JPS61225535A - Temperature adjusting unit with timer function - Google Patents

Abstract

PURPOSE:To provide a clock thermostat capable of readily inputting a temperature schedule for 24hr by displaying the scheduled time at a speed which is higher than the actual time in a reset mode and inputting a set temperature in the scheduled time. CONSTITUTION:In the reset mode, the temperature for a day is displayed in three minutes on a digital temperature display unit 5 and a digital time display unit 6. When a temperature selecting slider switch 15 is manipulated while observing the scheduled time indicated in a digital time display unit 6, the set temperature selected by the same switch 15 is indicated and input in the digital temperature display unit 5. After lapse of three minutes, the clock thermostat 1 automatically returns to the state of ordinary operation mode. According to this organization, since the scheduled time is displayed at a speed which is higher than the actual time in a reset mode, and simultaneously the set temperature input from set temperature inputting means, the set temperature can be set for each scheduled time while confirming the set temperature by sense of vision.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a temperature regulator with a timer function in an air conditioning system that can schedule room temperature as a function of time.

[Conventional technology]

As is well known, it is often desirable in air conditioning systems to automatically vary the room temperature as a function of time. Therefore, in such cases, it is desirable to be able to schedule the temperature using a clock thermostat, that is, a temperature regulator with a timer function (hereinafter referred to as a clock thermostat).

Traditional clock thermostats used to schedule room temperature as a function of time either digitally or physically using clock face pins to set the start and end times of time blocks to be set at the same time. specific time blocks to the desired temperature.

``Problems to be solved by the invention'' Conventional clock thermostats were configured as described above, so it was necessary to accurately specify the temperature blocks using input capotins or bottles so that the times did not overlap. There was a problem in that it took time to input the block and set temperature.

Another problem is that it is difficult to confirm the schedule once it has been set.

The present invention was made to solve the above-mentioned problems, and an object of the present invention is to provide a clock thermostat that allows easy input of a 24-hour temperature schedule.

In addition to the above-mentioned object, another object of the present invention is to obtain a clock thermostat that can easily visually monitor the entire temperature schedule after input.

[Means for solving problems]

The clock thermostat according to the present invention has at least a normal operation mode and a set mode in which the temperature can be set manually, and in this reset mode, it displays the scheduled time at a faster speed than the actual time, and at the same time displays the displayed scheduled time. It is possible to input the set temperature for the scheduled time according to the time.

Further, the clock thermostat according to another aspect of the present invention has a check mode in which the set temperature can be confirmed together with the scheduled time, at least in addition to the above-mentioned modes, and in this check mode, the clock thermostat is set at a speed faster than the actual time. At the same time as the time is displayed, the corresponding set temperature is displayed in accordance with the displayed scheduled time.

[Effect]

The thermostat according to the present invention displays the scheduled time at a faster rate than the actual time in the reset mode, and at the same time receives input from the set temperature input means.
By doing this, you can visually confirm the set temperature and set it at each scheduled time.

Further, the clock thermostat according to another aspect of the present invention displays the scheduled time at a speed faster than the actual time in the check mode and simultaneously displays the set temperature at the scheduled time, so that the scheduled time and the set temperature can be visually recognized. Make it possible to check in a short time.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

In Fig. 1, (1) is a rod that can be installed on a wall or the like.

thermostat, (5) is a digital temperature display made of a liquid crystal display element, (6) is a digital time display also made of a liquid crystal display element, etc., and (7) is a push button switch for manual mode selection (hereinafter referred to as manual switch). ), (81 is a push button switch for check mode selection (hereinafter abbreviated as check switch), (91 is a push button switch for check mode selection) (hereinafter abbreviated as check switch),
(10) is a manual mode indicator made of a light emitting diode etc.; (13) is a temperature sensing means made of a thermistor etc.; ) is a temperature selection slider switch made of a variable resistor, etc., (40) is a case of the clock thermostat (1), and (41) is a cover of the clock thermostand (1). Also, the second
In the figure, (2) is an air conditioning system, (3) is the main controller of this air conditioning system (2), (4) is a microprocessor provided in the clock thermostat (1), (11) is an A/D converter, (12) is a multiplexer, (14) and (16) or 20) are resistors, (
30) is an input line from the main controller (3) to the microprocessor (4), and (31) is an output line from the microprocessor (4) to the main controller (3).

The main controller (3) above has an input line (30)
through which various messages, clock real time and power are supplied to the microprocessor (4) which may be displayed on a digital temperature display (5) and a digital time display (6). The main controller (3) is also supplied with the temperature detected by the temperature sensing means (13) and the set temperature at the time of reading the set temperature from the microprocessor (4) through the output line (31).

Next, the operation of the clock thermostat of this embodiment configured as described above will be explained with reference to the flowcharts of FIGS. 3 and 4.

First, in the normal operation mode, the temperature sensing means (1
The current temperature detected by 3) is displayed on the digital temperature display (5). At the same time, the actual clock time supplied from the main controller (3) is displayed on the digital time display (6). If the temperature changes, the temperature sensing means (13) will detect this and the correct temperature after the change will be immediately displayed on the digital temperature display (5).

In the flowchart of the main program shown in FIG. 3, first, the main controller (3) reads the hour H and minute M into the microprocessor (4) through the input line (30), and the calculated value of 60XH+M is input to the minute counter t. is set to Next, the room temperature T is read by the temperature sensing means (13). Next, it is sequentially determined whether the check switch (8), reset switch (9), and manual switch (7) are closed, and since none of the switches are closed, the digital temperature display (5) ) displays the current temperature T, and the digital time display (6) displays the current hour H and minute M.

