JPH0493731A - Temperature display device - Google Patents

Abstract

PURPOSE:To facilitate operation and to decrease the number of parts by lighting indicator lamps in correspondence with the specified temperature ranges, and changing the brightness of each lamp. CONSTITUTION:When temperature rises, the resistance of an NTC-type thermistor 11 of a switch part 10 is lowered. When a specified temperature, e.g. 100 deg.C, is reached, a transistor (Tr) 12 is operated. The current from a power supply VB flows to a ground 31 in a detection control part 30 through an indicating part 20. When the temperature further rises and reaches, e.g. 160 deg.C, the resistance of a PTC-type thermistor 15 in the control part 30 is increased, and a LED 21 is lit. The brightness is gradually increased. When the temperature further rises, a LED 22 is lit in response to 175 deg.C, and a LED 23 is lit in response to 190 deg.C. The brightness of each LED is gradually increased. When the temperature reaches 220 deg.C, the current flowing to the ground 31 is cut off, and the current flows to a buzzer 24 from a TR 25. In this way, the power supply is turned ON/OFF as required. Therefore, the operation is made easy, and the number of parts can be decreased by using the PTC-type thermistor.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a temperature display circuit, and more particularly to an improvement in a temperature display that displays temperature using a display section corresponding to the temperature.

(Prior Art) Conventionally, as a device for displaying temperature using a display unit corresponding to temperature, there is a thermometer using a bimetal or a comparison circuit using a thermistor as shown in FIG. In FIG. 5, the entire device includes a power switch section 5o, a detection section 60 that detects temperature, a display section 70 that lights up an indicator light according to a predetermined temperature range, and a control section 80 that controls lighting within the temperature range. , power supply 9 (not shown)
It is composed of 0 and . The power switch section 5° mainly consists of a switch 51 and a flip-flop 52, and the detection section 60 consists of an NTC type thermistor 61 and an amplifier 62.
Therefore, the display section 7o also displays a temperature corresponding to a predetermined temperature, for example, +60°C, +75°C, 1190°C, 1220°C.
Four light emitting diodes 7I, 72.73.
74 and fixed resistors 75, 76, 77, 78,
Further, the control unit 80 includes four comparators 8J, 82, 83, 84 corresponding to a predetermined temperature, and five resistors 85, 86, 87, 88, 89 for temperature setting. .

(Problem to be Solved by the Invention) However, the above-mentioned conventional device using bimetal has poor accuracy. In addition, the above conventional configuration as shown in FIG. Since it is a switch, you have to turn it on when taking measurements, which is troublesome, and if you forget to turn it off, the battery will run out.Furthermore, it uses a high-precision IC to improve accuracy, which increases the cost. In addition, it is difficult to use under adverse environments (e.g. high temperature, water) and has poor durability.
℃, 175°C, 1190°C, 1220°C), so it is determined that the temperature is above a predetermined temperature.
There is a problem in that it is not possible to determine what temperature is between 0°C and 1190°C to 220°C.

The present invention has focused on the above-mentioned conventional problems, and relates to a temperature display, and particularly aims to improve a temperature display that displays temperature using a display section corresponding to the temperature.

(Means for Solving the Problem) In order to achieve the above object, in a first aspect of the present invention, in a temperature display device that displays temperature using a display section corresponding to temperature, a switch section and a predetermined temperature control section are provided. It consists of a display section that lights up the indicator light according to the range, and a detection control section that detects the temperature and controls the brightness of the indicator light to vary within the range from a predetermined temperature to a predetermined temperature. Further, in the second aspect of the invention, a discrimination display device is provided that determines the temperature corresponding to the changing brightness of the indicator light within a predetermined temperature range.

(Function) According to the above configuration, since the PTC type thermistor is used, the power can be turned off and on when necessary, so the operation is easy and there is no need to forget to turn off the power. Furthermore, costs are reduced because the number of parts is reduced. Furthermore, since the brightness of the indicator light changes even if the temperature exceeds a predetermined temperature, the temperature can be accurately determined, and the determination display device facilitates the determination. Furthermore, since it does not include an IC, it can be used even under adverse environments (eg, high temperature, water).

(Example) Hereinafter, an example of a temperature indicator circuit according to the present invention will be described in detail with reference to the drawings. FIG. 1 is an external plan view of a temperature indicator according to one embodiment of the present invention, and FIG. 2 is a circuit diagram of the temperature indicator according to one embodiment. In FIGS. 1 and 2, the temperature indicator 1 used in the present invention includes a switch section IO that can be automatically turned off and on, and a display section 20 that turns on an indicator light according to a predetermined temperature range. , a detection control unit 30 that detects the temperature and cuts the surface so as to change the brightness of the indicator light in a range from a predetermined temperature to a predetermined temperature, a power source 40 (not shown), and a power supply 40 that detects the temperature and changes the brightness of the indicator light in a range of a predetermined temperature. a discrimination display device 45 that determines the temperature corresponding to the changing brightness;
It consists of

The switch section 10 consists of one NTC type thermistor 11 and a transistor 12. One pole 11a of the NTC type thermistor 11 is connected to the base 12a, the other positive pole 11b is connected to the collector 12b of the transistor 12, and the collector 12b is connected to the base 12a. It is connected to a power source 40 (Vs) not shown. The emitter 12c (Vo) of the transistor 12 is connected to the display section 20. The display unit 20 displays a temperature corresponding to a predetermined temperature, for example, 160°C, 175°C, 190°C, 22°C.
Three 160°C1175°C corresponding to 0°C1, +
Light emitting diode (LED) at 90°C 21.22.23
and one buzzer 24 and buzzer 2 compatible with 220°C.
A transistor 25 that amplifies the power to 4 and a fixed resistor 2
6a and 26b, and an emitter 12c (V.

