JP2003284170A - Radio wave remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio wave remote control system wherein one remote controller (remote control apparatus) can automatically recognize operative electric apparatuses among a plurality of radio wave apparatuses so as to control the electric apparatuses in response to them. <P>SOLUTION: In the radio wave remote control system wherein the remote control apparatus 10 remotely controls the electric apparatus 20 through two-way wireless communication between the remote control apparatus 20 and the electric apparatus 10, the electric apparatus 20 is provided with a transmission section 23 for modulating an electric apparatus recognition code with a radio wave and transmitting the radio wave, and the remote control apparatus 10 is provided with: a reception section 3 for receiving the radio wave; a reception power measurement section 4 for measuring the strength of the received radio wave; a transmission power reference section 5 for referencing the transmission power of the radio wave sent from the electric apparatus registered and stored in advance on the basis of the electric apparatus recognition code; a distance calculation section 6 for calculating the distance between the electric apparatus and the remote control apparatus on the basis of the reception strength of the reception power measurement section 4 and the transmission strength of the transmission power reference section 5; an object apparatus selection section 7 for selecting an operable electric apparatus on the basis of the distance output; and an operation signal generating section 8 for generating an operation signal corresponding to the selected electric apparatus. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio remote control system for remotely controlling a plurality of electric devices with one remote controller (remote control device).

[0002]

2. Description of the Related Art Most modern electric appliances for home use come with a remote controller, which makes it easy to operate the electric appliances. On the other hand, many remote controllers for each electric appliance are placed within reach. There is also the complexity of having to select and operate the remote control corresponding to the electric device when it is desired to operate.

Therefore, there is provided a remote controller having a function of remotely controlling a plurality of electric devices. For example, in the case of a remote controller for both TV and video,
There is a switch for switching between the TV side and the video side, and the switch is switched to perform each operation. However, this cannot operate more than two electric devices.

JP-A-8-149576 and JP-A-9-149576
JP-A-224293 discloses a remote control system in which a remote control requests device information corresponding to an ID code from an electric device to enable remote control of a plurality of devices. However, in the device selection by these remote controls, it is necessary to display the device information on the display unit once and select the device from the information, and there is a problem that the operation procedure becomes complicated.

Further, Japanese Unexamined Patent Publication No. 2000-152352 describes a wireless remote control system for controlling electric equipment according to the intensity of radio waves. However, in this system, when trying to communicate, the transmitter (remote controller) must always emit radio waves continuously or intermittently in advance, which requires considerable power consumption.

Japanese Patent Laid-Open No. 2001-245371 discloses that
In a remote controller and a device having a two-way communication function, the remote controller recognizes an operable device by an ID code sent from the device in response to an instruction from the remote controller, and a selection unit that automatically selects a device from among them displays and A remote controller that sets keys is disclosed, and learning is performed by using a priority table and a frequency of use as a means for realizing automation.

[0007]

However, the remote controller disclosed in Japanese Patent Laid-Open No. 2001-245371 requires software processing such as a priority table and learning of usage frequency, and the microcomputer on the remote controller side is required. The problem was that the load on the

By the way, in addition to the general use of a remote control, in which a person does not move and operates a plurality of electric devices, a person carries one remote control and moves it near the electric device he / she wants to use. Then, a new usage method of operating the electric device is conceivable. According to the latter usage,
Not only can a person in a home move to operate an electric device with a single remote controller while moving, but for example, when a disabled person moves in a wheelchair, if one remote controller is carried,
This will lead to the expansion of a welfare-type society where people can operate toilets and elevators for people with disabilities in public facilities in the city.

Assuming such an application, in the above-mentioned conventional remote control system, the convenient function of learning the priority table and the frequency of use is rather damaged, and the electric equipment to be used changes as the person moves. It is extremely inconvenient for some purposes. In addition, the remote controller needs to emit radio waves continuously or intermittently in advance, which causes a problem in terms of power consumption.

