JP2004138275A - Remote controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily attaract user's attention in the case where a transition of an object apparatus is generated in a remote controller displaying the information of the object apparatus. <P>SOLUTION: A connected apparatus discriminating part 91 reads the ID information from the object apparatus 111 to discriminate the object apparatus 111. A result of discrimination is notified to a screen information selecting displaying part 99. The selecting displaying part 99 selects the operation/control screen information of a hot water supply unit from a screen information accumulation part 97, and displays a picture on an LCD 105 based on the selection while controlling the back light 103 and the LCD 105. A state transition recognizing part 93 checks the presence or absence of the command to change an operating state of the hot water supply unit based on output signals from each read PD 109. When the command exists, it is notified to a display mode changing part 101. The changing part 101 selects the screen information corresponding to the notification, and displays the picture on the LCD 106 based on the screen information, replacing the currently displayed picture. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an improvement of a remote controller (hereinafter, referred to as a “remote controller”) that displays information related to, for example, a water heater or an accessory device of the water heater that can be optionally installed as a target device. In the following description, a remote control including a liquid crystal display having a full dot LCD will be described as an example.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a remote control, the emission color of a backlight of a liquid crystal display device is changed according to, for example, an operation state of a water heater as a target device (see, for example, Japanese Patent Application Laid-Open No. 8-33058).
[0003]
[Problems to be solved by the invention]
However, as described above, even if it is easy for the user to visually recognize the operation state of the water heater by changing the emission color of the backlight, the remote control requires attention to the user depending on the operation state of the water heater or the like. Even if a situation arises in which the user needs to be alerted, the screen information displayed on the liquid crystal display cannot be automatically changed to screen information that alerts the user.
[0004]
Therefore, an object of the present invention is to make it easier for a user to call attention when a transition occurs in the state of a target device in a remote controller that displays information related to the target device.
[0005]
Another object of the present invention is to make it easier for a user to grasp the state transition of a target device when a transition occurs in the state of the target device in a remote controller that displays information related to the target device. It is in.
[0006]
Further, another object of the present invention is to provide a mobile communication terminal connected to these remote controllers not only when a plurality of remote controllers for displaying information relating to the target device are installed, but also when a mobile communication terminal is connected to the remote controllers. When a call is made, it is possible to make a call with the caller through the remote controller and the portable communication terminal.
[0007]
[Means for Solving the Problems]
A remote controller according to a first aspect of the present invention is for displaying information relating to a target device, and a state display means for displaying the status of the target device in an expression format using icons or characters; State detecting means for detecting the state of the target device, and responding to the state detecting means detecting a change in the state of the target device, the expression form of the state display means is changed from a pictorial image to a character (for example, a normal language expression). And an expression format changing means for changing from a character to an icon, including a number, in addition to a kanji, a kana, an alphabet and the like to be used.
[0008]
According to the above configuration, in response to the detection of the change in the state of the target device, the expression format of the state display unit is changed from the icon to the character or from the character to the icon. In the case where the error occurs, the user can be easily alerted.
[0009]
In a preferred embodiment according to the first aspect of the present invention, the change of the expression form is such that, for example, the change in the expression form is performed as if it changes continuously from an icon to a character or from a character to an icon. Is performed through three or more stages (including a transitional stage from an icon to a character or from a character to an icon). That is, the display switching from the icon to the character or from the character to the icon is not instantaneous, but is performed gradually. In the above case, the display of the color of the icon or the character, the background color, or the pattern is changed after the change of the expression form.
[0010]
A remote controller according to a second aspect of the present invention is for displaying information related to a target device, and a state display means for displaying a status of the target device in an expression form using icons or characters; State detection means for detecting the state of the device, and in response to the detection of a change in the state of the target device by the state detection means, the size of the icon or the size of the icon or the line displayed on the state display means, or Changing means for changing the thickness.
[0011]
According to the above configuration, in response to the detection of the change in the state of the target device, the size of the icon or the character displayed on the status display unit or the thickness of the line is changed, so that the state of the target device is changed. When a transition occurs, the user can be easily alerted.
[0012]
In a preferred embodiment according to the second aspect of the present invention, after the size of the icon or the character or the thickness of the line is changed, the display of the color of the icon or the character, or the background color, or the pattern is changed. It has been changed. Further, for example, while controlling the state display means based on operating information obtained from the target device including a water temperature detection signal from a water temperature sensor that detects the temperature of water used indoors at a predetermined location, the state display means For example, a liquid crystal display (having a full dot LCD).
[0013]
In another embodiment different from the above, audio information generation / output means for generating and outputting information relating to the detection result from the state detection means to audio information, and output from the audio information generation / output means A voice output unit for receiving voice information and outputting the voice information to the outside.
[0014]
Further, in another embodiment, a detecting means for detecting a predetermined physical quantity related to an indoor environment, and a background color or a pattern on the liquid crystal display based on the predetermined physical quantity detected by the detecting means. And a background color / pattern display changing means for changing the display of the image.
[0015]
In another embodiment different from the above, the audio information generating / outputting means for generating and outputting information relating to the detection result from the detecting means relating to the indoor environment to audio information, and the audio information generating / outputting means And an audio output unit for receiving the audio information output from the external device and outputting the same to the outside.
[0016]
In another embodiment different from the above, the detecting means relating to the indoor environment includes, for example, (1) a temperature sensor for detecting an air temperature at a predetermined place indoors, and (2) a date of the day and a time at the time. At least one of a date / time detecting unit (a module having a calendar function and a module having a timer function) for detecting a time. The target device is, for example, a water heater, or an accessory device of the water heater that can be installed as an option.
[0017]
In another embodiment different from the above, the expression format changing means displays the background color of the liquid crystal display unit on the display of the background color of the bathtub water determined based on the water temperature detection signal from the water temperature sensor. ) Color display when it is determined that bath water is not boiling at all, (2) color display when it is determined that bath water has started to boil, (3) color display when it is determined that bath water has reached an appropriate temperature, And (4) notification by setting to one of the color displays when it is determined that the bathtub water is in the hot water state.
[0018]
In another embodiment different from the above, the expression format changing means may display the temperature of the bathroom determined based on the temperature detection signal from the temperature sensor, for example, by displaying the background color of the liquid crystal display as (1). ) Color display when the temperature in the bathroom is determined to be lower than the predetermined temperature (because the day belongs to the cold season), and (2) when the temperature in the bathroom is determined to be the predetermined temperature Is notified by setting one of the color displays.
[0019]
In another embodiment different from the above, the state display means displays a state in which a different operation or a different posture is taken on the image using an anthropomorphic image, and the state is detected by the state detecting means. The plurality of states or state changes of the target device are expressed.
[0020]
In another embodiment different from the above, the voice information generating / outputting means outputs the voice as the voice generated from the anthropomorphic image by outputting the voice to the outside through the voice output unit.
[0021]
Further, in another embodiment different from the above, at least a first remote controller installed in a kitchen and a second remote controller installed in a bathroom are included, and the first remote controller is connected to a portable communication terminal. A communication interface connectable to the first and second remote controllers, and receiving an incoming call to the mobile communication terminal; It is configured to be able to make a call using the second remote controller.
