JP2007227995A - Remote controller and remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To transmit control information requested by a user to an electrical appliance, through simple operation in a remote controller which transmits control information to the electrical appliance, in response to user operating instructions. <P>SOLUTION: A decision is made (#1) whether the pattern of a contact signal, when a user holds a remote controller matches a registered pattern, and a user using the remote controller is recognized as a user belonging to the registered pattern, if both patterns match (#3). When a decision is made that operation has been instructed ("YES" in #4), use time is recognized (#5) by time information from a time recognition means and then the use place is recognized by the place information from a place identification means. A decision is then made (#7) whether an operation instruction detected at #4 exists, in combination of use place and use time preset for each user (#6), and control information corresponding to that operation instruction is transmitted, if it exists ("YES" in #6). Based on the control information thus transmitted, a record table is updated (#8). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a remote control device and a remote control system.

  Remote control devices that transmit various types of control information (power on / off, switching of settings, etc.) to household electrical appliances such as lighting equipment and air conditioners are very many types of control as household electrical appliances become more multifunctional. There has been a demand for transmitting information. Therefore, the number of buttons for specifying control information provided in the remote control device is also increasing.

  As the number of buttons increases, small buttons are densely provided on the remote control device, and it becomes difficult for the user to easily find a desired button, and it is difficult to accurately and quickly control the electrical device. .

  In order to reduce the number of buttons on the remote control device, a remote control device configured to omit buttons with low usage frequency for each user is known, focusing on the fact that the usage frequency for each individual user varies depending on the button. (For example, refer to Patent Document 1). This remote control device is configured so that various operation button groups are displayed on the surface of the remote control device by a liquid crystal panel, and when the user presses a number button for identifying the user, the number button that has been pressed corresponds in advance. The attached screen for individual users is displayed on the liquid crystal panel surface.

  On the screen for individual users of the remote control device, the display of buttons that are not used frequently is omitted, and the small number of buttons that are displayed are displayed in a size corresponding to the frequency of use. The buttons are easier to find and the electrical equipment is easier to control.

On the other hand, in a home network system in which home appliances such as lighting fixtures and air conditioners are connected to be centrally controlled by a network, various information including personal identification information is transmitted from a mobile terminal carried by the user to the central control device, and the information is There is known a home network system in which the received centralized control device controls home appliances in an operating state according to the individual based on the personal identification information (see, for example, Patent Document 2 and Patent Document 3). .
Japanese Patent Laid-Open No. 9-23487 JP 2005-175660 A Japanese Patent Laid-Open No. 2003-244776

  By the way, the background that the user cannot fully use the home appliances that have become multifunctional is that the number of buttons mounted on the remote control device increases as described above, so that it is difficult for the user to find a desired button. In addition, in order to reduce the number of buttons on the remote control device forcibly, the same button is configured to have a plurality of functions, thereby making the button pressing method complicated and the user pressing the button pressing method. There are circumstances that make it easy to forget, and that it takes time to press the button accurately.

  For example, in the case of a lighting fixture whose brightness can be set in five levels, the remote control device is equipped with one brightness button for changing the brightness in addition to the lighting button in order to reduce the number of buttons as much as possible. The The brightness button is configured, for example, so that the brightness of the luminaire increases or decreases step by step each time the user presses it.

  In order to turn on the luminaire with the desired brightness using the remote control device configured as described above, the user has to press the brightness button and adjust the brightness button several times. It is. Therefore, there are cases where the user stops the fine adjustment by pressing the button halfway or does not perform the adjustment from the beginning even in a state where the desired brightness is not achieved.

  If the brightness button is also used as another button in order to reduce the number of buttons on the remote control device, brightness adjustment for users who do not routinely use the other button for brightness adjustment There is a possibility of forgetting the button pressing method itself.

  On the other hand, since users have their own preferences and customs, the functions that individual users use when using electrical devices tend to be patterned in a certain range depending on their lifestyles. It is known that there is.

  For example, in the case where a lighting apparatus capable of setting the above-described brightness to five levels is installed in a bedroom, regarding the usage situation of the user (Mr. A) who uses the bedroom, the user (Mr. A) When waking up, it is customary to turn on the luminaire at the brightness of the middle third of the five levels, and at the second level of brightness slightly dark before going to sleep at night. Another user (Mr. B) As for the user (Mr. B), when waking up in the morning, the user lights up at the brightness of the 4th of the 5 levels in order to wake up early, and the darkest brightness of the 1st level before going to sleep at night. It is almost patterned like there is a habit of lighting up.

  Therefore, the inventor of the present invention identifies the user who uses the remote control device based on the above-described knowledge, and further identifies the place and time at which the remote control device is used. The control information is selected according to the operation instruction from the control information set and registered in advance corresponding to the combination of the above, and the type of operation instruction (number of buttons) performed by the user is considerably reduced. I was able to come up with the present invention.

  In addition, the said patent document 2 and patent document 3 are related to a home network system, and the portable terminal which a user hold | maintains does not directly control each electric equipment.

  The present invention provides a remote control device that transmits control information to an electrical device to be controlled in response to a user operation instruction.For each user, if control information is set for each combination of an operation instruction, a use place, and a use time, The control information desired by the user can be transmitted to the electric device by a simple operation, and the electric device can be controlled in an operating state in accordance with the lifestyle habits of the individual user, and the user can search for a desired operation button. An object is to provide a remote control device that does not bother.

