JP2004145911A - Remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote control system capable of transmitting data continuously from an operation device to a device main body for a long time by making power possible to be supplied even to an operation device such as a remote controller during the transmission of data to the device main body. <P>SOLUTION: An audio main body 2 is provided with a remote controller loading part 23 on which a remote controller 1 is detachably loaded, a second receiving part 22 for receiving a signal issued from the remote controller 1 in a state in which the remote controller 1 is loaded on the remote controller loading part 23, and a power supply part 27 for supplying power to the remote controller 1 in the state in which the remote controller 1 is loaded on the remote controller loading part 23. Power can be supplied to the remote controller 1 even during the outputting of a signal from the remote controller 1 to the second receiving part 22. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a remote control system including an apparatus main body and an operation device for remotely operating the apparatus main body, such as audio equipment.
[0002]
[Prior art]
Generally, when the operation of a device main body (hereinafter, simply referred to as a device main body) of an electronic device such as an audio device is wirelessly controlled, a remote controller (hereinafter, referred to as a remote control) using infrared rays or the like is used. ing. Usually, a remote control receiving unit for receiving a remote control signal output from the remote control is provided on the apparatus main body side, and a remote control system is formed by a combination of the remote control and the remote control signal receiving unit.
[0003]
In this remote control system, for example, a signal obtained by encoding an infrared ray and modulating it at 30 to 60 kHz is transmitted from the remote control as a remote control signal. On the other hand, on the remote control signal receiving unit side, the received remote control signal is converted into an electric signal, and the electric signal is further demodulated and converted into a code signal, which is then transmitted to a microcomputer or the like which controls the operation of the apparatus body. Can be Then, the microcomputer executes control based on the transmitted code signal to control the operation of the apparatus main body.
[0004]
However, in the above-mentioned remote control system, there is room for improvement in terms of transmission distance and transmission speed, and communication means having a longer transmission distance and a higher transmission speed may be required. For example, in recent years, information transmitted from the remote controller to the device main body of the electronic device has become complicated, and the capacity of data transmitted from the remote control to the device main body may be large. Is practically desirable. When using a wireless remote controller, it is important how to extend the battery life of the remote controller.
[0005]
Therefore, among the conventional communication means, there is an IrDA control as a communication format using infrared rays. When this method is used, a system having a longer transmission distance and a higher transmission speed than the above-mentioned ordinary remote control system is used. Can be realized.
[0006]
Also, some conventional wireless remote controllers have been devised to extend the battery life of the remote controller by adjusting the power supply interval for reception according to the operation state of the remote controller (for example, Patent Document 1). reference.).
[0007]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 4-192996 [Problems to be Solved by the Invention]
However, even when the above-mentioned IrDA control method is used, it takes a long time to transmit data, which may cause inconvenience in data transmission processing.
[0008]
For example, using a normal remote control system or the IrDA control method, a large amount of data such as music information may be wirelessly transmitted as an information signal from the remote control to the apparatus main body of the electronic device. In such a case, Since the amount of information transmitted between the remote controller and the electronic device increases, it takes a long time to transmit data even by the IrDA control method.
[0009]
At this time, a large amount of power is consumed by the remote controller during communication, so that the battery is quickly consumed and the number of times of replacing or charging the battery of the remote controller increases, and the response becomes troublesome. Furthermore, when communication is started in a state where the battery level of the remote controller is low, the risk of a transmission error due to running out of the battery during data transmission increases. And, in the above-mentioned usage mode of the remote controller, even if the invention of Patent Document 1 is used, it is not possible to contribute to prolonging the battery life of the remote controller.
[0010]
An object of the present invention is to provide a remote control system capable of continuously transmitting data for a long time from an operation device to the device main body by supplying power to an operation device such as a remote control that is transmitting data to the device main body. It is to provide.
[0011]
[Means for Solving the Problems]
The present invention has the following configuration.
[0012]
(1) In a remote control system including: a device main body; and an operation device that outputs a signal to a first receiving unit of the device main body and can remotely control the device main body.
