JPH085060A - Room temperature control apparatus for heating system - Google Patents

Abstract

PURPOSE:To provide a room temperature control apparatus for a heating system having a good operability, by which a room can always be heated at a comfortable temperature even if an occasional ambient temperature variation occurs. CONSTITUTION:This room temperature control apparatus comprises a room temperature detecting means 1 for detecting room temperature, a room temperature setting means 5 for setting set room temperature, a lowest temperature detecting means 3 for detecting a lowest temperature of a day, a clock function 2 having a calendar function, a calibrating means 4 for calibrating the set room temperature and calculating a target set temperature on the basis of information given by the calendar and a value detected by the lowest temperature detecting means 3 and a control means 6 for controlling the operation of a room heating apparatus according to the target set temperature calibrated by the calibrating means.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a room temperature control device for a heating machine for always realizing a comfortable heating space.

[0002]

2. Description of the Related Art Heretofore, some devices of this type have a calendar function as disclosed in, for example, Japanese Patent Laid-Open No. 4-28945. That is, FIG.
In the functional block diagram of the air conditioner disclosed in Japanese Patent No. 8945, a calendar condition setting means for judging the season, month, and day at the time of operation is provided, and the calendar condition is based on the set temperature set by the room temperature setting means. The operation temperature is corrected by correcting the set temperature.

In the above-mentioned ones, the sensible temperature of a person varies depending on the season, such as the amount of clothes or the temperature of the outside air, and the sensible temperature of a person is different. Correcting. For example, the set temperature is automatically corrected in early spring, autumn, etc. when the load from outside is small and the ability is not so high. In this way, the effort to change the set temperature is eliminated and the operability is improved.

[0004]

As described above, the conventional device uniquely corrects the set temperature only by the month and day of the calendar, and the amount of monthly correction is determined on the assumption that it is cold in the average year. ing. However, the temperature is not only the same as normal, but depending on the year, there may be a severe winter,
There are also warm winter years, and cold waves may arrive in early spring and autumn, causing temporary cooling. In such a case, the correction amount is not appropriate even if the corner angle is automatically corrected, so it is necessary for a person to change the set temperature, and when the temperature returns to the normal level, it is troublesome to return it to the base value again. There was a problem in operation such as the need for.

The present invention has been made in order to solve the above problems, and even if there is a temporary temperature change outside the normal level, the set temperature is corrected with an appropriate value to set the set temperature. It is an object of the present invention to obtain a room temperature control device for a heater, which has good operability and can always perform heating at a comfortable room temperature without changing

[0006]

A room temperature control device for a heater according to the present invention comprises room temperature detecting means for detecting an indoor temperature,
Room temperature setting means for setting the room temperature, minimum temperature detecting means for detecting the minimum temperature of the day, clock function with calendar function, and information of both the calendar of this clock function and the detection value of the minimum temperature detecting means. And a correction means for correcting the set temperature set by the room temperature setting means to calculate a target set temperature, and a control means for controlling the operation of the heater based on the target set temperature corrected by the correction means. It is a thing.

Further, the correction means is adapted to change the correction value for each time zone based on the time of the clock function.

The minimum room temperature detecting means is adapted to detect the temperature of the floor surface by the temperature of a floor sensor.

The minimum room temperature detecting means measures the room temperature even when the heater is not in operation, and stores the minimum room temperature up to that point in the microcomputer.

Further, the correction means is adapted to determine a correction value for the cooling degree from the value of the minimum temperature.

[0011]

According to the present invention, the correction means determines the correction amount of the set temperature from the date information of the calendar by the clock function and the minimum temperature of the day detected by the minimum temperature detection means, and the correction amount is set to the room temperature. The temperature is corrected in addition to the set temperature set by the means, and the control means controls the operation of the heater based on the corrected target set temperature.

The correction means finely changes the correction value for each time zone and sets the optimum room temperature in the morning, noon and night.

Further, the minimum temperature detecting means samples the temperature measured by the floor sensor at predetermined time intervals and selects the lowest temperature.

Further, the minimum temperature detecting means performs room temperature measurement even when the operation switch of the heater is not turned on,
If it is lower than the previous minimum temperature, the minimum temperature is updated.

Further, the correcting means corrects the set temperature to a higher value when the minimum temperature is low and the cooling is severe, and to make the setting temperature slightly lower when the minimum temperature is high and the cooling is slow.

[0016]

【Example】

Example 1. An embodiment of the present invention will be described below with reference to the functional block diagram of FIG. In the figure, 1 is a room temperature setting means for setting the room temperature, 2 is a clock function with a calendar, and 3 is
Is the minimum temperature detecting means for detecting the minimum temperature of the day, and 4 is the date and time of the set temperature set by the room temperature setting means 1 from the calendar function 2 and the minimum temperature detecting means 3 of the day. Correcting means for calculating a correction value from the minimum temperature data and correcting it to the optimum target set temperature, 5 is a room temperature detecting means for detecting the current indoor temperature, and 6 is the calculating means 4 A control means for obtaining the deviation between the target set temperature and the room temperature and controlling the operation of the heater so that the room temperature approaches the target set temperature, 7 receives a signal from the control means 6 and operates as a heater. It is a load group for.