  In order to achieve the above object, the invention according to claim 1 identifies a user who uses the remote control device in a remote control device including a signal transmission unit that transmits control information to an electric device to be controlled in response to a user operation instruction. A user identification means for identifying a place where the remote control device is used, a time identification means for identifying a time when the remote control device is used, and a user operation instruction for each user And a storage unit in which control information set in advance for each combination of use location and use time is registered, and the signal transmission unit is identified by the user identification unit, the location identification unit, and the time identification unit Control information corresponding to a combination of a user, a place of use, and a use time and corresponding to a user operation instruction is selected from among the control information set and registered in the storage unit Characterized in that it sent-option.

  The invention of claim 2 is the invention of claim 1, further comprising a contact sensor and / or an acceleration sensor, wherein the signal transmission unit is responsive to a user operation instruction detected by the contact sensor and / or acceleration sensor. The control information set and registered in the storage unit is selected and transmitted.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, the transmitted control information is identified by the user identifying means, the place identifying means, and the time identifying means, the user, the use place, and the use time. A history storage unit for storing each combination, and the signal transmission unit refers to the history storage unit to select control information to be transmitted with priority on frequently used control information.

  According to a fourth aspect of the invention, in the third aspect of the invention, the history storage unit identifies the control information transmitted before and after the transmitted control information by the user identifying means, the location identifying means, and the time identifying means. The signal transmitting unit refers to the history storage unit to predict and select control information to be transmitted next, for each combination of user, usage place, and usage time.

  The invention according to claim 5 is the invention according to any one of claims 1 to 4, further comprising a signal receiving unit capable of receiving control information transmitted from another remote control device, wherein the storage unit The control information received by the signal receiving unit is stored, and is set and registered as control information corresponding to a combination of a user operation instruction, a use place, and a use time for each user.

  According to a sixth aspect of the present invention, there is provided a remote control comprising the remote control device according to any one of the first to fifth aspects and an electric device controlled by control information transmitted from the remote control device. System.

  According to the first aspect of the present invention, in the remote control device including the signal transmission unit that transmits the control information to the electric device to be controlled in response to the user operation instruction, the combination of the operation instruction, the place of use, and the use time for each user in advance. If the control information is set separately, the control information desired by the user can be transmitted to the electric device by a simple operation, and the electric device can be controlled to an operation state in accordance with the lifestyle habit of the individual user.

  According to the invention of claim 2, in addition to the above effect, the control information corresponding to the control information set and registered in advance according to the user operation instruction detected by the contact sensor and / or the acceleration sensor by the signal transmission unit. Therefore, the user is not bothered by searching for an operation button.

  According to the invention of claim 3, since the signal transmission unit preferentially selects and transmits the control information with high frequency with reference to the history storage unit, the control with high frequency is performed even when the user's operation instruction is not accurate. Information is transmitted preferentially, and the user is not forced to perform precise operations in every detail, which is easy to use.

  According to the invention of claim 4, in addition to the effect of claim 3, the signal transmission unit refers to the history storage unit to predict and select control information to be transmitted next. When performing an operation, even if the user's operation instruction is not accurate, the correct control information is preferentially transmitted, and the user is not always forced to perform an accurate operation in detail, and a series of operation instructions are performed quickly and accurately. be able to.

  According to the invention of claim 5, the control information from the other remote control device received by the signal receiver is set and registered as control information corresponding to the combination of the operation instruction for each user, the place of use, and the time of use. Therefore, the trouble when setting and registering the control information of the electric device in the storage unit is simplified.

  Hereinafter, a remote controller 1 according to an embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, the remote control device 1 according to the present embodiment includes an elongated rectangular parallelepiped housing 2, and an electric device to be controlled (for example, a hard disk recorder, an air conditioner, a lighting device, etc.) on one end face side. ) Includes a light-emitting diode 3 and an acceleration sensor 4 that transmit control information (for example, power on / off, air-conditioning mode switching, etc.) as infrared light R. The light emitting diode 3 constitutes a signal transmission unit together with a control unit 5 (FIG. 2) described later.

  The acceleration sensor 4 is configured to be able to detect the magnitude of acceleration in the three-dimensional direction, and the detected magnitude of acceleration in each three-dimensional direction is transmitted to the control unit 5 described later. The control unit 5 identifies the direction and magnitude of the acceleration given to the remote control device 1 by an operation such as the user swinging the remote control device 1 up and down, left and right from the received acceleration information.

  On the other end face side of the housing 2, the mode of the phototransistor (signal receiving unit) 6 capable of receiving the infrared light r transmitted from the other remote control device 10 attached to the electric device and the remote control device 1 itself is set. A setting switch 7 for switching is provided. When the user presses the setting switch 7, the normal mode in which the control information according to the user's operation instruction is transmitted, and the control information (infrared light r) received from the other remote control device 10 received by the phototransistor 6 are displayed. The mode can be switched between a setting mode in which various settings such as storage in a storage unit 8 described later can be performed.

