KR950000403B1 - Safety device for kerosene heater - Google Patents

Abstract

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Description

Safety device of oil heater

1 is a circuit diagram of a safety device of the present invention.

2 is a diagram showing the relationship between the temperature of the heating element of the ignition heater and the resistance value.

3 shows the output waveforms of the oscillator and counter of the safety device of FIG.

* Explanation of symbols for main parts of the drawings

1: ignition heater 2: interlock switch

7, 18, 22: comparator 10: oscillator

11: counter 16: relay

The present invention relates to a safety device for a petroleum heater, in particular a safety device for a petroleum heater provided with a heating element (hereinafter referred to as an ignition heater) for ignition.

Petroleum heaters, such as so-called automatic ignition pot stoves, are provided with ignition heaters, and energization of the ignition heaters is started by input of a power switch. After a predetermined time elapses after the energization of the ignition heater is started, that is, after the ignition heater is sufficiently heated, the lubrication pipe is opened to supply oil to the port to start combustion.

However, in the case of such a pot type oil stove, if an ignition heater has an abnormality such as a disconnection, but the ignition switch is inserted without knowing the abnormality, after a predetermined time has elapsed after the ignition switch is input as described above. There is a problem in that oil is automatically supplied into the port so that the oil becomes clogged in the port.

According to the present invention, there is provided a safety device for an petroleum heater equipped with an ignition heating element, the detection means for detecting the resistance value of the ignition heating element and the on / off control of energization of the ignition heating element, and for The control means, when igniting the oil heater, starts the energization to the ignition heating element when the resistance value of the ignition heating element is less than or equal to the first resistance set in advance, and after starting the energization to the ignition heating element, When the time elapses, the electricity supply to the ignition heating element is cut off, and when the resistance of the ignition heating element is equal to or greater than the second predetermined resistance value, the ignition heating element is re-energized to ignite the oil heater, and when the oil heater is ignited, the ignition heating element Re-energizing the furnace, and while the oil heater is burning, the resistance value of the ignition heating element is less than or equal to the preset third resistance value. Surface, the safety of the oil heater, characterized in that to reset the oil heater is obtained.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As the heating element of the ignition heater, a resistor (for example, tungsten) whose resistance value increases as the temperature rises is used as shown in FIG.

로 표시되고, 비반전입력단자에 인가되는 전압은

로 표시된다.Referring to FIG. 1, the interlock switch 2 is connected to the contacts 3 and 4 in the state where the pot type oil stove (not shown) is not activated. When the resistance value of the ignition heater 1 is R _X , the resistance value of the resistor 8 is R ₁₁ , the resistance value of the resistor 72 of the comparator 7 is R ₁₀ , and the resistance value of the resistor 73 is R ₁ . In the state, the voltage applied to the inverting input terminal of the operational amplifier 71

The voltage applied to the non-inverting input terminal is

Is displayed.

As shown in FIG. 2, the resistance value of the ignition heater 1 at room temperature (room temperature) is set to R _X = R _O , and in this case, the resistance values R ₁ and R so as to be a relationship shown in the formula (1). ₁₀ and R ₁₁ are set.

And when the relationship is represented by Formula (1), the comparator 7 outputs a high (H) level. The set values of the resistance values R ₁ , R ₁₀ and R ₁₁ are represented by the formula (2) when the resistance value R _X of the ignition heater 1 is greater than or equal to a predetermined value (R ₄ , where R ₄ > R ₀ ). The comparator 7 outputs a low level.

When the ignition heater 1 is normal, that is, when the resistance value is Ro, the H level is output from the comparator 7, and the ignition signal (H level) is input to the AND gate 9, and the AND gate 9 is input. ) Outputs the H level. When the AND gate 9 is at the H level, this state is maintained. On the other hand, when the timer is configured by the oscillator 10 and the counter 11, and a predetermined number of pulses (for example, 5 pulses) are input to the counter 11 after the ignition signal is input as shown in FIG. 3, the counter ( 11) outputs an H level. The time from when the ignition signal is input until the counter 11 outputs the H level is set to about 60 seconds.

When the ignition signal is input, since the output of the counter 11 is at L level, the H level is input to the oragate 12, and the oragate 12 is at the H level. Therefore, the output of the AND gate 13 becomes H level. In addition, since the burner temperature switch (not shown) is in an off state (L level), the output of the inverter 14 becomes H level, and the output of the AND gate 15 becomes H level. When the output of the AND gate 15 is at the H level, the relay 16 is turned on, and the interlock switch 2 is connected to the contacts 5 and 6 so that the ignition heater 1 is connected to the power source 17. Connected. As a result, the ignition heater 1 is energized. As described above, when about 60 seconds have elapsed after the ignition signal is input, the output of the counter 11 changes from the L level to the H level. Therefore, one input of the oragate 12 becomes L level.

로 표시되고, 비반전입력단자에 인가되는 전압은

로 표시된다. 그러나 점화히이터(1)는 통전 후 약 60초로 약 900℃에 도달한다. 이때의 점화히이터(1)의 저항치를 R_X=R₅로 하면 제 2 도의 도시와 같이 점화히이터(1)의 저항치가 R₇〈R_X〈R₅의 범위에 설정된 소정치(R_X=R₆) 이상의 경우에 제 (3) 식에 표시하는 관계가 되도록 저항치 R₁₂, R₂및 R₁₁이 설정된다.When the resistance of the resistor 182 of the comparator 18 is set to R ₁₂ and the resistance of the resistor 183 is set to R ₂ , the voltage applied to the inverting input terminal of the operational amplifier 181 is

The voltage applied to the non-inverting input terminal is

Is displayed. However, the ignition heater 1 reaches about 900 ° C. in about 60 seconds after energization. If the case the resistance value of the ignition heater (1) as R _X = R ₅ small the resistance value of the ignition heater (1) as in the second-degree shown set in the range of R ₇ <R _X <R ₅ value (R _X = R ₆ ) In the above cases, the resistance values R ₁₂ , R ₂ and R ₁₁ are set so as to be a relationship shown in formula (3).