[0022]
Further, in another embodiment, the communication interface is configured to be able to charge the connected portable communication terminal.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0024]
FIG. 1 is a plan view showing an operation unit of a water heater control remote controller which is an example of the remote controller according to the first embodiment of the present invention.
[0025]
As shown in FIG. 1, the operation unit of the remote controller includes rectangular areas (hereinafter, referred to as “touch panels”) 1, 3, 5, 7, and 9 each being an LCD touch panel. The hardware configuration of the touch panel 1 and the hardware configurations of the touch panels 3 to 9 are basically the same. The hardware configuration of the touch panels 1 to 9 will be described in detail with reference to FIG.
[0026]
In the present embodiment, five different types of switches are displayed on the touch panel 1 at a time. In the example shown in FIG. 1, a hot water supply temperature setting switch 1a, a bath temperature setting switch 1b, a bath water amount setting switch 1c, a bathtub cleaning switch 1d, and a display screen changeover switch 1e are displayed on the touch panel 1 side. The set temperature, bath set temperature, bath set hot water amount, bathtub cleaning, and screen switching state are being displayed. Of course, in addition to the example shown in FIG. 1, since the touch panel 1 uses a full dot LCD, various switch displays are possible. There are two types of full-dot LCDs: monochrome and color (full-color). Either one can be used. However, in this embodiment, a monochrome full-dot LCD will be described. .
[0027]
The size of the display area of each switch displayed on the touch panel 1 can be freely enlarged / reduced for each switch, and therefore the number of displayed switches can also be changed. Thus, the number is not limited to five. In addition, five types of switches displayed simultaneously on the touch panel 1 have their respective switch functions enabled at the time they are displayed, so that the RGB light emitting elements for the backlight provided on the touch panel 1 are provided. The (red / green / blue) LED (described in FIG. 2) is activated at the time when the display is started, and emits light of a predetermined color (for example, blue light) while each of the switch functions is valid. Keep doing.
[0028]
On the other hand, four different switch types are individually displayed on the touch panels 3 to 9. In the example shown in FIG. 1, the operation on / off switch is displayed on the touch panel 3, the hot water insulation switch on the touch panel 5, the insulation switch on the touch panel 7 is displayed, and the call switch is displayed on the touch panel 9. . Needless to say, various switches can be displayed on the touch panels 3 to 9 in addition to the example shown in FIG. Here, the touch panel 1 and the touch panels 3 to 9 are substantially flat as a whole in a frame made of a synthetic resin material such as an acrylic plate (for protection) that covers the surface of the operation unit of the remote controller. It is fitted so as to form a perfect surface. However, it is also possible to arrange each of the touch panels 3 to 9 divided into four touch panels via the frame as one touch panel like the touch panel 1 on the surface of the operation unit.
[0029]
In this embodiment, the functions of the operation on / off switch (3) and the hot water heater switch (5) are effective, and the function of the heat insulation switch (7) is disabled. Therefore, the backlight RGB LEDs (described in FIG. 2) provided on the touch panel 3 and the touch panel 5, respectively, are activated when the display is started, that is, when the switch functions are enabled. Then, light of a predetermined color (for example, green light) is emitted, but the backlight RGB LEDs provided on the touch panel 7 and the touch panel 9 are not activated at the above time. In other words, on the touch panels 3 to 9, unlike the touch panel 1, the functions of the switches displayed on the respective touch panels (3 to 9) are not all valid at the same time. As a means for notifying the user, only the backlight RGB LED of the touch panel having the effective switch function is driven.
[0030]
The icons and character information of the various switches described above are displayed on the touch panels 1 to 9 in a freely changeable manner, for example, by activating an application program installed in the microcomputer in the remote controller.
[0031]
FIG. 2 is a cross-sectional view showing one embodiment of the operation unit of the water heater control remote controller shown in FIG.
[0032]
As shown in FIG. 2, the operation unit of the remote controller includes a casing 11, a protective acrylic plate 13, an LCD layer 15, a diffusion sheet 17, a light guide plate 19, a reflection sheet 21, a backlight holder 23, and the like. , A printed circuit board 25, a piezo element 27, a microphone (microphone) 29, a speaker 31, an RGB LED 33, a plurality of infrared LEDs 35 and 37, and a plurality of infrared light receiving photodiodes (PDs) 39 and 41. Prepare.
[0033]
The casing 11 has a substantially U-shaped cross section when viewed from the front side in FIG. 2, and a predetermined distance from the bottom surface of the casing 11 is provided below the internal space of the casing 11. The printed circuit board 25 is arranged so as to be substantially parallel to the bottom surface. The printed circuit board 25 has a plurality (4 in FIG. 4) for allowing the light emitting portions of the plurality of infrared LEDs (35, 37) and the light receiving portions of the plurality of PDs (39, 41) to face the appropriate portions, respectively. ) Through holes 25a, 25b, 25c, 25d. The printed circuit board 25 is fixed to a predetermined position in the casing 11 by being screwed to, for example, a rib (not shown) provided on the inner wall surface of the casing 11.
[0034]
As described above, the RGB LED 33 functions as a light emitting element for a backlight, and is attached and fixed to an appropriate position on the upper surface of the printed circuit board 25 and has a predetermined color (red, green, blue) toward the light guide plate 19. ) Is emitted.
[0035]
The backlight holder 23 moves the LCD layer 15, the diffusion sheet 17, the light guide plate 19, and the reflection sheet 21 upward from the bottom in FIG. 2 to the reflection sheet 21, the light guide plate 19, the diffusion sheet 17, and the LCD layer 15. Are members for holding and fixing in a layered manner in the order of. The backlight holder 23 is formed so that the cross-sectional shape as viewed from the front side in FIG. 2 has a substantially U-shape, and the through holes 23a correspond to the through holes 25a, 25b, 25c, 25d of the printed circuit board 25, respectively. , 23b, 23c and 23d. Then, the positions of the through holes 23a, 23b, 23c, and 23d are positioned so as to correspond to the positions of the through holes 25a, 25b, 25c, and 25d, respectively, and are mounted and fixed on the upper surface side of the printed circuit board 25. .
[0036]
The reflection sheet 21 reflects the light emitted from the RGBLED 33 for the backlight, which is incident from the diffusion sheet 17 side through the light guide plate 19, to the diffusion sheet 17 side through the light guide plate 19 (of the backlight holder 23). There are through holes 21a, 21b, 21c, 21d corresponding to the through holes 23a, 23b, 23c, 23d and the through holes 25a, 25b, 25c, 25d (of the printed circuit board 25), respectively. Then, the positions of the through holes 21a, 21b, 21c, and 21d are positioned so as to correspond to the positions of the through holes 23a, 23b, 23c, and 23d, respectively, and are mounted and fixed on the bottom surface of the backlight holder 23. I have.