) are connected in series with each fixed resistor 26.
They are each connected to the detection control unit 30 via a and 26b. Further, the anodes of the light emitting diodes 2122, 23 are connected to the connection between the fixed resistor 26a and the detection control unit 30, and the cathodes are connected to the ground. Furthermore, the detection control unit 30 includes four PTC type thermistors 15.1.
6, 17, and 18, one of which is the display section 2.
0, and the other is connected to ground 31. The discrimination display device 45 displays the light emitting diodes (LEDs) 21, 22.2 according to the colors of the light emitting diodes (LEDs) 21, 22, 23.
3, and the color and temperature correspond to the changing brightness of the indicator light in a predetermined temperature range (for example, 3
℃), making it possible to judge the temperature.

In the above configuration, the operation will be explained next.

As the temperature rises and reaches a predetermined temperature, for example 100°C, the resistance of the NTC type thermistor 11 decreases as shown in FIG. 3, and when it reaches a predetermined value, current flows to the base 12a of the transistor 12 and the transistor 12 is activated. The switch is turned on, and the current from the power supply 40 (VB) flows to the emitter 12.
c (Vo) to the display unit 20. The current from the display section 20 flows from each fixed resistor 26a to the ground 31 via the PTC type thermistor 11. Furthermore, when the temperature rises and reaches a predetermined temperature, for example 160°C, the resistance of the PTC type thermistor 15 of the detection control unit 30 increases as shown in FIG. The current flowing to the ground 31 changes gradually, and the current flows to the ground through the light emitting diode 21.

As a result, the light emitting diode 21 lights up corresponding to the temperature of 160°C, and the brightness gradually becomes brighter between 160°C and 175°C. At this time, the light emitting diode (
The discrimination display device 45 disposed near the LED) 21, 22, and 23 makes it easy and accurate to determine the temperature from the color and temperature that correspond to the changing brightness of the indicator light within a predetermined temperature range. Can be done. Furthermore, as the temperature rises, the light emitting diode 22 is sequentially activated in response to a temperature of 175°C.
However, in response to the temperature of 190° C., the light emitting diode 23 lights up and its brightness changes. When the temperature reaches 220°C, the resistance of the PTC type thermistor 15 increases as shown in Figure 4, the current flowing to the ground 31 is cut off quickly, the current flows from the base of the transistor 25 to the emitter, and the transistor 25 is activated. Buzzer 24 compatible with 220℃
will sound to notify you that the temperature has reached the warning point. At this time, the light emitting diodes 21 and 22 may be green to indicate safety, the light emitting diode 23 may be yellow to indicate caution, and the light emitting diode 24 may be red to indicate a warning. Further, although a thermistor is used in the switch section, a normal switch may be used to turn on the switch during measurement. Furthermore, although four temperatures were detected in the above embodiment, it goes without saying that the number is not limited.

(Effects of the Invention) As explained above, according to the present invention, the power can be turned off and on when necessary, making operation easier and eliminating the need to forget to turn off the power. Costs are reduced because the number of parts is reduced. Further, since the brightness of the indicator light changes even if the temperature exceeds a predetermined temperature, the temperature can be determined accurately, and the determination display device facilitates the determination. Furthermore, since no IC is used, an excellent effect can be obtained in that it can be used even under adverse environments.

[Brief explanation of drawings]

FIG. 1 is an external plan view of a temperature indicator according to an embodiment of the present invention. FIG. 2 is a circuit diagram of a temperature indicator according to an embodiment of the present invention, and FIG. 3 is a diagram showing the relationship between temperature and resistance of an NTC type thermistor. FIG. 4 is a diagram showing the relationship between temperature and resistance of a PTC type thermistor. FIG. 5 is a circuit diagram of a temperature indicator according to a conventional embodiment. l ・ ・ ・ 10 ・ ・ 11 ・ ・ I 2, 2 15, 1 20 ・ ・ 21 , 2 24 ・ ・ 6 al 30 ・ ・ 45 ・ ・ Temperature display, ・Power switch section, ・NTC type thermistor, 5. ...Transistor, 6.17.18...PTC type thermistor, -Display section, 2.23...Light emitting diode, -Buzzer 26b...Fixed resistance, -Detection control section 3I...Earth, -Discrimination display device

Claims (2)

[Claims] (1) In a temperature indicator that displays temperature using a display section corresponding to the temperature, there is a switch section, a display section that lights up an indicator light according to a predetermined temperature range, and a switch section that detects the temperature and changes from a predetermined temperature to a predetermined temperature. A temperature indicator comprising: a detection control section that controls the brightness of an indicator light to vary within a range. (2) The temperature indicator according to claim (1), further comprising a discrimination display device that determines the temperature corresponding to the changing brightness of the indicator lamp within a predetermined temperature range.