The problem to be solved by the present invention is that a plurality of electric devices can be operated by one remote controller (remote control device), and further, the electric devices that can be operated are automatically recognized and the electric devices are selected. It is to provide a remote control system capable of performing a corresponding operation.

[0011]

In order to solve the above-mentioned problems, a radio remote control system according to the present invention is a radio remote control system for performing remote control by bidirectionally wirelessly communicating between an electric device and a remote control device. , The electric device is provided with an electric device recognition code section and a transmission section that modulates the code into an electric wave and transmits the electric wave from an antenna, and the remote operation apparatus,
A receiving unit that receives radio waves through an antenna, a reception power measuring unit that measures the intensity of the received radio waves, and a reference is made to the transmission power of the transmission radio waves of the electric device that is registered and stored in advance based on the electric device identification code. A transmission power reference unit, a distance calculation unit that calculates the distance between the electric device and the remote control device based on the reception intensity of the reception power measurement unit and the transmission intensity of the transmission power reference unit, and based on the distance output of the distance calculation unit. A target device selection unit that selects an electric device that can be operated by a target device, and an operation signal generation unit that generates an operation signal corresponding to the electric device selected by the target device selection unit are provided.

In the present invention, the remote control device (remote control) has a plurality of display and operation functions so as to correspond to a plurality of electric devices. In one embodiment, the plurality of electric devices periodically emit a reference electric wave of constant power including an electric device identification code. At this time, the remote control device measures the reference radio wave emitted from the device.

Since the radio wave intensity and the distance are inversely proportional to each other, when a plurality of electric devices emit radio waves of the same power, the electric wave from the electric device closest to the remote control device is the largest.

The remote control device recognizes the highest radio wave intensity from a plurality of radio waves and operates as a remote control device corresponding to the electric device emitting the radio wave.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Next, embodiments of the present invention will be described based on examples. 1 to 4 are basic block diagrams showing the configurations of the first to fourth embodiments of the present invention, respectively, and the radio remote control system is shown in the remote control device 10 and the remote control device 10 shown in FIG. It is composed of an electric device 20.

<First Embodiment> FIG. 1 showing the first embodiment.
In the remote control device 10, the remote control device 10 receives a radio wave from the electric device 20, a reception unit 3 that extracts a necessary signal from the radio wave received from the reception antenna 2, a reception power measurement unit that measures the intensity of the received radio wave. 4. CPU that receives signals from the received power measuring unit 4 and processes various signals
1 is provided. The CPU 1 includes a transmission power reference unit 5 that refers to transmission power specific to the electric device 20 that is registered and stored in advance based on the type of the electric device 20, and a reception power measurement unit 4.
Distance calculation unit 6 that calculates the distance between the electric device 20 and the remote control device 10 based on the reception intensity from the transmission power reference unit 5 and the transmission intensity from the transmission power reference unit 5, and an electric device that can be operated based on the distance output of the distance calculation unit 6. The target device selecting unit 7 for selecting 20 and the operation signal generating unit 8 for generating an operation signal corresponding to the electric device 20 selected by the target device selecting unit 7 are provided.

The electric device 20 is a CPU for processing signals.
An electric device recognition code section 24 for generating a code unique to the electric apparatus 20 for recognizing the type of the electric apparatus 20 under 21, a transmission section 23 for modulating the code of the electric apparatus recognition code section 24 into a radio wave, and a radio wave And a transmitting antenna 22 for transmitting in the air.

The detailed description of the operation of the remote control system is as follows. The electric device 20 has a unique code for mutual authentication with the remote control device 10,
The code is predetermined by the electric device recognition code section 24. The electric device 20 modulates this code into a radio wave by the transmitting unit 23, and transmits the radio wave into the air by the transmitting antenna 22.

