JPS63194124A - Air-fuel ratio control method for premixed gas burner - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an air-fuel ratio control method for a premixed gas burner.

(Prior art and its problems) Conventional air-fuel ratio control methods include, for example, detecting the oxygen concentration contained in exhaust gas, determining the current air-fuel ratio from the oxygen concentration, and roughly determining the amount of air introduced into the gas burner. There is a method of controlling the air-fuel ratio to a desired level by adjusting the amount of introduced gas.

In air-fuel ratio control using such conventional methods, in addition to the flame detection section using a flame rod, etc., it is necessary to separately provide a detection section for air-fuel ratio control such as an oxygen concentration detection sensor, which increases production costs and makes it compact. There are some problems, such as difficulty in converting. The present invention aims to solve such problems.

(Means for Solving the Problems) The present invention will be explained based on FIGS. 1 and 2 corresponding to embodiments. In a premixed gas burner 1, a flame detection flame rod 2 provided near a combustion section The output current of The opening/closing state of the gas valve 7 is adjusted by the air-fuel ratio controller 8 to obtain a desired premixed gas air-fuel ratio. In the illustrated example, the premix burner is shown as a porous ceramic burner, but the premix burner may have an insulator structure as long as it is a porous ceramic burner.

(Function) The flame rod 2 can detect the flame state of the premixed gas barge 1 from its output current value, and
It was experimentally confirmed that there is a correlation between the output current value and the air-fuel ratio of the premixed gas in the premixed gas burner 1, as shown in FIG. 2, for example. Therefore, by measuring the output current value, the current air-fuel ratio can be determined, so the air-fuel ratio control section 8 appropriately adjusts the opening and closing states of the air valve 5 and the gas valve 7 to obtain the desired air-fuel ratio. Feedback control to obtain the fuel ratio can be performed.

(Example) The frame rod 2 is installed at the premixed gas burner 1.
It may be installed at an appropriate location near the premixed gas burner as long as it can detect the flame state of the premixed gas burner.

The current detection unit 3 may be of any type as long as it can take in the slight output current of the frame rod 2, amplify it to an appropriate signal level, and output an output signal corresponding to the output current to the outside. It consists of a voltage converter, voltage amplifier, etc.

The air-fuel ratio control section 8 calculates, from the output signal of the current detection section 3,
The current air-fuel ratio is determined using the relationship shown in FIG. 10 to adjust the opening and closing states of the air valve 5 and gas valve 7.

(Effects of the Invention) As described above, the present invention detects flame only by the output current value of the flame rod installed near the combustion part of the premixed gas burner, and also controls the air-fuel ratio of the premixed gas. Since it is not necessary to separately provide a flame detection sensor and an air-fuel ratio control sensor, the production cost can be reduced and the device can be made more compact.

[Brief explanation of the drawing]

