JP2011228761A - Remote control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote control device that can suppress a malfunction of an operation target apparatus, a power consumption of a remote control device and the operation target apparatus.SOLUTION: A remote control device 10A comprises an input unit 1 and a signal transmission unit 5 for transmitting an operation instruction signal. The remote control device 10A further comprises: a tilt detection unit 2 for detecting a tilt amount of the remote control device 10A from a reference surface when the signal transmission unit 5 straightly faces a signal reception unit of an operation target apparatus; and a control unit 3 for determining whether or not a level of a tilt amount detected by the tilt detection unit 2 is equal to or below a predetermined threshold level when data input in the input unit 1 and data of the tilt amount are input and a key input into the input unit 1 is made, and for controlling the signal transmission unit 5 to be on when the level of the tilt amount is equal to or below the predetermined threshold level, and the signal transmission unit 5 to be off when the level of the tilt amount is above the predetermined threshold level.

Description

  The present invention relates to a remote control device.

  Many of the current electrical appliances come with a wireless remote control device, and most of the operations can be performed with the remote control device. Specifically, when the operator performs a key operation such as pressing a button, the signal receiving unit of the operation target device receives an operation instruction signal instructing the operation of the operation target device transmitted from the remote control device. The device performs a predetermined operation. Here, remote control devices that transmit infrared signals as operation instruction signals are widely used.

The operation instruction signal transmitted by the remote control operation may be received by the device even when the remote control device is not pointed at the operation target device, and the device reacts to an operation not intended by the operator, such as a child's mischief. May malfunction. In such a case, the power (battery) of the remote control device and the operation target device is consumed due to unnecessary operations.
By using the key lock mechanism of the remote control device, the operator can avoid malfunctioning of the device due to unintended key operations. However, the operator needs time and effort to perform the key lock operation and release, or the operator locks the key. You may forget to operate. Therefore, it is preferable to have a mechanism that determines whether or not the remote control device itself is an intended operation and does not automatically send an operation instruction signal when an unintended operation is performed.

  Patent Document 1 discloses a remote control device that includes an acceleration sensor that detects an inclination posture of a remote control device and transmits an operation instruction signal to an operation target device based on data acquired by the acceleration sensor. The configuration is shown in FIG.

The remote controller 20 shown in FIG. 6 includes an input unit 21 for inputting data by an operator's key operation and an infrared light emitting unit 25 for transmitting an infrared signal based on the operator's key operation. .
The remote control device 20 further includes
An acceleration sensor 22 for detecting the tilt posture of the remote control device 20 (the tilt amount, see FIG. 5 of Patent Document 1);
The relationship between the tilt posture of the remote control device 20 and the remote control command is stored in advance, and a remote control command corresponding to the input of the tilt posture of the remote control device 20 at an arbitrary timing obtained by the acceleration sensor 22 is stored. A storage unit 28 for outputting;
A power source 27 for supplying power to the acceleration sensor 22;
A switch 26 for switching on / off the power supply to the acceleration sensor 22;
And a control unit 23 for performing various controls (paragraph 0016, FIG. 1).

In Patent Document 1, the acceleration sensor 22 always detects the tilt posture of the remote control device 20 when the switch 26 is on, and sends a pulse signal corresponding to the detected value to the control unit 23 (paragraph 0035).
The control unit 23 compares the reference posture value A stored in the storage unit 28 and the tilt posture value B output when the remote control device 20 is tilted during a period in which power is supplied to the acceleration sensor 22. A value B−A is calculated, and when the value exceeds a predetermined reference value in each of the “up / down” and “left / right” directions, it is determined that the axis is tilted in that direction. When the determination is made in this way, a remote control signal similar to the case where the “up / down” and “left / right” direction arrow buttons of the commercially available remote control buttons are pressed is generated, and the infrared light emitting unit 25 is generated. An infrared signal is transmitted from (paragraph 0036).

  The circuit for detecting the tilt amount of the remote control device 20 includes a switch 26 that switches on / off whether or not to supply power from the power supply 27 to the acceleration sensor 22, and a control unit 23 that outputs an on / off switching signal of the switch 26. Thus, when the remote control device 20 is not operated, the power input is turned off. When any button on the remote control device 20 is pressed, the power input is turned on, and the button is pressed for a predetermined time (for example, 3 minutes). If the state that is not performed continues, the power input is turned off to save power consumption (paragraph 0022).

