JPH07305838A - Combustion device - Google Patents

Abstract

PURPOSE:To prolong service life for an O2 sensor at sensor, which are used for monitoring a combustion state and to reduce a device cost and a maintenance cost. CONSTITUTION:An O2, sensor 10 to detect oxygen density of combustion exhaust gas is arranged at an exhaust cylinder 8. Control is performed by a control device 11 so that after a burner 1 is brought into an ON-state, a power source for the O2 sensor 10 is turned ON and OFF intermittently at a specified period. Or, control is effected in such a manner that first, the fluctuation per unit time of the combustion value of the burner 1 is determined, and when the fluctuation exceeds a preset given reference value, the power source for the O2 sensor 10 is turned ON and when it is below the preset given reference value, the power source therefor turned OFF.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combustion device which can extend the life of an O ₂ sensor or a CO sensor used for monitoring a combustion state.

[0002]

2. Description of the Related Art In various combustion devices such as burner equipment for heating solutions used in absorption chillers and industrial boilers, an O ₂ sensor or CO _{2 is} used to monitor the combustion state.
A sensor is used.

A practically used O ₂ sensor is a sensor using a zirconia solid electrolyte. This sensor uses a porous alumina substrate as the oxygen gas rate-controlling body. A platinum electrode (cathode), a zirconia solid electrolyte, and a platinum electrode (anode) are sequentially laminated on one surface of this alumina substrate, and the other surface is detected. A platinum heater is formed to improve accuracy.

The CO sensor includes a CO detection element, a mixed catalyst, and a platinum coil. C in this CO sensing element
When O comes into contact, CO is oxidized on the heated mixed catalyst and burns to generate heat of reaction. This reaction heat is replaced with the resistance change of the platinum coil and detected as CO concentration.

[0005]

However, in the O ₂ sensor, a voltage is constantly applied to the above-mentioned platinum heater when the O ₂ concentration is detected. Therefore, the factor that determines the durability of the O ₂ sensor lies in the durability of the platinum heater, and the durability time is considered to be several thousand hours, and it is necessary to apply it to equipment with a high operating rate of the O ₂ sensor. There's a problem.

Further, since the CO sensor produces the heat of reaction as described above, the temperature of the CO sensor becomes as high as about 20 ° C. or more at the detecting portion, and like the O ₂ sensor, it is durable to be applied to equipment having a high operating rate. There is a problem with sex.

In this way, the O ₂ sensor and the CO sensor are
Due to its poor durability, when applied to burner equipment for solution heating used in absorption refrigerators and combustion equipment such as industrial boilers that have a long operating time, the O ₂ sensor and CO sensor should be replaced regularly. Work is required, and equipment costs and maintenance costs are borne.

An object of the present invention is to provide a combustion apparatus which can extend the life of the O ₂ sensor and CO sensor used for monitoring the combustion state and reduce the burden of equipment cost and maintenance cost. To do.

[0009]

SUMMARY OF THE INVENTION A first invention for solving the above problems is a combustor which burns fuel, and an O ₂ gas of exhaust gas discharged by this combustion in order to monitor the state of this combustion. A combustion apparatus including an O ₂ sensor for detecting a concentration, comprising a controller for intermittently turning on and off the power supply of the O ₂ sensor at a constant cycle.

Further, in a combustion apparatus equipped with a combustor that burns fuel and a CO sensor that detects the CO concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion, A second invention is a combustion apparatus characterized by comprising a controller for intermittently turning on and off the power supply at a constant cycle.

In a combustion apparatus equipped with a combustor that burns fuel and an O ₂ sensor that detects the O ₂ concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion, combustion of the combustion A comparator for comparing the fluctuation of the value per unit time with a predetermined reference value, and when the fluctuation becomes larger than the reference value by this comparison, the power supply of the O ₂ sensor is turned on, and the fluctuation A combustion apparatus according to a third aspect of the present invention is provided with a controller for turning off the power source of the O ₂ sensor when the value becomes smaller than the reference value.

In a combustion apparatus equipped with a combustor that burns fuel and a CO sensor that detects the CO concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion, A comparator for comparing the fluctuation per unit time with a predetermined reference value, and when the fluctuation becomes larger than the reference value by this comparison, the power of the CO sensor is turned on, and the fluctuation exceeds the reference value. A fourth aspect of the present invention is a combustion apparatus including a controller for turning off the power source of the CO sensor when the combustion apparatus becomes small.

[0013]

[Action] In any of the invention, instead of driving the constantly O ₂ sensor or CO sensor during the combustion, since they are driven only a predetermined period during the combustion, the O ₂ sensor Ya as compared with the conventional The life of the CO sensor can be extended.
In the first and second inventions, the power source is OF between the periods when the power sources of the O ₂ sensor and the CO sensor are ON.
If the period of being in the F state is not too long,
It seems that there is no major obstacle in detecting the O ₂ and CO concentrations.

