JP5135037B2 - Toilet room heating control system - Google Patents

Description

  The present invention relates to a heating control system that controls heating of a toilet room.

Conventionally, a heating device that controls the temperature of a toilet room is known. As such a heating device, for example, the following has been proposed (see Patent Document 1). When there is a person in front of the heating element, this heating device operates the heating element at the maximum heating value, and when the deviation signal from the deviation calculating means falls below a certain value, operates the blower at a constant air volume, When no person is present on the front surface of the heating element, the operation of the blower and the heating element is stopped.
Japanese Patent Publication No. 06-103124

  However, in the thing of patent document 1, when it judges that a person exists in front of a heat generating body, since a heat generating body starts an operation with the maximum calorific value, at the stage which entered a toilet room, a heat generating body is still The heating element is driven when sitting on the toilet seat without being driven. As a result, the user must enter the toilet posture even when the temperature of the toilet room is low, and may feel cold.

  In addition, when it is determined that there is a person on the front surface of the heating element, the fan is operated at a constant air flow in addition to operating the heating element at the maximum heat generation amount.

  An object of the present invention is to provide a heating control system for a toilet room that allows a user to comfortably use the toilet room and that can suppress unnecessary power consumption as much as possible to keep the use cost low.

In order to solve the above-mentioned problem, claim 1 of the present invention is a heating control system for a toilet room including a heating device and a control device for controlling the operation of the heating device, and the heating device is a toilet. It is equipped with a heater panel that can be radiated heat radiated to at least one of the left and right sides and the front side of the toilet in the room. The control device is configured to be able to switch between a low-power operation and a low-power operation. is configured to to switch the output operation, the switching timing is the time der the body surface temperature of the user is the heating system that is higher than the first preset temperature is detected The controller detects that the body surface temperature of the user is lower than the second set temperature set lower than the first set temperature after switching to the low output operation. Provided is a heating control system for a toilet room, which is configured to switch the heating device to the high output operation again at the time .

  According to the first aspect, when the user enters the toilet room, the heating device is caused to perform a high-output operation, and thereafter, the user is switched to the low-output operation at a predetermined switching timing. Thereby, the user who entered the toilet room can be warmed up immediately.

  In addition, after the heating device is warmed by the high-output operation, the user is sufficiently warmed even if the heating device is switched to the low-power operation. On the other hand, since it is switched to the low output operation after the high output operation, consumption of energy can be suppressed as compared with the conventional heating device.

Further, when the body surface temperature of the user becomes higher than the first set temperature, the heating device is switched from the high output operation to the low output operation. Thereby, it can prevent that a user gets too warm by the high output driving | operation of a heating apparatus, for example, can prevent reliably that a user gets too warm and causes a hot flash. Moreover, since it performs based on body surface temperature in that case, it can prevent reliably a user's body warming too much.

Further, after switching to the low output operation, when the body surface temperature becomes lower than the second set temperature, the heating device is switched to the high output operation again. Thereby, for example, when the toilet room is used for a long time, the user's body can be prevented from being cooled when the low output operation is continued, and the user can comfortably use the toilet room for a long time. Moreover, since it carries out based on body surface temperature in that case, the cooling of a user's body can be prevented reliably.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic view of a toilet room provided with a heating control system for a toilet room according to the first embodiment of the present invention, FIG. 2 is a block diagram for explaining a heating device used in the heating control system, and FIG. These are block diagrams for demonstrating the control apparatus used for the heating control system.

  As shown in FIG. 1, the heating control system for the toilet room according to the first embodiment includes a heating device 2 provided in the toilet room 1, and a control signal is wired or wireless to the heating device 2 (in this embodiment, wireless). ) To control the operation of the heating device 2.

  The heating device 2 of this embodiment includes heater panels 21 installed on both the left and right sides of the toilet 4 in the toilet room 1. Each of the heater panels 21 is formed of a rectangular shape, and a heater wire (not shown) is disposed inside.

