by a liquid crystal display or an LED lamp, 32 is a frequency switching unit that switches and sets a wireless reception frequency, and 33 is An ID memory configured by an EEPROM or the like and storing an ID code assigned to the receiver 3, and a power supply unit 34 for controlling the power supplied from a commercial power supply (AC100V). Also, 35 is a registration button that is operated when registering an ID code in the ID memory 33, 36 is a test mode setting unit that is operated to test the operation of the receiver 3 at the time of shipment, 37 is a low voltage detection unit, Reference numeral 38 denotes a main clock (for example, 3.6864 MHz) for the operation of the signal processing unit 30.
[0024]
When the low voltage detection unit 37 detects an instantaneous power failure of the power supply unit 34, the signal processing unit 30 switches to a mode in which power consumption is suppressed, and the display unit 31 displays by a backup power source (not shown) such as a battery. The state is memorized and the state is maintained. When the power failure is restored, the stored display state is restored.
[0025]
In the radio unit 50 for receiving the wireless signal, the signal received from the antenna 51 is received by the radio reception unit 52 whose oscillation is controlled by the PLL control unit 55, demodulated by the demodulation unit 53, and the waveform of the signal is obtained. The waveform shaping unit 54 shapes the waveform. When the wireless receiver 3 receives a wireless signal transmitted from the wireless transmitter 1 via the radio unit 50, the wireless receiver 3 displays on the display unit 31 in accordance with the content of the signal, or outputs a sound output unit (invalid). A ringing tone is output from (shown).
[0026]
The wireless transmission system of the present invention includes at least a wireless transmitter 1 (see FIG. 1) and a wireless receiver 3 (see FIG. 2) that receives a wireless signal transmitted from the wireless transmitter 1. The wireless transmitter 1 sets the time until the wireless receiver 3 receives the wireless signal after transmitting the wireless signal, or a time longer than the time, as the transmission prohibition time in the transmission prohibition time setting unit 14. There is a feature in that.
[0027]
As the transmission prohibition time, an expected time until a signal arrives at the receiver 3 from the transmitter 1 is set in advance by viewing the display on the display unit 16 by operating the operation unit 12 or the like. Therefore, when the distance between the transmitter 1 and the receiver 3 is long and the repeater is used, the transmission prohibition time becomes longer as the distance becomes longer. However, in order to shorten the operation delay time by minimizing the time lag between the transmission timing on the transmitter 1 side and the operation timing on the receiver 3 side, the minimum time of the expected time should be set as the transmission prohibition time. However, a longer time may be set.
[0028]
After transmitting the wireless signal, the transmitter 1 prohibits the transmission of the wireless signal until the transmission prohibition time elapses, and transmits the wireless signal for which the transmission is prohibited after the transmission prohibition time elapses. If there is no signal to be transmitted within the transmission prohibition time and there is no signal that prohibits transmission, no signal is transmitted when the transmission prohibition time has elapsed. On the other hand, if there are a plurality of transmission-prohibited signals during the transmission prohibition time, these signals are transmitted in order after the transmission prohibition time has elapsed. However, since the next signal transmission immediately shifts to the transmission prohibition time, transmission is performed after waiting for the transmission prohibition time to elapse.
[0029]
FIG. 3 shows the operation of the system when the transmission prohibition time t1 is set in the transmitter 1, as described above. Here, the transmitter 1 instructs the receiver 3 to start an operation. After the (ON) signal, an operation stop command (OFF) signal is transmitted. After transmitting the ON signal, the transmitter 1 prohibits transmission of the OFF signal until the transmission prohibition time t1 elapses even if there is an instruction to transmit the OFF signal within the time t1. After the elapse of the transmission prohibition time t1, the transmission of the OFF signal that has been prohibited from transmission is delayed by the time t2.