The device main body includes a mounting unit to which the operating device is detachably mounted, and a second receiving unit that receives the signal emitted from the operating device in a state where the operating device is mounted on the mounting unit. A power supply unit that supplies power to the operating device in a state where the operating device is mounted on the mounting unit.
[0013]
In this configuration, when the operating device is mounted on a mounting portion of the device main body to which the operating device such as a remote controller is removably mounted, the operating device is in a state where it can receive power supply from the power supply unit, and A signal output from the operation device mounted on the mounting portion is reliably received by the second receiving portion provided on the main body side.
[0014]
Therefore, when a signal is output from the operating device to the second receiving unit, the operating device can appropriately receive power supply from the power supply unit. Even when a signal is continuously output to the receiving unit for a long time, inconvenience such as running out of the battery of the operation device is prevented.
[0015]
(2) The operating device includes a storage content reading unit to which a storage medium storing information to be output as the signal is mounted.
[0016]
In this configuration, the operation device is provided with a storage content reading unit that can read the storage content stored in the predetermined storage medium. Therefore, if the storage content of the storage medium is transmitted to the device main body via the operation device and the second receiving unit, the storage content of the storage medium mounted on the storage content reading unit is The data is properly transmitted to the device main body regardless of the storage capacity.
[0017]
Therefore, for example, when the storage content reading unit corresponds to a storage medium of a type that cannot be handled by the apparatus main body, the storage medium is indirectly connected to the apparatus main body via the operation device. The function of the device main body is expanded because it is handled on the side.
[0018]
(3) the operating device includes: a detecting unit that detects that the operating device is mounted on the mounting unit;
In a state where the storage medium is mounted on the storage content reading section, when the detection section detects that the operation device is mounted on the mounting section, the detection section detects a signal based on the storage content of the storage medium and outputs a signal based on the storage content of the storage medium to the apparatus. It is characterized by outputting to the main body.
[0019]
In this configuration, the operating device is provided with a detecting unit for determining whether or not the operating device is mounted on the mounting unit of the device main body, and the operating device is connected to the mounting unit by the detecting unit. When the attachment is detected, if the storage medium is attached to the storage content reading unit, the storage content of the storage medium is transmitted from the operation device to the device main body.
[0020]
Therefore, when the operating device is mounted on the device main body with the storage medium storing data to be transmitted to the device main body mounted on the operating device, the data is automatically transmitted to the device main body. This eliminates the need for the user to perform any special operation for data transmission.
[0021]
(4) The first receiving unit and the second receiving unit are common.
[0022]
In this configuration, the first receiving unit and the second receiving unit are configured as a single receiving unit, the signal of the operating device at the time of remote operation, and the signal in the state where the signal is mounted on the mounting unit. The signals of the operating device are received by the same receiving unit.
[0023]
Therefore, the present invention can be realized without providing a plurality of receiving units, and the cost can be reduced by reducing the number of components of the remote control system.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an audio system which is an embodiment of the remote control system of the present invention will be described with reference to the drawings.
[0025]
FIG. 1 shows a configuration of an audio system according to an embodiment of the present invention. As shown in FIG. 1, the audio system includes a remote controller 1 as an operation device and an audio main body 2. In this audio system, as will be described later, the remote control 1 is attached to the audio main body 2 in addition to a normal use state in which the remote control 1 is used at a position away from the audio main body 2 (indicated by a remote control 1 'in the figure). (Indicated by a remote control 1 ″ in the figure).
[0026]
The remote control 1 transmits a remote control signal and the like for controlling the operation of the audio main body 2, and includes a remote control key operation unit 11, a charging terminal 12, and a transmission unit 13.
[0027]
The remote control key operation unit 11 includes a plurality of operations used for selecting operations such as reproduction / recording / stop of the audio main body 2, selecting audio such as a CD / MD / tuner, and performing detailed settings such as clock and sound quality. Has buttons. The remote controller 1 has a built-in rechargeable secondary battery, and power to the secondary battery is supplied via a charging terminal 12. The transmitting unit 13 outputs data to be transmitted to the audio main body 2 as a remote control signal.
