JP2004092937A - Space heating machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a space heating machine for reducing its cost by tie-up with other equipment and performing the optimum operation. <P>SOLUTION: This heating machine has a reception means receiving an information signal transmitted from equipment installed in certain environment and indicating an operation condition of the equipment itself or an environment condition and a control means changing its own operation condition based on the received information signal and is installed in the environment. It has a transmission means transmitting an information signal transmitted from the heating machine installed in the certain environment to other equipment installed in the environment and indicating operation situation of the heating machine itself or an environment condition. The certain environment is indoor environment including a toilet room or a room adjacent to the toilet room. The equipment is a device for informing conditions of private part washing, air blowing, ventilation, cooling, lighting, and use which is arbitrarily installed in the toilet room or the room adjacent to the toilet room. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a heater that receives and transmits an information signal indicating an operation state or an environmental state.
[0002]
The present invention provides, for example, a heater and other devices such as a local cleaning device, a lighting device, and a cooling device in an indoor environment including a toilet room and the like, and transmits and receives information signals to thereby provide a heater and other devices. The equipment can be operated automatically.
[0003]
[Prior art]
Conventionally, a heater installed in a toilet is equipped with an electric heater, and power consumption of 500 W or more due to its heating capacity has to be operated every time the operation is started, stopped, or changed. . In recent years, local cleaning devices using instantaneous heat exchangers have become mainstream because they can save electricity bills compared to hot water storage type local cleaning devices. The local cleaning device requires power of 1000 W or more at the time of local cleaning. In addition, the local cleaning device is equipped with a human body detection sensor for automatically opening and closing the toilet lid, a seating sensor for automatic deodorizing operation, and a heater for a heated toilet seat when not in use. Some have a learning function of turning off the.
[0004]
[Problems to be solved by the invention]
A user who has installed a heater and a local cleaning device in the toilet room has to check the rated power of both the local cleaning device and the indoor heating device and the allowable power of the outlet in the toilet, which is troublesome. In addition, when installed without doing such a thing, the breaker might fall.
[0005]
In addition, the user must operate each device individually, which is inconvenient. Further, if the operation of the device is forgotten, the unnecessary power is consumed.
[0006]
Furthermore, in order to limit the operation time of these devices, it is necessary to provide a timer device and the like for controlling the start and stop of operation, since the heater and the local cleaning device are each independent devices, In addition to complicating the configuration of each device, increasing the cost of the device, there has been a problem that the user must perform both settings.
[0007]
In order to solve these problems, a connector for connecting an external unit is provided in advance in the local cleaning device so that the external unit can be connected later, and when the external unit is connected, power and an operation instruction signal are transmitted. A device to be supplied to an external unit has been proposed in Japanese Patent Application Laid-Open No. 10-331237.
[0008]
However, in such a device, it is necessary to store a program for controlling the external unit in advance in the local cleaning device which is likely to be used alone, and furthermore, it is necessary to store the program for the number of connected external units. It is necessary to provide a connector, and there is a problem that the local cleaning device itself becomes expensive. Further, in such a device, it is necessary to predict and design what external unit is to be connected, and in consideration of the possibility, an extra device is usually mounted as a result.
[0009]
Accordingly, an object of the present invention is to reduce the cost of a heater or other equipment by sharing information held by the heater or other equipment, and to utilize information of the other equipment in the heater. Accordingly, an object of the present invention is to provide a user with a heater having an operation mode that allows more optimal movement.
[0010]
[Means for Solving the Problems]
The invention according to claim 1 made in order to solve the above-mentioned problem is that a heater receives an information signal indicating an operation state of the device itself or an environment state transmitted from a device installed in a certain environment. It is characterized by having a receiving means and a control means for changing its own operation state based on the received information signal, and installed in the environment.
[0011]
A device installed in a certain environment transmits an information signal indicating its own state or the state of the environment to the outside without knowing whether or not a heater is installed in the same environment. On the other hand, the heater can change its own operation mode based on the information signal transmitted from the device. As a result, the heater can be automatically operated in cooperation with the operation of the device. Therefore, the frequency with which the user has to operate the heater is reduced. Also, the device only needs to emit an information signal, and controls the operation of the possible heater by assuming the type of the heater that may be combined with the device at the design stage. It is not necessary to incorporate a program or the like into the device. Therefore, it is possible to provide the device at low cost.
[0012]
Furthermore, since it is not necessary to incorporate a program for controlling the heater in advance in the device, if a request that cannot be predicted and prepared at the time of development and design of the device is generated by a future user, Even so, if a new heater incorporating the required function is newly designed and provided to the market, it is possible to satisfy the needs of the user while effectively utilizing the old equipment.
[0013]
The invention according to claim 2 has a transmitting unit that transmits an information signal indicating a self-operating state or an environmental state to a device in which the heater is installed in a certain environment. It is characterized by being installed.
[0014]
An information signal indicating its own state or the state of the environment is transmitted from the heater installed in a certain environment to the outside without knowing whether or not another device is installed in the same environment. On the other hand, another device can change its own operation mode based on the information signal transmitted from the heater. As a result, other devices can be automatically operated in cooperation with the operation of the heater. Therefore, the frequency at which the user has to operate another device is reduced. In addition, the heater only needs to emit an information signal.Assuming the type of other equipment that may be combined with the heater at the design stage, the operation of the other possible equipment is considered. There is no need to incorporate a control program or the like into the heater. Therefore, it becomes possible to provide a heater at low cost.
[0015]
Furthermore, since it is not necessary to incorporate a program for controlling other devices into the heater in advance, a request that cannot be predicted or prepared at the time of development and design of the heater has arisen from users in the future. Even in this case, if another device incorporating the desired function is newly designed and provided to the market, it is possible to satisfy the user's request while effectively using the old heater.
[0016]
The invention according to claim 3 is the heating device according to claim 1, wherein the certain environment is an indoor environment including a toilet room or the toilet room and a room adjacent thereto, and the device is the toilet room or It is a local washing, lighting, use state notification, and temperature measuring device optionally installed in the adjacent room.