The remote control device 10 receives a radio wave from the electric device 20 by the receiving antenna 2 and divides the radio wave into a demodulation signal and a radio wave intensity signal by the receiving section 3. The extracted demodulated signal is transmitted to the CPU 1, and the radio wave intensity signal is transmitted to the received power measuring unit 4. The received power measuring unit 4 measures the radio field intensity and transmits the radio field intensity value to the CPU 1.

The transmission power of the radio wave transmitted by each electric device 20 is registered and set in advance in the CPU 1, and the transmission power reference unit 5 includes the mutual power contained in the demodulated signal transmitted from the reception unit 3. The transmission power of the electric device 20 is referred to below the code for authentication. The distance calculating unit 6 calculates the distance between the electric device 20 and the remote control device 10 by calculating the referenced transmission power value and the radio field intensity value measured by the reception power measuring unit 4. The target device selection unit 7 selects an operable electric device 20 based on the calculated distance. For example, the electric device 20 having the closest calculated distance may be selected as operable. Finally, the operation signal generation unit 8 generates an operation signal corresponding to the selected electric device 20, for example, a signal indicating the display content transmitted to the display unit using liquid crystal.

In addition to the configuration shown in the figure, in the remote control device 10, a transmitter for transmitting a radio wave for remotely controlling the electric device 20, and in the electric device 20, a remote control device 10 transmits a radio wave. It goes without saying that each of them is provided with a receiving section for receiving the operation radio wave.

<Second Embodiment> FIG. 2 shows a second embodiment. The difference from the first embodiment of FIG. 1 is that the remote control device 10 modulates communication data from the CPU 1 into radio waves. A transmission antenna 11, a transmission antenna 12 for transmitting radio waves in the air, and a remote control device recognition code unit 9 for generating a code unique to the remote control device 10 for recognizing the type of the remote control device 10 under the CPU 1. It is a point.

In the electric device 20, the remote control device 1
The receiving antenna 25 that receives radio waves from 0, the receiving unit 26 that extracts necessary signals from the radio waves received from the receiving antenna 25, the received power measuring unit 27 that measures the intensity of the received radio waves, the remote control device 10 under the CPU 21. The transmission power reference unit 28 that refers to the transmission power unique to the remote control device 10 that is registered and stored in advance based on the type of the power consumption, the reception intensity from the reception power measurement unit 27, and the transmission intensity from the transmission power reference unit 28 The point is that a distance calculation unit 29 that calculates the distance between the device 20 and the remote control device 10 is provided.

The detailed operation of the remote control system will be described below. The remote control device 10 has a unique code for mutual authentication with the electric device 20,
The code is predetermined by the remote control device recognition code section 9. The remote control device 10 sends this code to the transmitter 11
Is modulated into a radio wave, and the transmission antenna 12 transmits the radio wave into the air.

The electric device 20 receives the radio wave from the remote control device 10 by the receiving antenna 25 and divides the radio wave into a demodulation signal and a radio wave intensity signal by the receiving section 26. The extracted demodulated signal is transmitted to the CPU 21, and the radio wave intensity signal is transmitted to the received power measuring unit 27. The reception power measuring unit 27 measures the radio field intensity and transmits the radio field intensity value to the CPU 21.

The CPU 21 includes individual remote control devices 10
The transmission power of the radio wave transmitted by the remote control device 10 is registered and set in advance, and the transmission power reference unit 28 sets the mutual authentication code included in the demodulated signal transmitted from the reception unit 26 under the remote control device 10. Refer to the transmission power. Distance calculator 29
Then, the referenced transmission power value and reception power measurement unit 27
The distance between the electric device 20 and the remote control device 10 is calculated by calculating the radio field intensity value measured in.

The distance data calculated by the distance calculation unit 29 is transmitted from the CPU 21 to the transmission unit 23 together with the code data for mutual authentication with the remote control device 10 generated by the electric device recognition code unit 24, and the transmission unit 23. Is modulated into a radio wave, and the transmission antenna 22 transmits the radio wave into the air.