[0030]
Thus, even when the transmitter 1 tries to transmit signals continuously, the signals do not collide with each other and the transmitted signals do not reach the receiver 3, and the operations of the transmitter 1 and the receiver 3 are not caused. Are synchronized. The law stipulates that if transmission over a predetermined time (for example, 3 seconds) is intermittent, the transmission must be stopped for a predetermined time (for example, 2 seconds). For this reason, a determination is necessary at the time of transmission execution. However, according to the present invention, since the transmission prohibition time t1 is set, such a determination process is not necessary. Further, if the transmission prohibition time t1 is set to substantially the same time as the legal minimum transmission prohibition time (for example, 2 seconds), the time lag between the transmission timing on the transmitter 1 side and the reception timing on the receiver 3 side is reduced. The feeling of discomfort can be reduced. However, the transmission prohibition time t1 must be equal to or longer than a predetermined time (for example, 2 seconds) in which transmission needs to be stopped by law.
[0031]
In FIG. 3, there are two types of signals transmitted from the transmitter 1, an ON signal and an OFF signal, but the present invention is not limited to this, and three or more types of signals may be transmitted. Moreover, you may transmit the same kind of signal continuously. In addition, when the transmitter 1 changes the input of the contact signal from the device that outputs the contact signal, such an operation is performed by the contact input type wireless transmitter 1A that transmits a wireless signal corresponding to the change. (Described later with FIG. 7). That is, the contact input type wireless transmitter 1A has a change in the contact signal input, and even after the wireless signal is transmitted until the transmission prohibition time t1 has passed, The transmission of the signal is prohibited, and the wireless signal whose transmission is prohibited is transmitted after the elapse of the transmission prohibition time t1.
[0032]
However, as described above, even when the transmission prohibition time t1 is provided in the transmitter 1, if the number of signals to be transmitted is continuous and increases, the transmission prohibition time t1 is provided for each signal. Will be delayed. FIG. 4 shows the operation at that time, taking as an example the case where the transmitter 1 is (a) a contact input type wireless transmitter 1A that transmits a signal according to a change in contact input of a sensor. The transmitter 1A transmits the first sensor state change during the transmission prohibition time t1 with a delay of time t2, and then transmits the sensor state change (see the black star in the figure). In order, transmission is performed after the elapse of the transmission prohibition time t1 of the previous transmission signal.
[0033]
In the system of the present invention, in order to solve this problem, the wireless transmitter 1A prohibits the transmission of the wireless signal until the transmission prohibition time t1 elapses after the wireless signal is transmitted. If the first wireless signal that was prohibited from transmission and the last wireless signal are of the same type when the time has passed, the first wireless signal that was prohibited from transmission is transmitted. If the wireless signals are different types of signals, the first wireless signal and the last wireless signal are transmitted.
[0034]
That is, if there is no signal for prohibiting transmission during the transmission prohibition time t1, no signal is transmitted after the transmission prohibition time t1 has elapsed. If there is one signal that prohibits transmission during the transmission prohibition time t1, the first and last signals are the same, so only the first (and last) signal is transmitted after the transmission prohibition time t1 has elapsed. If there are a plurality of signals during the transmission prohibition time t1 and the types of the first and last signals are the same, only the first signal is transmitted after the transmission prohibition time t1 has passed, and the types of the first and last signals are If they are different, after the elapse of the transmission prohibition time t1, the first signal and the last signal are transmitted in this order. In this case, of course, the first signal is transmitted, and the last signal is transmitted after the transmission prohibition time t1 has elapsed. Further, if there is a signal for prohibiting transmission within this transmission prohibition time t1, similarly, the signals are transmitted in order from the next to the last signal.
[0035]
FIG. 5 shows the operation in this case. After transmitting the ON signal, the wireless transmitter 1A prohibits transmission until the transmission prohibition time t1 elapses, and transmits the first signal (OFF signal) that prohibits transmission with a delay of time t2. Yes. Changes in the state of the sensor within time t2 (see the black star in the figure) are ignored. Here, since the prohibited first and last wireless signals (refer to the black circles in the figure) are different types of signals (OFF signal and ON signal), the ON signal after the elapse of the transmission prohibition time t1 due to the transmission of the OFF signal. Send.