[0017]
The heater installed in the toilet room is preferably a warm one only when the user uses the toilet in the cold season, and does not need to be operated every time the user enters and leaves the toilet room. Hereinafter, use examples of the present invention will be described below.
A lighting device with an on / off switch outside the toilet room sends a signal to turn on and off, the heater receives the signal, the heater starts operating with the light on, and stops when the light goes off. If it is set so that it does, there is no need to operate the heater every time when entering and leaving the toilet room.
In the case of the use state notification device installed outside the toilet room, similarly to the lighting device, it is not necessary to operate the heater every time the user enters and leaves the toilet room.
In the case of a temperature measurement device, if the temperature information is transmitted from the temperature measurement device, and the heater is set to receive the signal and control the operation so that the toilet room is kept at a constant temperature, an excessive heating operation can be performed. You don't have to.
In the case of a local cleaning device, if the user sends out the unseating information and the heater receives the signal and is set to stop automatically, there is no need to stop the heater and the forgetting to turn off the heater is prevented. be able to.
[0018]
The invention according to claim 4 is the heating device according to claim 2, wherein the certain environment is an indoor environment including a toilet room or the toilet room and a room adjacent thereto, and the device is the toilet room or It is a local washing, ventilation and cooling device optionally installed in the adjacent room.
[0019]
It is advantageous if a heater equipped with a human body detection sensor or a temperature sensor transmits operation information, human body detection information, and temperature information of the heater, and each device receives the information and is driven as follows. Comes out.
If the ventilator is set to start automatically based on the human body detection information of the heater or to stop the operation of the ventilator, there is no need to operate the ventilator every time the toilet enters and exits. If the operation information is received and the ventilation device is set to be stopped during operation of the heater, heat loss can be prevented without losing warm air.
If the cooling device is set to start or stop automatically based on the human body detection information of the heating device, it is not necessary to operate the cooling device every time the toilet enters and exits, and receives the temperature information of the heating device. If the operation is controlled so that the temperature in the toilet room becomes constant, it is not necessary to provide a temperature sensor in the cooling device.
If the local cleaning device is set to automatically open and close the toilet lid based on the human body detection information of the heater, it is not necessary to provide a human body detection sensor in the local cleaning device itself. In addition, when the scheduled time of use of the toilet is transmitted from the heater, the local cleaning device saves energy if the toilet seat heating is set to operate only for the scheduled use time based on the information.
[0020]
According to a fifth aspect of the present invention, in the heating device according to the third aspect, the information signal received by the heater from the local cleaning device includes the following information groups (1) to (7).
(1) Information on the actual or predicted operating states of various functional components,
(2) User's instruction input information to the operation unit or the remote control device,
(3) a detection result of a sensor for detecting temperature or presence or absence of a human body;
(4) a detection result of a detection switch for detecting an operation state or a use state of a user;
(5) The timing result by the timing means,
(6) storage data stored in the storage device,
(7) calculation results by the calculation device,
Is characterized by including one or more types of information selected from the following.
[0021]
When the information of the above (1) is used, the heater and the local cleaning device can be operated in conjunction with the actual operation or the predicted operation.
[0022]
When the information of the above (2) is used, the operation of the heater can be changed by the user operating the local cleaning device.
[0023]
When the information of the above (3) or (4) is used, the detection result of a sensor or a detection switch such as a temperature, a human body detection, or the like provided in the local cleaning device can be used for a heater, and the configuration of the heater Can be simplified and provided inexpensively.
[0024]
When the information of the above (5) is used, it becomes possible for the heater to use the time measurement result by the time measurement means provided in the local cleaning device, and it is possible to simplify the configuration of the heater and provide the heater at low cost. . In addition, if a configuration is adopted in which the heating device corrects the timing result of its own timing device using the timing result from the local cleaning device, the timing of the local cleaning device and the timing of the heating device can be synchronized.
[0025]
When the information of the above (6) is used, the heater can use the storage data stored in the storage device provided in the local cleaning device, so that the configuration of the heater can be simplified and provided at low cost. It becomes possible.
[0026]
When the information of the above (7) is used, it is possible for the heater to use the calculation result by the calculation device provided in the local cleaning device, and it is possible to simplify the configuration of the heater and to provide the heater at a low cost. .
[0027]
In the invention according to claim 6, the heater and the local cleaning device are operated by a commercial power supply, and the information signal received by the heater from the local cleaning device includes the following (1) to (2). Information group
(1) actual power consumption,
(2) predicted power usage,
At least one type of information selected from the following is included.
[0028]
The heater can adjust its own power consumption based on the power consumption transmitted from the local cleaning device. In particular, when the predicted power consumption is used, the power consumption can be adjusted earlier. Therefore, when the local cleaning device and the heater share the same power supply breaker, it is possible to control the entire power consumption so as not to exceed the electric capacity of the breaker. In particular, when the predicted power consumption is used, the power consumption can be controlled earlier.
[0029]
The user does not need to take any measures to increase the power capacity, such as adding a power breaker or a power outlet, even when adding equipment as needed.
[0030]
The invention according to claim 7 is the heater according to claim 5, wherein the information signal received by the heater from the local cleaning device includes the following information groups (1) to (3).
(1) Current usage status,
(2) Past usage history,
(3) Predicted current or future usage status
At least one type of information selected from the following is included.
[0031]
When the information of the above (1) is used, it becomes possible to operate or stop the heater, or to increase or decrease the power consumption, depending on whether or not the local cleaning device is used. Therefore, it is possible to save the user from having to individually start and stop the heaters, and to prevent unnecessary power consumption.
[0032]
When the information of the above (2) is used, the heater can use the usage history information of the local cleaning device, and there is no need to store the usage history in the heater, and the device configuration can be simplified. It becomes. In addition, the heater can perform an operation such as predicting the use start time of the user based on the received use history information and starting operation at that time. Therefore, the timer function is provided in the heater, and it is not necessary for the user to make an operation reservation, so that the device configuration can be simplified and the user can save time and effort.
[0033]
When the information of the above (3) is used, the heater can use the use state predicted by the local cleaning device, and there is no need to provide a predictive function to the heater, thereby simplifying the device configuration. It becomes possible.