[0028]
In addition, the remote controller 1 is provided with a memory slot 4 as a storage content reading section in which the memory card 3 is mounted. In the present embodiment, the memory card 3 stores audio data in the MP3 format, and the remote controller 1 functions as an MP3 player in addition to a remote control application. Therefore, in the audio system of the present embodiment, audio data in MP3 format that cannot be handled by the audio body can be handled by using the remote controller 1 as an MP3 player.
[0029]
On the other hand, the audio main body 2 includes a speaker 2a and an audio reproduction unit 2b. The speaker 2a outputs a sound based on the sound reproduction signal output from the sound reproduction unit 2b. A first receiving section 21, a second receiving section 22, and a remote control mounting section 23 are provided outside the audio reproducing unit 2b.
[0030]
The first receiving unit 21 and the second receiving unit 22 are common in that they both receive a remote control signal such as infrared light output from the remote control 1. However, as will be described later, in the present embodiment, the first receiving unit 21 receives the remote control signal output from the remote control 1 when the remote control 1 is at a position separated from the audio main body 2 in principle, and Since the second receiving unit 22 is configured to receive the remote control signal output from the remote control 1 mounted on the remote control mounting unit 23 in principle, there are some differences in their roles. . The remote controller mounting portion 23 is formed in a rectangle slightly larger than the remote controller 1 and can house the remote controller 1 therein.
[0031]
FIG. 2 shows a state where the remote control 1 is mounted on the remote control mounting section 23. As shown in the figure, in the remote control mounting portion 23, a remote control housing case 24 for housing the remote controller 1 is provided so as to be swingable with respect to the audio main body 2 about a support shaft 25. At this time, the swing angle of the remote control housing case 24 is limited to an optimum range by an angle regulating member (not shown). Further, a power supply terminal 26 which is an output terminal of the power supply unit 27 is provided on the bottom surface of the remote control mounting unit 23.
[0032]
The remote controller 1 mounted on the remote controller mounting section 23 is inserted into a remote control housing case 24. As shown in FIG. 2, the remote controller 1 has a recess at a predetermined position on the opposite surface of the remote controller key operation unit 11, and the recess is provided with a detection unit 14 for detecting the action of an external force. I have. On the other hand, the remote control mounting portion 23 is provided with a convex portion 28 for applying an external force to the inside of the concave portion at a position facing the concave portion of the remote control 1 mounted on the remote control mounting portion 23. Further, on the upper surface of the remote control mounting section 23, a second receiving section 22 for receiving a signal from the transmitting section 13 is provided at a position facing the transmitting section 13 of the remote control 1 mounted on the remote control mounting section 23. .
[0033]
FIG. 3 is a block diagram of the remote controller 1 according to the present embodiment. As shown in the figure, the remote controller 1 has a card connection terminal 101, an interface (I / F) circuit unit 102, a transmission unit, in addition to the above-described key operation unit 11, transmission unit 13, detection unit 14, and charging terminal 12. It includes a signal generation unit 103, a modulation circuit unit 104, a card detection unit 105, a control unit 106, a signal generation unit 110, a remote control attachment detection unit 107, a logical product (AND) circuit 109, and a power unit 108.
[0034]
Between the card connection terminal 101 and the transmission unit 13, an I / F circuit unit 102, a transmission signal generation unit 103, and a modulation circuit unit 104 are arranged in this order. Card connection terminal 101 is connected to memory card 3. The card detection unit 105 detects that the memory card 3 is inserted in the memory slot 4. The I / F circuit unit 102 is arranged at a stage subsequent to the card connection terminal 101, and converts a signal related to information from the memory card 3 into signal data in a format compatible with the remote controller 1. The transmission signal generation unit 103 generates a transmission signal and an error correction code for wireless transmission based on the signal data converted by the I / F circuit unit 102. The modulation circuit unit 104 modulates the transmission signal or the like generated by the transmission signal generation unit 103 using a predetermined modulation signal so as to conform to the IrDA control method.
[0035]
On the other hand, a signal generator 110 is arranged between the key operation unit 11 and the controller 106. The signal generation unit 110 converts a command, setting information, and the like input via the key operation unit 11 into a predetermined signal and outputs the signal to the control unit 106.