[0036]
Specifically, if the sensor is a security sensor that is turned off when the window is opened and turned on when the window is closed, the window is opened by an intruder or the like immediately after the window is closed and placed in the monitoring state. Even if the window is closed immediately, the first signal (OFF signal) forbidden to be transmitted is always transmitted, so that an alarm is output on the receiver 3 side, and there is an intruder. I understand.
[0037]
Thereby, since an unnecessary signal is not transmitted from the transmitter 1, efficient transmission can be performed and consumption of the battery 11 can be suppressed. Further, the operations on the transmitter 1 side and the receiver 3 side can be synchronized at an early stage. Note that such an operation can be handled only for two types (ON signal and OFF signal). However, when it is possible to support a plurality of types, the transmitter 1 is prohibited from transmitting at the transmission prohibited time t1. Whether or not there is one or more received signals is stored for each type of signal. Then, after the elapse of the transmission prohibition time t1, it is only necessary to transmit the signals for each of the maximum and various types one by one in the order in which the transmission is prohibited.
[0038]
Next, FIG. 6 shows an example of a system configuration of a wireless transmission system using the contact input type wireless transmitter 1A. On the transmitter side, for example, there are configurations as shown in (a) to (e). The contact signal output device 6 connected to the transmitter 1 includes various sensors such as a machine tool abnormality detection switch shown in (a), a security switch shown in (b), and a human body detection sensor shown in (c). , (D) various push buttons for calling, etc., and (e) a door switch.
[0039]
As described above, the contact signal is a signal indicating that the contact has changed. In other words, when the connected device is the abnormality detection switch of (a), the abnormality is detected and detected. If it is a crime prevention switch of (b), it indicates an alarm state and a non-alarm state, and if it is a sensor of (c), it indicates a state where the object is detected and a state where it is not detected, In the case of the push button (d), the button is pressed and not pressed, and in the case of the door switch (e), the door is opened and closed.
[0040]
On the other hand, when the wireless signal as shown in (f) is received, the receiver 3 outputs a ringing tone, a warning sound, or the like, or turns on or blinks a display window according to the content of the signal. A call receiver, as shown in (g), installed in a restaurant or the like, receives a signal transmitted from a wireless transmitter (not shown) installed in each table, outputs a ringing tone, and sends it to the transmitter. A wireless service call receiver that displays a table number and the like in an assigned window and receives a signal from the transmitter 1 when a visitor is detected and outputs a ringing tone, etc., shown in (h) There is a contact output type wireless receiver 3A for outputting a contact signal to a contact signal input device 7 connected by wire when a signal is received from the transmitters 1 and 1A and operating the device. The device 7 connected to the receiver 2C includes a lighting control relay, a buzzer, a security camera, and the like.
[0041]
FIG. 7 is a block diagram showing an example of the internal configuration of the contact input type wireless transmitter 1A in the wireless transmission system of the present invention. In addition to the configuration of the transmitter 1 shown in FIG. 1, the transmitter 1A is provided with a terminal input unit 19 for connecting the contact signal output device 6 by wire, and the other configuration is the same as that shown in FIG. . In this wireless transmitter 1A, when a contact signal is input from the terminal input unit 19, the signal processing unit 10 generates a wireless signal indicating the state of the connected device 6, and this signal is transmitted from the wireless transmission unit 22. Transmit through the antenna 21. An ID code read from the ID writing unit 13 is added to the signal to be transmitted, and the signal is transmitted by the wireless transmission unit 22 whose oscillation is controlled by the VCO 23. When the wireless signal is transmitted, the display unit 16 displays the transmission and the transmission content.