FIG. 2 is an electric circuit diagram showing the functional block diagram of FIG. In the figure, reference numerals 1a and 1b are setting switches as the room temperature setting means 1, and information that the setting temperature is raised by pressing 1a and information that the setting temperature is lowered by pressing 1b are input to the microcomputer 8, respectively.

Reference numeral 9 denotes a real-time clock (clock IC) that operates as the clock function with a calendar 2.
Based on the clock pulse using the crystal unit 10,
The precise time of month, day, hour, minute, second is marked and these data are transmitted to the microcomputer 8. Reference numeral 11 is a room temperature thermistor, and 12 is a microcomputer 8 which converts analog data of the room temperature thermistor 11 into digital data.
It is an AD conversion circuit for inputting to, and the functions of these and the microcomputer 8 are combined to operate as the room temperature detecting means 5 and the minimum temperature detecting means 3.

Further, the microcomputer 8 is predetermined based on the date and time data from the real-time clock 9 and the minimum temperature data of the room temperature thermistor 11 when the preset temperature set by the setting switches 1a and 1b is measured for a predetermined time. The heating capacity is determined based on the deviation between the corrected set temperature and the room temperature at that time, and the output signal is output to the driver 13 to output the heater 7a as the load group 7, the pump 7b, and the solenoid valve 7C. , The igniter 7d, the convection motor 7e, etc. are operated to control the heater.

Next, the operation of the above embodiment will be described based on the control flow chart of FIG. First, when the operation switch (not shown) of the heater is not turned on in step 20, that is, when the heating operation is not performed, only the room temperature is measured by the room temperature thermistor 11 (step 21),
Compared with the lowest temperature up to the previous time (step 22), if it is lower, the lowest temperature is updated (step 23). By repeating this process, the minimum temperature up to that point is stored in the microcomputer 8. And, for example,
If this value is cleared at 0:00 am, the lowest temperature of the day will be constantly memorized.

When the operation switch of the heater is turned on in step 20, heating operation is started (step 24), and the microcomputer 8 reads the month, day and clock data from the real time clock 9 (step 25). At this time, the calendar correction ΔT ₁ which is the correction value of the seasonal factor determined in advance by the date data is determined (step 66). Δ
As shown in FIG. 4, T ₁ has a high set temperature in January to February when the temperature is low, and a low set temperature in autumn and early spring when the temperature becomes slightly higher, so that the sensible temperature is constant with respect to the average temperature. The correction value is set so that

Next, a minimum temperature correction ΔT ₂ which is a correction value for the degree of coldness is determined from the minimum temperature value (step 27). As shown in FIG. 5, ΔT ₂ is corrected so that the minimum temperature is low, the set temperature is increased when the cold is severe, and the temperature is slightly low when the minimum temperature is high and the cold is loose.

At step 28, the setting switches 1a, 1
It is confirmed whether or not b is pressed, and if it is pressed, the set temperature ΔT _S is changed (step 29). Step 3
For 0, a new target set temperature for control is calculated by adding the correction value ΔT ₁ of the seasonal factor and the minimum temperature correction value ΔT ₂ of the cooling degree at the present time to the set temperature ΔT _S.

Next, the room temperature at that time is measured (step 31), and the deviation from the target set temperature is calculated (step 3).
2) If the room temperature is low, the heat generation amount is increased, and the operation of the heater is controlled so that the heat generation amount decreases as the target set temperature is approached (step 33). Hereinafter, while the operation switch is turned on, steps 28 to 34 are repeated to control the heater so that the room temperature becomes optimum. At this time,
If the user feels that the room temperature control at the target set temperature is not comfortable, he or she can press the setting switches 1a and 1b to change the set temperature to a desired temperature.

As described above, a new target set temperature is calculated by adding the correction value ΔT ₁ of the seasonal factor and the minimum temperature correction value ΔT ₂ of the cooling degree to the set temperature, and by operating at this room temperature, a cold wave or the like can be received. It can cope with sudden temperature changes, and can always maintain a comfortable room temperature without the user having to change the set temperature each time. In addition, the lowest temperature is often in the morning even within one day, and the heating for that day is controlled according to the degree of cooling in the morning.

Example 2. FIG. 6 shows a control flow chart of another embodiment in which the temperature is further finely controlled by further correcting the time according to the above embodiment. In this embodiment, the current time is read from the real time clock 9 in step 35, and the current time correction value ΔT ₃ is determined in step 36. This current time correction value ΔT ₃
As shown in FIG. 7, the correction amount changes depending on the time, and the set temperature is corrected to be higher in the nighttime and morning when the temperature is low, and to be set lower during the daytime when the temperature is high.