[0036]
Further, between the detection unit 14 and the control unit 106, a remote control attachment detection unit 107 and a logical product (AND) circuit 109 are arranged. The remote control mounting detection unit 107 detects that the pressing force from the projection 28 is acting on the detection unit 14, and inputs a predetermined signal to the input terminal of the AND circuit 109. The AND circuit 109 has two input terminals and a single output terminal. Output signals from the card detection unit 105 and the remote control attachment detection unit 107 are input to the two input terminals, respectively. The output terminal of the AND circuit 109 is connected to the control unit 106.
[0037]
Power unit 108 includes a rechargeable secondary battery, and supplies power required for operation of remote controller 1 to each component of remote controller 1. The control unit 106 includes a CPU and controls the operation of each component of the remote controller 1 as described above.
[0038]
In the configuration of the remote controller 1 described above, when the memory card 3 is mounted on the remote controller 1, the mounting of the memory card 3 is detected by the card detection unit 105. When detecting the insertion of the memory card 3, the card detection unit 105 outputs a signal indicating “there is a card” to the AND circuit 109.
[0039]
When the remote control 1 is mounted on the remote control mounting section 23 of the audio main body 2, power is supplied from the power supply section 27 to the power section 108 via the charging terminal 12. At this time, since an external force from the projection 28 on the audio main body 2 acts on the detection unit 14 on the remote control 1 side, a signal indicating “remote control mounting state” is sent to the AND circuit 109 by the remote control mounting detection unit 107. Is output.
[0040]
On the other hand, in the AND circuit 109, when both of the above-mentioned “card present” and “remote control mounted state” signals are input to the input terminal, a signal for setting the transmission operation of the information signal from the memory card 3 to the active state is output. Is output to the control unit 106. When this signal is input to the control unit 106, the circuit operation of the remote controller 1 is set to a mode for transmitting the information signal from the memory card 3 to the remote controller, and the stored contents of the memory card 3 are transmitted to the audio main unit 2. Is output.
[0041]
When the memory card 3 is mounted on the remote controller 1 and the stored contents in the memory card 3 are read, the stored contents are transferred to the card connection terminal 101, the I / F circuit unit 102, the transmission signal generation unit 103, the modulation circuit unit The signal is output from the transmission unit 13 to the second reception unit 22 via the transmission unit 104 as an infrared signal.
[0042]
When the memory card 3 is not mounted on the remote controller 1, the control unit 106 controls the circuit of the remote controller 1 to send a signal relating to a command or setting information input via the key operation unit 11 to ACTIVE. The operation is set to a mode for transmitting a control signal from the normal key operation unit 11 by remote control. At this time, a control signal corresponding to the key operation unit 11 is generated by the transmission signal generation unit 103 and transmitted from the transmission unit 13 via the modulation circuit unit 104.
[0043]
As described above, in this embodiment, when the remote controller 1 is mounted on the remote controller mounting section 23 in the audio main body 2 while the memory card 3 is mounted on the memory slot 4, the remote controller 1 does not operate the key operation section 11. Also, the content stored in the memory card 3 is automatically output to the audio main body 2 as a remote control signal. Further, when the memory card 3 is not mounted, it functions so as to output a control signal or the like corresponding to a normal key operation unit 11 as a remote control signal. Note that the remote control housing case 24 is open to the front side of the audio main body 2 so that the user can use the remote control 1 as if it were an operation panel provided on the audio main body 2.
[0044]
FIG. 4 is a block diagram of the audio main body according to the present embodiment. As shown in the figure, the audio main unit 2 includes a remote control signal processing unit in addition to the above-described first receiving unit 21, second receiving unit 22, power supply unit 27, power supply terminal 26, and speaker unit 20a. The control unit includes a unit 201, a data demodulation unit 202, a storage memory unit 203, a control unit 204, a decoding unit 205, a decoder unit 206, and an amplifier unit 207.