[0034]
The invention according to claim 8 is the heating device according to claim 3, wherein the information signal received by the heating device includes:
(1) Lighting on / off information
(2) Door opening / closing information
At least one type of information selected from the following is included.
[0035]
Since it takes time for the heater to start operating and reach a predetermined temperature, when the heater is operated after the user enters the toilet room, the user feels uncomfortable immediately after the start of operation because the heater is not warm. In particular, a heater that blows warm air using a heater and a blower operates the blower before the heater is heated from the viewpoint of safety, so only the blower is used immediately after the start of the heater operation, and the user feels discomfort. . However, if the heating device receives the lighting information of the lighting and the opening information of the door of the present invention, and the heating device operates together with the lighting of the lighting and the opening of the door, the warm air is emitted from the heating device upon entering the room, so that the heating device is used. Discomfort of the person can be prevented.
In addition, if the heater is set to receive the light-off information and the door opening / closing information and automatically stop the heater, forgetting to turn off the heater can be prevented.
[0036]
According to a ninth aspect of the present invention, in the heating device according to the third aspect, the information signal received by the heating device is temperature information of a room where the heating device is installed or an adjacent room.
[0037]
It is possible for all other devices to use the temperature information by the temperature detecting means provided in one of the local cleaning device, the temperature measuring device, etc., thereby simplifying the configuration of the heater and providing it at low cost. Become.
[0038]
Some conventional heaters detect the temperature of the room in which the heater is installed and operate to reach a set temperature. When operating such a heater to keep the room temperature constant, the user has a problem that the sensed temperature varies depending on the temperature of the adjacent room immediately before entering the room, and the user feels hot sometimes and cold sometimes. . However, since the heater receives temperature information from the temperature measurement device in the adjacent room and can set the temperature of the room to a certain value higher than the temperature of the adjacent room, the temperature of the adjacent room is affected. The user always feels right without receiving it.
[0039]
According to a tenth aspect of the present invention, in the heating device according to the fourth aspect, the information signal transmitted by the heating device includes the following information groups (1) to (7).
(1) information on the actual operating state or the predicted operating state,
(2) User's instruction input information to the operation unit or the remote control device,
(3) a detection result of a sensor for detecting temperature or presence or absence of a human body;
(4) a detection result of a detection switch for detecting an operation state or a use state of a user;
(5) The timing result by the timing means,
(6) storage data stored in the storage device,
(7) calculation results by the calculation device,
Is characterized by including one or more types of information selected from the following.
[0040]
When the information of the above (1) is used, it becomes possible to operate the heater and the local cleaning device or the ventilation device in conjunction with the actual operation or the predicted operation.
[0041]
When the information of the above (2) is used, the operation of the local cleaning device and the ventilation device can be changed by the user operating the heater.
[0042]
When the information of the above (3) or (4) is used, the detection result of the sensor or the detection switch provided for the temperature, the human body, and the like provided in the heater can be used in the local cleaning device, the ventilation device, and the cooling device. Thus, the configuration of each device can be simplified and provided at low cost.
[0043]
When the information of the above (5) is used, the result of time measurement by the time measurement means provided in the heater can be used by the local cleaning device, the ventilation device, and the cooling device, and the configuration of each device is simplified and provided at a low cost. It is possible to do. Also, if a configuration is used in which each device corrects the time measurement result of its own time measurement means using the time measurement result from the heater, the time measurement of the heater and the time measurement of each device can be synchronized.
[0044]
When the information of the above (6) is used, the storage data stored in the storage device provided in the heater can be used by the local cleaning device, the ventilation device, and the cooling device, and the configuration of each device is simplified. It can be provided at low cost.
[0045]
When the information of the above (7) is used, the calculation result by the calculation device provided in the heater can be used by the local cleaning device, the ventilation device, and the cooling device, and the configuration of each device is simplified and provided at low cost. It is possible to do.
[0046]
The invention according to claim 11 is the heating device according to claim 3, wherein the heating device starts, changes, stops, or temporarily stops its own operation based on an information signal from the device. .
[0047]
The heater starts, changes, stops or temporarily stops its own operation based on an information signal from another device. The heater can start, change operation, stop, or pause itself in accordance with, for example, activation, operation change, stop, or pause of another device. Also, for example, by stopping the heater in accordance with the stop of the device with the transmission function, it is possible to prevent the user from forgetting to stop the device.
[0048]
Further, for example, by starting the heater in accordance with the operation of the device with the transmission function, the heater can be used effectively. For example, if the heater is started at the time of using the heater or at the predicted use time, the heater can be used effectively.
[0049]
According to a twelfth aspect of the present invention, in the heating device according to the fourth aspect, the heating device waits for its operation state in a power saving standby state based on an information signal from a device for local cleaning, lighting, and use state notification. A transition from the state to the normal operation state or a transition from the normal operation state to the power saving standby state is characterized.
[0050]
The heater changes its operation state from the power saving standby state to the normal operation state or from the normal operation state to the power saving standby state based on an information signal from another device. Therefore, according to the state of other devices, the operation is automatically performed when necessary, and when not necessary, the LED such as the operation display unit is turned off. It becomes possible to provide a heater.
[0051]
According to a thirteenth aspect of the present invention, in the heater of the eleventh aspect, the heater changes its own power consumption based on the information signal of the sixth aspect.
[0052]
The heater changes its own power consumption based on the information signal from the local cleaning device. Therefore, it is possible to suppress the power consumption of the entire system from becoming excessive.
[0053]
According to a fourteenth aspect of the present invention, in the heating device according to the eleventh aspect, the heating unit estimates a use time period of the toilet based on the information signal according to the fifth aspect, and starts or stops the operation of the heating unit. It is characterized by having a function of performing automatically.
[0054]
By setting the heater to receive the timer operation time information of the local cleaning device and perform the timer operation, the timer function of the heater can be omitted, and the local cleaning device and the local cleaning device can be set only by setting the timer of the local cleaning device. Since the timer setting of the heater can be performed, each timer setting operation can be omitted. Also, if the information from the local cleaning device is usage history information, the heater estimates the usage time zone of the toilet based on that information, and the heater automatically sets the operation start time and stop time. If provided, it is not necessary to change the timer operation time each time.