Figures 1 and 2 correspond to embodiments of the present invention. Figure 1 is a system diagram of the present invention, and Figure 2 shows the relationship between the output current value of the frame rod and the premixed gas air-fuel ratio. FIG. Symbol 1... Premixed gas burner, 2... Frame rod, 3... Current detection section, 4... Air introduction path, 5...
...Air valve, 6...Gas introduction path, 7...Gas valve, 8
...Air-fuel ratio control section, 9...Air valve drive section, 1o...
・Gas valve drive unit. Applicant Tokyo Gas Co., Ltd. Samsung Co., Ltd. Figure 1 Figure 2 Air-fuel ratio procedure amendment 5゜1. Display of incidents
7゜1986 Patent Application No. 25740 3, Relationship with the case of the person making the amendment Patent applicant 4, Agent 101 Address 1-21 Kanda Nishiki-cho, Chiyoda-ku, Tokyo Date of amendment order Specifications subject to voluntary amendment All documents and drawings - Contents of amendment■ The title of the invention in this application will be amended as follows. ■ All of the specifications and drawings in this application will be amended to the attached ones. Attached document amended specification: 1 amended drawing: 1 or more copies Description 1. Title of the invention: Air ratio control method for premixed gas burner 2. Claims: In a premixed gas burner, a flame detection frame provided near the combustion section. From the output current of the rod, determine the air ratio of the premixed gas corresponding to the output current, and adjust the opening/closing state of the air valve provided in the air introduction path of the premixed gas burner and the gas valve provided in the gas introduction path. A method for controlling an air ratio of a premixed gas burner, the method comprising: obtaining a desired premixed gas air ratio. 3. Detailed Description of the Invention (Field of Industrial Application) The present invention relates to an air ratio control method for a premixed gas burner. (Prior art and its problems) Conventional air ratio control methods include, for example, detecting the oxygen concentration contained in exhaust gas, determining the current air ratio from the oxygen concentration, and then determining the amount of air introduced into the gas burner. There is a method of controlling the amount of introduced gas to a desired air ratio. In the conventional method of air ratio control, in addition to the flame detection part using a flame rod, etc., it is necessary to separately provide a detection part for air ratio control such as an oxygen concentration detection sensor, which increases production costs and makes it compact. There are some problems, such as difficulty in converting. The present invention aims to solve such problems. (Means for Solving the Problems) The present invention will be explained based on FIGS. 1 and 2 corresponding to embodiments. In a premixed gas burner 1, a flame detection flame rod 2 provided near a combustion section The output current of The opening/closing state of the gas valve 7 is adjusted by the air ratio control section 8 to obtain a desired premixed gas/air ratio. In the illustrated example, the premix burner is represented as a porous ceramic burner, but any premix burner may be used as long as it is a porous ceramic burner. (Function) The flame rod 2 can detect the flame state of the premixed gas burner 1 from its output current value, and
It was experimentally confirmed that there is a correlation between the output current value and the premixed gas/air ratio in the premixed gas burner 1 as shown in FIG. 2, for example. Therefore, the current air ratio can be determined by measuring the output current value, so the air ratio control section 8 appropriately adjusts the open/close states of the air valve 5 and the gas valve 7 to obtain the desired air ratio. Feedback control to obtain the ratio can be performed. (Example) The frame rod 2 is installed at the premixed gas burner 1.
It may be provided at an appropriate location near the premixed gas burner 1 as long as it can detect the flame state. The current detection section 3 may be of any type as long as it can take in the delicate output current of the frame rod 2, amplify it to an appropriate signal level, and output an output signal corresponding to the output current to the outside. It consists of a voltage converter, voltage amplifier, etc. From the output signal of the current detection unit 3, the air ratio control unit 8
The current air ratio is determined using the relationship shown in FIG. 10 to adjust the opening and closing states of the air valve 5 and gas valve 7. (Effects of the Invention) As described above, the present invention detects flame only by the output current value of the flame rod installed near the combustion part of the premixed gas burner, and also controls the air ratio of the premixed gas. Since it is not necessary to separately provide a flame detection sensor and an air ratio control sensor, the production cost can be reduced and the device can be made more compact. 4. Brief explanation of the drawings Figures 1 and 2 correspond to embodiments of the present invention. Figure 1 is a system diagram of the present invention, and Figure 2 shows the output current value and premixing of the frame rod. It is a figure showing the relationship with gas air ratio. Reference numeral 1... Premixed gas burner, 2... Frame loft, 3... Current detection section, 4... Air introduction path, 5...
...Air valve, 6...Gas introduction path, 7...Gas valve mi8
... Air ratio control section, 9... Air valve drive section, 10...
・Gas valve drive unit.

Claims (1)

[Claims] In the premixed gas burner, the air-fuel ratio of the premixed gas corresponding to the output current is determined from the output current of a flame detection flame rod provided near the combustion section, and an air valve provided in the air introduction path of the premixed gas burner is determined. and a method for controlling an air-fuel ratio of a premixed gas burner, which comprises adjusting the opening/closing state of a gas valve provided in a gas introduction path to obtain a desired premixed gas air-fuel ratio.