And when the relationship is represented by Formula (3), the comparator 18 outputs an H level.

In the state where the ignition heater 1 is connected to the power supply 17, since R _X = ∞ with respect to the comparator 18, since the relation represented by the expression (3) is always established, the output of the comparator 18 Is H level. Since the input terminal of the AND gate 19 is connected to the counter 11 via a delay circuit, when about 60 seconds have elapsed since the ignition signal is input, the input level of the AND gate 19 is only slightly lower than the H level input to the inverter 20, so that the H level is reduced. It is input to the AND gate 19. Therefore, L level is applied to both input terminals of the AND gate 19 for a while, and the output of the AND gate 19 becomes L level. Therefore, the output of the oragate 12 becomes L level, and the relay 16 turns off. As a result, the interlock switch 2 is connected to the contacts 3 and 4. At this time, when the resistance value R _X of the ignition heater 1 is equal to or larger than R _{4, the} comparator 18 continues to output an H level, and this H level is applied to one input terminal of the AND gate 19. In addition, since the other input terminal of the AND gate 19 becomes H level from the L level, the output of the AND gate 19 becomes H level. Therefore, the output of the oragate 12 is H level, the relay 16 is turned on, the interlock switch 2 is connected to the contacts (5) and (6). The ignition switch 1 is energized again.

On the other hand, when the resistance value R _X of the ignition switch 1 is less than R ₄ , the output of the comparator 18 is at the L level, so that the output of the end gate 19 is at the L level, so that the ignition switch 1 is supplied with the power source 17. Not connected to In addition, since the H level is input to both input terminals of the AND gate 21, the output of the AND gate 21 becomes H level. This resets the oil pump (not shown) and the blower (not shown) of the oil stove and stops. Therefore, oil does not collect in a pot.

The re-energization of the ignition switch 1 ignites the oil supplied in the port. When the oil stove is in a normal combustion state (if combustion is stabilized), the temperature switch is turned on, and as a result, the output of the end gate 15 becomes L level. Then, the relay 16 is turned off to stop the energization of the ignition heater 1, and the oil stove continues combustion.

로 표시되고, 비반전입력단자에 인가되는 전압은

로 표시된다. 그리고 R_X〉R₇(단 R₇〈R₈)일때, 제 (4) 식으로 표시하는 관계가 되도록 R₃, R₁₃및 R₁₁이 설정된다.During combustion of the petroleum stove, the ignition heater is about 400 ° C by the heat of combustion, and the resistance value of the ignition heater 1 at this time is set to R _X = R ₈ . When the resistance value of the resistance value 222 of the comparator 22 is R ₁₃ and the resistance value of the resistor 223 is R ₃ , the voltage applied to the inverting terminal of the operational amplifier 22 is

The voltage applied to the non-inverting input terminal is

Is displayed. When R _X &gt; R ₇ (where R ₇ &lt; R ₈ ), R ₃ , R _13, and R ₁₁ are set to have a relationship represented by the formula (4).

When the relationship is expressed by equation (4), the comparator 22 outputs an L level. Therefore, in the case of normal combustion, since the ignition heater is about 400 ° C., the output of the end gate 23 is at the L level, and the oil stove is not reset.

On the other hand, if any abnormality occurs in the oil stove and the oil stove is turned off, the resistance value R _X of the ignition heater becomes R _X <R ₇ , and as a result, the voltage applied to the inverting input terminal and the non-inverting input terminal of the operational amplifier 221. Becomes the relationship shown by Formula (5).

And the output of the comparator 22 becomes H level.

On the other hand, since the temperature switch of the burner is on, the output of the end gate 23 becomes H level, and the oil stove is reset and stopped.

As described above, according to the safety device of the petroleum stove of the present invention, when an abnormality occurs in the ignition heater, power supply to the ignition heater is cut off, and after a predetermined time, the supply oil pump and the blower are stopped. No oil clumping occurs.

In addition, even when an abnormality occurs during combustion, the oil stove is reset so that explosion combustion can be prevented and more safety is ensured.

Claims (1)

A safety device for an petroleum heater equipped with an ignition heating element, comprising: detecting means for detecting a resistance value of the ignition heating element, and for resetting the petroleum heater at the same time by turning on / off control of energization of the ignition heating element. Has a control means, and when the ignition heater ignites, when the resistance value of the ignition heating element is equal to or less than a first predetermined resistance value, the energization of the ignition heating element is started, and the energization of the ignition heating element is started. After a predetermined time elapses, power is supplied to the ignition heating element, and when the resistance value of the ignition heating element is equal to or greater than a second predetermined resistance value, the ignition heating element is re-energized to ignite the oil heater. When the petroleum heater is ignited, the electricity is supplied to the ignition heating element again, and during the combustion of the petroleum heater, When the resistance value of the ignition heating element for pre-set the resistance value more than 3 of the safety apparatus of the oil heater, characterized in that to reset the oil heater.

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