  Further, the heater wire of this embodiment is composed of a first heater wire and a second heater wire. The first heater wire is disposed on almost the entire heater panel 21. Thereby, radiation heat can be radiated to the entire body including the face of the user standing on the toilet 4 or the user sitting on the toilet seat of the toilet 4 with respect to the toilet 4.

  The second heater wire is disposed on the lower side of the heater panel 21. As a result, radiation heat can be radiated mainly to the lower body of the user standing or sitting.

  The first heater line and the second heater line are switched to each other and can be energized, that is, can be operated. The operation of the first heater line is a high output operation, and the operation of the second heater line is This is a low output operation that operates at a lower output than the high output operation.

  Moreover, the heating apparatus 2 of this embodiment is provided with the operation part 22, as shown in FIG. The operation unit 22 includes a high output operation unit 23, a low output operation unit 24, an operation stop unit 25, and a reception unit 26.

  When the high output operation unit 23 receives from the control device 3 a high output operation start signal that is a control signal for starting the high output operation, the high output operation unit 23 operates the heater panel 21 based on the high output operation start signal. To.

  When the low output operation unit 24 receives a low output operation start signal, which is a control signal for starting the low output operation, from the control device 3, the low output operation unit 24 operates the heater panel 21 based on the low output operation start signal. To.

  When the operation stop unit 28 receives an operation stop signal that is a control signal for stopping the high output operation or the low output operation of the heater panel 21 of the heating device 2 from the control device 3, the operation stop unit 28 is based on the operation stop signal. , Stop its operation.

  The receiving unit 26 receives, for example, the high output operation start signal, the low output operation start signal, and the operation stop signal from the control device 3.

  In addition, in this embodiment, the heating device 2 includes a memory that is a recording device, a CPU, a display unit that is a display device, a button key that is an input device, a communication interface for communicating with the control device 3, and the like. I have.

  The CPU functions as a high output operation unit 23, a low output operation unit 24, an operation stop unit 25, and a reception unit 26 of the operation unit 22 in FIG.

  As shown in FIG. 3, the control device 3 includes an entrance determination unit 31, a first set time elapse determination unit 32, a second set time elapse determination unit 33, an exit determination unit 34, and a transmission unit 35. Yes.

  The entry determination unit 31 determines whether or not a user has entered the toilet room based on data detected by an entry / exit detection infrared sensor 30a (shown in FIG. 1) as entry / exit detection means included in the control device 3. To do.

  More specifically, the entrance / exit detection infrared sensor 30a of this embodiment is installed such that infrared rays are blocked by a user passing through the entrance / exit of the toilet room 1. When the infrared light is blocked by the user entering from the entrance of the toilet room 1, the entrance / exit detection infrared sensor 30a detects this, and based on the detection data indicating that the room has entered, the control device 3 It is determined that the user has entered the room.

  When the control device 3 determines that the room has been entered, the control device 3 generates a high-power operation start signal and transmits it to the heating device 2.

  The exit determination unit 34 determines whether or not the user has exited the toilet room based on the detection data from the entrance / exit detection infrared sensor 30a. Specifically, when a user exiting from the entrance / exit of the toilet room blocks infrared rays, the infrared sensor 30a for detecting entry / exit detects the detection, and the control device 3 determines whether the user has exited the room based on the detected data. It is determined that has left the toilet room.

  Further, when the control device 3 determines that the room has been left, the control device 3 generates an operation stop signal and transmits the signal to the heating device 2.

  The first set time elapse determination unit 32 determines whether or not the first set time has elapsed since the high output operation was performed, that is, after the high output operation start signal was transmitted to the heating device 2. The first set time is set to about 1 to 3 minutes in this embodiment, but the first set time is not particularly limited and can be changed as appropriate. For example, the temperature may be a temperature sufficiently warmed by the user, and may be a time set in advance as a time that does not cause hot flashes.