However, in the first and second aspects of the invention, when a rapid change in the combustion state occurs, the O ₂ sensor and CO
There is a possibility that a situation may occur in which the O ₂ and CO concentrations cannot be promptly detected when the power of the sensor is off. In order to monitor the combustion state, it is necessary to detect the O ₂ and CO concentrations of the exhaust gas when the combustion value fluctuates by a certain degree or more. So the third,
As in the fourth aspect of the invention, the fluctuation of the combustion value per unit time is compared with a predetermined reference value (a value that is considered to be appropriate is selected), and when this fluctuation becomes larger than the reference value, O ₂
If the power of the sensor and CO sensor is turned on and turned off when it becomes smaller than the reference value, O ₂ and C in the exhaust gas
While it is possible to surely detect the O concentration when it is necessary to detect the O concentration, it is possible to use the O ₂ sensor and the CO sensor unnecessarily by energizing the O ₂ sensor and the CO sensor when the O concentration cannot be detected. Absent.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. The following embodiments relate to a combustion device that serves as a heat source of an absorption chiller, and are provided with an O ₂ sensor in order to maintain high combustion efficiency and save energy.
FIG. 1 is a system diagram of a combustion device that serves as a heat source of such an absorption refrigerator.

Reference numeral 2 is a gas supply pipe for supplying a fuel gas to the burner 1, and a fuel cutoff valve 4 is provided upstream of the fuel valve 3.
Is provided. Reference numeral 5 is a combustion air flow path, and 6 is a blower for supplying combustion air to the burner 1 through the combustion air flow path 5. The combustion exhaust gas generated by the combustion of the burner 1 flows through the heat exchanger 7 to heat the lithium bromide aqueous solution (not shown) to cool it, and then is discharged from the exhaust stack 8. Reference numeral 9 is an air valve for adjusting the amount of combustion air. The flow of combustion exhaust gas and combustion air is indicated by arrows in FIG.

The temperature of cold / hot water as a heat medium introduced from an evaporator (not shown) to a fan coil unit (not shown) is detected by a temperature sensor (not shown) at the outlet of the evaporator (not shown).

The combustion apparatus of this embodiment maintains the combustion efficiency high by performing the following control. That is, the detected temperature of cold / hot water by a temperature sensor (not shown) is compared with the target temperature, and the combustion amount is determined from the deviation from the target temperature. The opening of the fuel valve 3 is detected, the opening of the fuel valve 3 is adjusted based on the determined combustion amount, and the supply amount of gas as fuel is adjusted. Although the amount of combustion air supplied to the burner 1 is also determined corresponding to the amount of fuel supplied to the burner 1 which is determined by the determined combustion amount, the oxygen concentration is detected by the oxygen concentration sensor 10, and the detected oxygen concentration value is Compared with the preset target concentration value of oxygen to maintain the optimum combustion state, the deviation of this comparison corrects the supply amount of combustion air determined by the combustion amount that has already been determined, and finally the air valve The valve opening of valve 9 is determined. The current valve opening degree of the air valve 9 is detected, and the air valve 4 is adjusted to the finally determined valve opening degree. As a method of obtaining the deviation by comparison, the target concentration value of oxygen may be simply subtracted from the actually measured value of the oxygen concentration.

Reference numeral 11 indicates that the power of the O ₂ sensor 10 is ON and O
It is a control device for controlling the FF. FIG. 2 is a time chart diagram showing a first example of control of the O ₂ sensor 10 by the control device 11. The control device 11 turns on the burner 1.
After that, the power supply of the O ₂ sensor 10 is intermittently turned on and off at a constant cycle. The interval can be set variously, but in the example shown in FIG.
It is shown in the case where OFF is repeated for a minute. O ₂ sensor 1
Since the detection of the O ₂ concentration by 0 starts about 2 minutes after the power of the O ₂ sensor is turned on, in this example, the O ₂ concentration is detected for about 3 minutes and stopped for about 12 minutes. The state is repeated until the burner 1 is turned off.

FIG. 3 shows the O ₂ sensor 1 by the controller 11.
It is a time chart figure which shows the 2nd example of 0 control. In this example, the combustion value of the burner 1 (the flow rate of the gas as fuel flowing through the fuel valve 3, the integrated value of the flow rate of the combustion air flowing through the air valve 9, the inclination or the integrated value of the combustion output, or the combustion value) The variation per unit time of the area (with respect to the time axis of the output) is calculated. When the variation exceeds a preset reference value, the power of the O ₂ sensor 10 is turned on, and when it falls below the predetermined reference value, it is turned off. It is what Therefore, in the example of FIG. 2, when the burner 1 is turned on, the combustion output rapidly expands, so the fluctuation of the combustion value per unit time exceeds the reference value, and the power of the O ₂ sensor 10 is turned on. After that, when the combustion output shifts to a stable state, it falls below the reference value, and the power of the O ₂ sensor 10 is turned off. After that, if the combustion output fluctuates significantly for some reason, the power of the O ₂ sensor 10 is turned on, and if the combustion output stabilizes,
The operation of FF is repeated. The reference value can be set in various ways. Also, the O ₂ sensor 10 starts detecting the O ₂ concentration about 2 minutes after the power is turned on, as in the first example described above.

