JPH054011Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a temperature control device with a temperature display used in a thermostat in an air conditioner or the like.

[Conventional technology]

Generally, a thermostat operates an air conditioner, etc. according to the comparison result between a reference temperature and a detected temperature. It is common to have characteristics. For example, in the case of a heater, the temperature at which it turns off is set about 3° C. higher than the temperature at which it turns on, and in the case of an air conditioner, the temperature at which it turns off is set about 3° C. lower than the temperature at which it turns on.

A circuit using an operational amplifier is widely known as a circuit that achieves hysteresis characteristics. For example, as shown in FIG. 2, the output voltage Vin of the temperature sensor circuit 1 and the reference voltage V _R of the reference temperature generator 2 are applied to each input of an operational amplifier (comparator) 3 equipped with a feedback resistor 4, Depending on the output, a relay circuit 5 and a magnetic switch 6 for the heater are activated.
drive. The temperature sensor circuit 1 includes a thermistor 11 and a resistor 12 as a temperature sensor, and the reference temperature generator 21 includes a variable resistor 21.
and a resistor 22, and a relay circuit 51
is composed of a coil 51 and a contact 52.
As a result, when the temperature is high and Vin>V _R , the output of the operational amplifier 3 is low level, but when the temperature is low and Vin<V _R , the output of the operational amplifier 3 is high level. At this time, the relay circuit 5 is activated, and the magnetic switch 6 is turned on to operate the heater (not shown).
At the same time, current is supplied to the reference voltage generator 2 via the feedback resistor 4, so that the reference voltage
_VR increases. Conversely, when the detected temperature increases, the reference voltage V _R decreases. In other words, the steady-state value of the reference voltage V _R takes the following value depending on the output of the operational amplifier 3.

V _R1 =R ₂₂ R ₄ /R ₂₂ +R ₄ /R ₂₂ R ₄ /R ₂₂ +R ₄ +R ₂₁ V _O …(1) V _R2 =R ₂₂ /R ₂₁ R ₄ /R ₂₁ +R ₄ +R ₂₂ V _O … (2) However, R ₂₁ , R ₂₂ , R ₄ are each resistance 2
1, 22, the resistance value of the feedback resistor 4. Therefore, by adjusting the value _R4 of the feedback resistor 4, it is possible to adjust the difference between the reference voltages V _R1 and R _R2 , that is, the temperature difference in the hysteresis characteristic.

As a device that adds a function to the above-mentioned temperature control device to display the current detected temperature, which is the output voltage Vin of the temperature sensor circuit 1, and the set reference temperature, which is the reference voltage V _R of the reference temperature generator 2, there is a third one. The circuit shown in the figure can be considered. In other words, A/D converter 7
1 and a digital display 72 are selectively connected to the output of the temperature sensor circuit 1 and the output of the reference voltage generator 2 via the switch 8. Therefore, switch 8
When the A-C contact of the switch 8 is closed, the current detected temperature is displayed on the digital display 72 of the display 7, and when the B-C contact of the switch 8 is closed, the set reference temperature is displayed on the digital display 72 of the display 7. 72.

[Problem that the invention attempts to solve]

However, in the circuit shown in Figure 3,
Even if the B-C contact of switch 8 is closed, the reference voltage remains unchanged depending on the output state of operational amplifier 3, as described above.
Since the value of V _R changes, there was a problem in that it was not possible to accurately determine the set reference temperature.

[Means for solving problems]

The purpose of the present invention is to provide a temperature control device with a temperature display that can accurately display the set reference temperature as well as the current detected temperature.
The reason is that a switch linked to the switch 8 shown in the figure is added to the feedback resistor 4.

[Effect]

According to the above configuration, when displaying the set reference temperature, the setting reference temperature is displayed without being affected by the output state of the operational amplifier.
Always, for example, the reference voltage V _R1 shown in equation (1) above
It is possible to display the set reference temperature corresponding to .