[0042]
Various types of devices can be connected to the transmitter 1A as the contact signal output device 6. Therefore, the contact is closed as a signal indicating that the contact has changed from the connected device. The operation unit 12 can set whether a contact (make contact) input indicating that the contact has been made or b contact (break contact) input indicating that the contact has been opened. In addition, the devices to be connected include devices that perform non-voltage contact input or voltage contact input, and these can be set by the operation unit 12.
[0043]
Next, FIG. 8 is a block diagram showing an example of the internal configuration of the contact output type wireless receiver 3A. In addition to the configuration of the receiver 3 shown in FIG. 2, a contact input device 7 that inputs a contact signal and performs a desired operation is connected to the receiver 3A by wire, and the contact signal is output from the device 3A. 7, a contact output stop timer 40 that measures the output time of the contact signal, a contact output mode setting unit 41 that sets the contact output mode to toggle output mode, input synchronous output mode, etc. A contact output time setting unit 42 that presets the output time of the contact signal is provided, and the rest is the same as the configuration shown in FIG.
[0044]
In the wireless receiver 3A, when the wireless signal transmitted from the wireless transmitters 1 and 1A is received via the radio unit 50, the contact output unit 39 outputs a contact signal to the connected device 7. Next, FIG. 9 shows a configuration in the case where communication from the transmitter 1A to the receiver 3A is performed via the wireless repeater 8.
[0045]
The wireless transmission system includes at least a contact input type wireless transmitter 1A that transmits a wireless signal corresponding to a change in the input of the contact signal from a device that outputs the contact signal, and the wireless transmission. A wireless repeater 8 that receives a wireless signal transmitted from the transmitter 1A and transmits the wireless signal after a predetermined time, and a wireless receiver 3A that receives a wireless signal transmitted from the wireless repeater 8. Yes.
[0046]
Here, the case where two wireless repeaters 8 are provided and the receiver is configured by the contact output type wireless receiver 3A is illustrated. Similarly, when the wireless transmitter 1 shown in FIG. 1 is used as the transmitter, communication is performed with respect to the transmitters 3 and 3A via the repeater 8. FIG. 10 is a block diagram showing an example of the internal configuration of the wireless repeater 8 in the wireless transmission system of the present invention. The repeater 8 includes a receiving unit 81, a transmitting unit 83, a power source 84 that supplies power to each unit, and a channel setting unit 85 that sets a channel for transmission and reception. The receiving unit 81 is shown in FIG. The transmission unit 83 has the same configuration as that of the transmitter 1 of FIG.
[0047]
The receiving unit 81 includes a signal processing unit 810, a display unit 811, a frequency switching unit 812 that switches and sets a frequency, an ID memory 813 that stores an ID code assigned to the receiving unit 81, and an ID in the ID memory 813. A registration button 814 operated when registering a code, a low voltage detection unit 815, and a main clock 816 for the operation of the signal processing unit 810 are provided.
[0048]
Further, in the radio unit 820 for receiving the wireless signal, the signal received from the antenna 821 is received by the radio reception unit 822 whose oscillation is controlled by the PLL control unit 825, demodulated by the demodulation unit 823, and the signal The waveform is shaped by the waveform shaping unit 824. When the signal processing unit 810 of the reception unit 81 receives the wireless signal transmitted from the wireless transmitters 1 and 1A via the wireless unit 820, the signal processing unit 810 notifies the signal processing unit 830 of the transmission unit 83 by data output.
[0049]
The transmission unit 83 includes a signal processing unit 830, a mode switching unit 831 configured by operation switches, an ID writing unit 832 for writing an ID code assigned to the transmission unit 83, a display unit 833, and a sub clock 834. And a main clock 835. Further, as the radio unit 840, an antenna 841 that transmits a wireless signal, a radio transmission unit 842, a VCO 843 that controls the transmission frequency, a PLLIC 844 that is a phase control circuit of the VCO 843, and a frequency for generating a wireless signal And a reference clock 845.