[0037]
Here, the diameters of the through holes 23a to 23d and the through holes 21a to 21d are all the outer diameter of the light emitting portion of the infrared LED (35, 37) or the outer diameter of the light receiving portion of the PD (39, 41). It is set much smaller than. Thereby, the infrared light emitted from the infrared LED (35, 37) is sequentially emitted while being reflected inside the through holes 25b, 25d, the through holes 23b, 23d, and the through holes 21b, 21d on the infrared LED side, In addition, since the light is sequentially incident on the PDs (39, 41) while being reflected inside the through holes 21a, 21c, the through holes 23a, 23c, and the through holes 25a, 25c on the PD side, it functions as an LCD touch panel. It is possible to secure a sufficient amount of light. In addition, by providing a cylindrical body (not shown) in the through holes 25a and 25c, the light receiving portion of the PD (39, 41) is covered with the cylindrical body (not shown), and infrared light incident from an oblique direction is prevented. A configuration that blocks light, or a configuration that narrows the light receiving range of the PDs (39, 41) by inserting lenses into the through holes 25a and 25c to have directivity can be conceived.
[0038]
The light guide plate 19 guides light of a predetermined color (any one of red, green, and blue) emitted from the backlight RGB LED 33 toward the diffusion sheet 17 and reflects the light incident from the diffusion sheet 17 side on the reflection sheet. This is for guiding in the 21 direction, and is placed and fixed in a state of being in close contact with the upper surface of the reflection sheet 21. In the light guide plate 19, a portion of the light guide plate 19 immediately above the through holes 21a to 21d is processed so that infrared light is condensed on the portion (the process of simply transmitting light, but not the process of diffusing light). Is given. This corresponds to the portion directly above the infrared LED (35, 37) (that is, the portion corresponding to the through holes 21b, 21d) or the portion directly above the PD (39, 41) (that is, the portion corresponding to the through holes 21a, 21c). ) In order to prevent infrared rays from diffusing.
[0039]
The diffusion sheet 17 is for substantially uniformly diffusing the light emitted from the backlight RGB LED 33 that enters through the light guide plate 19 inside the casing 11, and is placed and fixed in a state of being in close contact with the upper surface of the light guide plate 19. Have been. Part of the emitted light diffused by the diffusion sheet 17 is emitted to the outside of the casing 11 through the LCD layer 15 and the protective acrylic plate 13, and the remaining emitted light enters the reflection sheet 21 through the light guide plate 19. Then, the light is reflected by the reflection sheet 21 and again enters the diffusion sheet 17 through the light guide plate 19, and a part of the light is emitted to the outside of the casing 11. Through such a process, the entire LCD layer 15 is illuminated with the light emitted from the RGBLEDs 33.
[0040]
The diffusion sheet 17 includes light-emitting portions of a plurality of infrared LEDs (35, 37) and light-receiving portions of a plurality of PDs (39, 41) facing the through holes 25a to 25d, respectively. , The through holes 21 a to 21 d, the LCD layer 15, and the protective acrylic plate 13, and also functions as a shielding member for preventing the image from being seen through from the outside. The diffusion sheet 17 is made of a material having a high infrared transmittance.
[0041]
As shown in FIG. 2, the LCD layer 15 is formed on the upper portion of the casing 11 via a plurality of rod-shaped members (not shown) extending upward from an edge protruding above the backlight holder 23. And is held and fixed by the backlight holder 23 in a state where it is positioned at a position facing the opening formed at the bottom. The upper surface of the diffusion sheet 17 and the lower surface of the LCD layer 15 face each other with a predetermined gap. The LCD layer 15 is made of a material having a high infrared transmittance. As described above, for example, a monochrome full dot LCD is used for the LCD layer 15.
[0042]
The protective acrylic plate 13 is provided to prevent the surface of the LCD layer 15 from being damaged, and is attached and fixed to the casing 11 with the opening of the casing 11 completely closed. The protective acrylic plate 13 has a characteristic that the transmittance of infrared rays is high. The lower surface of the protective acrylic plate 13 and the upper surface of the LCD layer 15 face each other with a predetermined gap.
[0043]
The piezo element 27 converts, for example, minute vibration generated when a user's fingertip touches the protective acrylic plate 13 into an electric signal and outputs the electric signal to the microcomputer (inside the remote controller). It is attached and fixed at an appropriate position on the lower surface of the plate 13. The microphone 29 is used, for example, when a user gives a command to the microcomputer by voice or when a conversation is performed with a user who is taking a bath, and is attached and fixed to a portion near an opening in the casing 11. ing. The speaker 31 is used when transmitting various information to the user by voice under the control of the microcomputer, or when transmitting voice from a user who is taking a bath, and the like. Similarly, it is attached and fixed to a portion near the opening in the casing 11.
[0044]
In the present embodiment, the infrared LEDs (35, 37) have their light emitting portions facing the through holes 25b, 25d, respectively, and the PD (39, 41) has their light receiving portions connected. Both are attached and fixed to the lower surface side of the printed circuit board 25 in a state of facing the through holes 25a and 25c, respectively. The infrared LEDs (35, 37) and the PDs (39, 41) are configured such that infrared light emitted from the infrared LEDs (35, 37) tries to touch a detection target (for example, the protective acrylic plate 13). The PDs (39, 41) receive infrared light reflected on a user's fingertip, etc., and output a predetermined electric signal, thereby functioning as a sensor unit of the LCD touch panel.
[0045]
FIG. 3 is a plan view showing an image of the operation unit of the water heater control remote controller having the configuration shown in FIG. 1 as viewed through the inside from the surface direction in FIG. 3.
[0046]
In FIG. 3, a region 51 corresponds to the LCD layer 15 described in FIG. 2 and is composed of one LCD, and regions 53, 55, 57, 59, and 61 are all denoted by reference numerals in FIG. This corresponds to the light guide plate (for the backlight) described in 19. The area 63 is the touch panel described with reference numeral 1 in FIG. 1, and the areas 65, 67, 69, and 71 are the touch panels described in FIG. 1 (the operation on / off switch 3, the hot water heat insulating switch 5, and the warm heat switch). 7, call switch 9). Although not shown, five RGBLEDs 33 shown in FIG. 2 are arranged at appropriate positions in the regions 63, 65, 67, 69, and 71, respectively, one by one. Accordingly, light of a desired color is emitted as a backlight into an area (touch panel) corresponding to each of the RGB LEDs 33. In each of the regions 63, 65, 67, 69, and 71, an infrared LED indicated by reference numeral 35 (37) and a PD indicated by reference numeral 39 (41) in FIG. Are arranged one by one as shown by.
[0047]
As shown in FIG. 4, the infrared LEDs (35, 37) and the PDs (39, 41) are used when the object (for example, the fingertip of the user) contacts any position on the surface of the same panel. May be arranged in a matrix so that the contact can be detected. By arranging the infrared LEDs (35, 37) and the six PDs (39, 41) in a matrix in the above manner, it is possible to detect the contact position of the object on the surface of the same panel. . Therefore, unlike the related art, it is not necessary to provide the infrared LEDs (35, 37) in a number corresponding to the number of switches set in the same panel. This makes it possible to reduce the number of parts, and also to reduce the physical restrictions when arranging the above-described parts.
[0048]
FIG. 5 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the first embodiment of the present invention.