Patent Document 1 has the following description.
The remote control device 20 is considered to be grasped in an unintentional tilt posture by a man's heel or the like who operates the remote control device 20. The circuit for detecting the tilt amount of the remote control device 20 uses the tilt posture of the remote control device 20 detected by the acceleration sensor 22 when the power input of the remote control device 20 is turned on as a reference until the power input is turned off. The posture is stored and stored in the storage unit 28 as the posture, and is detected at a later time based on the difference between the stored reference posture and the tilt posture of the remote control device 20 detected by the acceleration sensor 22 at a later time. The control unit 23 determines whether or not the tilt posture is an effective operation. Only when it is determined that the determination is based on an effective operation, the control unit 23 outputs a predetermined remote control signal corresponding to the tilt posture. It is configured to read from the storage unit 28 (paragraph 0023).
Therefore, it is possible to perform a predetermined remote control signal transmission operation only when the operator consciously tilts the remote control device 20, and the remote control device 20 is inadvertently prepared by the operator's heel holding the remote control device 20. Therefore, it is possible to prevent such an inconvenience that an unexpected remote control signal transmission operation is performed (paragraph 0024).

JP 2004-236034 A JP 2007-151152 A JP 2007-235703 JP2008-085603

In the remote control device described in Patent Document 1, since the power of the tilt detection circuit is turned on when a button is pressed, the tilt detection circuit is turned on even when an unexpected remote control operation is performed by the operator. Cannot be canceled.
“The tilt posture of the remote control device detected by the acceleration sensor at the time when the power input of the tilt detection circuit is turned on is stored in the storage unit as a reference posture until the power input is turned off”. If the operation during that time is an operation not intended by the operator, the reference posture itself is strange. The reference posture changes each time depending on the operator and the operating environment, and it is difficult to properly detect whether or not the operation is intended by the operator without knowing whether the “reference posture” is really appropriate as a reference.
Therefore, the remote control device described in Patent Literature 1 cannot solve the malfunction of the device due to the operation not intended by the operator and the power consumption of the remote control device and the operation target device due to the operation not intended by the operator.

The remote control device of the present invention is
An input unit for key input by the operator;
A remote control device including a signal transmission unit that transmits an operation instruction signal that instructs an operation of the operation target device based on the key input;
An inclination detection unit for detecting an inclination amount of the signal transmission unit with respect to a reference plane;
When the key is input, the signal transmission unit is turned on when the tilt amount is equal to or less than a predetermined threshold value, and the signal transmission unit is turned off when the tilt amount exceeds the predetermined threshold value. And a control unit.

  The “tilt amount” referred to in this specification indicates an arbitrary factor related to the tilt of the remote control device, and includes a tilt amount in two orthogonal directions in a plane perpendicular to the direction of gravity, a tilt angle, and the like.

In the remote control device of the present invention configured as described above, since the control unit controls on / off of the signal transmission unit based on the value of the tilt amount detected by the tilt detection unit, the operation instruction signal when the remote control device has an unnatural tilt amount. Transmission of operation instruction signals unintended by the operator can be suppressed.
In the remote control device of the present invention, it is possible to suppress the transmission of an operation instruction signal that is not intended by the operator. Therefore, it is possible to prevent malfunction of the operation target device, and it is possible to suppress power consumption of the remote control device and the operation target device.
In the present invention, even if the operator does not perform a key lock operation, it is determined whether or not the remote control device itself is an intended operation, and an operation instruction signal is automatically transmitted when an unintended operation is performed. Since it has a mechanism that does not, it is convenient for the operator.

  According to the present invention, the remote control device itself determines whether or not the operation is intended, and has a mechanism that does not transmit an operation instruction signal when an unintended operation is performed. It is possible to provide a remote control device that can suppress malfunction of the target device and power consumption of the remote control device and the operation target device.

1 is a configuration diagram of a remote control device according to a first embodiment of the present invention. It is a flowchart explaining the function of the remote control apparatus of FIG. It is explanatory drawing of the inclination angle of the remote control apparatus of FIG. It is a block diagram of the remote control apparatus of 2nd Embodiment which concerns on this invention. 5 is a flowchart illustrating functions of the remote control device of FIG. It is a block diagram of the conventional remote control device.