  The second set time elapse determination unit 33 determines whether or not the second set time has elapsed after the low output operation is performed, that is, after the low output operation start signal is transmitted to the heating device 2. In this embodiment, the second set time is set to be the same as the first set time (about 1 to 3 minutes), but the second set time is not particularly limited and may be changed as appropriate.

  The transmission unit 35 transmits, for example, a high output operation start signal, a low output operation start signal, and an operation stop signal to the heating device 2.

  Although not shown, the control device 3 includes a memory as a recording device, a CPU, a display unit as a display device, a button key as an input device, a communication interface for communicating with the heating device, and the like.

  The CPU functions as the room entry determination unit 31, the first set time elapsed determination unit 32, the second set time elapsed determination unit 33, the exit determination unit 34, and the transmission unit 35 in FIG.

  Next, the operation of the system of the first embodiment will be described with reference to FIG. First, the control device 3 determines whether or not a user has entered the toilet room 1 by the room entry determination unit 31 (see FIG. 3) (step S1 in FIG. 4).

  In this step S1, the control device 3 returns the control when it is determined that the room has not been entered yet. On the other hand, in step S <b> 1, when the control device 3 determines that the room has been entered, based on the determination, the control device 3 generates a high-output operation start signal and transmits it to the heating device 2.

  For example, as shown in FIG. 5, at time t <b> 1 when the user enters the toilet room, the control device 3 determines that the user has entered the room, and generates a high-output operation start signal based on the determination, and performs heating. Transmit to device 2.

  The heating device 2 (the operation unit 22 thereof) that has received the high output operation start signal starts the high output operation based on the received high output operation start signal (FIG. 4, step S2).

  Thereafter, the control device 3 determines whether or not the user has exited the toilet room 1 by the exit determination unit 34 (see FIG. 3) (FIG. 4, step S3). If it is determined in step S3 that the user has left the room, the control proceeds to step S10 described later.

  On the other hand, when it is determined that the room has not been left, the control device 3 uses the first set time elapse determination unit 32 (see FIG. 3) to transmit the high output operation start signal and then the first set time. It is determined whether (for example, 2 minutes) has elapsed (FIG. 4, step S4).

  In step S4, when the control device 3 determines that the first set time has not elapsed, the control device 3 returns the control to step S3. On the other hand, when it is determined in step S4 that the first set time has elapsed, based on the determination, the control device 3 generates a low-power operation start signal and transmits it to the heating device 2.

  For example, as shown in FIG. 5, at time t2 when the first set time has elapsed from the time t1, the control device 3 determines that the first set time has elapsed, and based on this determination, the low output An operation start signal is generated and transmitted to the heating device 2.

  The heating device 2 that has received the low output operation start signal starts the low output operation based on the received low output operation start signal (FIG. 4, step S5).

  Thereafter, the control device 3 determines whether or not the user has left the toilet room 1 (step S6 in FIG. 4). If it is determined that the user has left the room, the control proceeds to step S10 described later.

  On the other hand, when it is determined in step S6 that the room has not been left, the control device 3 transmits the low output operation start signal by the second set time elapsed determination unit 33 (see FIG. 3). It is determined whether a second set time (for example, 2 minutes) has elapsed (FIG. 4, step S7).

  In this step S7, when it is determined that the second set time has not elapsed, the control device 3 returns the control to step S6. On the other hand, when determining in step S7 that the second set time has elapsed, based on the determination, the control device 3 generates a high-power operation start signal and transmits it to the heating device 2.

  For example, as shown in FIG. 5, at time t3 when the second set time has elapsed from time t2, the control device 3 determines that the second set time has elapsed, and based on this determination, the high output An operation start signal is generated and transmitted to the heating device 2.

  The heating device 2 that has received the high-power operation start signal starts the high-power operation again based on the received high-power operation start signal (FIG. 4, step S8).