[0049]
As shown in FIG. 5, the control system includes a backlight driving unit 81, an LCD driving unit 83, a red driving unit 83 described as functional blocks in a microcomputer (hereinafter, referred to as a “controller”) 100 used as a controller. External LED drive unit 85, PD output input unit 87, device information transmission / reception unit 89, connected device determination unit 91, state transition recognition unit 93, control unit 95, screen information storage unit 97, screen information selection, display unit 99, And a display mode changing unit 101. The input of various command signals to the control system is performed by a user appropriately operating an operation unit including the backlight 103, the LCD 105, the infrared LED 107, and the PD 109.
[0050]
The infrared LED drive unit 85 performs on / off control of a drive voltage applied to each infrared LED 107 from a power supply (not shown) under the control of the control unit 95. Under the control of the control unit 95, the PD output input unit 87 reads the output signals from each of the PDs 109 and outputs them to the control unit 95.
[0051]
Under the control of the control unit 95, the backlight drive unit 81 turns on / off a drive voltage applied from a power supply (not shown) to the backlight 103 (that is, the RGBLED 33; hereinafter, described as the backlight 103). Perform control. In addition to the on / off control, the backlight drive unit 81 is used to operate and control a target device (for example, a water heater, etc.) on the LCD 105 based on screen information selection and a color expression instruction from the display unit 99. The backlight 103 is controlled to perform necessary color representation of various screen information. When a command to change the color expression in the screen information being displayed on the LCD 105 is output as a command to change the display mode from the display mode changing unit 101, the backlight driving unit 81 outputs the backlight based on the change command. By controlling 103, the color expression in the screen information is changed.
[0052]
The LCD drive unit 83 performs on / off control of a drive voltage applied from a power supply (not shown) to the LCD 105 (that is, the above-described LCD layer 15; the same applies hereinafter) under the control of the control unit 95. In addition to the on / off control, the LCD drive unit 83 displays the screen information output through the screen information selection and display unit 99 on the LCD 105 in the display mode specified by the screen information selection and display unit 99. When a change command relating to the display content of the screen information being displayed on the LCD 105 is output as a display mode change command from the display mode change unit 101, the LCD driving unit 83 controls the LCD 105 based on the change command. By controlling, the display content in the screen information is changed.
[0053]
The device information transmission / reception unit 89 communicates with the control-related information transmission / reception unit 113 of the target device 111 through a signal transmission line under the control of the control unit 95 to determine what kind of device the target device 111 is. The device identification information for determination is obtained from the control-related information transmission / reception unit 113 and output to the connected device determination unit 91. The device information transmission / reception unit 89 reads the control signal of the target device 111 output from the control unit 95, and transmits the control signal to the target device 111 through the signal transmission line and the control-related information transmission / reception unit 113. Transmit to the unit 115.
[0054]
The connected device determining unit 91 reads the device identification information from the device information transmitting / receiving unit 89 and determines what kind of device the target device 111 is. For example, if the target device 111 is a water heater, predetermined identification information (ID information) of the water heater is transmitted from the control-related information transmitting / receiving unit 113 to the signal transmission line and the device information transmitting / receiving unit 89. Is transmitted to the connected device discriminating unit 91, the connected device discriminating unit 91 determines that the target device 111 is a water heater based on the ID information. The connected device determination unit 91 outputs the determination result to the screen information selection / display unit 99.
[0055]
The screen information storage unit 97 stores screen information (including a switch group and the like) necessary for operating and controlling each device for each device that can be controlled, and selects and displays the screen information. In response to a screen information reading request from the unit 99 or the display mode changing unit 101, the corresponding screen information is output to the screen information selection / display unit 99 or the display mode changing unit 101.
[0056]
The screen information selection and display unit 99 receives the determination result (indicating that the target device 111 is a water heater) from the connected device determination unit 91 to operate and control the target device (water heater) 111. Is selected from the screen information storage unit 97, and a screen based on the screen information (a screen based on the screen information in both display content and color expression) is displayed and formed on the LCD 105. The LCD 105 is controlled through the driving unit 83, and the backlight 103 is controlled through the backlight driving unit 81.
[0057]
The state transition recognizing unit 93 reads an output signal from the PD output input unit 87, so that the user operates the operation unit (not shown) to change the operation state of the target device 111 (for example, a water heater). It is checked whether it has been given to the control unit 95 or not. As a result of this check, when recognizing, together with the content of the command, that the command to change the operating state of the target device 111 has been given to the control unit 95, the state transition recognizing unit 93 changes the recognition result to a display mode change. Notify section 101. For example, assuming that the target device 111 is a water heater, the user operates the screen display of the hot water temperature setting key on the LCD 105 to set the hot water temperature to a high temperature such as 60 ° C. The transition recognizing unit 93 recognizes the temperature setting by reading the signals output from the respective PDs 109 through the PD output input unit 87. Then, the state transition recognizing unit 93 notifies the display mode changing unit 101 that the recognition result, that is, the setting of the hot water supply temperature is changed to a high temperature (changed from 40 ° C. to 60 ° C.).
[0058]
The display mode change unit 101 changes the display mode of the screen information selected and displayed on the LCD 105 by the display unit 99 based on the notification from the state transition recognition unit 93. That is, based on the notification from the state transition recognizing unit 93 (that is, indicating that the hot water supply set temperature has been set to a high temperature by the user), the display mode changing unit 101 performs color representation in the screen information displayed on the LCD 105. When it is determined that the change of the display mode is necessary, a change command of the color expression is output to the backlight drive unit 81 as a change command of the display mode. When this color expression change command is output, the backlight driving unit 81 changes the color expression in the screen information by controlling the backlight 103 based on the color change instruction. For example, when the user sets the hot water supply temperature to a high temperature as described above, the display mode changing unit 101 transmits the backlight 103 through the backlight driving unit 81 to draw the user's attention that hot water is to be supplied. , The color of the screen display is changed to, for example, red.
[0059]
If the display mode changing unit 101 determines that it is necessary to change the display content of the screen information displayed on the LCD 105 based on the notification from the state transition recognizing unit 93, the display mode changing unit 101 issues the display mode change command as the display mode change command. An instruction to change the display content in the screen information is output to the LCD drive unit 83. When the display content change command is output, the LCD drive unit 83 changes the display content in the screen information by controlling the LCD 105 based on the display content change command. For example, when the user sets the hot water temperature to a high temperature as described above, the display mode changing unit 101 controls the LCD 105 through the LCD driving unit 83 to call the user's attention that hot water is to be supplied. By doing so, the display of the hot water temperature is changed to bold or large in the above screen display, or the message "Hot water temperature is set to high temperature. Change the representation of a part so that it is represented in larger characters than the other parts.
[0060]
As described above, the control unit 95 controls the backlight drive unit 81, the LCD drive unit 83, the infrared LED drive unit 85, the PD output input unit 87, and the device information transmission / reception unit 89, and controls these units. Is appropriately controlled.
[0061]
FIG. 6 is an explanatory diagram showing an example of a change in display content in screen information being displayed on the LCD 105 by the display mode changing unit 101 shown in FIG.