  The four outer peripheral surfaces 2a, 2b, 2c, and 2d other than both end surfaces have ten contact sensors S3-1 to S3- arranged in one row on the two relatively narrow side surfaces 2b and 2d, respectively. 10, S6-1 to S6-10, and 20 contact sensors S1-1 to S1-10 and S2-1 to S2-10 arranged in two rows on the relatively wide upper surface 2a and lower surface 2c, respectively. , S4-1 to S4-10, and S5-1 to S5-10. Each of the contact sensors S1-1 to S6-10 is composed of, for example, a strain gauge, and is configured so that the contact pressure can be detected as a current value together with the presence or absence of contact.

  Each contact sensor may be provided in a state in which the sensor surface slightly protrudes from the outer peripheral surface of the housing 2 and the user can easily recognize the position by visual and tactile senses. It may be provided in a state where the user cannot easily recognize the position by visual and tactile sense. Further, the contact sensors S1-1 to S6-10 are provided so as to almost cover a portion that the user's hand touches when the user grips the remote control device 1. In the remote control device 1 of the present embodiment, the housing 2 The four outer peripheral surfaces 2 a, 2 b, 2 c, 2 d excluding both end surfaces are covered with a total of 60 contact sensors S 1-1 to S 6-10. It is changed appropriately according to.

  Next, the electrical configuration of the remote control device 1 of the present embodiment will be described with reference to FIG. The electrical configuration of the remote control device 1 according to this embodiment includes a light emitting diode 3, an acceleration sensor 4, a phototransistor 6, a setting switch 7, contact sensors S1-1 to S6-10, and a microcomputer connected to them. The control unit 5 is provided.

  In addition, the control unit 5 includes a clock 9 for identifying time, a reception unit 11 for receiving radio waves (ID signals) transmitted from each electric device to identify a place where the remote control device 1 is used, A storage unit 8 is connected. The storage unit 8 includes a ROM and a RAM. The ROM stores a program for the general operation of the remote control device 1, and the RAM stores a history of control information transmitted from the remote control device 1. The

  In the remote control device 1 of the present embodiment, the contact sensors S1-1 to S6-10, the control unit 5 and the storage unit 8 constitute a user identification unit, the clock 9 and the control unit 5 constitute a time identification unit, and a reception unit 11, the control unit 5 and the storage unit 8 constitute a place identification unit. Hereinafter, each identification unit will be described in order.

  The control unit 5 includes a contact presence / absence signal (hereinafter referred to as a contact signal) and a contact pressure signal (hereinafter referred to as a pressure signal) from the 60 contact sensors S1-1 to S6-10. For each user stored in the storage unit 8 in advance, based on which contact sensor of 60 contact sensors S1-1 to S6-10 receives the contact signal (contact pattern). The user holding the remote control device 1 is identified by collating with the contact pattern.

  Moreover, the control part 5 receives a contact signal from which contact sensor among 60 contact sensors S1-1 to S6-10, how much pressure signal is received from which contact sensor, and those signals. The operation instruction (power on / off, switching of setting, etc.) performed by the user is identified according to how many time intervals are received. Further, the control unit 5 identifies an operation instruction made by the user from the direction and magnitude of the acceleration applied to the remote control device 1 based on the acceleration information transmitted from the acceleration sensor 4.

  Control unit 5 receives the time signal from timepiece 9 to identify the time when the contact signal is received from contact sensors S1-1 to S6-10 (the time when the user uses remote control device 1).

  The remote control device 1 is configured so that the control unit 5 can identify that the remote control device 1 is lifted and moved by the user based on the acceleration information transmitted from the acceleration sensor 4. Also, as shown in FIG. 12, each electric device such as the lighting fixture 102 and the air conditioner 103 is provided with transmission units 102a and 103a that transmit the ID of the electric device itself as a radio wave signal.

  When the remote control device 1 is identified as being moved by the user, the control unit 5 receives the radio wave (ID signal) from the electric device by the receiving unit 11 and identifies the position after the movement. For example, as shown in FIG. 12, when the user lifts the remote control device 1 in the living room on the second floor and moves to the bedroom, the remote control device 1 receives radio waves from the lighting fixture 102 in the bedroom, It recognizes that it moved to the bedroom from the ID signal included in the radio wave, and identifies the current position of the remote control device 1 itself.

  As for the location identification means, instead of the transmission units 102a and 103a being provided in each electrical device, a dedicated transmission device that transmits an ID signal for each room may be provided in each room, or the remote control device 1 A GPS signal receiving device that receives a position signal from a GPS (Global Positioning System) satellite itself may be provided, and the remote control device 1 may be configured to identify a location based on the GPS signal.

  Hereinafter, the control information transmission procedure will be described with reference to FIG. 3, and the operation of each of the identification means of the control unit 5 will be specifically described.

  The flowchart shown in FIG. 3 is a control information transmission procedure in which the control unit 5 reads and executes a program stored in the ROM in the storage unit 8. The controller 5 first determines whether or not the pattern of the contact signal received from the contact sensors S1-1 to S6-10 matches the registered pattern (# 1).

  This determination process will be specifically described with reference to FIGS. 4 and 5 show the presence or absence of contact signals from the 60 contact sensors S1-1 to S6-10 when held by different users in a matrix. A horizontal row of the matrix represents each column of the contact sensor. The colored positions in FIGS. 4 and 5 represent the position of the contact sensor that transmits the contact signal. In FIG. 4, the contact sensors S1-2 to S1-8 in the first row and the contact sensor S2 in the second row. -2, S2-5 to S2-8, third row contact sensors S3-5 to S3-8, fourth row contact sensors S4-4 to S4-8, and fifth row contact sensor S5- 3 to S5-8 and the contact sensors S6-2 to S6-8 in the sixth column transmit the contact signal. FIG. 5 shows that a contact sensor at a position different from that in FIG. 4 transmits a contact signal.