〔Example〕

An embodiment of the present invention will be described with reference to FIG.
In FIG. 1, a switch 9 is added to the elements in FIG. 3. Switch 9 and switch 8 constitute an on-on type switch, and therefore switch 9 works in conjunction with switch 8. In the switch 9, the A contact is connected to the output of the operational amplifier 3, the B contact is grounded, and the C contact is connected to the feedback resistor 4. Therefore, when the A-C contact of the switch 8 is closed, the temperature sensor circuit 1
The output voltage Vin is applied to the display 7 via the switch 8, and as a result, the current detected temperature is displayed on the display 7.
is displayed on the digital display 72, in this case,
Since the A-C contact of the switch 9 is also closed, the operational amplifier 3 performs temperature adjustment with hysteresis characteristics. On the other hand, when the B-C contact of the switch 8 is closed, the reference voltage V _R of the reference temperature generator 2 is applied to the display 7 via the switch 8, and as a result, the set reference temperature is displayed on the digital display of the display 7. At this time, the B- of switch 9 is displayed.
Since the C contact is also closed, this set reference temperature always indicates a temperature corresponding to V _R1 in equation (1) above. In this case, the output of the operational amplifier 3 is not fed back to its input, so the output of the operational amplifier 3 does not have hysteresis characteristics, but there is no problem if the closing operation time of the B-C contacts in the switches 8 and 9 is shortened. .

In Fig. 1, the B contact of the switch 9 is grounded, but this B contact is connected to the power supply voltage +V _O
It is also possible to do this. In this case, the reference voltage as the set reference temperature will indicate a temperature equivalent to V _R2 in equation (2) above. Furthermore, the B contact of the switch 9 can be made floating. In this case, the reference voltage as the set reference temperature is V _R3 = R ₂₂ /R ₂₁ + R ₂₂ V _O (3). Furthermore, between the A-D converter 71 and the digital display 72 in the display 7,
A converter that converts the output of the A/D converter into temperature shall be inserted as appropriate. Also, the high level and low level output voltages of operational amplifier 3 are the power supply side voltages.
If the voltage is different from V _O or the ground voltage, insert an appropriate resistor from the B contact of switch 9 so that it is equal to the high level and low level output voltage of operational amplifier 3, and connect it to the power supply V _O or ground it. .

[Effect of idea]

As explained above, according to the present invention, it is possible to accurately grasp the set reference temperature.

[Brief explanation of drawings]

Fig. 1 is a circuit diagram showing an embodiment of a temperature control device with a temperature display according to the present invention, Fig. 2 is a circuit diagram showing a conventional temperature control device, and Fig. 3 is a circuit diagram showing a conventional temperature control device with a temperature display. FIG. DESCRIPTION OF SYMBOLS 1... Temperature sensor circuit, 2... Reference temperature generator, 3... Operational amplifier, 4... Feedback resistor, 5... Relay circuit, 6... Magnetic switch.

Claims (1)

[Claims for Utility Model Registration] A temperature sensor circuit 1, a reference temperature generator 2 that generates a reference voltage V _R indicating a reference temperature, an output voltage Vin of the temperature sensor circuit, and a reference voltage V of the reference temperature generator. an operational amplifier 3 that compares _{R with R} ; a feedback resistor 4 that feeds back the output of the operational amplifier to the input of the operational amplifier on the reference temperature generator side; and temperature adjustment mechanisms 5 and 6 that operate according to the output of the operational amplifier. a first switch 8 selectively connecting the output of the temperature sensor circuit and the output of the reference temperature generator to the temperature indicator; and a first switch 8 interlocking with the first switch and connecting the feedback resistor. a second switch 9 for turning on and off the connection of the reference temperature generator to the operational amplifier; and when the output of the reference temperature generator is connected to the temperature indicator, the connection of the feedback resistor to the operational amplifier is turned off. Temperature display device with temperature display.