[0062]
In the example shown in FIG. 6 (a), in the screen display showing the rising of the bath, where the steam rises from the bathtub, the steam changes to 42 ° C., which is the bath heating temperature, due to a gradation change over time. I do. In other words, the display contents are changed as shown in FIG. 6 so that the image can be visually recognized as if the form of expression changes continuously from the icon of steam rising from the bathtub to the character of 42 ° C. As shown in (a), at least three or more stages (including a transitional stage from an icon to a character. In FIG. 6 (a), the transitional stage includes a substantially complete icon display and a substantially complete character display. Is set in two stages). In other words, the change of the display content (display switching) is not instantaneous, but is performed gradually.
[0063]
In the example shown in FIG. 6B, when the hot water supply set temperature is changed from 40 ° C. to 60 ° C., which is a high temperature, the color expression on the screen display, that is, the color display of the character itself of 60 ° C. Alternatively, the display of the background color (the color of the backlight 103) of the liquid crystal display (LCD 105) is also changed from, for example, blue or green to, for example, red by the display mode changing unit 101 to draw the user's attention. When a certain pattern is displayed on the LCD 105 together with the above-mentioned “60 ° C.”, the pattern is changed to another pattern by the display mode changing unit 101.
[0064]
In the example shown in FIG. 6C, when the hot water supply set temperature is changed from 38 ° C. to a high temperature of 60 ° C., the changed hot water supply set temperature value of 60 ° C. is used to draw the user's attention. Displayed in bold. In the example shown in FIG. 6D, when the hot water supply set temperature is changed from 38 ° C. to a high temperature of 60 ° C., the changed hot water supply set temperature value of 60 ° C. is used to draw the user's attention. It is displayed in large numbers in a bold typeface. Further, in the example shown in FIG. 6E, a part of the character string displayed as a message to the user that draws the user's attention is represented by a bold typeface and large characters. In any of the cases shown in FIGS. 6C to 6E, the color display of the character itself of 60 ° C. or the display of the background color can also draw the user's attention by the display mode changing unit 101. Changed to color display. When any pattern is also displayed on the LCD 105, the pattern is changed to another pattern by the display mode changing unit 101.
[0065]
FIG. 7 is a flowchart showing a processing flow in the control system shown in FIG.
[0066]
In FIG. 7, first, the connected device determination unit 91 outputs a predetermined (calling) signal to the communication partner through the device information transmission / reception unit 89 and the signal transmission line, thereby connecting the target device 111. The presence / absence is checked (step S121). As a result of this check, when it is recognized that a predetermined (response) signal has been transmitted from the communication partner (YES in step S121), the connection of the target device 111 is confirmed.
[0067]
Next, the connected device determination unit 91 reads the ID information of the target device acquired from the target device 111 by communicating with the control-related information transmitting / receiving unit 113 of the target device 111 (step S122), and The device 111 is determined. As a result of this determination, if the target device 111 is a water heater (step S123), the connected device determination unit 91 notifies the screen information selection and display unit 99 of that. Upon receiving this notification, the screen information selection / display unit 99 selects screen information including a switch group for operation / control of the water heater from the screen information storage unit 97, and displays a screen based on the screen information. By controlling the backlight 103 and the LCD 105 through the light drive unit 81 and the LCD drive unit 83, the backlight 103 and the LCD 105 are generated and displayed on the LCD 105 (step S124).
[0068]
Next, based on the output signal from each PD 109 read through the PD output input unit 87, the state transition recognizing unit 93 determines whether or not a command to change the operation state of the water heater has been given by the user. Check (step S125). As a result of this check, when recognizing that the command has been given (YES in step S125), the state transition recognition unit 93 notifies the display mode change unit 101 of the check result. Upon receiving the notification, the display mode changing unit 101 selects the screen information corresponding to the notification from the screen information storage unit 97, and controls the backlight 103 and the LCD 105 through the backlight driving unit 81 and the LCD driving unit 83. By doing so, a screen based on the screen information is generated and displayed on the LCD 105 instead of the screen displayed on the LCD 105 in step S124 (step S126).
[0069]
If the user has not given an instruction to change the operation state of the water heater (NO in step S125), display mode changing unit 101 does not execute the processing operation in step S126.
[0070]
FIG. 8 is a flowchart showing a subroutine of the processing flow described in FIG.
[0071]
The subroutine shown in FIG. 8 is started when a user inputs a command to change the hot water supply temperature, which is a type of command to change the operation state of the water heater (shown in step S125 in FIG. 7).
[0072]
That is, in FIG. 8, the state transition recognizing unit 93 changes the hot water supply temperature value to a high temperature (from 40 ° C. to 60 ° C.) based on the output signal from each PD 109 read through the PD output input unit 87. Is recognized and notified to the display mode changing unit 101 (YES in step S131), the display mode changing unit 101 refers to the screen information storage unit 97, and controls the LCD 105 through the LCD driving unit 83. Then, the display of the hot water supply temperature set value on the display screen on the LCD 105 is changed from 40 ° C. to 60 ° C. (step S132).
[0073]
Next, the display mode changing unit 101 controls the LCD 105 through the LCD driving unit 83 to display the hot water temperature setting value “60 ° C.” on the display screen on the LCD 105 in bold type or in large characters. The display is changed to a display (step S133). Further, the display mode changing unit 101 controls the backlight 103 through the backlight driving unit 81 to change the color expression of the display screen on the LCD 105 to “red” which is a color that draws the user's attention. (Step S134), the process returns to step S131.
[0074]
The state transition recognition unit 93 recognizes, based on the output signal from each PD 109 read through the PD output input unit 87, that the set hot water supply temperature value has not been changed, and indicates that fact to the display mode change unit 101. (NO in step S131), the processing operation after step S132 is not executed.
[0075]
As described above, according to the first embodiment of the present invention, the screen information corresponding to the target device 111 determined by the connected device determination unit 91 is stored in advance for each device (111) that can be a control target. A selection is made from various types of screen information stored in the unit 97 and displayed on the LCD 105, and the state transition of the determined device (111) is recognized by the state transition recognition unit 93. When it is determined that it is necessary according to the result of recognition of the transition, the selection on the LCD 105 and the display mode of the displayed screen information are changed, so that the screen information displayed on the LCD 105 is controlled by the target device 111 to be connected. Can be automatically changed to a suitable one. In addition, the user can easily and surely visually recognize the state transition of the target device 111 in the screen information selected and displayed on the LCD 105, and according to the state transition of the target device 111, The screen information displayed on the LCD 105 can be automatically changed to screen information that draws the user's attention.
[0076]
FIG. 9 is a functional block diagram showing a control system of a water heater control remote controller which is an example of the remote controller according to the second embodiment of the present invention.
[0077]
In the present embodiment, as shown in FIG. 9, the water bath is provided at an appropriate location in a bathtub (not shown) for receiving hot water from the above-mentioned water heater, or provided inside the water heater so that the bath water temperature can be detected. The water temperature sensor (hot water sensor) 141 is provided with a room temperature sensor (temperature sensor) 143 at an appropriate location in the bathroom or a remote controller, and the operation unit of the controller 200 includes a hot water temperature setting unit 145. The controller 200 includes a hot water set value holding unit 147, a water temperature sensor output / room temperature sensor output input unit (input unit) 149, a hot water set value / water temperature detected value comparison unit (first comparison unit) 151, a room temperature reference value / The configuration includes a room temperature detection value comparison unit (second comparison unit) 153, a display mode control unit 155, a backlight drive unit 157, and an LCD drive unit 159 as functional blocks.