  From the contact sensors S1-1 to S6-10 of the remote control device 1 held by the user as described above, different positions and different numbers of contact sensors transmit contact signals depending on the manner of gripping, and the control unit 5 The contact signal is received and recognized as a contact pattern. For example, the contact pattern shown in FIG. 4 is recognized when the user A grips the remote control device 1, and the contact pattern shown in FIG. 5 is recognized when the user B grips the remote control device 1.

  The manner of gripping by the user varies from user to user depending on the size of the user's hand, how to hold it, etc., but the same user is generally constant even if the gripping time or place changes, and the contact pattern is also It is generally constant for each user. That is, the user can be identified by determining whether or not the contact patterns match.

  In the RAM of the storage unit 5, a contact pattern for each user is stored in advance by a method described later. One of the pre-stored contact patterns (hereinafter referred to as a registered pattern) and the control unit 5 It is determined whether or not the currently recognized contact pattern matches. Specifically, it is determined whether or not the positions of the contact sensors that transmit the contact signals constituting the contact pattern match.

  Note that even the same user may change the way it is held slightly, so in addition to the case where the position of the contact sensor that is transmitting the contact signal is completely the same, And the registered pattern match.

  For example, the grip position of the user may be shifted in the longitudinal direction of the remote control device 1, and in this case, the position of the contact sensor that transmits the contact signal is shifted in the direction along the row of contact sensors as a whole. Further, there is a case where the user grips the remote control device 1 in the front / rear direction or up / down direction, and in this case, the position of the contact sensor that transmits the contact signal is inverted as a whole.

  In these cases, the shape of the contact pattern shown in FIGS. 4 and 5 moves to the left and right or flips to the left and right. If the overall shape is the same, the contact pattern matches the registered pattern. It shall be. Furthermore, even when the difference between the contact pattern obtained by gripping by the user and the registered pattern is slight (several percent of the total number of contact sensors), both patterns are assumed to match.

  If the contact pattern does not match any of the registered patterns by the above processing (NO in # 1), the control unit 5 registers the contact pattern as a new contact pattern (# 2) and stores it in the storage unit 8. .

  If it is determined by the above processing that the contact pattern matches any of the registered patterns (YES in # 1), the user in use is identified as the user (for example, Mr. A) of the matching registered pattern. (# 3).

  Next, the control unit 5 determines whether or not an operation instruction has been made by the user (# 4). The operation instruction by the user is performed by, for example, an operation of lightly tapping the outer peripheral surface of the housing 2 with the tip of the index finger or an operation of shaking the entire remote control device 1 left and right while the user holds the remote control device 1. This determination process will be specifically described with reference to FIGS.

  6 to 8 show contact patterns when the same user (Mr. A) holds the remote control device 1. Now, when the user performs an operation of tapping the outer peripheral surface of the housing 2 with the tip of the thumb while holding the remote control device 1, the contact sensor S6-2 corresponding to the tip of the thumb interrupts the contact signal at regular time intervals. Then send. In FIG. 6, a contact sensor S6-2 in which a portion shown in dark color intermittently transmits a contact signal is shown.

  Further, when the user alternately taps the outer peripheral surface of the housing 2 left and right with the tip of the index finger while holding the remote control device 1 or performs a stroke operation to the left and right, the contact sensors S1-2 and S2 corresponding to the tip of the index finger. -2 transmits the contact signal intermittently at regular time intervals. In FIG. 7, the contact sensors S1-2 and S2-2 that the portions shown in dark color intermittently transmit contact signals are shown.

  Furthermore, when the user grips the remote control device 1 firmly up and down, the contact sensors S1-2 to S1-8 and the like corresponding to the upper and lower surfaces of the casing 2 of the remote control device 1 receive a predetermined or higher contact pressure. The pressure value is transmitted to the control unit 5. In FIG. 8, the contact sensor in which the part shown by the dark color receives the pressure more than predetermined is shown.

  The operation instruction by the user is basically an operation accompanied by a change with time after the user first grips the remote control device 1, and the contact sensors S <b> 1-1 to S <b> 6-10 or the acceleration sensor 4 depending on those operations. Is accompanied by a change with time in the signal transmitted from the control unit 5 to the control unit 5. Hereinafter, a change in the signal received by the control unit 5 while the user holds the remote control device 1 is referred to as a signal change pattern. Also, the operation instructions that cause the signal change patterns shown in FIGS. 6 to 8 are referred to as an operation instruction P1, an operation instruction P2, and an operation instruction P3, respectively.

  The control unit 5 determines that an operation instruction has been made by the user when detecting such a change in the signals received from the acceleration sensor 4 or the contact sensors S1-1 to S6-10 (YES in # 4). ).

  Next, the control unit 5 acquires the time information and the location information of the remote control device 1 at that time from the time identification means and the location identification means, and identifies the time and location where the remote control device 1 is used (# 5). . For example, the control unit 5 identifies that the use time is 7 am and the use place is a bedroom.