[0045]
When the audio main body 2 is remotely controlled, a signal from the remote controller 1 is input to the first receiver 21. A control signal processing unit 201 is arranged between the first receiving unit and the control unit 204. The control signal processing unit 201 decodes a signal from the remote controller 1 at the time of remote operation and outputs the decoded signal to the control unit 204.
[0046]
On the other hand, when the remote control 1 is mounted on the remote control mounting section 23, a signal from the remote control 1 is input to the second receiving section 22. The data demodulation unit 202 is arranged after the second reception unit 22 and extracts audio data from the signal input to the second reception unit 22. The storage memory unit 203 is arranged at the subsequent stage of the data demodulation unit 202, and includes a large-capacity storage device such as a hard disk drive (HDD) for storing the audio data extracted by the data demodulation unit 202.
[0047]
The decryption unit 205 decrypts (decrypts) a copyright protection encryption or the like. The decoder 206 expands the compressed data. Here, MP3 format data is converted to WAVE format data. The amplifier 207 amplifies the audio signal supplied from the decoder 206. The control unit 204 includes a CPU, and controls the operation of the above-described components of the audio main body 2 as a whole.
[0048]
When the audio main body 2 is remotely controlled by the remote control 1, a remote control signal corresponding to the operation of the key operation unit 11 of the remote control 1 is output from the transmission unit 13 of the remote control 1, and the first reception unit 21 receives this control signal. . The remote control signal is supplied to the control unit 204 after being decoded by the control signal processing unit 201, so that the audio main unit 2 performs a predetermined operation according to the remote control signal.
[0049]
Next, an operation of transmitting audio data in the memory card 3 inserted in the memory slot 4 to the audio main body 2 will be described. When the remote controller 1 is mounted on the remote controller mounting portion 23 with the memory card 3 mounted in the memory slot 4, the charging terminal 12 of the remote controller 1 and the power supply terminal 26 of the audio main body 2 are electrically connected. . Therefore, the remote controller 1 can receive power supply from the power supply unit 27 of the audio main body 2 via the charging terminal 12 and the power supply terminal 26.
[0050]
On the remote controller 1 side, when the control unit 106 recognizes “there is a card” and “remote controller mounted state”, the remote controller 1 enters an operation mode in which a signal related to audio data in the memory card 3 is output as a remote controller signal. Is set. Note that the audio data is output from the transmission unit 13 to the second reception unit 22 as a remote control signal. From the remote control signal received by the second receiving unit 22, audio data is extracted from the remote control signal by the data demodulation unit 202, and the extracted audio data is stored in the storage memory unit 203.
[0051]
The voice data stored in the storage memory unit 203 is transmitted to the storage memory unit 203 by the control unit 204 when, for example, a reproduction command operation is performed on the key operation unit 11 of the remote control 1 or the operation unit provided on the audio main body 2. The audio data stored in 203 is reproduced as music from the speaker unit 20a via the decoding unit 205, the decoder unit 206, and the amplifier unit 207.
[0052]
According to this embodiment, the remote control 1 is mounted on the remote control mounting portion 23 of the audio main body 2 in a state where the memory card 3 storing the audio data is mounted on the memory slot 4 of the remote control 1, so that The audio data is automatically transmitted to the audio main body 2. Since the power supply to the remote controller 1 is performed by the power supply unit 27 of the audio main body 2, even when it takes a long time to transmit the audio data of the memory card 3 to the audio main body 2, the remote control 1 is not transmitted during the transmission. The inconvenience such as running out of the battery is eliminated.
[0053]
In addition, the remote control mounting section 23 is provided with a power supply terminal 26 for charging the remote control 1, so that the charging operation of the secondary battery of the remote control 1 is completed during transmission of audio data that consumes a large amount of power. And the number of times of charging the battery of the remote controller 1 can be reduced.
[0054]
In this embodiment, when the remote controller 1 is mounted on the remote controller mounting section 23, power is automatically supplied. However, the power supply is required based on the remaining amount of the secondary battery in the remote controller 1. The determination may be made as not.