Next, the operation of this embodiment will be described. In both the first and second examples, the O ₂ sensor 10 is not always driven during the combustion of the burner 1, but is driven only for a predetermined period during the combustion, so that the conventional combustion apparatus can be used. In comparison, the life of the O ₂ sensor 10 can be extended. In the first example, the power of the O ₂ sensor 10 is turned on.
It is considered that there is no great obstacle in detecting the O ₂ concentration unless the period in which the power supply is in the OFF state is set to be too long between the periods in which the power is on.

However, in the first example, when a rapid change in the combustion state occurs, the power source of the O ₂ sensor 10 becomes O.
In the FF state, a situation may occur in which the O ₂ concentration cannot be detected promptly when it should be detected. In order to monitor the state of combustion, it is necessary to detect the O ₂ concentration of the exhaust gas when the combustion value fluctuates by a certain degree or more.

According to the second example, the fluctuation of the combustion value per unit time is compared with a predetermined reference value, and when the fluctuation becomes larger than the reference value, the power of the O ₂ sensor 10 is turned on, When it becomes smaller than the reference value, it is turned off.
While it is possible to reliably detect the O ₂ concentration of the exhaust gas, it is possible to prevent the O ₂ sensor from being unnecessarily consumed by being energized by the O ₂ sensor when it is not necessary to detect it.

The above embodiment relates to the combustion apparatus which is the heat source of the absorption refrigerating machine, and has been described with respect to the case where the O ₂ sensor is provided in order to maintain the high combustion efficiency and save energy. The present invention is not limited to this embodiment, and the present invention can be applied to various other combustion devices such as industrial boilers. A CO sensor is also used to monitor the combustion state, and the present invention uses O ₂
It is not limited to the combustion device provided with the sensor, but C
A combustion device equipped with an O sensor is also included. In this case, C
The O sensor may be controlled by the control device 11 described above, for example.

[0025]

According to the present invention described above, it is possible to extend the life of the O ₂ sensor and the CO sensor used for monitoring the combustion state, and reduce the burden of equipment cost and maintenance cost. Can be provided.

[Brief description of drawings]

FIG. 1 is a system diagram of a combustion apparatus that is an embodiment of the present invention.

FIG. 2 is a time chart diagram showing an example of O ₂ sensor control by the control device of the combustion apparatus which is an embodiment of the present invention.

FIG. 3 is a time chart diagram showing an example of O ₂ sensor control by a control device for a combustion apparatus according to an embodiment of the present invention.

[Explanation of symbols]

1 burner 10 O ₂ sensor 11 controller

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[Procedure amendment]

[Submission date] September 8, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction content]

Further, since the CO sensor generates the reaction heat as described above, the temperature of the CO sensor becomes as high as about 200 ° C. or more at the detecting portion, and like the O ₂ sensor, it is durable to be applied to equipment having a high operating rate. There is a problem with sex.

Claims (4)

[Claims] 1. A combustion apparatus comprising a combustor that burns fuel and an O ₂ sensor that detects the O ₂ concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion. ₂ Turn on the power of the sensor intermittently at regular intervals.
A combustion device comprising a controller for turning on and off. 2. A combustion apparatus comprising a combustor for burning fuel and a CO sensor for detecting the CO concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion. A combustion device comprising a controller for intermittently turning on and off a power supply at a constant cycle. 3. A combustion apparatus comprising a combustor that burns fuel and an O ₂ sensor that detects the O ₂ concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion. A comparator for comparing the fluctuation of the combustion value per unit time with a predetermined reference value, and when the fluctuation becomes larger than the reference value by this comparison, the power supply of the O ₂ sensor is turned on to change the fluctuation. Is smaller than the reference value, a controller for turning off the power supply of the O ₂ sensor is provided. 4. A combustion apparatus comprising a combustor that burns fuel and a CO sensor that detects the CO concentration of exhaust gas discharged by this combustion in order to monitor the state of this combustion. A comparator that compares the fluctuation of the value per unit time with a predetermined reference value, and when the fluctuation becomes larger than the reference value by this comparison, the power of the CO sensor is turned on, and the fluctuation becomes the reference value. And a controller for turning off the power supply of the CO sensor when the value becomes smaller than the value.