[0050]
In the transmission unit 83, when there is data input from the reception unit 81, the signal processing unit 830 generates a wireless signal and transmits this signal from the wireless transmission unit 842 through the antenna 841. An ID code read from the ID writing unit 832 is added to the signal to be transmitted, and the signal is transmitted by the wireless transmission unit 842 whose oscillation is controlled by the VCO 843.
[0051]
In the present invention, the wireless transmitters 1, 1 </ b> A use a transmission prohibition time setting unit by setting a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal, or a time longer than the time as a transmission prohibition time t <b> 1. 14 is set. The transmission prohibition time t1 is set in advance as an expected time until a signal reaches the receiver 3 from the transmitters 1 and 1A via one or a plurality of repeaters 8. Therefore, when the distance between the transmitter 1 and the receiver 3 is long and many relays 8 are interposed, the transmission prohibition time t1 becomes longer as the distance becomes longer.
[0052]
The transmitters 1 and 1A prohibit the transmission of the wireless signal until the transmission prohibition time t1 elapses after transmitting the wireless signal, and the wireless signal that prohibits the transmission after the transmission prohibition time t1 elapses. Send. FIG. 11 shows the operation of the transmitter 1A. Here, the transmitter 1A operates with respect to the receiver 3A via two repeaters 8 (repeater 1 and repeater 2). After the start command (ON) signal, an operation stop command (OFF) signal is transmitted. The transmitter 1A transmits the ON signal and until the transmission prohibition time t1 elapses, even if the sensor state changes within the time t1 and there is an instruction to transmit the OFF signal, the transmitter 1A The transmission is prohibited, and after the elapse of the transmission prohibition time t1, the transmission of the OFF signal that has been prohibited from transmission is delayed by the time t2.
[0053]
Thus, since the transmitter 1A does not transmit a signal while the repeater 8 is relaying the signal, the signal transmitted by the repeater 8 collides with the signal transmitted by the transmitter 1A. There is no case where the signal does not reach the receiver 3A. Further, even if the regulation stipulates that transmission over a predetermined time (for example, 3 seconds) is intermittent, it is determined that transmission should be stopped for a predetermined time (for example, 2 seconds). Therefore, it is not necessary to control transmission so that it complies with laws and regulations at the time of transmission. Further, if the transmission prohibition time t1 is set to substantially the same time as the legal minimum transmission prohibition time (for example, 2 seconds), the time lag between the transmission timing on the transmitter 1 side and the reception timing on the receiver 3 side is reduced. The feeling of discomfort can be reduced. However, the transmission prohibition time t1 must be equal to or longer than a predetermined time (for example, 2 seconds) in which transmission needs to be stopped.
[0054]
Such an operation is also performed in the transmitter 1 shown in FIG. That is, after transmitting the wireless signal, the wireless transmitter 1 prohibits the transmission of the wireless signal until the transmission prohibition time t1 elapses, and prohibits the transmission after the transmission prohibition time t1 elapses. Send a signal. Next, another operation of the wireless transmission system of the present invention is shown in FIG.
[0055]
After transmitting the wireless signal, the wireless transmitter 1A prohibits transmission of the wireless signal until the transmission prohibition time t1 elapses. When the transmission prohibition time t1 elapses, the wireless transmitter 1A first prohibits transmission. If the wireless signal and the last wireless signal are of the same type, the first wireless signal is transmitted, and if the first wireless signal and the last wireless signal that were prohibited from transmission are of different types, Send the first wireless signal and the last wireless signal.
