JPS63217114A - Ignition device for pulsation burner - Google Patents

Abstract

PURPOSE:To enable positive ignition from various kinds of gases to be performed by a method wherein when an igniting operation is started, an electrical energization for an ignition plug is delayed by a certain time after releasing a solenoid value for use in supplying fuel gas. CONSTITUTION:When a pulsation combustion is started, a control circuit 12 may release a fuel gas supplying solenoid valve 3 through a solenoid valve driving circuit 13 to feed fuel into a combustion chamber and to mix it with combustion air. In turn, the control circuit 12 may drive an igniter 15 under a control of an igniter driving circuit 14 through a delay circuit 4 to ignite mixture gas. At this time, the delay circuit 4 may delay an output from an igniter driving circuit 14 for a specified period of time after releasing of the fuel gas supplying solenoid valve 3. With this arrangement, it is possible to use various kinds of fuel gases and make a positive ignition.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention is applicable to fuel gas and combustion air. ! This invention relates to an ignition device for a pulse combustor that feeds gas into four chambers and performs continuous combustion under a constant cycle.

2. Description of the Related Art At the start of this type of pulse combustor, which has been commonly used in the past, the blower TMa is first turned on, and then the solenoid valve is fully opened to supply fuel gas and, at the same time, a fish-sized plug is energized. The structure is such that the spark is blown away.

Problems to be Solved by the Invention Pulse combustors start combustion by injecting a mixture of fuel gas and combustion air into the LJPN combustion chamber and emitting sparks from the ignition plug. After combustion starts, turn off the spark plug and continue with pulse combustion. At this time, if the gas type has a slow combustion rate such as LP gas, the gas supply and sparking of the human flag may be performed at the same time, but if the gas type has a high hydrogen content, the pulse combustion operation will be slow.・There are many cases where the combustion cycle is disrupted and the normal cycle of pulse combustion does not occur.

In this way, it has been found that when starting pulse combustion, it is necessary to fully adjust the spark plug timing depending on the type of gas. The present invention focuses on the above points and aims to provide an ignition device for a pulse combustor that can reliably perform pulse combustion for various gas types using the same pulse combustor.

Elaborate means for solving the problem This invention provides a method for connecting the gas valve (Vi) from the gas chamber (5).
, the distributor head (6) and the flame trap (7) supply a certain amount of fuel gas to the combustion chamber (1) at diameter r, and the air chamber (9) from the blower (8)
, air valve (Vz), air chamber QO and flame trap °
(7)? A certain amount of combustion air supplied to the combustion chamber (1) is mixed in the entire combustion chamber (1), and the mixture is sparked by the spark plug (2) only when starting from the force 1. In a pulse combustor, where the spark from the ignition plug (2) is completely abolished and the cycle of competition, explosive combustion, and exhaust continues after the ignition is completed, the gas enters the gas chamber (5) at the start. After the solenoid valve (3) for fuel gas supply installed in the pipe (11) is opened, a delay circuit (4) is installed to energize the spark plug (2) for a certain period of time to supply a certain amount of fuel gas and combustion air. The air-fuel mixture fills the combustion chamber (1), causes sparks to fly from the ignition flag (2), and ignites and burns all at once.
This invention solves the above problems by making it possible to adjust the delay to an optimum value depending on the gas flow. The gas supply solenoid valve (3) opens and a certain amount of fuel gas is supplied to the gas chamber (5) → gas valve (
VL) → Distributor head (6) → Flame trough (7) → Provided to the combustion chamber (1), where it is thoroughly mixed with the combustion air previously supplied δn in the combustion chamber (1). After the mixed fuel mixture fills the combustion chamber (1), the ignition plug (2) is energized after a period of time that is optimal for the type of gas used, and the spark plug ignites and burns all of the upper claws at once. (2) The ignition combustion by the spark from (2) is made to continue to the target combustion with good timing. Since the delay time can be adjusted according to the type of gas, optimal ignition and combustion can be achieved even if the type of gas is different.Example: Hereinafter, an embodiment of this invention will be explained based on all the drawings. In the drawing, (1) is a combustion chamber, and (2) is a spark plug, which is located adjacent to the combustion chamber (1). (3) is a solenoid valve for fuel gas supply, which supplies gas t (I
The solenoid valve drive circuit 03) is turned on and off in response to commands from the n1 control circuit Q21 and others to open and close the solenoid valve drive circuit 03). (4) is a delay circuit, and the control circuit 021
The igniter drive circuit operates according to the command from the igniter drive circuit 0 to igniter (151k starts, stops and ignites).
2J and 1 spark are designed to be pushed upward. For example, as shown in FIG. 2, the delay (b) path (4) is a fixed type in which a resistor (b) whose delay time is predetermined at a certain time is provided, so that a delay of a certain time can always be obtained. Is it possible to incorporate a delay time setting function into the delay time setting function so that it can be adjusted according to the type of gas? Switchable delay time setting switch <5L) K is provided with ρ1, or as shown in the first example, the delay time or stepless switching is made with a delay time setting volume (VRJ) K is provided, etc. to set the delay time 1: In addition, in the figure (S2J is the delay setting switch).The discharge port (16) of the gas chamber (51) is equipped with a disk type gas valve (V'tJ'(l? At the same time, the base end of the distributor head (6) is connected to the discharge port 06), and its tip passes through the air chamber QQ'll- and is brought into close contact with the center of the 7-frame tray 1 (7), so that the fuel gas flows into the combustion chamber. (1) can be directly supplied δ.

