KR200194561Y1 - Circuit of hot water boiler - Google Patents

Abstract

The present invention detects when the combustion occurs and detects the operation of the hot water boiler since the flame is backfired behind the flame plate due to various environmental changes such as the supply state of the combustion air, the fuel supply state, and the electric state, which are being burned by the burner. It relates to a flashback detection circuit of a hot water boiler that can be blocked to enhance safety, the burner (8) is provided with a normal flame detection rod (6) and a reverse flame detection rod (7), respectively, the normal flame detection rod ( 6) The first smoothing circuit of the resistors R3 and R4 and the capacitors C2 and C3 is connected while the capacitor C1 and the resistor R1 are connected at the secondary side of the transformer T. The second smoothing circuit of the resistors R5 and R6 and the capacitors C5 and C6 is connected to the capacitor 7 while the capacitor C4 and the resistor R2 are connected at the secondary side of the transformer T. The output of the circuit goes to transistors Q3 and Q4, and the output of the second smooth circuit goes to transistors Q1 and Q2. And a respective transistor (Q2) connected to a burner control circuit (2) through another transistor (Q4).

Description

Flashback Detection Circuit of Hot Water Boiler

The present invention relates to a flashback detection circuit device of a hot water boiler, and more particularly, flames are contaminated by various environmental changes such as supply state of heavy combustion air, fuel supply state and electric state being burned by a burner. It is backfired because it detects when the combustion is made, and relates to a backfire detection circuit that can further enhance the safety by blocking the operation of the hot water boiler.

4 In order to keep the indoor space pleasant and warm during the winter season or early spring or late autumn, the heating system developed according to the fuel is installed and operated so that the space can be effectively heated. . For example, a boiler is a heating device that generates steam or hot water at a pressure exceeding atmospheric pressure by heating water or a heat medium in an airtight container by the heat of combustion of fuel or other heat source and supplying it to another place. Steam boilers and hot water boilers are classified into hot water boilers.

The hot water boiler (Hot Water Boiler) has no steam at all, the pipe is filled with water as well as the pipe, and is mainly used for hot water supply or hot water heating.

In other words, the hot water boiler that requires only hot water of less than 100 ℃ is filled with water inside the device is installed in the circulation pump near the boiler of the return pipe is to force the hot water circulated in the sealed pipe in the entire apparatus. Therefore, the hot water boiler is installed in a separate boiler room, the surroundings are well ventilated and ventilated, and the appropriate space is secured to enable inspection and maintenance management.

The hot water boiler operated as described above is designed to be equipped with various safety devices for safe operation and equipped with them. First, the low water level shutoff device is a stabilizer that blocks the operation of the boiler when there is not enough water in the boiler. The overheat protection device is a device to prevent the boiler from overheating to prevent boiling, burning and explosion. In addition, other safety devices include a sensor abnormality detection device that blocks the operation of the boiler when the temperature sensor of the boiler is not normal. Inflammation blocker to block the operation of the boiler when there is no fire in time, pseudo flame detection device to shut off the fuel supply and stop the boiler when there is a flame in the combustion chamber before the boiler is operated to supply the fuel, Gas leak detection device that detects fuel and exhaust gas in the boiler to prevent explosion and suffocation, overpressure safety device that prevents boiler water from exceeding a certain water pressure, and shuts down the boiler when there is insufficient oxygen in the combustion air Oxygen deficiency safety device has been developed and used in hot water boiler. Information is.

However, in the conventional hot water boiler, a number of devices have been developed in addition to the safety device. However, the burner of the hot water boiler has a drawback in that the burner is burned out when it is backfired because a separate safety device for backfire is not installed. Therefore, installers using conventional hot water boilers have required a safety device that can prevent the occurrence of failure due to backfire while increasing the safety of the burner.

The present invention devised a separate safety device that can prevent the occurrence of failure due to backfire that is not installed in the conventional hot water boiler as described above, by detecting that the flame is backfired in the burner of the boiler with two flame detection rods It provides a flame detection circuit of a hot water boiler which is provided with a flame detection circuit having a simple configuration that is operated to receive a flame output signal generated when the flame is burned in the burner control circuit from the flame detection circuit and to stop or restart the operation of the hot water boiler. The purpose is.

1 is a block diagram in which a backfire detection circuit according to an embodiment of the present invention is installed in a hot water boiler.

2 is a circuit diagram showing in detail the flame detection circuit shown in FIG.

* Explanation of symbols for main parts of the drawings

1: flame detection circuit 2: burner control circuit

3: blower 4: ignition transformer

5: oil pump 6: normal flame detection rod

7: liquefied flame detection rod 8: burner

In the flame detection circuit of the hot water boiler of the present invention for achieving the above object, the burner (8) is provided with a normal flame detection rod (6) and a reverse flame detection rod (7), respectively, the normal flame detection rod (6) The first smoothing circuit of the resistors R3 and R4 and the capacitors C2 and C3 is connected while the capacitor C1 and the resistor R1 are connected at the secondary side of the transformer T. ) Is connected to the second smooth circuit of the resistors R5 and R6 and the capacitors C5 and C6 while the capacitor C4 and the resistor R2 are connected at the secondary side of the transformer T. That the output is connected to transistors Q3 and Q4, the output of the second smoothing circuit to transistors Q1 and Q2, respectively, and that transistor Q2 is connected to burner control circuit 2 through another transistor Q4. It is characterized by.