[0055]
According to a fifteenth aspect of the present invention, in the heating device according to the fourteenth aspect, the heating device automatically starts or stops the operation of the heating device based on use history data of a predetermined number of days ago. .
[0056]
When the user wants to operate the heater just before getting up in the winter morning, the timer is set. However, if the time to operate is different depending on the day, the timer must be set each time. For example, when the user wants to change the timer operation time in the early morning on weekdays, Saturdays, and Sundays, the timer must be set the day before. However, by setting the predetermined number of days in the present invention to seven days, it is not necessary to set the timer each time.
[0057]
According to a sixteenth aspect of the present invention, in the heating device according to the eleventh aspect, an operation operation is performed based on temperature information of an adjacent room where the heating device is installed and temperature information of a room where the heating device is installed. Is changed.
[0058]
The heater changes the operation of the heater based on the temperature difference between the temperature of the adjacent room and the temperature of the room where the heater is installed, and controls the operation so that the temperature difference is constant. Can always make the perceived temperature constant when entering a room equipped with a heater from an adjacent room. Further, wasteful energy due to overheating can be suppressed as compared with the case where the temperature of the room where the heater is installed is controlled. The temperature information of the present invention includes not only the temperature but also the time information, and it is possible to set a higher temperature difference between the temperature of the adjacent room and the temperature of the room in which the heater is installed at midnight than in the daytime.
[0059]
The invention according to claim 17 is the invention according to claim 5, wherein the heater is:
(1) an interlocking operation mode that changes its own operation state based on an information signal from the local cleaning device;
(2) An individual operation mode that does not change its own operation state based on an information signal from the local cleaning device
And a means for selecting a desired mode from among them.
[0060]
The user can arbitrarily use the heater as a device that operates completely independently without cooperating with the local cleaning device.
[0061]
The invention according to claim 18 is the heating machine according to claim 3, wherein the heating machine has a plurality of changing units for changing its own operation state based on an information signal from the device, A desired means can be selected from a plurality of changing means.
[0062]
Thereby, it is possible to give more flexibility to the operation of the heater. In the heater, a plurality of types of patterns for changing the operation state according to an information signal from another device are prepared, and a desired change pattern is previously selected from the plurality of change patterns. By appropriately selecting the change pattern of the heater, it becomes possible to cause the heater to perform a cooperative operation that is more prompted by the user's will.
[0063]
In the invention according to claim 19, the plurality of change means include:
(1) first changing means for switching whether or not to suppress its own power consumption to a relatively large value or less based on an information signal from a local cleaning device;
(2) second changing means for switching whether or not to suppress the power consumption of the own device to a relatively small value or less based on the information signal from the local cleaning device;
It is characterized by including.
[0064]
When the heater is connected to a power supply breaker different from the local cleaning device, it may be preferable to select the mode (2).
[0065]
According to a twentieth aspect of the present invention, in the heating device according to any one of the first to fourth aspects, the heating device transmits and receives the information signal using a wireless channel using infrared rays or other airborne waves. And
[0066]
The heater exchanges information signals using a power line for supplying commercial power, a signal line different from the power line, or a wireless channel using infrared rays or other airborne waves. When an information signal is transmitted through a signal line, the reliability of signal transmission is high. In addition, by disconnecting or connecting signal lines as appropriate, such as by connecting the signal lines to a pin jack structure, a certain device can be detached from the system and operated independently, or re-integrated into the system. Can be. In the case of transmitting a signal using a power line of a commercial power supply, there is no need to wire a special signal line between devices using the commercial power supply. Further, when a wireless channel is used, there is no need for wiring between devices. In particular, when an infrared channel is used, a transmitter and a receiver can be configured at lower cost than other wireless methods.
[0067]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0068]
(Overall configuration ... Example of a toilet room)
FIG. 1 shows an external perspective view of an installation example of a heater installed in a toilet room. In the figure, A is a local cleaning device that is a device with a transmitting function, B is a heater that is a device with a transmitting and receiving function, C is a cooling device that is a device with a receiving function, D is a lighting device that is a device with a transmitting function, E Is a ventilation device that is a device with a reception function. As shown, the local cleaning device A is installed on a toilet bowl, the heater B and the cooling device C are installed along a wall surface, and the lighting device D and the ventilation device E are installed on a ceiling.
[0069]
Each of the heaters B operates as a device independent of other devices, and can achieve the intended use of the device. That is, all of these devices A to E can be used without assuming the presence of other devices (that is, whether they are installed alone or together with other devices, In either case), it operates to achieve its own unique use purpose. The devices A to E do not operate under the control of the local cleaning device, but are devices of an autonomous control type in which the operation of the device itself is controlled autonomously by the device itself.
[0070]
By the way, in the present embodiment, among the plurality of devices A to E, each of which is independent, for example, the heater B has a transmission / reception function, and the state of the heater or the state of the toilet room included in the heater is provided. In addition to transmitting the status information indicating the status to the outside such as the toilet room space, the status information indicating the status of the other transmission device or the status of the toilet room of the other transmission device is voluntarily caught, and It autonomously controls the operation state of its own device according to the state information. The local cleaning device A and the lighting device D have a transmitting function, and can transmit state information indicating the state of the device or the state of the toilet room to the outside such as the toilet room space. In addition, the cooling device C and the ventilation device E independently catch state information issued from another device with a transmission function, and autonomously control the operation state of the own device according to the state information. Thereby, the operation state of the entire device system including the devices A to E is more preferably controlled.
[0071]
Here, it should be noted that the devices having the receiving function such as the heating device B, the cooling device C, and the ventilation device E control the operation state of their own devices to the last "autonomously". It does not follow the instructions, commands or requests from other devices with a calling function. That is, which of the status information from the device with the transmission function (for example, there are various types of status information such as a human body detection result, power consumption, use frequency prediction, etc.) is used and which is ignored. Then, what operation is to be controlled and how to use it is determined autonomously by itself. On the other hand, the device with the transmitting function does not give an instruction, command or request for performing any operation to the device with the other receiving function, and simply transmits the state of the own device or the toilet room grasped by the own device. It merely releases the information to the surroundings, and has no bearing on how that state information was used around.