[0056]
That is, if there is no signal for prohibiting transmission during the transmission prohibition time t1, no signal is transmitted after the transmission prohibition time t1 has elapsed. If there is one signal that prohibits transmission during the transmission prohibition time t1, the first and last signals are the same, so only the first (and last) signal is transmitted after the transmission prohibition time t1 has elapsed. If there are a plurality of signals during the transmission prohibition time t1 and the types of the first and last signals are the same, only the first signal is transmitted after the transmission prohibition time t1 has passed, and the types of the first and last signals are If they are different, after the elapse of the transmission prohibition time t1, the first signal and the last signal are transmitted in this order. In this case, of course, the first signal is transmitted, and the last signal is transmitted after the transmission prohibition time t1 has elapsed. Further, if there is a signal to be prohibited within this transmission prohibition time t1, similarly, the signals are transmitted in order from the next to the last signal.
[0057]
In the example shown in the figure, the wireless transmitter 1A transmits the ON signal and then prohibits transmission until the transmission prohibition time t1 elapses, and delays the time t2 for the first signal (OFF signal) prohibiting transmission. Is sending from. The state change of the sensor within the time t2 (see the black star in the figure) is ignored, and the types of signals (OFF signal and ON are different between the prohibited first and last wireless signals (see the black circle in the figure)) Signal), the ON signal is further transmitted after the transmission prohibition time t1 due to the transmission of the OFF signal has elapsed. Accordingly, the transmitter 1A does not transmit a useless signal, so that efficient transmission can be performed and the operation with the receiver 3A can be synchronized at an early stage.
[0058]
Such an operation is also performed in the transmitter 1 shown in FIG. That is, after transmitting the wireless signal, the wireless transmitter 1 prohibits transmission of the wireless signal until the transmission prohibition time t1 elapses, and prohibits transmission when the transmission prohibition time t1 elapses. If the first wireless signal and the last wireless signal are of the same type, the first wireless signal is transmitted, and if the first wireless signal and the last wireless signal that were prohibited from transmission are of different types, Send its first wireless signal and last wireless signal.
[0059]
【The invention's effect】
As can be understood from the above description, in claim 1 of the present invention, at least in a wireless transmission system composed of a wireless transmitter and a wireless receiver, the transmitter transmits a wireless signal, and then The time until the receiver receives the signal or more than that time is set as the transmission prohibition time, and the transmitter prohibits the transmission of the wireless signal until the transmission prohibition time elapses after transmitting the wireless signal. Since the wireless signal that was prohibited from transmission is transmitted after the transmission prohibition time has elapsed, the transmitted signal must collide with the next signal transmitted from the transmitter before reaching the receiver. And it can be reliably received by the receiver.
[0060]
According to claim 2 of the present invention, in a wireless transmission system including at least a contact input type wireless transmitter, a wireless repeater, and a wireless receiver, the transmitter transmits a wireless signal and then receives the signal. The transmission prohibition time is set as the time until the device receives or the time until it is received, and the transmitter prohibits the transmission of the wireless signal until the transmission prohibition time elapses after transmitting the wireless signal. Since the wireless signal that has been prohibited from transmission is transmitted after the transmission prohibition time has elapsed, the transmitted signal does not collide with the next signal transmitted from the transmitter before reaching the receiver. It can be reliably received by the receiver.
[0061]
According to claim 3 of the present invention, in a wireless transmission system including at least a wireless transmitter and a wireless receiver, the transmitter transmits a wireless signal until the receiver receives the signal. Or when the transmission prohibition time is set, the transmitter prohibits the transmission of the wireless signal until the transmission prohibition time elapses after transmitting the wireless signal, and the transmission prohibition time has elapsed In addition, if the first and last signals that are prohibited from transmission are the same type of signal, the first signal is transmitted, and if the first and last signals that are prohibited from transmission are different types of signals, Since the first and last signals are transmitted, the signal transmitted immediately before starting the transmission prohibition time may collide with the next signal transmitted from the transmitter before reaching the receiver. Ku, can be received by reliably receiver. Moreover, the state of a transmitter and a receiver can be synchronized early.
