KR20000033324A - Apparatus for preventing overheating of gas oven - Google Patents

Abstract

PURPOSE: An overheating preventing apparatus of a gas oven is provided to prevent accidents due to the leakage of gas and due to overheating of an object and to improve reliability of a product. CONSTITUTION: In a general state of which the temperature of heated water does'n't rise over a certain temperature, a PTC(positive temperature coefficient) thermistor(5) has low resistance value. If a flame burner(1) has flames, a thermocouple(2) installed near the flame burner generates scores-hundreds mV of thermal electromotive force supplied to an MPU(MicroProcessor Unit)(4) in a solenoid valve(3) via the PTC thermistor keeping low resistance value. Thus, the MPU is operated, and the gas is supplied to the burner by opening of the solenoid valve installed on a gas pipe. If the supply of gas is cut off or the flame of the flame burner is extinguished due to cross wind, the thermocouple does'n't generate thermal electromotive force without regard to the existence of the PTC thermistor. Thus, the driving of the MPU is stopped, and the solenoid valve is automatically closed. Thereby, the accident due to the leakage of gas is prevented.

Description

Overheat prevention device of gas range

The present invention relates to a device for preventing overheating of a gas range, and more particularly, to a constant temperature between an output terminal of one side of a thermocouple which generates electromotive force when heated by a flame and a magnetic power unit (MPU) of a solenoid valve that controls gas supply. Install a low resistance PTC (Positive Temperature Coefficient) thermistor, which is in direct contact with an object to prevent overheating (i.e., a cooking vessel, etc.). The PTC thermistor relates to a gas range overheating prevention device which shuts off the output voltage of the thermocouple supplied to the MPU of the solenoid valve, that is, the electromotive force, so that the solenoid valve is automatically closed.

In other words, between the thermocouple for detecting flame and the MPU of the solenoid valve for controlling gas supply, a PTC thermistor having a low resistance value is installed so that the temperature of the object being heated is not so high as to prevent the operation of the MPU. When the temperature rises above a predetermined temperature, the resistance value of the PTC thermistor is rapidly increased to cut off the electromotive force output from the thermocouple, so that the gas supply to the burner is automatically shut off, thus preventing the occurrence of a safety accident due to overheating. It is invented so that it may prevent.

Conventional gas range heat sensing device is installed in the solenoid valve 3, the output terminal of the thermocouple (2) is installed on one side of the ember burner (1) to change the thermoelectric power when detecting the flame as shown in FIG. The MPU 4 was connected in series.

Therefore, since the burner maintains a lit state, thermal power is generated from the thermocouple 2 installed in close proximity to the spark when the ember burner 1 is present, and thus the electromotive force is generated by the MPU ( 4) the MPU (4) is operated so that the solenoid valve (3) installed on the gas pipe is opened to continue supply of gas to the burner, if the gas burner (1) When the light is turned off, the thermoelectric power output from the thermocouple 2 disappears. Therefore, the driving of the MPU 4 in the solenoid valve 3 is stopped and the solenoid valve 3 is automatically closed. It can prevent occurrence.

However, this configuration detects only the presence of sparks and controls the operation of the solenoid valve. Therefore, even if a heated object is overheated, gas will continue to be supplied if there is only a spark. For example, there is a problem that can not prevent the occurrence of fire).

The present invention has been made to solve the above problems, by installing a low-resistance PTC thermistor between the thermocouple for detecting the flame and the MPU of the solenoid valve for controlling the supply of gas, the solenoid valve through the detection of the flame In addition to opening / closing of gas, the gas valve can prevent the leakage of gas and safety accidents due to overheating by allowing the solenoid valve to be shut off immediately when the heating material is overheated above a certain temperature without additional power supply. The purpose of the present invention is to provide an overheat protection device.

The object of the present invention is to provide a gas range heat sensing device in which an output terminal of a thermocoupler, which is installed at one side of a ember burner and changes into thermoelectric power upon detection of a flame, is connected in series with an MPU installed in a solenoid valve. In this case, it is possible to achieve by installing a PTC thermistor having a low resistance value between the one output terminal of the thermocouple and the one input terminal of the MPU so as not to interfere with the operation of the MPU.

Therefore, when the heating material is overheated above a predetermined temperature as well as controlling the opening and closing of the solenoid valve by detecting whether a spark exists in the burner of the gas range without using a switch element or a bimetal operated by a separate external power source. As the solenoid valve can be shut off immediately, not only safety accidents caused by gas leakage, but also the safety accidents caused by overheating of the heating water can be prevented.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a block diagram of a heat detection device of a conventional gas range.

2 is a block diagram of an apparatus of the present invention.

3 is a temperature-resistance characteristic curve diagram of a PTC thermistor used in the apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

1: ember burner 2: thermocouple

3: solenoid valve 4: MPU

5: PTC thermistor

Fig. 2 shows a schematic diagram of the apparatus of the present invention, and Fig. 3 shows a high-temperature resistance diagram of the PTC thermistor used in the apparatus of the present invention.