The remote control device 10, which has received the radio wave on which the distance data and the mutual authentication code are superimposed from the electric device 20 by the receiving antenna 2, demodulates the radio wave by the receiving unit 3 and performs the distance data and the mutual authentication. The code data is transmitted to the CPU 1. The CPU 1 selects an electric device 20 that can be operated by the target device selection unit 7 based on the transmitted distance data and mutual authentication code data. For example, the electric device 20 closest to the distance indicated by the distance data may be selected as operable. Finally, the operation signal generation unit 8 generates an operation signal corresponding to the selected electric device 20, for example, a signal instructing the display content transmitted to the display unit using liquid crystal.

<Third Embodiment> FIG. 3 shows the third embodiment. The difference from the first embodiment shown in FIG. 1 is that the electric power of the radio wave generated by the electric device 20 is transmitted to the electric equipment 20 side. The transmission power data unit 30 for converting the transmission power is provided, and the transmission power reference unit 5 is excluded from the remote control device 10.

In this embodiment, the electric device 20 is
The transmission power data of the radio wave generated by the transmission unit 23 is generated by the transmission power data unit 30, and this data is modulated into the radio wave by the transmission unit 23 together with the mutual authentication code data generated by the electric device recognition code unit 24. To do.

Upon receiving the radio wave, the remote control device 10 selects the target device selection unit 7 based on the transmission power data of the electric device 20 contained in the demodulated signal and the radio wave intensity value transmitted by the reception power measuring unit 4. The electric device 20 that can be operated is selected. Other configurations and operations are the same as those in the first embodiment, and therefore description thereof will be omitted.

<Fourth Embodiment> FIG. 4 shows a fourth embodiment. The difference from the second embodiment shown in FIG. 2 is that of FIG.
Contrary to the relationship between FIG. 1 and FIG.
3 and the transmission power reference unit 28 is removed from the electric device 20.

In the present embodiment, the remote control device 10
In the transmission power data section 13, the transmission power of the radio wave generated by itself is converted into data, and this data is modulated into a radio wave in the transmission section 11 together with the mutual authentication code data generated in the remote control device recognition code section 9.

The electric device 20 receiving the radio wave is based on the transmission power data of the remote control device 10 included in the demodulated signal by the distance calculation unit 29 and the radio wave intensity value transmitted by the reception power measuring unit 27. Calculate the distance. The other configurations and operations are the same as those in the second embodiment, and therefore their explanations are omitted.

FIG. 5 shows the transmitters 11 of the remote control device 10 and the electric device 20 according to the first to fourth embodiments.
23 shows an example of the final amplifier circuit of No. 23.

That is, in the final-stage amplifiers of the transmitters 11 and 23, the collector voltage V _C of the transistor Tr2 is A / D converted by the CPUs 1 and 21 to output the voltage V of the output stage.
Is known. The current I of the output stage becomes known by subjecting the emitter voltage V _E of the transistor Tr2 to A / D conversion by the CPUs 1 and 21 and dividing by the value corresponding to the emitter resistance R11. The electric power P of the output stage can be grasped by performing the above-mentioned multiplication V × I of the voltage and the current by the CPU 1 and 21.

FIG. 6 shows a flow chart of processing in the CPU 1 of the remote control device 10 of the first to fourth embodiments. The steps will be described below in order.

Step 100: It is judged whether or not there is a received signal from the antenna 2.

Step 110 If there is a received signal, the received signal is stored. Here, it is assumed that a signal of a certain electric device 20-2 among the plurality of electric devices 20 is received.

Step 120 The reception intensity (RS2) measured by the reception power measuring unit 4 is stored.

Step 130: A display unit as a remote control device for the electric device 20-2 is set in the device determination result display unit (not shown) of the remote control device 10.

Step 140 If the device determination result display unit corresponds to the electric device to be operated, the remote controller switch of the electric device corresponding operation unit is depressed.

Step 150: By pressing the remote control switch, the processing flow (not shown) of the existing remote control is entered.