[0072]
FIG. 2 shows a configuration block diagram of the device system shown in FIG.
[0073]
The end-of-use information is transmitted from the transmitter of the local cleaning device, and the lighting information is transmitted from the transmitter of the lighting device, and is received by the receiver of the heater. The heater starts operating with the lighting information of the lighting device, and stops operating with the end-of-use information of the local cleaning device.
Further, the operating information and the temperature information are transmitted from the transmitter of the heater, the ventilator receives the operating information of the heater in the receiver, and the cooling device receives the temperature information of the heater in the receiver. The ventilator automatically shuts off when the heater is operating so that the warmed air in the toilet room is not discharged out of the toilet room. The cooling device controls the temperature in the toilet room based on the temperature information of the heater.
[0074]
Here, devices with a transmission function, such as a local cleaning device, a heater, and a lighting device, do not specify a specific device with a reception function as a destination of state information (that is, what device with a reception function exists in the toilet room). The status information is transmitted to the toilet room space without knowing at all whether the receiving device is receiving the status information or not). In short, the transmitting device “broadcasts” the status information to the toilet room. As described above, the device with the transmission function determines whether or not the broadcasted status information has been received by other devices in the vicinity, and whether or not other devices in the vicinity perform some operation in response to the status information. There is no concern about the existence or operation of other devices, such as no. In other words, the device with the transmission function does not “control” other devices, but simply broadcasts state information. The handling of state information "broadcast" from a device with a transmission function (eg, ignoring or using it, and how to use it in what operation) is determined solely by the device with a reception function. To decide. Such a coordination method between a device with a transmission function and another device with a reception function is a conventional coordination method between a control device and a controlled device, between a server and a client, and between a host and a peripheral device. This is a special cooperation method that is distinguished from a method in which one issues an instruction, a command, or a request to the other, and the other changes the operation of its own device accordingly.
[0075]
Each device with a reception function including a heater is also provided with its own operation unit, and in addition to operating by changing its own operation mode based on received information, input to its own operation unit is also performed. It is also possible to operate according to
[0076]
FIG. 3 shows a cross-sectional view of the heater. The heater 380 is embedded in the indoor wall surface 399. The heater 380 inhales indoor air from the air inlet 360 opened in a slit shape by the air blower 330, performs temperature adjustment by the heat exchanger 381, and enters the room from the air outlet 350 opened in the slit shape like the air inlet. The room is heated by blowing air. The operation of the blower 330 is controlled by the operation control unit 321 of the heater.
[0077]
The power supply to the heater is supplied from the commercial power source through the same breaker as the above-described local cleaning device.
[0078]
FIG. 4 is a diagram illustrating an operation unit of the heater according to the embodiment of the present invention.
[0079]
The power switch 1001 turns on / off the power to the device, and the operation selection switch 1002 changes the operation mode of its own device based on the information transmitted by the other device. It is possible to select the “individual operation mode” that operates based on the user's instruction input to the user's own operation unit, and when the “interlocked operation mode” is selected, the The operation selection display section 1007 is turned on to inform the user of the selection mode.
[0080]
The hot air selection switch 1003 is a circulating selection switch, and each time the switch is pressed, the hot air operation is selected in the order of “turn off hot air” → “weak hot air” → “strong hot air” → “turn off hot air” →. It is possible. When "Hot air cut off" is selected, the heater of the hot air deodorizer does not operate, and when "Low warm air" is selected, a heater equivalent to 200 W operates and the blowing air volume is about 0.3 m. ³ / Min, and if “strong hot air” is selected, the heater corresponding to 400 W operates and the blowing air volume is about 0.6 m ³ / Min.
[0081]
The power save selection switch 1005 is a switch for selecting an operation mode in the “interlocking operation mode” in which the operation mode is changed based on information transmitted from another device.
[0082]
When “interlocked operation mode” is selected by the operation selection switch 1002 and “power save ON” is selected by the power save selection switch 1005, the operation mode of the own device is changed based on information transmitted from another device. At this time, an operation of changing the power consumption of the own device is performed in cooperation with the change of the power consumption of another device (specifically, the hot air operation mode is changed).
When “interlocked operation mode” is selected by the operation selection switch 1002 and “power save off” is selected by the power save selection switch 1005, the operation mode of the own device is changed based on information transmitted from another device. At this time, an operation of changing its own power consumption is not performed in cooperation with a change in power consumption of another device.
[0083]
When the “individual operation mode” is selected by the operation selection switch 1002, the selected position of the power save selection switch 1005 has no meaning.
[0084]
When the “interlocking operation mode” is selected by the operation selection switch 1002 irrespective of the selection of the power save selection switch 1005, information transmitted from other devices is received and the heater is placed in a power saving standby state. From the operating state to the power saving standby state is executed.
[0085]
The priority selection switch 1006 is also a switch for selecting an operation mode in the “interlocked operation mode” in which the operation mode is changed based on information transmitted from another device.
[0086]
When “linked operation mode” is selected by the operation selection switch 1002 and “priority 2” is selected by the priority selection switch 1006, the power consumption of the own device is changed based on information transmitted from another device. In the operation, the operation is changed so that its own power consumption becomes 300 W or less. In the present heater, the operation is changed to "low hot air" in the case of "high hot air" operation.
[0087]
When “linked operation mode” is selected by the operation selection switch 1002 and “priority 3” is selected by the priority selection switch 1006, the power consumption of the own device is changed based on information transmitted from another device. In the operation, the operation is changed so that its own power consumption becomes 100 W or less. In this heating machine, in the case of the operation of "strong hot air" or "weak hot air", the operation is changed to "hot air off".
[0088]
When the “individual operation mode” is selected by the operation selection switch 1002, the selected position of the priority selection switch 1006 has no meaning.