  Next, the control unit 5 receives a plurality of operation instructions in the time zone at 7:00 am in the bedroom in which the operation instruction identified in # 4 (for example, the operation instruction P1) is set and registered in advance for each user in the storage unit 5. It is determined whether or not there is a matching operation instruction (# 6).

  This determination process will be described in detail with an example. Now, it is assumed that information belonging to the user (Mr. A) is set and registered in the storage unit 8 as shown in FIG. 9, divided by use place, use time zone, and operation instruction. The operation instructions P1 to P3 (signal change patterns) are digitized and stored in the storage unit 5, respectively.

  The information shown in FIG. 9 will be described. The control information corresponding to the operation instruction P1 is “lighting of the lighting fixture 102 (brightness 1st stage)” when the use place is a bedroom and the use time zone is between 10:00 pm and 6:00 am the next morning. The control information corresponding to the operation instruction P1 between 6 o'clock and 4 o'clock is “lighting of the lighting fixture 102 (brightness 4th stage)”. Similarly, the operation information corresponds to the operation instruction P1 when the use time is between 4 o'clock and 6 o'clock in the afternoon. The control information is set as “lighting of lighting fixture 102 (brightness third level)”. It is assumed that the brightness of the lighting fixture 102 is set to five levels.

  Similarly, the control information corresponding to the operation instruction P2 is “the air conditioner is turned on (heating mode, set temperature 20 ° C.)” when the use place is a bedroom and the use time is between 7:00 pm and 8:00 am the next morning. The control information corresponding to the operation instruction P2 when the time zone is between 8 am and 7 pm is “power-on of the air conditioner (heating mode, set temperature 18 ° C.)”.

  In addition, the control information corresponding to the operation instruction P2 is “use the air conditioner power on (heating mode, set temperature 23 ° C.)” when the use place is the living room and the use time zone is from 6:00 pm to 9:00 am the next morning. The control information corresponding to the operation instruction P2 when the time zone is between 9:00 am and 6:00 pm is “power-on of the air conditioner (heating mode, set temperature 20 ° C.)”.

  Furthermore, the control information corresponding to the operation instruction P3 is “Hard disk recorder power on (normal mode)” when the use place is a living room and the use time zone is from 11 pm to 6 pm the next day. The control information corresponding to the operation instruction P3 between “6 pm” and “11 pm the next day” is “power-on of the hard disk recorder (recording mode)”.

  The control information corresponding to the operation instruction P1 is “lighting of the entrance lamp” when the use place is the entrance and the use time zone is from 5:00 pm to 7:00 am the next morning, and the use time zone is from 7:00 am to 5:00 pm The control information corresponding to the operation instruction P1 is “lighting of the entrance lamp (lighting of the auxiliary lamp)”.

  As shown in FIG. 9, the control information set and registered in the storage unit 8 is generally unified, the lighting apparatus is turned on by the operation instruction P1, the air conditioner is turned on by the operation instruction P2, and the operation instruction P3. However, as will be described later, the setting registration in the storage unit 8 can be arbitrarily performed by the user for the convenience of the user himself / herself. For example, the operating instructions for turning on the air conditioner may be different between the living room and the bedroom, and if it is not necessary to control the air conditioner in the living room, the operating instruction for controlling the hard disk recorder in the living room may be It may be set to be performed by the operation instruction P1 or the operation instruction P2.

  Returning to the flowchart of FIG. The control unit 5 sets the operation instruction identified in # 4 (operation instruction P1) for each user shown in FIG. 9 within the range of the conditions identified in # 5 (use place: bedroom, use time: 7 am). It is determined whether or not it exists in the registered information (# 6). If it is determined that there is not (NO in # 6), control unit 5 waits for the next operation instruction from the user.

  If determined to be present (YES in # 6), the control unit 5 controls the control information corresponding to the combination of the condition (use place: bedroom, use time: 7:00 am) and the operation instruction (operation instruction P1). “Lighting lighting lighting (4th brightness)” is transmitted as infrared light R from the signal transmission unit (light emitting diode 3) (# 7).

  As is clear from the above description, even when the user to be used is the same and the operation instruction is the same, the control information transmitted from the remote control device 1 may be different when the usage location and the usage time are different.

  For example, as apparent from FIG. 9, when the operation instruction P1 is input by the user when the use place is a bedroom and the use time is 5:00 am, the control information “lighting of lighting equipment (brightness 1) Stage)) is transmitted from the remote control device 1, and the lighting fixture 102 is lit at a minimum brightness that does not awaken the user, but the place of use is in the bedroom and the user gives an operation instruction P1. However, if the usage time is 5:00 pm, the control information “lighting of lighting equipment (3rd brightness)” is transmitted from the remote control device 1, and the lighting equipment 102 Lights at a suitable moderate brightness.

  Further, when the use place is the entrance and the use time is 10:00 am and the operation instruction P1 is input by the user, the control information “lighting of the entrance light (lighting of the auxiliary light)” is transmitted from the remote control device 1. Since it is daytime, the auxiliary lamp is turned on instead of the main body.

  Further, as apparent from FIG. 9, when the user operates the remote control device 1 in the bedroom and the living room to turn on the air conditioner, the same operation instruction is input in the living room as when the operation instruction P2 is input in the bedroom. In the case of operating by inputting P2, the set temperature is adjusted so as to adapt to the place and time by a single operation (operation instruction P2), without the user performing complicated button pressing operations that match them one by one. The air conditioner is started after fine adjustment.