Step 160 If the remote control switch is not pressed within a predetermined time, it is determined whether or not there is a next received signal.

Step 170 If there is a received signal, the received signal is stored. Here, it is assumed that a signal of a certain electric device 20-1 among the plurality of electric devices 20 is received. It is assumed that the electric device 20-1 is closest to the remote control device 10.

Step 180 The reception intensity (RS1) of the electric device 20-1 is stored.

Received strength R stored before step 190
The reception intensity RS1 stored this time is compared with S2.

Step 200 In this example, the electric device 20-1
Since the radio wave intensity from the remote control device 10 is strong, the display unit is set as the remote control device 10 as the remote control device for the electric device 20-1. When there are three or more electric devices, steps 140 to 200 are repeated.

<Fifth Embodiment> FIG. 7 shows a fifth embodiment of the present invention, and shows a transmission cycle of the electric device 20 according to the first to fourth embodiments. Even if the transmission timings are synchronized at the point A in the electric devices having different electric device recognition codes, the transmission intervals are different from T1 (seconds) and T2 (seconds), so that the transmission next to the point A is performed. Timings B and C are not always synchronized. Therefore, the remote control device 10 does not interfere with each other,
It can receive radio signals sent from multiple electrical devices.

<Sixth and Seventh Embodiments> FIG. 8
9 and 10 show examples of the external appearance of the remote control device 10 according to the sixth and seventh embodiments, respectively.

In the example of FIG. 8, the function display unit 14 is a touch panel, and by pressing a touch switch displayed on the function display unit 14, the operation unit 15 is also provided.

In the example of FIG. 9, the function display section 14 and the operation section 1
5 is separate, and the operation is performed by pressing the tact switch of the operation unit 15 corresponding to the button displayed on the function display unit 14.

8 and 9 show the case where the operation target electric device is a hot water toilet seat, if the operation target electric device is another electric device, the operation section corresponding to that electric device is shown. Needless to say, is displayed.

FIG. 10 is a schematic diagram of the remote control system according to the first to fourth embodiments.
In the example of the first embodiment, 1, 20-2, ... Are adapted to modulate a code specific to the electric device defined by the electric device recognition code section 24 at a predetermined frequency and transmit a radio wave. . The remote control device 10 includes a plurality of electric devices 20.
Reference is made to the transmission power of the electric device 20 below the electric device recognition codes -1, 20-2 .... Remote control device 10
Then, the distance between the electric device 20 and the remote control device 10 is calculated by calculating the referenced transmission power value and radio field intensity value, and the electric device 20 that can be operated based on the calculated distance is calculated. select.

FIG. 11 shows a constant power FM digital modulation (FSK) of a signal wave generated by the electric device recognition code unit 24 in the electric device 20 in the constant power radio wave generation unit.
In this example, iftKeying) is performed, the signal wave representing the electric device identification code of “0” and “1” shown in FIG. 11A is composed of a carrier wave of frequency fc and a signal wave of frequency [fc−Δf]. Modulate.

As shown in FIG. 12, the communication form is divided into a constant power generating section and a data section as a signal wave, and the constant power generating section generates a carrier wave of a constant amplitude. Try to send a signal.

On the side of the remote control device 10, the electric devices 20-1 and 20 are determined from the radio field intensity of the radio wave received by the antenna 2.
-2 ... and the distance between the remote control device 10 are converted.

The method of recognizing an electric device of a remote control device is to measure a reference radio wave emitted from the electric device 20 and to obtain the highest radio wave intensity (RSSI: Receive Sign) from a plurality of radio waves.
al Strength Indicator), and operates as a remote control device corresponding to the electric device emitting the radio wave.

A plurality of electric devices 20-1, 20-2 ...
Periodically emits radio waves of constant power (the same power between electric devices) including the electric device identification code. Since the radio wave intensity and the distance are in inverse proportion to each other, when a plurality of electric devices emit radio waves of the same power, the electric wave from the electric device closest to the remote control device is the largest.