[0089]
5 to 7 show operation flowcharts of the device system according to the embodiment of the present invention. It has the same configuration as the invention shown in FIG. 1 and FIG. Information transmission between the devices is performed using infrared rays.
[0090]
A representative series of cooperative operations of the device system including the local cleaning device and the heater according to the present embodiment will be described with reference to a flowchart.
[0091]
The heating device turns off the LED display unit and the like of the operation unit when there is no input to the operation unit and the remote controller or information transmission from another device for a fixed time (one hour) or more after the power is turned on. Move to the power standby state.
[0092]
For the heater, the “interlocking operation mode” is selected by the respective selection switches.
[0093]
The local cleaning device transmits a “use start notice signal” one hour before the use start time estimated from its own use history, and cancels the power saving standby state.
[0094]
The heater receives the "use start notice signal" and shifts to the strong mode (400 W) heating operation (however, if the temperature is equal to or higher than the set temperature previously input to the heater, the heating operation is not performed). .
[0095]
When a user enters the room, a human body detection sensor (ranging sensor) provided in the local cleaning device detects a preset value (referred to as an A value), transmits an "entrance detection signal", and Open the lid.
[0096]
The heater receives the “entrance detection signal”, cancels the power saving standby state, and continuously performs the strong mode (400 W) heating operation (however, when the temperature is equal to or higher than the preset temperature, Do not perform heating operation).
[0097]
The local cleaning device transmits an “entrance detection signal”, and after opening the toilet lid, shifts to a pre-heating operation of the toilet seat and the washing water. Outgoing.
[0098]
The heaters that have received the “low-power use signal” shift from the strong mode operation to the weak mode operation, respectively, and suppress their own power consumption.
[0099]
As described above, by shifting to the operation of suppressing the power consumption by the heater based on the predicted power usage information of the local cleaning device, the heater is operated so as not to exceed its electric capacity even when connected to the same power breaker. It becomes possible.
[0100]
When the user comes closer to the toilet seat, for example, by sitting on the toilet seat, the human body detection sensor (ranging sensor) provided in the local cleaning device detects a preset value (B value), and “Start use” Signal.
[0101]
The heater that has received the “use start signal” continues the heating operation when the temperature is equal to or lower than the preset temperature.
[0102]
When a cleaning operation instruction is input to an operation unit or a remote controller of the local cleaning device, the local cleaning device transmits a “high power use signal” and performs a hot water cleaning operation.
[0103]
The heater that has received the “high power use signal” stops the operation when performing the heating operation.
[0104]
When a cleaning stop instruction is input to the operation unit or the remote controller of the local cleaning device, the local cleaning device stops the hot water cleaning operation and transmits a “medium power use signal”.
[0105]
The heater that has received the “medium power use signal” stops weak heating or operation.
[0106]
When the user leaves the toilet seat, for example, stands up from the toilet seat, the human body detection sensor (ranging sensor) provided in the local cleaning device is in a non-detection state from a detection state of a preset value (B value). Then, a "use end signal" is transmitted, and the toilet seat heating and deodorizing operation are stopped.
[0107]
The heater that has received the “use end signal” stops the heating operation.
[0108]
When the user leaves the room, the human body detection sensor (distance measuring sensor) provided in the local cleaning device shifts from a detection state of a preset value (A value) to a non-detection state, and outputs a “room exit detection signal”. , And timekeeping is started.
[0109]
The heater that has received the “room exit detection signal” shifts to a power saving standby.
[0110]
As described above, by sharing the sensor detection value of the above-described local cleaning device, it becomes possible to stop the operation of the heater or shift to the standby for power saving, so that the user forgets to turn off or forgets to turn off. It is possible to prevent unnecessary power consumption due to the above.
[0111]
8 to 13 are flowcharts of another heater and other devices according to an embodiment of the present invention.
[0112]
Other equipment includes a local washing device (or toilet device) installed in the toilet room and a booth temperature measuring device installed outside the toilet room (for example, a corridor or washroom connecting the toilet room with the entrance). Be composed. The local cleaning device and the outside booth temperature measuring device have a transmitting function, while the heater has a receiving function. The local cleaning device and the outside booth temperature measurement device are electrically connected, and the outside booth temperature information detected by the outside booth temperature measurement device is received by the local cleaning device. Temperature information outside the booth may be transmitted to the toilet room by infrared rays or the like.
[0113]
8 to 13 show only an operation flow example of the heater that receives information from the local cleaning device and the outside booth temperature measurement device. The operation flow of the local cleaning device and the outside booth temperature measuring device is omitted.
[0114]
As shown in FIG. 8, after the power is turned on, the heating device enters an operation mode selection task by a user operation. When the automatic operation switch is turned on by the user, the heating device cooperates with a local cleaning device or the like. When the device is turned off, the operation mode is changed to the individual operation mode in which the device operates completely independently of other devices. Thereafter, if no event occurs, the heater enters a power saving standby state. Subsequently, the routine proceeds to FIG. 9 (501).
[0115]
As shown in FIG. 9, the heater enters the clock correction task periodically, for example, as shown in the flow from terminal 501 onward, and determines whether or not time information has come from the local cleaning device (that is, if the information signal is physical). Check if it is received or not, and if it comes, receive it (that is, accept it for use in operation control), compare the received time information with the time of the internal clock of the heater, If not, adjust the time of the internal clock to match that of the local cleaning device. Subsequently, the routine proceeds to FIG. 10 (502).
[0116]
As shown in FIG. 10, as shown in the flow from terminal 502, the heater periodically enters, for example, a “morning use notice” determination task and checks whether use notice information has been received from the local cleaning device. . This use notice information indicates the use notice that the user will use the toilet during the current time zone, which is obtained as a result of the above-described prediction processing of the local cleaning device. If the use notice information is received, the heater checks the time at which the use notice information was received with a built-in clock, and determines whether the time falls within a predetermined morning cold time period (for example, 6:00 to 9:00). Check if it is. If the result of this time zone check is yes (use notice information was received from 6:00 to 9:00 in the morning), the routine proceeds to FIG. 11 (503). If the check result is NO or if the use notice information does not come, it is determined that the heating machine does not perform the heating operation yet, and the routine proceeds to FIG. 13 (511, 512).