[0062]
According to a fourth aspect of the present invention, in a wireless transmission system including at least a contact input type wireless transmitter and a wireless receiver, the transmitter transmits a wireless signal and then the receiver receives the signal. Until the transmission prohibition time elapses after the transmission of the wireless signal, and the transmitter prohibits the transmission of the wireless signal until the transmission prohibition time elapses. If the first and last signals forbidden to transmit are of the same type when the time has elapsed, the first signal is transmitted, and the first and last signals forbidden to transmit are of different types. If so, the first and last signals are transmitted, so the signal transmitted immediately before starting the transmission prohibition time collides with the next signal transmitted from the transmitter before reaching the receiver. No Rukoto can be received by reliably receiver. Moreover, the state of a transmitter and a receiver can be synchronized early.
[0063]
According to claim 5 of the present invention, in a wireless transmission system comprising at least a wireless transmitter, a wireless repeater, and a wireless receiver, the transmitter transmits a wireless signal and then the receiver receives the signal. When the transmission prohibition time is set as the transmission prohibition time, or until the transmission prohibition time elapses after the wireless signal is transmitted, the transmission prohibition time elapses. In addition, if the first and last signals that are prohibited from transmission are the same type of signal, the first signal is transmitted, and if the first and last signals that are prohibited from transmission are different types of signals, Since the first and last signals are transmitted, the signal transmitted immediately before starting the transmission prohibition time collides with the next signal transmitted from the transmitter before reaching the receiver. It is no, it can be received by reliably receiver. Moreover, the state of a transmitter and a receiver can be synchronized early.
[0064]
According to claim 6 of the present invention, in a wireless transmission system including at least a contact input type wireless transmitter, a wireless repeater, and a wireless receiver, the transmitter transmits a wireless signal and then receives the signal. The transmission prohibition time is set as the time until the device receives or the time until it is received, and the transmitter prohibits the transmission of the wireless signal until the transmission prohibition time elapses after transmitting the wireless signal. If the first and last signals that are prohibited from transmission are the same type when the transmission prohibition time has elapsed, the first signal is transmitted and the first and last signals that were prohibited from transmission are different. If it is a type signal, the first and last signals are transmitted, so the signal transmitted immediately before the start of the transmission prohibition time is transmitted from the transmitter next before reaching the receiver. Without colliding with signals can be received by reliably receiver. Moreover, the state of a transmitter and a receiver can be synchronized early.
[0065]
In claim 7 of the present invention, in each of the wireless transmission systems of claims 1 to 6, the wireless transmitter sets the transmission prohibition time to be substantially the same as the legal minimum transmission prohibition time. The time lag between the transmission timing on the transmitter side and the reception timing on the receiver side can be reduced, and the uncomfortable operation can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an example of a configuration of a wireless transmitter.
FIG. 2 is a block diagram illustrating an example of a configuration of a wireless receiver.
FIG. 3 is a diagram illustrating an example of the operation of the wireless transmission system of the present invention.
FIG. 4 is a diagram illustrating problems in operation of the wireless transmission system.
FIG. 5 is a diagram illustrating an example of another operation of the wireless transmission system of the present invention.
FIG. 6 is a diagram illustrating an example of a configuration of a wireless transmission system according to the present invention.
FIG. 7 is a block diagram illustrating an example of a configuration of a contact input type wireless transmitter.
FIG. 8 is a block diagram illustrating an example of a configuration of a contact output type wireless receiver.
FIG. 9 is a diagram illustrating an example of another configuration of the wireless transmission system of the present invention.
FIG. 10 is a block diagram illustrating an example of a configuration of a wireless repeater.
FIG. 11 is a diagram showing another example of the operation of the wireless transmission system of the present invention.
FIG. 12 is a diagram showing still another example of the operation of the wireless transmission system of the present invention.
FIG. 13 is a diagram illustrating an example of operation of a conventional wireless transmission system.
FIG. 14 is a diagram illustrating another example of the operation of the conventional wireless transmission system.