That is, the radio field intensity E is expressed by the following equation. E = a (√P) / r where a: constant determined by antenna sensitivity, r: distance between the electric device and remote control device If P and E are known, then between electric device and remote control device The distance r can be calculated by the CPU 1 of the remote control device 10.

Remote control device 1 of the first and third embodiments
Since the reception power measuring unit 4 of 0 has a function of recognizing the radio field intensity called RSSI in an analog manner, the radio field intensity difference between the electric devices can be detected by comparing this with the reception power comparing unit.

[0062]

According to the first aspect of the present invention, there is provided a radio remote control system for performing remote control by bidirectionally wirelessly communicating between an electric device and a remote control device.
The electric device is provided with an electric device recognition code section and a transmitting section that modulates the code into an electric wave and transmits the electric wave from an antenna, and the remote operation apparatus receives a electric wave via the antenna and a received electric wave. A reception power measuring unit that measures strength, a transmission power reference unit that refers to transmission power of a transmission radio wave of an electric device registered / stored in advance based on the electric device recognition code, a reception strength of the reception power measuring unit, and the A distance calculation unit that calculates the distance between the electric device and the remote control device based on the transmission intensity of the transmission power reference unit; a target device selection unit that selects an operable electric device based on the distance output of the distance calculation unit; By providing an operation signal generation unit that generates an operation signal corresponding to the electric device selected by the target device selection unit, it is possible to operate a plurality of electric devices with one remote control device. Without stopping the function, the operator when moving, new that can perform an operation corresponding to the device automatically recognizes the operable device function is added.

According to the invention of claim 2, claim 1
In addition to the effects of the invention described, the electric device side is provided with the reception power measurement unit, the distance calculation unit, and the transmission power reference unit, so that remote device operation can periodically obtain distance data from the electric device when necessary. Eliminates the need to receive signals from electrical equipment. As a result, the remote control device can reduce the operation consumption.

According to the invention of claim 3, claim 1
In addition to the effects of the described invention, the remote control device can exclude the transmission power reference unit because the electric device includes the transmission power data unit. As a result, the remote control device is a CPU
The processing load can be reduced.

According to the invention of claim 4, claim 1
In addition to the effects of the invention described, the electric device side includes a reception power measurement unit and a distance calculation unit, and the remote operation device includes a transmission power data unit, so that the remote operation device can obtain distance data from the electric device when necessary. Since it is obtained, it is not necessary to periodically receive a signal from an electric device, and the transmission power reference unit can be removed. As a result, it is possible to reduce the operation consumption of the remote control device and reduce the load of CPU processing.

According to the fifth aspect of the present invention, the transmission cycle of the electric equipment to be remotely controlled is set based on the electric equipment recognition code of the electric equipment itself, so that the remote control equipment can operate in a plurality of intervals without interference. Can receive radio signals sent from radio equipment.

According to the sixth aspect of the present invention, the remote control device operates the function display unit for displaying the operable function of the selected electric device to be remotely controlled, and the displayed operable function. By having the operation unit that operates, a plurality of electric devices can be operated by one remote control device.

According to the invention described in claim 7, the electric device has a function display data part for displaying its own operation function on the remote operation device and / or an operation signal data part corresponding to the operation function, and a function. The remote operation device has means for transmitting display data and / or operation signal data to the remote operation device, and means for the remote operation device to set an operation environment in accordance with the function display data and / or operation signal data. The function of the target device selection unit itself can be deleted, and it has versatility with respect to an electric device to be attached later, and as a result, all electric devices can be operated.

According to the eighth aspect of the present invention, the remote control device displays the touch panel section in which the function display section and the operation section are integrally formed, the function display data, and the operation corresponding to the operation signal data. By providing a means for setting a key, the remote control device is provided with a new function of saving space and improving operability.

According to the invention described in claim 9, the remote control device has means for displaying the function display data on the function display section and associating the operation key based on the operation signal data. Allows the operation keys to be freely set without being restricted by the size and number of function display portions.