[0117]
As shown in FIG. 11, if the time period check result of the “morning use notice” determination task in FIG. 10 is “yes”, the heater performs the “preheating” execution determination task And periodically checks whether or not booth outside temperature information has been received from the outside booth temperature detecting device. When the outside booth temperature information is received, it is received, and the temperature outside the booth is compared with the temperature of the built-in thermistor of the heater (that is, the temperature inside the toilet room). If the temperature is lower than the temperature outside the toilet room by, for example, 5 degrees or more, it is determined that preheating is to be performed, and the routine proceeds to FIG. 12 (504). On the other hand, as a result of the temperature comparison, when the temperature in the toilet room is not lower than the temperature outside the toilet room, it is determined that the preheating is not to be performed, and the routine proceeds to FIG. 13 (701).
[0118]
If the temperature information outside the booth does not come (typically, if the temperature detection device outside the booth is not installed), the heater checks the temperature of the built-in thermistor (toilet room temperature), For example, if the temperature is equal to or lower than 20 ° C., it is determined that pre-heating is to be performed, and the routine proceeds to FIG. 12 (505). If the temperature is higher than 20 ° C., it is determined that pre-heating is not to be performed, and the routine is returned to FIG. Proceed (513).
[0119]
As shown in FIG. 12, when the heating device determines to perform the preheating based on the booth outside temperature information in the “preheating” execution determination task, the heating device performs the inside / outside temperature deviation control as shown in a flow 504 and below. Entering the "pre-heating" task, first release the power saving standby, start a strong (for example, 1200W) heating operation, and then after a predetermined time required for the effect of the heating operation to appear to some extent, It periodically checks whether or not the user's entry detection information has come from the local cleaning device, and if it does not, then receives the outside booth temperature information (which is periodically transmitted from the outside booth temperature detection device) Then, the temperature outside the booth and the temperature inside the toilet of the built-in thermistor are compared. As a result of this temperature comparison, if the temperature in the toilet room is lower than the temperature outside the toilet room and the temperature difference is larger than, for example, 2 degrees, the heater continues the pre-heating operation, and then the temperature in the toilet room increases. When the temperature outside the toilet room approaches within 2 degrees, the preheating operation is stopped. Also, as a result of checking the above-mentioned entry detection information, when the entry detection information has come (702), the heating device changes from “pre-heating” in the strong (eg, 1200 W) operation to, for example, weak (eg, 600 W). Change the heating operation to "foot heating" during operation.
[0120]
The entry detection information is based on a detection result of a human body detection sensor provided in the local cleaning device that detects a user approaching the local cleaning device or a seating detection sensor that detects a user using the local cleaning device. In addition to the method of transmission by the local cleaning device, an entry / exit detection device that detects user entry / exit to the toilet room is provided near the entrance of the toilet room, and the entry / exit detection device is installed in the toilet room as a device with a transmission function. A method for transmitting the entry / exit detection information, the local cleaning device and the entry / exit detection device are electrically connected, the entry / exit detection information detected by the entry / exit detection device is received by the local cleaning device, and the local cleaning device is It is also possible to transmit entry / exit detection information into the toilet room together with the above information.
[0121]
In addition, when the heating device determines that the preheating is to be performed based only on the toilet room temperature in the above-described “preheating” execution determination task, the internal temperature deviation control “preheating” is performed as shown in the flow of terminal 505 and below. Entering the task, first release the power saving standby, start a strong (for example, 1200W) heating operation, and then after a predetermined time necessary for the effect of the heating operation to appear to some extent, from the local cleaning device It periodically checks whether the user's entry detection information has arrived, and if not, then checks the toilet room temperature detected by the built-in thermistor, and if the room temperature is still less than 20 ° C, pre-heating The operation is continued, and when the temperature reaches 20 ° C. or higher, the preliminary heating operation is stopped. Also, as a result of checking the above-mentioned entry detection information, when the entry detection information comes (703), the heater is changed from “pre-heating” in strong (eg, 1200 W) operation to, for example, weak (eg, 600 W). Change the heating operation to "foot heating" during operation.
[0122]
As illustrated in FIG. 13, when the heating device determines that the heating operation is not yet performed in the task illustrated in FIGS. 10 to 11, the power saving operation is performed as illustrated in the flow of terminals 511, 512, 513, and 701 and below. Enter the standby continuation task, maintain the power saving standby state, and periodically check whether or not room detection information has been received from the local cleaning device.If not, maintain the power saving standby state. Then, the power saving standby state is released.
[0123]
As described above, whether the heater uses or ignores the information signal from the local cleaning device or the like autonomously in its own method, and what kind of operation control is performed using the information signal And operate in a unique manner. No device actively controls other devices. Nevertheless, a harmonious and favorable operating state is achieved for the entire equipment system.
[0124]
Further, according to the heater and the other devices, by sharing the sensor detection value of one device, it becomes possible to stop the operation of the heater or to shift to a power saving standby, so that the user It is possible to prevent unnecessary power consumption due to forgetting to turn off or forgetting to turn off.
[0125]
It should be noted that the embodiments described above are not limited thereto, and can be implemented without departing from the gist of the invention.
[0126]
In addition, when the present invention is implemented, even if it includes equipment operated by a power supply other than the commercial power supply (for example, a primary battery or a secondary battery), it can be performed without departing from the gist of the present invention.
[0127]
【The invention's effect】
As described above, according to the present invention, it is possible to reduce the cost of a heater or another device by sharing information held by a heater or another device, and to heat information of another device. By utilizing the heater, it is possible to provide a user with a heater having an operation mode in which more optimal movement can be performed.
[Brief description of the drawings]
FIG. 1 is an external perspective view of an installation example of a device with a transmission function, a device with a reception function, and a heater with a reception and transmission function installed in a toilet room.
FIG. 2 is a configuration block diagram illustrating an example of a device with a transmission function, a device with a reception function, and a heater with a reception and transmission function.
FIG. 3 is a diagram showing a heater as an example of a device with a reception function of the present invention.