“First Embodiment”
A remote control device according to a first embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the remote control device 10A of the present embodiment includes an input unit 1 to which an input signal corresponding to an infrared signal (operation instruction signal) transmitted from the remote control device 10A by an operator's key operation is input. The infrared light emitting unit (signal transmitting unit) 5 that transmits an infrared signal based on an input signal, the inclination detecting unit 2 that includes one or a plurality of sensors that detect the amount of inclination of the infrared light emitting unit 5, and performs various controls. And a control unit 3 including a control circuit. In FIG. 1, the code | symbol 6 has shown the housing.

As shown in FIG. 3, the inclination detector 2 is one or a plurality of sensors that detect the inclination angle α of the remote control device 10A. The inclination angle α is an inclination angle from the reference plane when the remote control device 10A is directed straight to the infrared light receiving unit (signal receiving unit) of the operation target device.
In FIG. 3, as an example, the reference surface when the remote control device 10 </ b> A is straight with respect to the infrared light receiving unit of the operation target device is a horizontal surface, and the main surface having the largest inclination angle α in the remote control device 10 </ b> A with respect to the reference surface. In the case of a tilt angle of The reference plane and the tilt angle are determined according to the type of the operation target device, the positional relationship between the operation target device and the remote control device, the form of the remote control device, and the like. In FIG. 3, the solid line indicates the reference plane.

  Examples of sensors that can detect the inclination angle α include acceleration sensors and gyro sensors. The acceleration sensor is based on the direction of gravity when determining the direction of acceleration, and can be used as a sensor for detecting an inclination angle. The acceleration sensor can detect an inclination amount in two orthogonal directions in a plane perpendicular to the direction of gravity, thereby detecting an inclination angle. The gyro sensor can detect a relative angle and an angular velocity when the object rotates.

  As shown in FIG. 6, in Patent Document 1, a switch for controlling on / off of an acceleration sensor that is an inclination detection sensor is provided, and a switch for controlling on / off of the acceleration sensor is controlled by a control unit. On the other hand, in the present embodiment, a switch 4 for turning on and off the infrared light emitting unit 5 is provided between the control unit 3 and the infrared light emitting unit 5, and the switch 4 is controlled by the control unit 3.

The control unit 3 receives the data input to the input unit 1 and the data detected by the inclination detection unit 2. Based on these data, the control unit 3 determines the operation state of the remote control device 10 </ b> A and controls on / off of the infrared light emitting unit 5.
Normally, when an operator operates a device with the remote control device 10A, the remote control device 10A is directed to the device side. By detecting the inclination angle α at this time, it can be determined whether or not the operator is pointing the remote control device 10A at the device. By controlling on / off of signal transmission based on this determination result, unnecessary infrared signal transmission can be suppressed.

When there is a key input to the input unit 1, the control unit 3 determines whether or not the value of the inclination angle α is equal to or less than a predetermined threshold value. If the inclination angle α is equal to or smaller than the threshold value, the control unit 3 determines that the operator's key operation is intended and turns on the switch 4, and if the inclination angle α exceeds the threshold value, the child's mischief, etc. It is determined that the key operation is not intended by the operator, and the switch 4 is turned off.
The threshold value of the inclination angle α is set according to the type of the operation target device, the installation position, and the like. For example, by setting the threshold value of the inclination angle α to 15 °, it is possible to satisfactorily detect whether or not the key operation of the operator is intended.

With reference to FIG. 2, a processing flow of the remote control device 10A will be described.
In step S1, control unit 3 of remote control device 10A detects the presence or absence of key input from remote control device 10A. When control unit 3 detects a key input from remote control device 10A, the process proceeds to step S2.

In step S2, the control unit 3 reads the value α detected by the inclination detection unit 2, and determines the operation state of the remote control device 10A based on this value. The value α output from the inclination detector 2 is the inclination angle α shown in FIG. The control unit 3 determines whether the inclination angle α is equal to or less than a threshold value.
If the inclination angle α is equal to or smaller than the threshold value, the control unit 3 determines that the operator's key operation is intended, and the process proceeds to the next step S3. In step S3, the control unit 3 turns on the switch 4. With this control, an infrared signal corresponding to the keyed data is transmitted from the infrared light emitting unit 5 in the next step S4.
If the inclination angle α is greater than the threshold value in step S2, the control unit 3 determines that the key operation is not intended by the operator, such as child mischief, and the process proceeds to step S5. In step S <b> 5, the control unit 3 controls the switch 4 to be off so that an infrared signal is not transmitted from the infrared light emitting unit 5.