[0078]
The hot water set value holding unit 147 holds hot water value data (hot water set value data) set by the user operating the hot water temperature setting unit 145, and responds to a data read request from the first comparing unit 151. Then, the stored hot water set value data is output to the first comparing unit 151. The input unit 149 reads and holds water temperature (bath water temperature) detection value data output from the water temperature sensor 141, and outputs the water temperature detection value data stored in response to a data read request from the first comparison unit 151. Output to the first comparison unit 151. The input unit 149 also reads and holds the room temperature detection value data output from the room temperature sensor 143, and stores the room temperature detection value data held in response to the data read request from the second comparison unit 153 as the second room temperature detection value data. Output to the comparison unit 153.
[0079]
When the water temperature detecting operation is started, the first comparing section 151 compares the hot water set value data from the hot water set value holding section 147 with the detected water temperature value data read from the input section 149 at a predetermined cycle. Then, the comparison result is notified to the display mode control unit 155. That is, if the detected water temperature is higher than the hot water set value, it indicates that bathing is impossible because the temperature of the bath water is high, and if the detected water temperature is lower than the hot water set value, the temperature of the bath water is lower. If the detected water temperature and the hot water set value are equal, it is notified to the display mode control unit 155 that the bath is ready to be bathed because the temperature of the bath tub is appropriate if the detected water temperature is equal to the set temperature of the hot water. I do. When the water temperature detection operation is started, the first comparison unit 151 checks whether the previously read water temperature detection value is equal to the currently read water temperature detection value, and determines that the values are equal as a result of the check. Then, it recognizes that the state has not changed (that is, the bathtub water temperature has not changed), and notifies the display mode control unit 155 of that.
[0080]
The second comparing unit 153 holds predetermined room temperature reference value data, and compares the room temperature reference value data with room temperature detection value data read from the input unit 149 at a predetermined cycle. , And notifies the display mode control unit 155 of the comparison result. That is, if the detected room temperature is higher than the room temperature reference value, the display room control indicates that the bathroom temperature is appropriate, and if the room temperature detection value is lower than the room temperature reference value, the bathroom temperature is low, respectively. Notify section 155.
[0081]
The display mode control unit 155 controls the LCD 163 through the LCD drive unit 159 based on the notification content from the first comparison unit 151 or the notification content from the second comparison unit 153.
[0082]
That is, when the notification content from the first comparing unit 151 indicates that bathing is impossible due to high temperature of the bathtub water, the display mode control unit 155 changes the display of the background color of the LCD 163 to red. The backlight 161 is controlled through the backlight drive unit 157 in order to set. If the notification content from the first comparing unit 151 indicates that the temperature of the bathtub water is low and the temperature is low, the display mode control unit 155 changes the background color of the LCD 163 to yellow. The backlight 161 is controlled through the backlight drive unit 157 in order to set. If the notification content from the first comparison unit 151 indicates that the bathtub water is at an appropriate temperature and that the bath can be taken, the display mode control unit 155 changes the display of the background color of the LCD 163 to orange. The backlight 161 is controlled through the backlight drive unit 157 in order to set. Further, when the notification content from the first control unit 155 indicates that the bathtub water temperature has not changed (the state has not changed), the display of the background color of the LCD 163 is set to blue. The backlight 161 is controlled through the backlight driving unit 157.
[0083]
On the other hand, when the notification content from the second comparison unit 153 indicates that the bathroom temperature is appropriate, the display mode control unit 155 sets the background color display of the LCD 163 to pink. The backlight 161 is controlled through the backlight driving unit 157. When the notification content from the second comparing unit 153 indicates that the bathroom temperature is low, the display mode control unit 155 sets the background color of the LCD 163 to dark blue. The backlight 161 is controlled through the backlight driver 157.
[0084]
FIG. 10 is a flowchart showing a first processing flow in the control system shown in FIG.
[0085]
In FIG. 10, when the water temperature detection operation is started (step S171), the first comparing unit 151 checks whether or not the previous water temperature detection value is equal to the current water temperature detection value (step S172). If the result of this check is "NO", the first comparing section 151 next compares the detected water temperature value with the set water temperature value and determines whether the detected water temperature value is lower than the set water temperature value (step In step S173, it is checked whether the detected water temperature is higher than the hot water set value (step S174). If the check result in step S173 is “NO” and the check result in step 174 is “YES”, the first comparing unit 151 recognizes that bathing is impossible because the temperature of the bathtub water is high. (Step S175), the display mode control unit 155 is notified of this fact, and the display mode control unit 155 controls the backlight 161 to display the background color of the LCD 163 in red (step S176).
[0086]
If both the check result in step S173 and the check result in step S174 are “NO”, the first comparing section 151 recognizes that the bathtub water is at an appropriate temperature and that bathing is possible (step S177). ), The display mode control unit 155 notifies the display mode control unit 155, and the display mode control unit 155 controls the backlight 161 so that the background color of the LCD 163 is displayed in orange (step S178).
[0087]
If the check result in the step S173 is “YES”, the first comparing section 151 recognizes that the temperature of the bathtub water is low and starts to boil (step S179), and the display mode control section indicates the fact. 155, and the display mode control unit 155 controls the backlight 161 to display the background color of the LCD 163 in yellow (step S180). If the check result in step S172 is “YES”, the first comparing unit 151 recognizes that the bathtub water temperature has not changed (the state has not changed) (step S181), and The backlight 161 is controlled via the backlight drive unit 157 to set the display of the background color to blue (step S182).
[0088]
FIG. 11 is a flowchart showing a second processing flow in the control system shown in FIG.
[0089]
11, when the room temperature (bathroom temperature) detection operation is started (step S191), the second comparing unit 153 compares the stored room temperature reference value data with the room temperature detected value data from the input unit 149. And notifies the display result to the display mode control unit 155 (step S192). In other words, if the detected room temperature is higher than the room temperature reference value (YES in step S192), it recognizes that the bathroom temperature is appropriate (step S193), and notifies the display mode control unit 155 of this fact, and displays the display mode. The control unit 155 controls the backlight 161 to display the background color of the LCD 163 in pink (step S194).
[0090]
On the other hand, if the detected room temperature is lower than the room temperature reference value (NO in step S192), it is recognized that the bathroom temperature is low (step S195), and the display mode control unit 155 is notified to that effect. Then, the display mode control unit 155 controls the backlight 161 to display the background color of the LCD 163 in dark blue (step S196).
[0091]
FIG. 12 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the first modification of the second embodiment of the present invention.
[0092]
In the present modification, the controller 200 having the respective functional blocks shown in FIG. 9 further includes the voice synthesizer 197 and the speaker driver 199 as functional blocks, and a display text database (display text DB) 203. , And a voice text database (text DB for voice) 205, thereby configuring the controller 300.