According to the tenth aspect of the present invention, the target electric device whose output of the distance calculation unit is small is selected as the electric device to be remotely controlled, so that the radio remote control system can operate when the operator moves. A new function is added to automatically recognize an operable device and perform an operation according to the device.

According to the eleventh aspect of the present invention, since the transmission / reception system is the FM digital modulation system in which the carrier wave of constant power is used for modulation, the radio remote control system is capable of highly reliable communication with a high S / N ratio. It will be possible.

[Brief description of drawings]

1A and 1B are block diagrams of a remote control device and a device according to a first embodiment of the present invention.

2A and 2B are block diagrams of a remote control device and a device according to a second embodiment of the present invention.

3A and 3B are block diagrams of a remote control device and a device according to a third embodiment of the present invention.

4A and 4B are block diagrams of a remote control device and a device according to a fourth embodiment of the present invention.

FIG. 5 is a circuit diagram of an output stage of a constant power radio wave generation unit of the device according to the present embodiment.

FIG. 6 is a flowchart of processing in the CPU of the remote control device according to the present embodiment.

FIG. 7 is an explanatory diagram showing a fifth embodiment of the invention.

FIG. 8 is a front view showing an example of the external appearance of the remote control device.

FIG. 9 is a front view showing another example of the external appearance of the remote control device.

FIG. 10 is a schematic diagram of a remote control system of the present embodiment.

FIG. 11 is a waveform diagram showing an example of FM digital modulation of a signal wave in the present embodiment.

FIG. 12 is a waveform diagram showing an example of a communication form in the present embodiment.

[Explanation of symbols]

1 CPU 2 receiving antenna 3 Receiver 4 Received power measurement unit 5 Transmit power reference section 6 Distance calculator 7 Target device selection section 8 Operation signal generator 9 Remote control device recognition code section 10 Remote control equipment 11 Transmitter 12 transmitting antenna 13 Transmission power data section 14 Function display 15 Operation part 20, 20-1, 20-2 Electrical equipment 21 CPU 22 Transmit antenna 23 Transmitter 24 Electrical equipment recognition code section 25 receiving antenna 26 Receiver 27 Received power measurement unit 28 Transmission power reference section 29 Distance calculator 30 Transmission power data section

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Claims (11)