FIG. 15 is a diagram illustrating a problem of operation of a conventional wireless transmission system.
[Explanation of symbols]
1
Wireless transmitter
1A
Contact input type wireless transmitter
14
Transmission prohibition time setting section
3
Wireless receiver
3A
Contact output type wireless receiver
8
Wireless repeater
t1
Prohibition time
t2
Transmission delay time

Claims (7)

At least, when there is a change in the input of the contact signal from the device that outputs the contact signal, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change, and a wireless signal transmitted from this wireless transmitter In a wireless transmission system configured with a wireless receiver for receiving
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, A wireless transmission system that prohibits transmission of a wireless signal until the transmission prohibition time elapses, and transmits the wireless signal that has been prohibited from transmission after the transmission prohibition time elapses. At least, when there is a change in the input of the contact signal from the device that outputs the contact signal, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change, and a wireless signal transmitted from this wireless transmitter And a wireless transmission system including a wireless relay that transmits the wireless signal after a predetermined time and a wireless receiver that receives the wireless signal transmitted from the wireless relay,
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, A wireless transmission system that prohibits transmission of a wireless signal until the transmission prohibition time elapses, and transmits the wireless signal that has been prohibited from transmission after the transmission prohibition time elapses. In a wireless transmission system comprising at least a wireless transmitter and a wireless receiver that receives a wireless signal transmitted from the wireless transmitter,
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, Until the transmission prohibition time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time elapses, the first wireless signal and the last wireless signal that were prohibited from transmitting may be of the same type. For example, if the first wireless signal that transmitted the first wireless signal and the last wireless signal that was prohibited from transmission is of a different type, the first wireless signal and the last wireless signal are transmitted. A featured wireless transmission system. At least, when there is a change in the input of the contact signal from the device that outputs the contact signal, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change, and a wireless signal transmitted from this wireless transmitter In a wireless transmission system configured with a wireless receiver for receiving
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, Until the transmission prohibition time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time elapses, the first wireless signal and the last wireless signal that were prohibited from transmitting may be of the same type. For example, if the first wireless signal that transmitted the first wireless signal and the last wireless signal that was prohibited from transmission is of a different type, the first wireless signal and the last wireless signal are transmitted. A featured wireless transmission system. At least a wireless transmitter, a wireless repeater that receives a wireless signal transmitted from the wireless transmitter, transmits the wireless signal after a certain time, and a wireless reception that receives a wireless signal transmitted from the wireless repeater In a wireless transmission system composed of
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, Until the transmission prohibition time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time elapses, the first wireless signal and the last wireless signal that were prohibited from transmitting may be of the same type. For example, if the first wireless signal that transmitted the first wireless signal and the last wireless signal that was prohibited from transmission is of a different type, the first wireless signal and the last wireless signal are transmitted. A featured wireless transmission system. At least, when there is a change in the input of the contact signal from the device that outputs the contact signal, a contact input type wireless transmitter that transmits a wireless signal corresponding to the change, and a wireless signal transmitted from this wireless transmitter And a wireless transmission system including a wireless relay that transmits the wireless signal after a predetermined time and a wireless receiver that receives the wireless signal transmitted from the wireless relay,
The wireless transmitter sets a time from when a wireless signal is transmitted until the wireless receiver receives the wireless signal or more than the time as a transmission prohibition time, and after transmitting the wireless signal, Until the transmission prohibition time elapses, wireless signal transmission is prohibited, and when the transmission prohibition time elapses, the first wireless signal and the last wireless signal that were prohibited from transmitting may be of the same type. For example, if the first wireless signal that transmitted the first wireless signal and the last wireless signal that was prohibited from transmission is of a different type, the first wireless signal and the last wireless signal are transmitted. A featured wireless transmission system. 7. The wireless transmission system according to claim 1, wherein the wireless transmitter sets the transmission prohibition time to be substantially the same as a legal minimum transmission prohibition time. system.

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