As described above, in the present embodiment, the control unit 3 controls the on / off of the switch 4 based on the inclination angle value α detected by the inclination detection unit 2, so that the remote controller 10A has an unnatural inclination angle. Occasionally, transmission of an infrared signal (operation instruction signal) is prohibited, and transmission of an infrared signal (operation instruction signal) unintended by the operator can be suppressed.
In the remote control device 10A of the present embodiment, since it is possible to suppress the transmission of infrared signals (operation instruction signals) that are not intended by the operator, it is possible to prevent malfunction of the operation target device, and power consumption of the remote control device 10A and the operation target device. Can be suppressed.
In the present embodiment, even if the operator does not perform a key lock operation, it is determined whether or not the remote controller 10A itself is an intended operation, and an infrared signal (automatically when an unintended operation is performed) Since it has a mechanism that does not transmit an operation instruction signal), it is convenient for the operator.

“Second Embodiment”
A remote controller according to a second embodiment of the present invention will be described with reference to the drawings. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
As shown in FIG. 4, the input unit 1 to which an input signal corresponding to an infrared signal (operation instruction signal) transmitted from the remote control device 10 </ b> B is input to the remote control device 10 </ b> B of the present embodiment, as in the first embodiment. And an infrared light emitting unit (signal transmitting unit) 5 that transmits an infrared signal based on an input signal, an inclination detecting unit 2 that includes one or more sensors that detect the amount of inclination of the infrared light emitting unit 5, and various controls. And a control unit 13 including a control circuit for performing the operation.

The basic configuration of this embodiment is the same as that of the first embodiment.
In the first embodiment, the data input to the input unit 1 and the data detected by the inclination detection unit 2 are input to the control unit 3, and the control unit 3 controls the infrared light emitting unit 5 based on these data. The switch 4 to be turned on / off was controlled.
In this embodiment, in addition to the function of the control unit 3 of the first embodiment, the control unit 13 further detects a time change of the data detected by the inclination detection unit 2, thereby detecting the vibration of the remote control device 10B. . Before the operator starts key input, the operator picks up remote control device 10B. The control unit 13 detects the vibration of the remote control device 10B by detecting the time change of the tilt angle α at this time, and detects that the operator has picked up the remote control device 10B.

  That is, the control unit 13 acquires time change data of the inclination angle α based on the value of the inclination angle α detected by the inclination detection unit 2 in a state where there is no key input to the input unit 1, and performs a predetermined time. If the inclination angle α is changed, it is determined that the use of the remote control device 10B is started, and it is determined whether or not the value of the inclination angle α is equal to or smaller than a predetermined threshold. Based on the determination result The on / off of the infrared light emitting unit 5 is controlled.

The vibration of the remote control device 10B is determined based on whether or not the value α output from the inclination detector 2 changes during a predetermined period (for example, 1 second). When detecting vibration of remote control device 10B, control unit 13 determines that the operator has held remote control device 10B in his / her hand.
The control unit 13 determines that the remote control device 10B is in a stationary state (non-use state) when the value α output from the tilt detection unit 2 does not change for a predetermined period (for example, 1 minute) from the last key operation.
The determination whether the value of the inclination angle α is equal to or less than a predetermined threshold and the on / off control of the infrared light emitting unit 5 based on the determination result are the same as in the first embodiment.

With reference to FIG. 5, the processing flow of the remote control device 10B will be described.
In step S <b> 11, the control unit 13 acquires the value of the inclination angle α output from the inclination detection unit 2, and acquires time change data of the inclination angle α within a predetermined time. Based on this data, the control unit 13 detects the presence or absence of vibration of the remote control device 10B.
When detecting the vibration of remote control device 10B, control unit 13 determines that the operator has held remote control device 10B in his / her hand, and the process proceeds to the next step S12.