  Returning to the flowchart of FIG. The control unit 5 updates the control information history table by incrementing the cumulative transmission count of the control information history table stored in the storage unit 8 for the control information transmitted from the signal transmission unit (# 8).

  This process will be described with reference to FIG. FIG. 10 shows a configuration example of the control information history table T. The control information history table T is created for each combination of user, use place, and use time. For example, the control information history table T shown in FIG. 10 relates to control information transmitted from 7 am to 1 pm in the bedroom of the user (Mr. A).

  The control information history table T stores the cumulative number of transmissions and the frequency of the control information transmitted so far after the remote control device 1 is used. The frequency is represented by the ratio of the cumulative transmission count of the corresponding control information to the total cumulative transmission count for all control information.

  For example, as shown in FIG. 10, the cumulative number of transmissions for control information “lighting fixture lighting” is 32 times, the frequency is 25%, the cumulative number of transmissions for control information “lighting fixture lighting off” is 32 times, the frequency is 25%, For the control information “air conditioner power on”, the cumulative transmission count is 14 times and the frequency is 10%, and for the control information “air conditioner power off”, the cumulative transmission count is 13 times and the frequency is 9%.

  The control information “lighting fixture lighting” in the control information history table T of FIG. 10 includes control information “lighting fixture lighting (brightness first step)”, control information “lighting fixture lighting (brightness fourth step)”, And the control information “lighting fixture lighting (brightness third level)” are totaled, but history may be recorded for each control information set and registered in the storage unit 8. .

  For example, when the control unit 5 transmits the control information “air conditioner power-off” in the process of # 7, the control unit 5 controls the control information “power supply of the air conditioner in the control information history table T in the process of # 8. The cumulative transmission count for “OFF” is incremented to 14 times, and the frequency is updated to 10%.

  Next, based on the control information history table T updated in # 8, the control unit 5 determines whether the frequency of the transmitted control information is equal to or higher than a predetermined value (# 9). For example, when the predetermined value is set to 10%, the frequency of the control information “air conditioner power off” reaches 10% in the above example. It is determined that the value is equal to or greater than the predetermined value (YES in # 9).

  If it is determined that the frequency of the control information is equal to or higher than the predetermined value, the control unit 5 relaxes the identification condition for the control information (# 10).

  This process will be specifically described. The control unit 5 is in the operation instruction in which the same operation instruction as the operation instruction given by the user is combined with the same user and the same condition (use location and use time) preset and registered in the storage unit 8 As described above, the determination is made based on whether the signal change patterns corresponding to the respective operation instructions match. For control information whose frequency is determined to be equal to or greater than a predetermined value in # 9, this # 6 The identification condition in is relaxed.

  Further description will be given along the above example. Now, in # 6, for example, the control unit 5 is determined as a signal change pattern corresponding to the operation instruction P1 registered for setting (contact signal is intermittently transmitted from the contact sensor S6-2). When comparing the signal change pattern corresponding to the operation instruction (contact signal is intermittently transmitted from the contact sensor S5-2), if the identification condition is not relaxed, the signal change corresponding to the operation instruction P1 that is set and registered Since the signal change pattern corresponding to the operation instruction to be determined is different from the pattern, the determination in # 6 is determined as NO.

  However, when the identification condition in # 6 is relaxed, for example, in the above example, the positions of the contact sensors (S6-2 and S5-2) that transmit intermittent contact signals are close positions. If it is such a difference, the signal change patterns are considered to coincide with each other, and the determination in # 6 is YES.

  From the viewpoint of the user, for example, the user intends to give an operation instruction of “power-off of the air conditioner”, and even if the user taps the side surface of the housing 2 with a thumb, the hit position is deviated from the normal. There is a case. Even in such a case, if the identification condition is relaxed as described above, the control unit 5 identifies the operation instruction originally intended by the user (an operation instruction for transmitting “power-off of the air conditioner”). .

  For operation instructions with a high frequency (for example, operation instructions for transmitting “lighting fixture lighting”, “lighting fixture extinction”, etc.), there is no problem even if the identification conditions are relaxed as described above. It is easy to use without being compelled to accurately perform the operation instructions. In other words, for a high-frequency operation instruction, the degree of accuracy of the operation required by the user is relaxed, and the user can use the remote control device 1 easily.

  Further, as the information to be stored in the control information history table T, the frequency of the control information transmitted before and after the control information is transmitted for the control information with high frequency is stored separately from the frequency for each transmitted control information. As a result, for a series of related operations, the degree of accuracy of the operation required by the user is alleviated, and even if the user makes a small operation error, the control unit 5 performs the operation instruction originally intended by the user. It can be configured to be identified as

  This will be described with reference to FIGS. 11 (a) and 11 (b). FIG. 11A shows a history of control information transmitted immediately before control information “lighting fixture lighting” is transmitted from the start of use of the remote control device 1 to the control information “lighting fixture lighting”. Similarly, FIG. 11B shows the control information transmitted immediately after the control information “lighting lighting” is transmitted until the remote control device 1 is started to be used. This is a control information history table Tb in which the history is recorded.