[0093]
That is, the display mode control unit 155 searches the display text DB 203 for message data corresponding to the notification content from the first comparison unit 151 or the second comparison unit 153, and converts the message into voice text data. The voice text data is temporarily stored in the voice text DB 205. The voice synthesizing unit 197 performs various voices corresponding to the water temperature detection value detected by the water temperature sensor 141 or the room temperature detection value detected by the room temperature sensor 143 based on the text data for voice given from the display mode control unit 155. Is generated by voice synthesis processing, and the generated message is output as voice through the speaker driving unit 199 and the speaker 201.
[0094]
As a specific example of the voice message above, if the bathtub water is not boiling at all, it is `` water bath '', but if the bathtub water starts to boil, `` it is lukewarm water '', but the bathtub water temperature is If the appropriate temperature has been reached, it is possible to take a bath, but if the bathtub water is in a hot water state due to the user setting the bath water temperature to a high temperature, "It is dangerous to take a bath with hot water," but each one is mentioned. If the room temperature (bathroom temperature) is appropriate, "bathroom temperature is a comfortable temperature for bathing", but if the room temperature is lower than the above-mentioned room temperature reference value, "bathroom temperature" Temperature has dropped considerably due to the cold outside. "
[0095]
FIG. 13 is a functional block diagram showing a control system of a water heater control remote controller which is an example of a remote controller according to a second modification of the second embodiment of the present invention.
[0096]
In the present modification, the controller 400 is configured by further including a character moving image generation unit (moving image generation unit) 207 as a function block in the controller 300 including each functional block shown in FIG.
[0097]
That is, the display mode control unit 155 displays a plurality of (operating) states of the target device (such as a water heater) through the control-related information transmitting / receiving unit 113 and the device information transmitting / receiving unit 89 as illustrated in FIG. Is read, or information indicating a change (transition) in the (driving) state. Under the control of the display mode control section 155, the moving image generation section 207 converts the information read by the display mode control section 155 into a character, that is, a different operation or a different image into an anthropomorphic image such as a hero of a cartoon or a dramatic image. A moving image of the character is generated so as to be expressed in a posture (that is, a moving image), and the moving image is output to the LCD 163 through the LCD driving unit 159.
[0098]
On the other hand, the voice synthesizing unit 197 outputs a message generated based on the text data for voice given from the display mode control unit 155 as a voice through the speaker driving unit 199 and the speaker 201 as in FIG.
[0099]
FIG. 14 is a diagram illustrating an example of a moving image of a character generated by the moving image generating unit 207 illustrated in FIG.
[0100]
In the present modification, if the notification content from the first comparison unit 151 to the display mode control unit 155 indicates that the temperature of the bathtub water is low and the water is starting to boil, FIG. When the content of the notification from the first comparing unit 151 to the display mode control unit 155 indicates that the temperature of the bathtub water is appropriate, the moving image indicated by in FIG. ) Are displayed on the LCD 163, respectively.
[0101]
In addition, when the notification content from the first comparison unit 151 to the display mode control unit 155 indicates that the temperature of the bathtub water is high, so that bathing is not possible, this is illustrated in FIG. If the moving image further indicates that the notification content from the first control unit 155 indicates that the bathtub water temperature has not changed (the state has not changed), this is illustrated in FIG. The moving images are displayed on the LCD 163, respectively.
[0102]
FIG. 15 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the third embodiment of the present invention.
[0103]
In the present embodiment, the operation unit of the controller 500 includes a date / time setting / starting unit 145, and the controller 500 includes a calendar function / timer function unit 211, a display color information / display content information storage unit 213. , A display mode control unit 155, a backlight drive unit 157, and an LCD drive unit 159 as functional blocks.
[0104]
That is, the calendar function / timer function unit 211 is composed of a module having a calendar function and a module having a timer function. , And sequentially outputs the date / time information to the display mode control unit 155.
[0105]
The display color information / display content information storage unit 213 is set in advance in association with the season to which the present day belongs (warm season / cold season), each time (early morning, morning, afternoon, evening, night), and the like. The information indicating the background color (red, yellow, blue, green, white, orange, etc.) of the LCD 163 and the information indicating the content displayed on the LCD 163 ("The temperature in the bathroom has dropped considerably due to the cold outside). ”, Today is what month and what day (whether the season is spring, summer, autumn or winter) and the current time is what hour and minute” etc.).
[0106]
Based on the date / time information from the calendar function / timer function unit 211, the display mode control unit 155 stores display color information and display content information corresponding to the date / time information in the display color information / display content information storage unit 213. , And controls the backlight 161 through the backlight drive unit 157 and also controls the LCD 163 through the LCD drive unit 159 based on the read display color information and display content information. When the display content information stored in the display color information / display content information storage unit 213 is various patterns, the display mode control unit 155 determines the pattern corresponding to the date / time information by the LCD drive. The image is displayed on the LCD 163 through the unit 159.
[0107]
FIG. 16 is a functional block diagram showing a control system of a water heater control remote controller which is an example of a remote controller according to a modification of the third embodiment of the present invention.
[0108]
In the present modified example, the controller 600 is configured by further including a voice synthesizing unit 197 and a speaker driving unit 199 as functional blocks in the controller 300 including each functional block illustrated in FIG.
[0109]
According to the above configuration, based on the date / time information from the calendar function / timer function unit 211, the display mode control unit 155 stores the display content information corresponding to the date / time information in the display color information / display content information storage. The voice synthesizing unit 197 generates a message by voice by applying voice synthesis processing to the read display content information, and generates the voice message through the speaker driving unit 199 and the speaker 201. Is output as
[0110]
FIG. 17 is an explanatory diagram showing an example of a communication system including a water heater control remote controller according to an embodiment of the remote controller according to the present invention.
[0111]
In the above system, a remote control having a communication interface connectable to a portable communication terminal is installed in any of the remote controllers having the configurations shown in FIGS. 5, 9, 12, 13, 15, and 16, respectively. In addition, the mobile communication terminal 219 is installed at an appropriate place in the bathroom (reference numeral 215 indicates a remote control installed in the kitchen, and reference numeral 217 indicates a remote control installed in the bathroom). Sometimes, a user who is taking a bath can talk with a caller terminal (not shown) through the remote controller 217 in the bathroom, the remote controller 215 in the kitchen, and the portable communication terminal 219. Note that, for example, the communication interface of the remote controller 215 on the kitchen side may be configured to be capable of charging the connected mobile communication terminal (219).
[0112]
The preferred embodiments of the present invention have been described above. However, these are merely examples for describing the present invention, and are not intended to limit the scope of the present invention only to these embodiments. The present invention can be implemented in other various forms.
[0113]
For example, in the above-described first embodiment, the target device 111 has been described as a water heater, but it is obvious that accessory devices of the water heater and a water heater that can be installed as an option can also be the target device 111. Further, the color expression of the screen display currently displayed on the LCD 105 for calling attention to the user is not limited to the above-described colors. Even in a color expression other than the above-described colors, it is possible to call the user's attention by blinking the display screen, for example. In each of the embodiments described above, a monochrome full dot LCD is used for the full dot LCD and RGBLEDs are used for the backlight. However, a color full dot LCD is used instead of the monochrome full dot LCD. Is also good.