According to this, the output terminal of the thermocoupler 2 which is provided at one side of the ember burner 1 and generates the thermoelectric power upon detection of the flame is connected in series with the input terminal of the MPU 4 provided in the solenoid valve 3. In the heat detection device of the gas range connected,

A PTC thermistor (5) is installed between one output terminal of the thermocouple (2) and one input terminal of the MPU (4), and the PTC thermistor (5) is installed around the burner to be in direct contact with the heating material. It is done.

At this time, the resistance value of the PTC thermistor (5) is ceramic so that it has a low resistance value so low that dozens of hundreds of hundreds of mV electromotive force output from the thermocouple (2) is transferred to the MPU (4) as it does not interfere with operation Or formed using a polymer (that is, a ceramic PTC thermistor or a polymer PTC thermistor).

Referring to the operation and effect of the device of the present invention configured as described above are as follows.

First, the apparatus of the present invention is installed on one side of the ember burner (1) of the MPU (4) installed in one output terminal and the solenoid valve (3) of the thermocouple (2) for generating thermoelectric power upon detection of flame The ceramic or polymer PTC thermistor (5) having a low resistance value that is low enough to not interfere with operation at all because several tens-hundreds of mV electromotive force output from the thermocouple (2) is normally transmitted to the MPU (4). To install, the PTC thermistor (5) is installed around the burner so that the temperature of the heating water can be accurately transmitted in itself to be in direct contact with the heating material on the burner.

At this time, the PTC thermistor 5 having a constant temperature characteristic has a characteristic that the resistance value increases rapidly when the temperature reaches a specific temperature Tc which is Curie's Temperature as shown in FIG. 3.

Therefore, since the temperature of the heating water does not normally rise above a certain temperature, it has a low resistance value. Therefore, if there is a flame in the ignition burner 1, several tens to hundreds of mVs generated in the thermocouple 2 installed in close proximity thereto are present. Since the thermoelectric power is supplied to the MPU 4 in the solenoid valve 3 through the PTC thermistor 5 which still maintains the low resistance value, the MPU 4 is operated to install the solenoid valve installed on the gas pipe. (3) is opened and gas supply to a burner is continued.

Of course, in this state, if the gas supply is cut off or the fire of the ember burner 1 is turned off due to a backwind or the like, no thermal power is generated in the thermocouple 2 regardless of the presence of the PTC thermistor 5. Therefore, as in the conventional gas range, the driving of the MPU 4 in the solenoid valve 3 is stopped and the solenoid valve 3 is automatically closed, thereby preventing the occurrence of a safety accident due to gas leakage. .

On the other hand, while heating the heating by the normal gas supply as described above, the temperature of the heating rises above the set temperature (that is, the Curie temperature (Tc) of the PTC thermistor 5) due to the lack of water in the heating. In this case, since the resistance value of the PTC thermistor 5 rises rapidly, the PTC thermistor whose output voltage of the thermocouple 2 supplied to the MPU 4 in the solenoid valve 3 has a large resistance value as described above. Blocked by (5), the driving of the MPU 4 is stopped, so that the solenoid valve 3 is immediately closed and the burner is automatically extinguished.

That is, when the temperature of the heating water rises above the Curie temperature Tc, the PTC thermistor 5 cuts off the output voltage of the thermocouple 2 supplied to the MPU 4 in the solenoid valve 3. Since the driving of the MPU (4) is stopped and the solenoid valve (3) is immediately closed, it is possible to prevent the occurrence of a safety accident that may occur due to overheating of the heating water.

As described above, according to the present invention, the gas range burner is provided only between a conventional thermocoupler and the MPU in the solenoid valve by installing a PTC thermistor having a low resistance value that does not normally interfere with the operation of the MPU. The solenoid valve can be opened and closed by detecting whether there is a spark, and the solenoid valve can be closed immediately when the heating material is overheated above a certain temperature. Therefore, it is possible to prevent the occurrence of safety accidents in advance.

That is, without opening and closing the solenoid valve by detecting whether there is a spark in the burner of the gas range without using a switch element or bimetal operated by a separate external power source, as well as automatically supplying gas when the heating material is overheated. It can prevent the safety accidents caused by gas leakage as in the existing system, and can also prevent the safety accidents that may occur due to the overheating of the heating material, thus greatly improving the reliability of the product. It is.

Claims (4)

Installed in one side of the ember burner (1) by connecting the output terminal of the thermocouple (2) which generates the thermoelectric power when the flame is detected by connecting the input terminal of the MPU (4) installed in the solenoid valve (3) in series In the heat detection device of the gas range, A PTC thermistor (5) is installed between one output terminal of the thermocouple (2) and one input terminal of the MPU (4), and the PTC thermistor (5) is installed around the burner to be in direct contact with the heating material. Overheating prevention device for gas range. The low resistance value of claim 1, wherein the resistance value of the PTC thermistor 5 is low enough that normally several tens-hundreds of mV electromotive force output from the thermocouple 2 is transmitted to the MPU 4 as it does not interfere with operation. Overheat prevention device of the gas range, characterized in that having a. 2. The overheat prevention apparatus of a gas range according to claim 1, wherein the PTC thermistor (5) is a ceramic PTC thermistor. 2. The overheat prevention apparatus of a gas range according to claim 1, wherein the PTC thermistor (5) is a polymer PTC thermistor.