In step S12, the control unit 13 reads the value α detected by the inclination detection unit 2, and determines the operation state of the remote control device 10B based on this value. The control unit 3 determines whether the inclination angle α is equal to or less than a threshold value.
If the inclination angle α is equal to or less than the threshold value, the control unit 13 determines that the operator's key operation is intended, and the process proceeds to the next step S14. In step S14, the control unit 13 turns on the switch 4. By this control, an infrared signal corresponding to the key-input data is transmitted from the infrared light emitting unit 5 in the next step S15.
If the inclination angle α is greater than the threshold value in step S13, the control unit 13 determines that the key operation is not intended by the operator, such as child mischief, and the process proceeds to step S16. In step S <b> 16, the control unit 3 controls the switch 4 to be off so that an infrared signal is not transmitted from the infrared light emitting unit 5.
Steps S12 to S16 are the same as steps S1 to S5 of the first embodiment.

If it is determined in step S11 that there is no change in the tilt angle within a predetermined time, the control unit 13 does not detect the vibration of the remote control device 10B, and it is determined that the remote control device 10B is not in use, the control unit 13 It is not determined whether the value of α is below a predetermined threshold. Instead, in step S17, the control unit 13 determines whether a predetermined time (for example, 1 minute) has elapsed since the last key operation. If it is determined that a predetermined time (for example, 1 minute) has elapsed since the last key operation, the control unit 13 causes the inclination detection unit 2 to reduce the detection frequency of the inclination angle α by the inclination detection unit 2 in step S18. Control. Such control can reduce power consumption.
In the present embodiment, it is necessary to always perform the detection processing of the inclination angle α even in the non-use state, but when it is determined that it is not in the non-use state, the frequency of the detection processing is reduced to reduce power consumption. be able to.

As described above, also in the present embodiment, since the control unit 13 controls the on / off of the switch 4 based on the inclination angle value α detected by the inclination detection unit 2, the remote control device 10B has an unnatural inclination angle. At this time, transmission of an infrared signal (operation instruction signal) is prohibited, and transmission of an infrared signal (operation instruction signal) unintended by the operator can be suppressed.
Also in the present embodiment, since it is possible to suppress the transmission of an infrared signal (operation instruction signal) that is not intended by the operator, it is possible to prevent malfunction of the operation target device, and to suppress power consumption of the remote control device 10B and the operation target device. Can do.

  In the present embodiment, the remote controller is further configured based on two types of data, that is, the time change of the tilt angle α of the remote control device 10B in the absence of key operation (vibration of the remote control device 10B) and the tilt angle α of the remote control device 10B during key operation. Since the operation state of the device 10B is determined, the accuracy of the state determination of the remote control device 10B can be increased. Therefore, in the present embodiment, it is possible to detect with high accuracy whether or not the key operation of the remote control device 10B is intended, and to control the transmission / non-transmission of the infrared signal (operation instruction signal) with higher accuracy. .

  In the present embodiment, even if the operator does not perform the key lock operation, it is determined whether or not the remote control device 10B itself is an intended operation, and an infrared signal (automatically when an unintended operation is performed) Since it has a mechanism that does not transmit an operation instruction signal), it is convenient for the operator.

As related applications of the present invention, there are Patent Documents 2 to 4 listed in “Background Art”.
Patent Document 2 describes a remote control device that detects an inclination angle of a remote control device and controls generation / non-generation of an operation instruction signal based on the detected value.
In paragraphs 0022 and 0023 of Patent Document 2, when the operator tilts the casing (11) clockwise around the Y axis while maintaining the state where the operator (12) is pressed, the tilt sensor ( 13) outputs a tilt signal corresponding to the tilt, and it is described that the control unit (15) generates the operation instruction signal only when the tilt of the casing indicated by the tilt signal exceeds the threshold value. Yes.
In Patent Document 2, control is performed so that an operation instruction signal is generated only when the casing (11) moves so as to have an inclination exceeding a threshold value. By doing this, for example, an operation instruction signal reflecting a tilt caused by a hand tremor or the like is generated, so that an operation contrary to the will of the operator does not occur.

The remote control device described in Patent Document 2 cannot detect a situation in which an unnatural inclination angle is caused by a child's mischief or the like. Even in such a situation, this cannot be detected and an operation instruction signal is generated, so that it is not possible to prevent the malfunction of the device and to save power.
Moreover, in Patent Document 2, in order to perform some operation with the remote control device, it is necessary to tilt the casing until the tilt exceeds a threshold while pressing the operation element. In other words, in order to perform a desired operation, it is necessary to keep pressing the operation element until the inclination exceeds the threshold value. Such an operation is not convenient for the operator.
In Patent Document 2, it is necessary to always process the value of the tilt angle while the operator is pressed. In addition, since the operation time of the operator is inevitably long, the detection amount of the sensor and the data processing amount of the control unit increase, and the power consumption increases.