[Claims] 1. A radio remote control system for wirelessly bidirectionally communicating between an electric device and a remote control device for remote control, wherein the electric device has an electric device identification code section and the electric apparatus identification code section. Provided with a transmitter that modulates the electric device identification code generated in 1. into an electric wave and transmits it from an antenna, the remote control device has a receiver that receives the electric wave through the antenna, and received power that measures the intensity of the received electric wave. A measurement unit, a transmission power reference unit that refers to the transmission power of a transmission radio wave of an electric device that is registered and stored in advance based on the electric device recognition code, a reception intensity of the reception power measurement unit, and a transmission of the transmission power reference unit A distance calculation unit that calculates the distance between the electric device and the remote control device based on the strength; a target device selection unit that selects an operable electric device based on the distance output of the distance calculation unit; Telecommunications remote control system characterized by comprising an operation signal generator for generating an operation signal corresponding to the electrical device selected by the device selecting unit. 2. A radio remote control system for bidirectional wireless communication between an electric device and a remote control device for remote control, wherein the electric device receives radio waves from the remote control device via an antenna. A reception unit, a reception power measurement unit that measures the intensity of the received radio wave, a transmission power reference unit that refers to the transmission power of the transmission radio wave of the electric device that is registered and stored in advance based on the remote control device identification code, and A distance calculation unit that calculates the distance between the electric device and the remote control device based on the reception intensity of the reception power measurement unit and the transmission intensity of the transmission power reference unit; and an electric device recognition code unit that generates its own electric device recognition code, A distance output of the distance calculator and a transmitter for modulating the electric device identification code into an electric wave and transmitting the electric wave from an antenna are provided, and the remote control device generates a remote control device code for itself. Included in the received radio waves is an operation device identification code part, a transmission part that modulates the remote operation device identification code into radio waves and sends it from an antenna, a reception part that receives radio waves from the electric device side via the antenna. A target device selection unit that selects an operable electric device based on the distance output of the distance calculation unit of the electric device, and an operation signal generation unit that generates an operation signal corresponding to the electric device selected by the target device selection unit. Radio remote control system characterized by having and. 3. A radio remote control system for wirelessly bidirectionally communicating between an electric device and a remote control device for remote control, wherein an electric device identification code is generated for the electric device to generate its own electric device identification code. A unit, a transmission power data unit that generates transmission power data indicating the transmission intensity of radio waves generated by itself, a transmission unit that modulates the electric device identification code and the transmission power data into radio waves, and transmits from an antenna, In the remote control device, a receiving unit that receives the radio wave via an antenna, a reception power measuring unit that measures the intensity of the received radio wave, a reception intensity of the reception power measuring unit and a transmission intensity from the transmission power data. A distance calculation unit that calculates the distance between the electric device and the remote control device, and a target device selection unit that selects an operable electric device based on the distance output of the distance calculation unit. , Radio remote control system characterized by comprising an operation signal generator for generating an operation signal corresponding to the electrical device selected by the target device selection unit. 4. A radio remote control system for wirelessly bidirectionally communicating between an electric device and a remote control device, wherein the electric device receives a radio wave from the remote control device via an antenna. A receiving unit, a reception power measuring unit that measures the intensity of the received radio wave, and a distance between the electric device and the remote control device based on the reception intensity of the received reception power measuring unit and the transmission intensity from the transmission power data. A distance calculation unit, an electric device recognition code unit that generates its own electric device recognition code, a distance output unit of the distance calculation unit, and a transmission unit that modulates the electric device recognition code into an electric wave and transmits the electric wave from an antenna are provided. In the operation device, a remote device identification code section for generating its own remote device identification code, and a transmission power data section for producing transmission power data indicating the transmission intensity of the radio wave generated by itself. A transmission unit for transmitting from said remote control device identification code and modulation to the antenna transmission power data to a radio wave, a receiver that receives a radio wave from the electric device via the antenna,
A target device selection unit that selects an operable electric device based on the received distance output of the distance calculation unit, and an operation signal generation unit that generates an operation signal corresponding to the electric device selected by the target device selection unit. Radio remote control system characterized by the provision of. 5. The radio remote control system according to any one of claims 1 to 4, wherein the transmission cycle of the electric device to be remotely controlled is:
A radio remote control system, which is set based on its own electric device identification code. 6. The radio remote control system according to any one of claims 1 to 5, wherein the remote operation device includes a function display section that displays an operable function of the selected remote operation target electric device, and the displayed operation is possible. Radio remote control system having an operation unit for operating various functions. 7. The radio remote control system according to claim 1, wherein the electric device has a function display data section for displaying its own operation function on a remote operation device and / or an operation signal corresponding to the operation function. A data section, means for transmitting the function display data and / or the operation signal data to a remote operation device, and means for the remote operation device to set an operation environment according to the function display data and / or the operation signal data. A radio remote control system having: 8. The radio remote control system according to claim 7, wherein the remote control device displays the function display data and a touch panel section in which the function display section and the operation section are integrally formed, and performs the operation. A radio remote control system having means for setting an operation key corresponding to signal data. 9. The radio remote control system according to claim 7, wherein the remote control device has means for displaying the function display data on the function display section and associating an operation key with the operation signal data. Radio remote control system characterized by. 10. The radio remote control system according to any one of claims 1 to 4, wherein a target electric device having a small output of the distance calculation unit is selected as a remote operation target electric device. 11. The radio remote control system according to claim 1, wherein the transmission / reception system is an FM digital modulation system that modulates with a carrier wave of constant power.