FIG. 4 is a view showing an operation unit of the heater of FIG. 3;
FIG. 5 is a flowchart of a heater and other devices according to an embodiment of the present invention.
FIG. 6 is a continuation of the flowchart in FIG. 5 of the heater and other devices according to the embodiment of the present invention.
FIG. 7 is a continuation of the flowchart in FIG. 6 for the heater and other devices according to the embodiment of the present invention.
FIG. 8 is a flowchart of another heater and other devices according to an embodiment of the present invention.
FIG. 9 is a continuation of the flowchart in FIG. 8 of the heater and other devices according to the embodiment of the present invention.
FIG. 10 is a continuation of the flowchart in FIG. 9 for the heater and other devices according to the embodiment of the present invention.
FIG. 11 is a continuation of the flowchart in FIG. 10 of the heater and other devices according to the embodiment of the present invention.
FIG. 12 is a continuation of the flowchart in FIG. 11 of the heater and other devices according to the embodiment of the present invention.
FIG. 13 is a continuation of the flowcharts of FIGS. 10 to 12 for the heater and other devices according to the embodiment of the present invention.
[Explanation of symbols]
A: Local cleaning device
B… Heating machine
C: Cooling device
D: Lighting device
E… Ventilation equipment
301 Photocatalytic deodorizer
311 ... Photocatalytic element
312 ... light source,
313: catalyst sheet fixing means
314 ... catalyst sheet
315: Notch
321 operation control unit
330 ... Blower
350 ... vent
360 ... suction port
371: Light source control unit
372: operation control unit
373 ... Infrared light receiving element
373… Wind speed sensor
374… Illuminance sensor
375… Operation selection switch
376: Power supply connection
380 ... Heating machine
381 ... Heat exchanger

Claims (20)

Receiving means for receiving an information signal indicating the operating state of the device itself or the state of the environment transmitted from the device installed in a certain environment, and control means for changing its own operating state based on the received information signal And a heater installed in the environment. A heater installed in a certain environment, comprising: a transmitting unit for transmitting an information signal indicating an operation state of the device or a state of the environment to a device installed in the certain environment. The certain environment is an indoor environment including a toilet room or the toilet room and a room adjacent to the toilet room, and the device is optionally installed in the toilet room or the adjacent room, local cleaning, lighting, and use state. 2. The heater according to claim 1, wherein the heater is a notification device or a temperature measurement device. The certain environment is an indoor environment including a toilet room or the toilet room and a room adjacent thereto, and the device is a local cleaning, ventilation, cooling device optionally installed in the toilet room or the adjacent room. The heating machine according to claim 2, wherein The information signal received by the heater from the local cleaning device includes the following information groups (1) to (7) (1) information on actual operating states or predicted operating states of various functional components
(2) User's instruction input information to the operation unit or the remote control device,
(3) a detection result of a sensor for detecting temperature or presence or absence of a human body;
(4) a detection result of a detection switch for detecting an operation state or a use state of a user;
(5) The timing result by the timing means,
(6) storage data stored in the storage device,
(7) calculation results by the calculation device,
4. The heater according to claim 3, wherein at least one type of information selected from the group is included. The heater and the local cleaning device are operated by a commercial power supply, and the information signal received by the heater from the local cleaning device includes the following information groups (1) and (2): amount to use,
(2) predicted power usage,
The heater according to claim 5, wherein at least one type of information selected from the following is included. The information signal received by the heater from the local cleaning device includes the following information groups (1) to (3):
(2) Past usage history,
(3) The heater according to claim 5, wherein at least one type of information selected from the predicted current or future use state is included. In the information signal received by the heater,
4. The heater according to claim 3, wherein at least one type of information selected from (1) lighting on / off information and (2) door opening / closing information is included. The heater according to claim 3, wherein the information signal received by the heater is temperature information of a room where the heater is installed or an adjacent room. The information signal transmitted by the heater includes the following information groups (1) to (7) (1) information of an actual operation state or an expected operation state;
(2) User's instruction input information to the operation unit or the remote control device,
(3) a detection result of a sensor for detecting temperature or presence or absence of a human body;
(4) a detection result of a detection switch for detecting an operation state or a use state of a user;
(5) The timing result by the timing means,
(6) storage data stored in the storage device,
(7) calculation results by the calculation device,
5. The heater according to claim 4, wherein at least one type of information selected from the following is included. The heating device according to claim 3, wherein the heating device starts, changes, stops, or temporarily stops its own operation based on an information signal from the device. The heater changes its own operation state from the power saving standby state to the normal operation state, or shifts from the normal operation state to the power saving standby state based on an information signal from a device for local cleaning, lighting, and use state notification. The heating machine according to claim 11, wherein: The heating machine according to claim 11, wherein the heating machine changes its own power consumption based on the information signal according to claim 6. The heater according to claim 11, wherein the heater has a function of estimating a use time zone of the toilet based on the information signal according to claim 5, and automatically starting or stopping the operation of the heater. heater. The heating machine according to claim 14, wherein the heating machine automatically starts or stops the operation of the heating machine based on usage history data of a predetermined number of days ago. The heating device changes the operation based on temperature information of an adjacent room in which the heating device is installed and temperature information of a room in which the heating device is installed, according to claim 11, wherein: Heating machine. The heater is
(1) an interlocking operation mode that changes its own operation state based on an information signal from the local cleaning device;
(2) The heater according to claim 5, further comprising means for selecting a desired mode from an individual operation mode in which its own operation state is not changed based on an information signal from the local cleaning device. The heater has a plurality of changing units for changing its own operation state based on an information signal from the device, and a desired unit can be selected from the plurality of changing units. The heater according to claim 3, wherein The plurality of change means include:
(1) first changing means for switching whether or not to suppress its own power consumption to a relatively large value or less based on an information signal from a local cleaning device;
19. The apparatus according to claim 18, further comprising: a second changing unit configured to switch whether or not the power consumption of the apparatus is reduced to a relatively small value or less based on an information signal from the local cleaning device. Heating machine. 5. The heater according to claim 1, wherein the heater transmits and receives the information signal using a wireless channel using infrared rays or other airborne waves.

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