[Brief description of the drawings]
FIG. 1 is a plan view showing an operation unit of a water heater control remote controller which is an example of a remote controller according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view showing an embodiment of an operation unit of the water heater control remote controller shown in FIG. 1;
FIG. 3 is a top view showing one embodiment of an operation unit of the remote controller for controlling the water heater shown in FIG. 1;
FIG. 4 is a top view showing an example in which infrared LEDs and PDs are arranged in a matrix.
FIG. 5 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the first embodiment of the present invention.
6 is an explanatory diagram showing an example of a change in display content in screen information being displayed on a liquid crystal display (LCD) by a display mode changing unit shown in FIG. 5;
FIG. 7 is a flowchart showing a processing flow in the control system shown in FIG. 5;
FIG. 8 is a flowchart showing a subroutine of the processing flow shown in FIG. 7;
FIG. 9 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the second embodiment of the present invention.
FIG. 10 is a flowchart showing a first processing flow in the control system shown in FIG. 9;
FIG. 11 is a flowchart showing a second processing flow in the control system shown in FIG. 9;
FIG. 12 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the first modification of the second embodiment of the present invention.
FIG. 13 is a functional block diagram showing a control system of a water heater control remote controller as an example of a remote controller according to a second modification of the second embodiment of the present invention.
FIG. 14 is a view showing an example of a character moving image generated by the character moving image generating unit shown in FIG. 13;
FIG. 15 is a functional block diagram showing a control system of a water heater control remote controller as an example of the remote controller according to the third embodiment of the present invention.
FIG. 16 is a functional block diagram showing a control system of a water heater control remote controller as an example of a remote controller according to a modification of the third embodiment of the present invention.
FIG. 17 is an explanatory diagram showing an example of a communication system including a water heater control remote controller as an embodiment of the remote controller according to the present invention.
[Explanation of symbols]
81, 157 backlight drive unit
83, 159 LCD drive unit
85 infrared LED driver
87 PD output input section
89 Device information sending / receiving unit
91 Connected device determination unit
93 State transition recognition unit
95 Control unit
97 Screen information storage
99 Screen information selection, display section
100, 200, 300, 400, 500, 600 Controller (microcomputer)
101 Display mode change unit
141 water temperature sensor (hot water temperature sensor)
143 Room temperature sensor (temperature sensor)
145 Hot water temperature setting section
147 Hot water temperature set value holding unit
149 Water temperature sensor output / room temperature sensor output input section (input section)
151 Hot water temperature set value / water temperature detected value comparison unit (first comparison unit)
153 Room temperature reference value / room temperature detection value comparison unit (second comparison unit)
155 display mode control unit
197 Voice synthesis unit
199 Speaker drive
201 Speaker
203 Text database for display (DB)
205 Voice Text Database (DB)
207 (character) animation generator
209 Date / time setting / starter
211 Calendar function / timer function section
213 Display color information / display content information storage unit

Claims (17)

In a remote controller that displays information about the target device,
Status display means for displaying the status of the target device in an expression form using icons or characters,
State detection means for detecting the state of the target device,
In response to detection of a change in the state of the target device by the state detection unit, an expression format change unit that changes the expression format by the status display unit from iconography to characters, or from character to iconography,
A remote controller. The remote controller according to claim 1,
Through three or more steps to change the expression form stepwise so that the change of the expression form looks like a continuous change from the icon to the character, or from the character to the icon, Remote controller to be performed. The remote controller according to claim 1 or 2,
A remote controller that changes the display of the icon image, the character color, the background color, or the pattern after the expression format is changed. In a remote controller that displays information about the target device,
Status display means for displaying the status of the target device in an expression form using icons or characters,
State detection means for detecting the state of the target device,
In response to the detection of a change in the state of the target device by the state detection means, changing means for changing the size of the icon or image displayed on the state display means, or the thickness of the line,
A remote controller. The remote controller according to claim 4,
A remote controller that changes the color of the icon or the character, the background color, or the display of the pattern after the size of the icon or the character or the thickness of the line is changed. The remote controller according to claim 1 or 4,
While controlling the state display means based on driving information obtained from a target device including a water temperature sensor that detects the temperature of water used in a predetermined place indoors,
A remote controller, wherein the status display means is a liquid crystal display. The remote controller according to any one of claims 1 to 6,
Audio information generation / output means for generating and outputting information relating to the detection result from the state detection means to audio information,
Receiving audio information output from the audio information generation and output means, an audio output unit for outputting to the outside,
A remote controller. The remote controller according to any one of claims 1 to 7,
Detecting means for detecting a predetermined physical quantity related to the indoor environment,
Background color / pattern display changing means for changing a background color or a pattern display on the liquid crystal display based on the predetermined physical quantity detected by the detecting means;
A remote controller. The remote controller according to any one of claims 1 to 8,
Audio information generation / output means for generating and outputting information relating to the detection result from the detection means relating to the indoor environment to audio information,
Receiving audio information output from the audio information generation and output means, an audio output unit for outputting to the outside,
A remote controller. The remote controller according to claim 8,
A remote controller, wherein the detecting means for the indoor environment is at least one of the following (1) and (2).
(1) a temperature sensor for detecting an air temperature at a predetermined place indoors; and (2) a date / time detecting unit for detecting a date of the day and a time at the time. The remote controller according to any one of claims 1 to 10,
A remote controller, wherein the target device is a water heater or an accessory device of the water heater and an optional device that can be installed. The remote controller according to any one of claims 1 to 11,
The expression form changing means determines the degree of boiling of the bathtub water determined based on the water temperature detection signal from the water temperature sensor. Remote controller to notify by setting.
(1) Color display when it is determined that bath water is not boiling at all (2) Color display when it is determined that bath water has started to boil (3) Color display when it is determined that bath water has reached an appropriate temperature ( 4) Color display when bathtub water is judged to be hot water The remote controller according to any one of claims 1 to 12,
The expression form changing means sets the temperature of the bathroom determined based on the temperature detection signal from the temperature sensor, and sets the background color of the liquid crystal display to one of the following (1) and (2). Remote controller to notify by doing.
(1) Color display when it is determined that the temperature in the bathroom is lower than a predetermined temperature (because the day belongs to the cold season) (2) When it is determined that the temperature in the bathroom is the predetermined temperature Color display The remote controller according to any one of claims 1 to 13,
A plurality of states or states of the target device detected by the state detecting unit by displaying the state in which different states or different postures are taken on the image using the personified icon on the state display unit. Remote controller that expresses change. The remote controller according to claim 14,
A remote controller, wherein the voice information generating / outputting means outputs the voice as the voice generated from the anthropomorphic image to the outside through the voice output unit to notify the user. At least a first remote controller installed in a kitchen and a second remote controller installed in a bathroom,
The first remote controller has a communication interface connectable to a mobile communication terminal,
A call can be made through the first and second remote controllers, and a call using the second remote controller can be made with the caller through the communication interface upon receiving an incoming call to the portable communication terminal. The remote controller according to any one of claims 1 to 15, wherein the remote controller is configured to be capable. The remote controller according to claim 16,
A remote controller, wherein the communication interface is configured to be able to charge a connected mobile communication terminal.

Images