[0055]
Further, in the present embodiment, the first receiving unit 21 and the second receiving unit are provided separately, but the signal from the remote controller 1 may be received only by the second receiving unit. . In this case, for example, a part of the housing of the audio main body 2 may be made transparent so that the signal from the remote controller 1 is reliably received by the second receiving unit even during remote operation.
[0056]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
[0057]
(1) When the operating device is mounted on a mounting portion of the device main body to which the operating device such as a remote controller is detachably mounted, the operating device is in a state where power can be supplied from the power supply unit and is provided on the device main body side. A signal output from the operating device mounted on the mounting portion can be reliably received by the second receiving portion, so that a signal is output from the operating device to the second receiving portion. In this case, the operating device can appropriately receive power supply from the power supply unit, even when a signal is continuously output from the operating device to the second receiving unit for a long time. In addition, it is possible to prevent inconvenience such as running out of the battery of the operation device.
[0058]
(2) The operation device is provided with a storage content reading unit that can read the storage content stored in a predetermined storage medium, so that the storage content of the storage medium can be read by the operation device and the second reception unit. If the data is transmitted to the apparatus main body via the storage unit, the storage contents of the storage medium mounted on the storage content reading unit can be appropriately transmitted to the apparatus main body regardless of the storage capacity.
[0059]
Therefore, for example, when the storage content reading unit supports a storage medium of a type that cannot be handled by the apparatus main body, the storage medium is indirectly transferred to the storage medium via the operation device. The device can be handled on the device body side, and the functions of the device body can be expanded.
[0060]
(3) The operating device is provided with a detecting portion for determining whether or not the operating device itself is mounted on the mounting portion of the device main body, and the detecting portion detects that the operating device is mounted on the mounting portion. At the time of detection, if the storage medium is mounted on the storage content reading unit, the storage content of the storage medium is transmitted from the operation device to the device main body, so that the storage content is transmitted to the device main body. When the operating device is mounted on the main unit with the storage medium storing the data to be stored mounted on the main unit, the data can be automatically transmitted to the main unit. It becomes unnecessary to perform the operation of.
[0061]
(4) Since the first receiving unit and the second receiving unit are configured as a single receiving unit, the signal of the operating device at the time of remote operation and the signal in the state of being mounted on the mounting unit. Since the signal of the operating device can be received by the same receiving unit, the present invention can be realized without providing a plurality of receiving units, and the cost of the remote control system can be reduced by reducing the number of components.
[0062]
Therefore, it is possible to provide a remote control system capable of continuously transmitting data for a long time from the operation device to the device main body by supplying power to the operation device such as a remote control that is transmitting data to the device main body. Can be.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of an audio system according to an embodiment.
FIG. 2 is a diagram showing a state when a remote controller is mounted on a mounting unit.
FIG. 3 is a block diagram of a remote controller according to the embodiment.
FIG. 4 is a block diagram of an audio main body according to the embodiment.
[Explanation of symbols]
1 Remote Controller 2 Audio Body 3 Memory Card 4 Memory Slot 21-First Receiver 22-Second Receiver 23-Remote Controller Mounting Unit 24-Remote Controller Housing Case 26-Power Supply Terminal 27-Power Supply Unit

Claims (4)

A remote control system comprising: an apparatus main body; and an operation device that outputs a signal to a first receiving unit of the apparatus main body and can remotely control the apparatus main body.
The device main body includes a mounting unit to which the operating device is detachably mounted, and a second receiving unit that receives the signal emitted from the operating device in a state where the operating device is mounted on the mounting unit. And a power supply unit that supplies power to the operation device while the operation device is mounted on the mounting unit. 2. The remote control system according to claim 1, wherein the operation device includes a storage content reading unit to which a storage medium storing information to be output as the signal is mounted. The operating device includes a detecting unit that detects that the operating device is mounted on the mounting unit,
In a state where the storage medium is mounted on the storage content reading section, when the detection section detects that the operating device is mounted on the mounting section, the detection section detects a signal based on the storage content of the storage medium and outputs the signal based on the storage content of the storage medium. The remote control system according to claim 2, wherein the signal is output to a main body. The remote control system according to any one of claims 1 to 3, wherein the first receiving unit and the second receiving unit are common.

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