The target set temperature is calculated in step 30 by adding the correction values ΔT ₁ , ΔT ₂ , and ΔT ₃ to the set temperature. Since ΔT ₃ changes over time, it is programmed to constantly go through steps 35 and 36 during heater operation.

As described above, by correcting the set temperature by adding not only the correction value for the season and the degree of coldness but also the correction value according to the time, more precise room temperature control can be performed according to external factors, and a comfortable heating is always provided. In addition to being obtained, the user can save time and effort for changing the set temperature.

Although the thermistor for detecting the minimum temperature is also used as the room temperature thermistor 11 in the above embodiment, it may be provided at another position. For example, although FIG. 8 is an internal configuration diagram of the heater main body 37, a thermistor 38 that detects the lowest temperature may be attached to the bottom plate 39 to serve as a floor sensor that detects the floor surface temperature. Since the floor temperature significantly reflects the degree of cooling of the outside air than the temperature inside the room, the accuracy of detecting the minimum temperature of the outside air is high. Therefore, it is possible to accurately correct the set temperature.

[0030]

As described above, according to the present invention, the room temperature detecting means for detecting the room temperature, the room temperature setting means for setting the room temperature, the minimum temperature detecting means for detecting the minimum temperature of the day, and the calendar. A clock function, a correction unit that corrects the set temperature set by the room temperature setting unit based on information of both the clock function calendar and the detection value of the minimum temperature detection unit, and a target setting temperature, and the correction unit. Since it is equipped with a control unit that controls the operation of the heater based on the target set temperature corrected by the means, even if there is a temporary temperature fluctuation that is outside the normal level, the set temperature is automatically adjusted to the appropriate value. There is an effect that it is possible to obtain a heater with extremely excellent operability, which is corrected by the value and can be heated always at a comfortable room temperature without the user changing the set temperature.

In addition, the correction means changes the correction value for each time zone based on the time of the clock function, so that a more detailed and comfortable room temperature control can be performed according to external factors.
Operability is also good.

Further, the minimum temperature detecting means detects the minimum temperature of the outside air with high accuracy by detecting the temperature of the floor sensor for detecting the floor surface temperature, and can highly accurately correct the set temperature.

Further, since the minimum temperature detecting means continuously measures the room temperature even when the heater is not operating, the set temperature can be constantly corrected at the minimum temperature of the day,
The effect is that the temperature can always be corrected to an appropriate target set temperature.

Further, since the correction means calculates the target set temperature by adding the correction value of the degree of coldness, more precise room temperature control can be performed according to external factors.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing a room temperature control device for a heater according to the present invention.

FIG. 2 is an electric circuit diagram of a room temperature control device for a heating machine according to the first embodiment of the present invention.

FIG. 3 is a control flowchart of a room temperature control device for a heating machine according to the first embodiment of the present invention.

FIG. 4 is a correction characteristic diagram of a set temperature by the calendar of the present invention.

FIG. 5 is a correction characteristic diagram of a set temperature according to the minimum temperature according to the present invention.

FIG. 6 is a control flowchart in the second embodiment of the present invention.

FIG. 7 is a characteristic diagram for correcting the set temperature according to the time in the second embodiment of the present invention.

FIG. 8 is an internal structural diagram of the heater body of the present invention.

FIG. 9 is a functional block diagram showing a conventional room temperature control device for an air conditioner. 1 Room temperature setting means 1a Setting switch 1b Setting switch 2 Clock function with calendar 3 Minimum temperature detecting means 4 Correcting means 5 Room temperature detecting means 6 Control means 8 Microcomputer 9 Real time clock 10 Crystal oscillator 11 Room temperature thermistor 38 Floor sensor

Claims (5)

[Claims] 1. A room temperature detecting means for detecting a room temperature, a room temperature setting means for setting a room temperature, a minimum temperature detecting means for detecting a minimum temperature of the day, a clock function having a calendar function, and a clock function of this clock function. Correcting means for correcting the set temperature set by the room temperature setting means and calculating the target set temperature based on the information of both the calendar and the detected value of the minimum temperature detecting means, and the target setting corrected by the correcting means. A room temperature control device for a heater, comprising: a control unit that controls the operation of the heater based on the temperature. 2. The room temperature control device for a heater according to claim 1, wherein the correction means changes the correction value for each time zone based on the time of the clock function. 3. The room temperature control device for a heater according to claim 1, wherein the minimum room temperature detecting means detects the temperature of a floor surface by detecting the temperature of a floor sensor. 4. The minimum room temperature detecting means measures the room temperature even when the heater is not operating, and stores the minimum room temperature up to that point in the microcomputer. Room temperature control device for the heater described. 5. The room temperature control device for a heating machine according to claim 1, wherein the correction means determines the correction value for the degree of cooling from the value of the minimum temperature.