  Next, the control device 3 again determines whether or not the user has left the toilet room 1 by using the room leaving determination unit 34 (FIG. 4, step S9), and determines that the user has not yet left the room. If so, return to control and wait to leave.

  On the other hand, if it is determined in step S <b> 9 that the room has been left, an operation stop signal is generated based on the determination and transmitted to the heating device 2.

  For example, as shown in FIG. 5, at time t <b> 4 when the user leaves the room, the control device 3 determines that the user has left, and generates an operation stop signal based on the determination and transmits the operation stop signal to the heating device 2. . The heating device 2 that has received the operation stop signal stops the operation (FIG. 4, step S10).

  Next, a second embodiment will be described. The control device 3 in the second embodiment includes an entry determination unit 31, a first set time elapsed determination unit 32, an exit determination unit 34, and a transmission unit 35 as in the first embodiment (see FIG. 3). ).

  However, the second embodiment does not include a component corresponding to the second set time passage determination unit 33 in the first embodiment. The other configuration is the same as that of the first embodiment.

  As for the operation of the second embodiment configured as described above, as shown in FIG. 6, steps S11 to S15 and steps S16 and 17 corresponding to steps S1 to S5 and steps S9 and 10 in the first embodiment. Take.

  For example, as shown in FIG. 7, at time t11 when the user enters the toilet room, the control device 3 determines that the user has entered the room, generates a high-power operation start signal, transmits the signal to the heating device 2, and receives the signal. The heating device 2 that has started starts a high-output operation. In addition, at time t12 when the first set time has elapsed from time t11, the control device 3 determines that the first set time has elapsed, and transmits and receives a low-power operation start signal to the heating device 2. The heating device 2 starts a low output operation.

  Then, at time t13 when the user leaves the room, the control device 3 determines that the room has left, generates an operation stop signal, transmits the operation stop signal to the heating device 2, and the heating device 2 that receives the operation stops the operation. To do.

  As described above, in the second embodiment, after the heating device 2 starts the low output operation, the high output operation is not started again as in the first embodiment until the user leaves the room. Maintain low power operation.

  Next, a third embodiment will be described. As illustrated in FIG. 8, the control device 3 in the third embodiment includes a room entering determination unit 31, a first set temperature high determination unit 132, a second set temperature low determination unit 133, a room exit determination unit 34, and a transmission. Part 35. The entrance determination unit 31, the exit determination unit 34, and the transmission unit 35 have the same configuration as that of the first embodiment.

  The first set temperature high determination unit 132 determines whether or not the body surface temperature of the user has become higher than the first set temperature. Judgment is made on the basis of the detection data obtained by.

  The thermography 30b of this embodiment is provided in the toilet room 1 and detects the temperature of the cheek in the face of the user who has entered the toilet room 1. Then, the detected data is compared with the first set temperature, and when the detected data is higher than the first set temperature, it is determined that the body surface temperature of the user has become higher than the first set temperature.

  Further, when it is determined that the body surface temperature of the user has become higher than the first set temperature, a low output operation start signal is generated and transmitted to the heating device 2.

  On the other hand, when the detection data is equal to or lower than the first set temperature by comparing the detection data with the first set temperature, it is determined that the body surface temperature of the user is not higher than the first set temperature.

  Further, the first set temperature in this embodiment is set to a temperature at which the user's cheek is sufficiently warm and does not cause hot flashes. The first set temperature is not particularly limited, and can be changed and set as appropriate.

  The second set temperature low determination unit 133 determines whether or not the user's body surface temperature has become lower than the second set temperature based on detection data from the thermography 30b serving as the body surface temperature detection means.

  Specifically, the control device 3 compares the detection data detected by the thermography 30b with the second set temperature, and when the detection data is lower than the second set temperature, the body surface temperature of the user is lower than the second set temperature. Is determined to be low.

  Further, the second set temperature in this embodiment is set to a temperature at which the user feels that the cheek is cold. The second set temperature is not particularly limited and can be changed and set as appropriate.