Next, when the reset mode switch (9) is closed and the reset mode is selected, a new temperature schedule can be entered through the temperature selection slider inch (15). In this reset mode, the daily temperature schedule is set in 3 minutes on the digital temperature display (5).
and the digital time display (6), and if you operate the temperature selection slider switch (15) while looking at the scheduled time displayed on the digital time display (6), you can The set temperature selected by step 15) is displayed on the digital temperature display (5) and input. After the three minutes have elapsed, the clock thermostat (1) automatically returns to its normal operating mode.

M'J I'll L-;i+t J-in 710 Grano, in the fum-mi route, the schedule shown in FIG. 4 is used to determine whether or not the reset switch (9) is closed. It will jump to the subroutine. In the schedule subroutine, first, the hour H and minute M are each reset to 0, and then the calculated value of 60XH+M is set in the minute counter t. Next, check switch (8)
is on or off, and since it is off, the set temperature TEMP (t
) after the digital temperature display (5) has been read.
) will display the read set temperature T. Also,
The digital time display (6) shows the hour H and minute M of the scheduled time.
is displayed. Subsequently, a waiting time of 0.125 seconds is created in order to visually confirm the set temperature at the scheduled time. Such processing increases the number of minutes M by 1 for 24 hours, i.e. 24 x 60 = 144
Repeated 0 times. Therefore, the set temperature for one day is set within a short period of 3 minutes. When the three minutes have elapsed, the schedule subroutine is exited and the program returns to the main program shown in FIG. 3, returning to the normal operating mode.

Next, when the check switch (8) is closed and the check mode is selected, the daily temperature schedule entered in the reset mode will be displayed on the digital temperature display (5) and the digital time display in 3 minutes. It is now displayed on the container (6). After the three minutes have elapsed, the clock thermostat ( ) automatically returns to the normal operating mode.

In the flowchart of the main program shown in FIG. 3, the program jumps to the schedule subroutine shown in FIG. 4 when it is determined whether or not the check switch (9) is closed. In the schedule subroutine, the check switch (8) is turned on depending on whether it is on or off, and the set temperature TE from the temperature selection slider switch (15) is turned on.
MP(t) is not read. Therefore, the set temperature T input in the previous reset mode is displayed on the digital temperature display (5), and the temperature schedule for one day is displayed on the digital temperature display (5) in a short period of 3 minutes.
] and displayed on the digital time display (6). When the three minutes have elapsed, the schedule subroutine is exited and the program returns to the main program shown in FIG. 3, returning to the normal operating mode.

When the manual switch (7) is closed and the manual mode is selected, the manual switch (7) is closed in the main program flowchart shown in FIG.
) is closed or not, and in the process of reading the set temperature from the temperature selection slider switch (15), this set temperature becomes the current set temperature TEMP.
(t) is replaced with the temperature already set. Note that while the manual switch (7) is closed, the manual mode indicator (10) is lit to indicate that the manual mode is selected.

When the manual switch (7) is opened, the manual mode indicator (10) is turned off and the mode returns to the normal mode in which the temperature is controlled according to the preset temperature.

〔Effect of the invention〕

As described above, according to the present invention, the clock thermostat is configured to display the scheduled time at a speed faster than the actual time in the reset mode, and at the same time display the set temperature input from the set temperature manual means. This has the effect of allowing you to set the temperature at each scheduled time while visually confirming the temperature setting.

According to another aspect of the present invention, the clock thermostat is configured to display the scheduled time in the check mode at a speed faster than the actual time and at the same time display the set temperature at the scheduled time. It has the effect of allowing you to visually check the temperature in a short time.

[Brief explanation of drawings]

FIG. 1 is an external perspective view of a clock thermostat according to an embodiment of the present invention, FIG. 2 is an electric circuit diagram of the clock thermostat shown in FIG. 1, and FIGS. 3 and 4 are microprocessor shown in FIG. 2. 12 is a flowchart showing the processing in FIG. (3) is the main controller, (4) is the microprocessor, (5) is the digital temperature display, (6) is the digital time display, (7) is the manual switch, (8)
is a check switch, (9) is a reset switch, (1
0) is a manual mode indicator, (13) is a temperature sensing means, and (15) is a temperature selection slider switch.

Claims (2)

[Claims] (1) A temperature regulator with a timer function for an air conditioning system that automatically adjusts the room temperature to a preset temperature at a scheduled time has at least a normal operation mode and a reset mode in which the temperature can be set manually. means for selecting the reset mode; means for displaying the scheduled time at a faster rate than real time in the reset mode; means for inputting a set temperature in the reset mode; means for displaying the set temperature input by the set temperature input means in the reset mode; Temperature adjustment with a timer function, characterized in that it is equipped with means for storing the temperature so as to be adjusted, and means for setting, displaying, and storing the set temperature for the entire scheduled time using these means, and returning to the normal operation mode after the schedule is completed. vessel. (2) A temperature regulator with a timer function for an air conditioning system that automatically adjusts the room temperature to a preset temperature at a scheduled time has at least a normal operation mode and a reset mode in which the temperature can be set manually. and a check mode in which the set temperature can be confirmed together with the corresponding scheduled time, means for selecting the reset mode, means for selecting the check mode, and in the reset mode and the check mode. means for displaying the scheduled time at a faster rate than the actual time; and means for inputting a set temperature in the reset mode;
means for displaying a set temperature corresponding to the scheduled time displayed on the scheduled time display means in the reset mode and the check mode; and means for displaying the set temperature at the scheduled time displayed on the scheduled time display means in the reset mode; and means for returning to the normal operation mode after the completion of the schedule for the entire scheduled time in each mode by these means. Temperature regulator with timer function.