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

1 is a block diagram in which a flashback detection circuit according to an embodiment of the present invention is installed in a hot water boiler. The flashback detection circuit device of the present invention is a state in which a combustion air is supplied by a burner, a fuel supply state, Since the flame is backfired behind the flame plate due to various environmental changes such as electrical conditions, the flame is detected by the flame detection rod 6 and the flame detection rod 7 when the combustion occurs. Receiving an output signal, the burner control circuit 2 can block the operation of the hot water boiler so as to stop combustion, thereby enhancing safety. The burner control circuit 2 is connected to a blower 3, an ignition transformer 4 and an oil pump 5, respectively.

The flame detection circuit 1 is composed of a simple circuit as shown in FIG. 2, that is, a burner 8 is provided with a normal flame detection rod 6 and a reverse flame detection rod 7, respectively. The normal flame detection rod 6 has a first smoothing circuit composed of resistors R3 and R4 and capacitors C2 and C3 while the capacitor C1 and the resistor R1 are connected to the secondary side of the transformer T. Connected to the other flame detection rod (7) is connected to the capacitor (C4) and the resistor (R2) on the secondary side of the transformer (T), the second of the resistors (R5, R6) and the capacitor (C5, C6) The smoothing circuit is connected. AC 220 V is supplied to the primary side of the transformer T, and the capacitor C1 and the resistor R1, the capacitor C4 and the resistor R2 are connected in parallel to the secondary side, and the circuit ground and the resistor are connected. Boiler body ground through each.

Transistors Q3 and Q4 are connected to the output of the first smoothing circuit, and transistors Q1 and Q2 are connected to the output of the second smoothing circuit, respectively. The base of the transistor Q3 is a diode D1 and a resistor ( R7 and R9 are connected to the base of the transistor Q1 with a diode D2 and resistors R11 and R13, respectively. The transistor Q3 and another transistor Q4 are connected while the transistor Q1 and another transistor Q2 are also connected, and a capacitor C7 is connected between the transistors Q3 and Q4 while the other transistor ( A capacitor C8 is connected between Q1 and Q2, and the transistor Q2 is connected to the burner control circuit 2 shown in FIG. 1 as a flame signal output through another transistor Q4.

Referring to the operation of the flame detection circuit of the hot water boiler of the present invention configured as described above, first, the operation of the flame detection circuit 1 is the condenser (C1) to the secondary side of the transformer (T) in which AC 220V of the primary side is induced. ) And the flame detection rod (6) through the resistor (R1) and the reverse flame detection rod (7) through the other capacitor (C4) and the resistor (R2) to the upper and lower portions of the burner (8). Each is supplied. In the state where power is supplied to the normal flame detection rod 6 and the back flame detection rod 7, the normal flame detection rod 6 detects the flame by normal combustion of the burner 8, and the reverse flame The sensing rod 7 detects the flame by the backfire combustion behind the flame plate of the burner 8.

The normal flame signal according to the normal flame detection rod 6 is a first smoothing circuit composed of resistors R3 and R4 and capacitors C2 and C3 through a resistor R1. The reverse flame signal is supplied to the second smoothing circuit of the resistors R5 and R6 and the capacitors C5 and C6 through the resistor R2, respectively. The outputs of the first and second smoothing circuits are respectively supplied to the base of the transistor Q3 and the base of the other transistor Q1, and the output of the transistor Q2 connected to the transistor Q1 is the transistor Q3. Is inputted to the burner control circuit 2 shown in FIG.

When the burner 8 is in normal combustion, the normal flame signal according to the normal flame detection rod 6 is transmitted to the base of the transistor Q3 through a first smoothing circuit, and the transistor Q3 is transmitted by the flame signal. Is switched from the on state to the off state, so the other transistor Q4 is switched from the off state to the on state. Therefore, since the flame signal output voltage of the flame detection circuit 1 is output in a low state, the burner control circuit 2 maintains normal combustion.

At this time, when the flame is backfired by various environmental changes such as the supply state of combustion air, the supply state of fuel, and the electric state in the burner 8, the flame detection rod 7 detects the flame. When the reverse flame signal is detected at (7), it is transmitted to the base of the transistor Q1 via the second smoothing circuit. The reverse flame signal causes the transistor Q1 to be switched from an on state to an off state, thereby switching the other transistor Q2 from an off state to an on state, thereby changing the base potential of the transistor Q4 connected to the transistor Q2. The burner control circuit 2 shown in FIG. 1 stops combustion by making the transistor Q4 switch to the high state by making the transistor Q4 keep the flame signal output voltage low in the normal combustion state.

As described above, according to the present invention, a flame detection circuit having a simple configuration that operates by detecting two flame detection rods that flames are backfired in a burner of a boiler may be used to detect a flame output signal generated when the flame is burned in the burner control circuit. It is possible to provide a flame detection circuit of the hot water boiler which is inputted from the flame detection circuit to stop or restart the operation of the hot water boiler.

Claims (1)

The burner 8 is provided with a normal flame detection rod 6 and a reverse flame detection rod 7, respectively, and the normal flame detection rod 6 has a capacitor C1 and a resistor R1 at the secondary side of the transformer T. ) Is connected and the first smoothing circuit of the resistors R3 and R4 and the capacitors C2 and C3 is connected. The other flame detection rod 7 is connected to the capacitor C4 and the resistor (2) on the secondary side of the transformer T. R2 is connected to the resistors R5 and R6 and the second smoothing circuit of the capacitors C5 and C6. The output of the first smoothing circuit is connected to the transistors Q3 and Q4 and the output of the second smoothing circuit is connected. Flashback detection circuit of a hot water boiler, characterized in that it is connected to transistors (Q1, Q2), respectively, and said transistor (Q2) is connected to a burner control circuit (2) through another transistor (Q4).