  In the control information history table Ta shown in FIG. 11 (a), the control information transmitted immediately before the control information “lighting lighting” is transmitted has a frequency of “50% ON of the air conditioner”, It is stored that “Air-conditioner power-off” has a frequency of 25%. Further, in the control information history table Tb shown in FIG. 11B, the control information transmitted immediately after the control information “lighting lighting” is transmitted is “power-off of the air conditioner” with a frequency of 30%. Yes, it is stored that the frequency of “lighting fixtures turned off” is 10%.

  Accordingly, the control unit 5 is highly likely to select the control information “power on air conditioner” immediately before the user (Mr. A) selects the control information “lighting lighting” in the bedroom. Immediately after selecting “lit”, it is recognized that there is a high possibility that the control information “power-off of the air conditioner” is selected.

  The frequency of the control information recorded in the control information history tables Ta and Tb in FIGS. 11 (a) and 11 (b) is equal to or higher than a predetermined value, almost the same as the processing in # 9 and # 10 described above. In this case, the identification condition for the control information is relaxed.

  For example, when the operation instruction immediately before the user (Mr. A) performs in the bedroom is to select the control information “power on air conditioner”, the control unit 5 gives the next operation instruction to be performed by the user. When identifying along the flowchart of FIG. 3, the identification condition of the operation instruction corresponding to the control information “lighting lighting” is relaxed in the identification process of # 6.

  Thereby, even when the operation of the operation instruction corresponding to the next control information “lighting lighting” of the user is not accurate, the control unit 5 has control information “lighting lighting” that is likely to be originally intended by the user. When the signal change pattern close to the signal change pattern (operation instruction) corresponding to the control information “lighting lighting” is detected, the control information “lighting lighting” is transmitted as infrared light R. .

  Therefore, the above-described function is particularly effective in an electric device such as a hard disk recorder in which input of operation instructions by the user is executed one after another at relatively short time intervals. For example, in a hard disk recorder, when an operation instruction is continuously performed according to a series of operations that are routinely performed by the user (for example, “power on” → “playback” → “fast forward”, etc.), the user is required. The control unit 5 transmits the control information originally intended by the user even if the user makes a small operation mistake.

  As described above, in the remote control device 1 according to the present embodiment, even if there is a problem that the manner in which the user holds the remote control device 1 is not constant or the movement of the user's hand at the time of the operation instruction is not constant, Control information that is likely to be originally intended can be transmitted to an electrical device.

  Next, a procedure (hereinafter referred to as a setting procedure) for storing control information in the storage unit 8 of the remote control device 1 in association with the use place, use time, and operation instruction of the remote control device 1 will be described.

  In order to execute this setting procedure, the setting switch 7 is pressed in advance to switch the remote control device 1 to the setting mode. In place of the setting switch 7, switching to the setting mode may be performed by performing an operation that is not normally performed (for example, a long press for several seconds) on the contact sensor (for example, the contact sensor S <b> 2-1) at a specific position. It is good also as operation.

  In addition, the setting procedure includes a case where a large number of control information corresponding to a plurality of electrical devices is stored in advance in the storage unit 8 of the remote control device 1 by connecting an external personal computer to the remote control device 1 and a new control. There are two types of cases where information is received from another remote control device 10 via the phototransistor 6 and stored in the storage unit 8.

  First, a case where control information to be transmitted is stored in advance in the storage unit 8 of the remote control device 1 will be described. The user presses the setting switch 7 to switch the remote controller 1 to the setting mode, and then presses specific contact sensors (for example, the contact sensor S1-1 and the contact sensor S2-1) to control information desired to be set (for example, , “Air-conditioner power on (heating mode, set temperature 20 ° C.)” is selected, and then an operation instruction (for example, operation instruction P2) to be associated with the control information is performed, followed by a place of use ( Information on the bedroom) and the time of use (from 7:00 pm to 8:00 am the next day) are input from an external computer.

  Thereafter, similarly, the next control information (for example, “power-on of the hard disk recorder (normal mode)”) is selected, and an operation instruction (for example, the operation instruction P3) to be associated with the control information is performed. Subsequently, operations such as inputting information on the place of use (living room) and time of use (from 11:00 pm to 6:00 pm on the next day) from an external personal computer are repeated.

  When the setting of operation instructions for all control information desired by the user is completed, the setting switch 7 is pressed to switch the setting mode to the normal mode. Through the above setting procedure, the use place, the use time, and the operation instruction are stored in association with each control information stored in advance in the storage unit 8.

  Next, a case where new control information not previously stored in the storage unit 8 of the remote control device 1 is taken from another remote control device 10 and stored in the storage unit 8 will be described. The user presses the setting switch 7 to switch the remote control device 1 to the setting mode, and then operates another remote control device 10 (for example, a remote control device attached to the air conditioner) to control desired control information (for example, dehumidifying function operation, temperature). The setting 25 ° C. and the air volume / winding direction) are transmitted as infrared light r and stored in the storage unit 8 via the phototransistor (signal receiving unit) 6 of the remote control device 1.

  Thereafter, the user gives an operation instruction to be associated with the control information (for example, an operation of stroking the right side surface of the housing 2 with the middle finger), and subsequently a use place (for example, a living room) and a use time zone (for example, 10 am Enter the information from the external PC. By this procedure, the control information for instructing the dehumidifying function operation, the temperature setting of 25 ° C., and the automatic air flow direction to the storage unit 8 is the location information that the usage location is the living room, and the usage time zone is from 10 am to 5 pm It is stored in association with a combination of time information indicating that there is an operation instruction to stroke the right side surface of the housing 2 with the middle finger.