  Next, the operation of the system of the third embodiment will be described with reference to FIG. The control device 3 employs steps S21 to S23 that are the same as steps S1 to S3 in the first embodiment.

  For example, as illustrated in FIG. 10, at time t <b> 21 when the user enters the toilet room, the control device 3 determines that the user has entered the room, generates a high-power operation start signal, and transmits the signal to the heating device 2.

  Then, after the heating device 2 starts the high output operation (FIG. 9, step S22), the control device 3 determines whether or not the user has left the toilet room 1 by the leaving determination unit 34 (FIG. 9). Step S23). If it is determined in step S23 that the room has been left, the control proceeds to step S30 described later.

  On the other hand, when it is determined that the user has not yet exited, the control device 3 determines whether or not the body surface temperature of the user has become higher than the first set temperature by the first set temperature high determination unit 132. A determination is made based on detection data from the thermography 30b (FIG. 9, step S24).

  In this step S24, when the control device 3 determines that the temperature is not higher than the first set temperature, the control device 3 returns the control to step S23. On the other hand, when it is determined that the temperature is higher than the first set temperature, the control device 3 generates a low output operation start signal based on the determination and transmits the low output operation start signal to the heating device 2.

  For example, as shown in FIG. 10, at time t22 (time point) when the thermography 30b detects that the user's body surface temperature is higher than the first set temperature, the control device 3 is higher than the first set temperature. Judgment is made. And based on this determination, a low output operation start signal is generated and transmitted to the heating device 2.

  The heating device 2 that has received the low output operation start signal starts the low output operation based on the received low output operation start signal (FIG. 9, step S25).

  Thereafter, the control device 3 again determines whether or not the user has left the toilet room 1 by the leaving determination unit 34 (FIG. 9, step S26). To step S30 described later.

  On the other hand, when it is determined that the room has not been left, the control device 3 determines whether or not the body surface temperature of the user has become lower than the second set temperature by the second set temperature low determination unit 133. A determination is made based on detection data obtained by the thermography 30b (FIG. 9, step S27).

  In step S <b> 27, when the control device 3 determines that the temperature is lower than the second set temperature, the control device 3 generates a high-output operation start signal again and transmits the signal to the heating device 2 based on the determination.

  For example, as shown in FIG. 10, at time t <b> 23 (time point) when the thermography 30 b detects that the user's body surface temperature is lower than the second set temperature, the control device 3 is lower than the second set temperature. Judgment is made. And based on this determination, a high output operation start signal is generated and transmitted to the heating device 2.

  The heating device 2 that has received the high-power operation start signal starts high-power operation again based on the received high-power operation start signal (FIG. 9, step S28).

  Thereafter, steps S29 and S30 that are the same as steps S9 and S10 of the first embodiment are adopted.

  For example, as shown in FIG. 10, at time t24 when the user leaves the room, the control device 3 determines that the room has left, generates an operation stop signal, transmits the operation stop signal to the heating device 2, and receives the heating device. 2 stops operation.

  Next, a fourth embodiment will be described. The control device 3 in the fourth embodiment includes an entry determination unit 31, a first set temperature high determination unit 132, an exit determination unit 34, and a transmission unit 35 as in the previous third embodiment (see FIG. 8). ).

  However, in this 4th Embodiment, what is corresponded to the 2nd preset temperature low determination part 133 in previous 3rd Embodiment is not provided. The other configuration is the same as that of the third embodiment.

  The operation of the fourth embodiment configured as described above includes steps S31 to S35 and steps S36 and S37 corresponding to steps S21 to S25 and steps S29 and S30 in the previous third embodiment as shown in FIG. take.

  For example, as illustrated in FIG. 12, at time t <b> 31 when the user enters the toilet room, the control device 3 determines that the user has entered the room, generates a high-power operation start signal, and transmits the signal to the heating device 2. The received heating device 2 starts a high output operation. Further, at time t32 when the user's body surface temperature becomes higher than the first set temperature, the control device 3 determines that the user's body surface temperature has become higher than the first set temperature, and generates a low output operation start signal. It transmits to the heating device 2.