In Patent Document 3, for the purpose of reducing the number of operators of the remote controller, a plurality of functions are assigned to the same operator, and the correspondence between the operators and the operation instruction signal is changed according to the inclination of the remote controller. A remote control device is described.
As described in paragraph 0013 of Patent Document 3, “the operation mode preferably includes three operation modes including a channel switching mode, a reproduction mode, and a character input mode.” According to the inclination of the remote control device, the operation mode is selected. To change. As described in paragraph 0023, in Patent Document 3, the operation mode is switched by always detecting the left and right inclinations.

  The remote control device described in Patent Document 3 does not detect an operation state based on an inclination angle, and cannot detect a situation in which an unnatural inclination angle is caused by mischief or the like of a child. Even in such a situation, since this cannot be detected and some operation instruction signal is generated, it is not possible to prevent malfunction of the device or to save power. Further, in Patent Document 3, since the control unit must always acquire the value of the inclination angle and process the data, the detection amount of the sensor and the data processing amount of the control unit are large, and the power consumption increases.

  Japanese Patent Application Laid-Open No. 2004-228561 describes a mode in which screen selection of the left and right two-screen display of the television receiver is performed by the left and right inclination of the remote control device. When the operator is slightly tilted while holding the remote control device, it is determined that the tilt is not due to the operator's will, and only when a tilt exceeding a certain angle is detected, it is determined as a significant tilt, Screen selection is performed.

  In the remote control device described in Patent Document 4, it is impossible to detect a situation in which an unnatural inclination angle is caused by mischief or the like of a child. Even in such a situation, since this cannot be detected and an operation instruction signal is generated, it is not possible to prevent the malfunction of the device and to save power. Further, in Patent Document 4, since the control unit must always acquire the value of the inclination angle and process the data, the detection amount of the sensor and the data processing amount of the control unit are large, and the power consumption increases.

  As described above, in each of Patent Documents 2 to 4, the effect of the present invention that suppresses malfunction of the operation target device due to an unintended operation and power consumption of the remote control device and the operation target device cannot be obtained.

  According to the present invention, the remote control device itself determines whether or not the operation is intended, and has a mechanism that does not transmit an operation instruction signal when an unintended operation is performed. It is possible to provide a remote control device that can suppress malfunction of the target device and power consumption of the remote control device and the operation target device.

"Design changes"
The present invention is not limited to the above-described embodiment, and the design can be changed without departing from the spirit of the present invention.

10A, 10B Remote control device 1 Input unit 2 Tilt detection unit 3, 13 Control unit 4 Switch 5 Infrared light emitting unit (signal transmission unit)
α tilt angle

Claims (5)

An input unit for key input by the operator;
A remote control device including a signal transmission unit that transmits an operation instruction signal that instructs an operation of the operation target device based on the key input;
An inclination detection unit for detecting an inclination amount of the signal transmission unit with respect to a reference plane;
When the key is input, the signal transmission unit is turned on when the tilt amount is equal to or less than a predetermined threshold value, and the signal transmission unit is turned off when the tilt amount exceeds the predetermined threshold value. A remote control device comprising a control unit.   A switch for turning on and off the signal transmission unit is disposed between the control unit and the signal transmission unit, and the control unit controls on / off of the switch according to the value of the tilt amount. The remote control device described in 1. The controller is
In a state where there is no key input to the input unit, based on the value of the tilt amount detected by the tilt detection unit, obtain data of the time change of the tilt amount,
When the inclination amount changes with time within a predetermined time, it is determined that the use of the remote control device is started, and it is determined whether the value of the inclination amount is equal to or less than a predetermined threshold value. Based on the control of the on / off of the signal transmission unit,
The determination that the remote control device is not in use when there is no time change of the tilt amount within a predetermined time, and does not determine whether the value of the tilt amount is equal to or less than a predetermined threshold. The remote control device according to 2.   The control unit detects the inclination so as to reduce the frequency of detection of the amount of inclination by the inclination detection unit when there is no time change of the amount of inclination within a predetermined time in a state where there is no key input to the input unit. The remote control device according to claim 3, wherein the remote controller is controlled.   The remote control device according to claim 1, wherein the operation instruction signal is an infrared signal, and the signal transmission unit is an infrared light emitting unit.

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