  Next, for example, the user operates another remote control device 10 to transmit control information (for example, heating function operation, temperature setting 22 ° C., air volume / air direction automatic, automatic stop after 4 hours) as infrared light r, It is stored in the remote control device 1. Thereafter, the user gives an operation instruction to be associated with the control information (for example, hitting the right side surface of the housing 2 twice with the middle finger), and subsequently uses the place (for example, a bedroom) and the use time zone (for example, Input information from 10 pm to 2 am the following day from an external computer. Thereafter, in the same manner, desired control information is transmitted from another remote control device 10, an operation instruction to be associated with the control information is performed, and subsequently, an input operation of a use place and a use time zone is repeatedly performed. When all the settings are completed, the setting switch 7 is finally pressed to switch the setting mode to the normal mode.

  As described above, in the remote control device 1 of the present embodiment, the control information from the other remote control device 10 can be easily stored after switching to the setting mode, so even when there are many electrical devices to be controlled. The user can make settings so that the electric devices can be easily controlled with the remote control device 1.

  The present invention is not limited to the configuration of the above embodiment, and various modifications can be made. For example, instead of being configured by the contact sensors 1-1 to 6-10, the control unit 5, and the storage unit 8, the user identification unit may be configured by a known personal identification device (for example, a fingerprint identification device), Instead of being configured by the contact sensors 1-1 to 6-10 and / or the acceleration sensor 4, the means for inputting the user operation instruction may be configured by a small number of buttons.

The perspective view of the remote control device concerning one embodiment of the present invention. The block diagram which shows the electric constitution of the remote control device. 6 is a flowchart showing a control information transmission procedure in the remote control device. The figure which shows the contact pattern by a contact sensor when a user (Mr. A) holds in the remote control device. The figure which shows the contact pattern by a contact sensor when a user (Mr. B) hold | grips in the same remote control apparatus. The figure which shows the signal change pattern when a user taps the housing | casing side surface with a thumb in the same remote control apparatus (operation instruction P1). The figure which shows the signal change pattern when a user taps the housing | casing surface with an index finger in the same remote control device (operation instruction P2). The figure which shows the signal change pattern when a user clamps a housing | casing in the same remote control apparatus (operation instruction P3). The figure which shows the control information set and registered about the user (Mr. A) memorize | stored in a memory | storage part in the same remote control apparatus, the use place matched with each control information, use time, and an operation instruction. The figure which shows the control information log | history table in the bedroom of the user (Mr. A) memorize | stored in a memory | storage part in the same remote control device. (A) is a figure which shows the control information log | history table of the control information transmitted before the control information "lighting fixture lighting" in the same remote control device is transmitted, (b) is the control information "lighting fixture" in the remote control device. The figure which shows the control information history table of the control information transmitted after "lighting" is transmitted. The figure which shows the state in which the same remote control apparatus is used in the house.

Explanation of symbols

1 Remote control device 3 Light emitting diode (signal transmitter)
4 acceleration sensor 5 control unit (signal transmission unit, user identification unit, location identification unit, time identification unit)
6 Phototransistor (Signal receiver)
8 storage unit (history storage unit)
9 Clock (time identification means)
10 Other remote control device 11 Receiving part (location identification means)
102 Lighting equipment (electrical equipment)
103 Air conditioner (electrical equipment)
S1-1 to S6-10 Contact sensor (user identification means)
T, Ta, Tb Control information history table (history storage unit)

Claims (6)

In a remote control device including a signal transmission unit that transmits control information to an electric device to be controlled in response to a user operation instruction,
User identification means for identifying a user who uses the remote control device;
A place identifying means for identifying a place where the remote control device is used;
Time identifying means for identifying the time when the remote control device is used;
For each user, a storage unit in which control information set in advance for each combination of user operation instruction, use place, and use time is registered, and
The signal transmission unit corresponds to a combination of a user, a usage location, and a usage time identified by the user identification unit, a location identification unit, and a time identification unit, and control information corresponding to a user operation instruction is stored in the storage unit A remote control device characterized in that the control information selected from the control information set and registered in is transmitted. A contact sensor and / or an acceleration sensor;
The signal transmission unit selects and transmits control information set and registered in the storage unit in accordance with a user operation instruction detected by the contact sensor and / or acceleration sensor. Remote control device. A history storage unit that stores the transmitted control information for each combination of the user identified by the user identification unit, the location identification unit, and the time identification unit, the usage location, and the usage time;
3. The remote control device according to claim 1, wherein the signal transmission unit selects control information to be transmitted with priority on frequently-used control information with reference to the history storage unit.   The history storage unit transmits the control information transmitted before and after the transmitted control information for each combination of the user identified by the user identification unit, the location identification unit, and the time identification unit, the usage location, and the usage time. 4. The remote control device according to claim 3, wherein the signal transmission unit stores and predicts and selects control information to be transmitted next with reference to the history storage unit. A signal receiving unit capable of receiving control information transmitted from another remote control device;
The storage unit stores the control information received by the signal receiving unit, and sets and registers as control information corresponding to a combination of a user operation instruction, a use place, and a use time for each user. The remote control device according to any one of claims 1 to 4.   6. A remote control system comprising: the remote control device according to claim 1; and an electric device controlled by control information transmitted from the remote control device.