(3) is the air supply blower, and its air supply duct) (
17) Connected to the air chamber (9) via n1 Partition wall between the air chamber (9) and air mQO<18
1 is equipped with a disc type air valve (Vd'(f)) to connect the
The ffi firing air from (8) is supplied directly to the combustion chamber (1). In the above embodiment, the fuel gas and the combustion air are all sent to the combustion chamber (1), and are mixed and ignited in the combustion chamber (1), but the fuel from the distributor head (6) gas to air iQ
Of course, it is also possible to adopt a structure in which the mixture is introduced into the combustion chamber (1) through the flame trap (7) and mixed with the combustion air.

In the above configuration, when the ignition switch is fully turned on at the time of starting the pulse combustor, the supply air blower (8) or (b) is first turned in response to a command from the control circuit □□□j. The air that has reached the air chamber (9) from the blower (8) via the air supply duct α7)t is opened according to the climate and the air chamber <1 (1-frame trough). (7)→The filling is constantly pumped into the combustion chamber (1), and then the solenoid valve (3) for fuel gas supply provided in the gas pipe (111) is opened to reach the gas chamber (5) 7' (
Fuel gas? The gas pressure opens the disk-type Ganu valve (V2) provided at the discharge port 061, and the distributor head (
6) → Flame trap (7) → A fixed amount is fed to the combustion chamber (1), and this fuel gas and combustion air are thoroughly mixed in the entire combustion chamber (1), and the fixed type of air-fuel mixture is combusted. Room (1
), the control circuit Q2. The delay circuit (4) 1 is activated by a command from the igniter drive circuit (14J) to start the igniter (151), which causes a spark to fly from the ignition plug (2) to ignite the air-fuel mixture, which in turn causes ignition and combustion. The combustion operation is carried out in a short time (instantaneous) and completely, and the continuation to self-combustion is carried out with good timing.In addition, in the above-mentioned ignition operation, from the opening of the fuel gas supply solenoid valve (3) to the spark plug ( For example, in the case of city gas, which has a high hydrogen content and is highly flammable, the optimum delay time for energizing 2) is approximately 3 seconds. hand(
Fig. 2 2 delay (means for completely switching the presence or absence of the g circuit, or means for changing the delay time in several stages by changing the resistance value in stages (Fig. 3 F, or aJ variable resistance VR)
The optimum delay time can be set according to the gas used by using means (Fig. 1) that allows the delay time to be infinitely adjusted. Note that the fifth factor (delay circuit (4) in Figure 113)
What is the resistance value in a specific example? Change the capacitor (C
), the switching operation of the ditransistor (Tr) and the operation of the relay (RYJ) are made to have different delay times of 9 stages, and the spark plug (2) from the igniter (engineering G) is changed. The energization delay time can be changed in several stages.

Effects of the Invention The present invention provides a pulse combustor in which the opening force of the fuel gas supply electromagnetic P (3) is changed from the opening force of the ignition plug (
2) Akanobu circuit that delays the energization sound by a certain period of time (4)
Since the combustion chamber (1) is filled with the air-fuel mixture, the spark plug (2) causes the spark to ignite and burn all at once. Time jijJ
(At 4 o'clock), the continuation to the kiss was done in a timely manner just by the AU's ``Yakidoe'' at the start.

Furthermore, if the t1 delay circuit (4) is provided with a delay time setting function, the delay time will be advantageous in that optimum combustion will be achieved for all gas types, including the delay time set by the l# clause depending on the gas type.

[Brief explanation of the drawing]

Fig. 1 shows a cross-sectional leg showing an embodiment of the present invention, Fig. 2 shows its block □□□, and Figs. 3 and 11 show an embodiment in which a delay time setting function is also included in the delay circuit. FIG. 5 is a circuit diagram of a specific example of the delay circuit in FIG. 3. (1)...Combustion chamber, (2)...Spark plug, (3λ
... Solenoid valve for fuel gas supply, (4) ... Delay circuit. Figure 1 4: Beneath hemorrhoids Figure 2 Figure 3 Figure 4

Claims (2)

[Claims] (1) Pulse combustion in which fuel gas and combustion air are fed into the combustion chamber (1), the air-fuel mixture is ignited by the spark from the ignition plug (2) only at the start, and after ignition combustion, self-combustion continues in a fixed cycle. At the time of starting, the spark plug (2) is opened after a certain period of time after the fuel gas supply solenoid valve (3) is opened.
An ignition device for a pulse combustor, characterized in that it is provided with a delay circuit (4) for energizing. (2) The ignition device for a pulse combustor according to claim 1, wherein the delay circuit (4) is provided with a delay time setting function so that the delay of a certain time can be adjusted according to the type of gas.