  Then, at time t33 when the user leaves the room, the control device 3 determines that the room has left, generates an operation stop signal, transmits the operation stop signal to the heating device 2, and the heating device 2 that receives the operation stops the operation. To do.

  As described above, in the fourth embodiment, after the heating device 2 starts the low output operation, the body surface temperature of the user is lower than the second set temperature as in the third embodiment. However, the high output operation is not started, and the low output operation is maintained until the user leaves the room.

  In addition, in the said 1st Embodiment-4th Embodiment, although the heater panel 21 is used as a heating apparatus, not only the thing of this form but a PTC heater etc. can be used and it can change suitably.

  Moreover, in the said 1st Embodiment-4th Embodiment, although the heater panel 21 is installed in the right-and-left both sides of the toilet bowl 4, it is not restricted to the thing of this form, For example, the right-and-left both sides of the toilet bowl 4 and the front side It may be installed on at least one side and can be changed as appropriate.

  The heater panel 21 may be provided separately from the wall or door of the toilet room 1, but may be provided in the wall or door.

  Moreover, in the said 1st Embodiment-4th Embodiment, although the thermography 30b is used as a body surface temperature detection means, another means can also be used and can be changed suitably.

  Moreover, in the said 1st Embodiment-4th Embodiment, although the heating apparatus and the control apparatus are provided separately, for example, the thing of the form which built and attached the control apparatus in the heating apparatus may be used, and it changes suitably. it can.

It is the schematic of the toilet room which gave the heating control system of the toilet room of 1st Embodiment of this invention. It is a block diagram for demonstrating the heating apparatus used for the heating control system. It is a block diagram for demonstrating the control apparatus used for the heating control system. It is a flowchart for demonstrating operation | movement of the heating control system of the toilet room of 1st Embodiment. It is explanatory drawing which shows the relationship between the high output driving | operation of the heating apparatus in 1st Embodiment, a low output driving | operation, and entering a room and leaving a room. It is a flowchart for demonstrating operation | movement of the heating control system of the toilet room of 2nd Embodiment. It is explanatory drawing which shows the relationship between the high output driving | operation of the heating apparatus in 2nd Embodiment, and a low output driving | operation, and entering and leaving a room. It is a block diagram for demonstrating the control apparatus in 2nd Embodiment. It is a flowchart for demonstrating operation | movement of the heating control system of the toilet room of 3rd Embodiment. It is explanatory drawing which shows the relationship between the high output driving | operation of the heating apparatus in 3rd Embodiment, a low output driving | operation, a user's body surface temperature, and entering and leaving a room. It is a flowchart for demonstrating operation | movement of the heating control system of the toilet room of 4th Embodiment. It is explanatory drawing which shows the relationship between the high output driving | operation of the heating apparatus in 4th Embodiment, a low output driving | operation, a user's body surface temperature, and entering and leaving a room.

Explanation of symbols

1 Toilet room 2 Heating device 3 Control device 4 Toilet bowl 21 Heater panel

Claims (1)

A toilet room heating control system comprising a heating device and a control device for controlling the operation of the heating device,
The heating device includes a heater panel capable of radiating heat radiation disposed on at least one of the left and right sides and the front side of a toilet in a toilet room, and the heater panel is operated with high output and high output. It is configured to be able to switch between low output operation that operates at lower output than operation,
The control device is configured to cause the heating device to perform the high output operation when a user enters the toilet room, and then to switch to the low output operation at a predetermined switching timing.
The switching timing is when the heating device detects that the body surface temperature of the user is higher than the first set temperature,
After the control device switches to the low output operation, the heating device detects that the body surface temperature of the user is lower than a second set temperature set lower than the first set temperature. Thus, the heating control system for a toilet room is configured to switch the heating device to the high output operation again.

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