KR0153715B1 - Burner - Google Patents

Abstract

An object of the present invention is to provide a combustion device capable of accurately obtaining the air volume corresponding to the required combustion amount of a burner even when the exhaust port is affected by external winds, etc., and to prevent incomplete combustion or the like caused by abnormality of the exhaust port. The constitution includes a combustion apparatus having correction means 28 for correcting the rotation speed of the combustion fan 10 so that the target air volume is obtained when the air flow amount detected by the air flow sensor 13 is different from the target air volume. In this case, when the rotation speed of the combustion fan 10 is corrected by the correction means 28, correction time detection means 29 for detecting the elapsed time of the correction state is provided, and when the correction state continues for a predetermined time or more, The combustion stop means 27 which stops combustion is provided.

Description

Combustion device

1 is a system configuration diagram of a combustion apparatus of a first embodiment of the present invention.

2 is a block diagram of main parts of the combustion device shown in FIG.

3 is a block diagram of main parts of the combustion apparatus of the second embodiment of the present invention.

4 is a diagram for explaining the operation of the combustion apparatus shown in FIG.

* Explanation of symbols for main parts of the drawings

3: burner 10: combustion fan

13: air flow sensor 23: rotation speed setting means

24: fan drive means 27: combustion stop means

28 correction means 29 correction time detection means

The present invention relates to a combustion device such as a hot water heater.

For example, in a hot water heater, the amount of combustion of the burner required to match the tapping detected by the tapping temperature sensor to a set temperature set by the user is obtained, and the number of revolutions of the combustion fan is controlled by the set speed determined according to the required amount of combustion. In addition, it is generally known to control the opening degree of the proportional valve installed in the fuel supply path to the burner according to the required combustion amount or the actual rotation speed of the combustion fan.

This type of combustion apparatus controls the rotation speed of the combustion fan to the set rotation speed on the premise that the rotation speed of the combustion fan and the blowing amount (air supply amount) from the combustion fan to the burner always correspond to each other in a constant relation. In practice, the load of the combustion fan changes due to the blockage of the exhaust port or the influence of external wind. In such a case, the actual blowing amount (air supply amount) from the combustion fan to the burner changes even if the number of rotations of the combustion fan is the same. Therefore, even if the rotation speed of the combustion fan is controlled at the set rotation speed determined according to the required combustion amount, it is not always said that the actual amount of air blown to the burner is always maintained at an appropriate amount.

Therefore, in this type of combustion device, the air flow rate sensor (wind speed sensor) disposed in the air passage of the combustion fan to the burner is used to detect the actual air flow to the burner at a time, and also to determine the air flow amount corresponding to the required combustion amount of the burner. It is also known to control (correction) the rotation speed of the combustion fan at any time so that the set blowing amount and the actual blowing amount coincide with each other (for example, JP-A-129561, JP-A-60-A). See 143251). In this kind of combustion apparatus, even if the target air volume cannot be obtained due to, for example, hole formation, peeling off, accumulation of foreign matters, or the like, even if the target air volume cannot be obtained under the influence of external wind. This is solved by correcting the rotation speed of the combustion fan.

However, the influence of the draft is temporary, and since the rotation speed of the combustion fan is returned to the set speed when the wind stops, the correction state does not continue, but the abnormality of the exhaust port due to hole formation, peeling, and accumulation of foreign matter is continuous. The burner operation is continued with the rotation speed of the combustion fan corrected. If such a condition continues, especially in the case of exhaust clogging, the air pressure in the combustion chamber in which the burner is stored becomes high, making it difficult to supply fuel, and there is a risk of incomplete combustion without performing combustion corresponding to the supplied fuel. .

An object of the present invention is to improve such a combustion device. More specifically, even if the exhaust port is influenced by an external wind, the amount of air corresponding to the required combustion amount of the burner can be accurately obtained, and moreover, An object of the present invention is to provide a combustion apparatus that can prevent incomplete combustion and the like.

In order to achieve the above object, the present invention provides a combustion fan blown to a burner, rotation speed setting means for setting the rotation speed of the combustion fan based on a target air volume corresponding to the required combustion amount of the burner, and the rotation speed setting. Fan driving means for driving the combustion fan in accordance with the set rotational speed by the means, a flow rate sensor for detecting the air flow rate from the combustion fan to the burner, and when the air flow amount detected by the wind speed sensor is different from the target air flow, A combustion apparatus comprising correction means for correcting the rotation speed of the combustion fan so that the air volume is obtained, the correction time detection means for detecting the elapsed time of the correction state when the rotation speed of the combustion fan is corrected by the correction means. And a combustion stop means for stopping combustion of the burner when the correction state continues for a predetermined time or more.

Further, when the rotation speed of the combustion fan is corrected by the correction means, the correction time detection means detects the elapsed time when the corrected rotation speed of the combustion fan deviates from a predetermined range on the basis of the set rotation speed. You may also

Further, when the rotation speed of the combustion fan is corrected by the correction means, the correction time detection means determines the ratio of the air flow amount detected by the air flow sensor and the corrected rotation speed of the combustion fan to the ratio of the target air flow rate and the set rotation speed. The elapsed time in the case of deviation from the predetermined range on the basis of the reference may be detected.

In the present invention, the rotation speed of the combustion fan is set by the rotation speed setting means so as to obtain an air blowing amount corresponding to the required combustion amount of the burner at the time of burning the burner. The combustion fan is driven at the set speed by a fan driving means. In addition, during operation of the combustion fan, the air flow from the combustion fan to the burner is detected by the air flow sensor. At this time, when the airflow amount detected by the airflow sensor is different from the target airflow, that is, when an abnormality of the air exhaust port such as the influence of external wind or the formation of a hole in the exhaust port, peeling, clogging of the exhaust gas, etc. occurs, the target airflow is obtained. The rotation speed of the combustion fan is thereby corrected. Further, when the rotation speed of the combustion fan is corrected by the correction means, the elapsed time of the correction state is detected by the correction time detection means. At this time, the elapsed time of the detected corrected state is different in the case of the influence of the draft and the abnormality of the exhaust port. The elapsed time of the correction state is short since it is temporary in the case of the influence of the draft. Therefore, when the correction state continues for a predetermined time or more, combustion of the burner is stopped by the combustion stop means in order to prevent incomplete combustion or the like when an abnormality of the exhaust port occurs.

In addition, even though clogging of the exhaust port and peeling of the exhaust port do not occur, there is a slight correction because of the dispersion of the precision due to the dirt of the airflow sensor. Therefore, in the present invention, in such a case, a predetermined range on the basis of the set rotational speed is determined in advance among the rotational speed of the combustion fan, and the combustion fan is corrected to the rotational speed within the predetermined range, and the correction The combustion of the burner is continued without detecting the elapsed time of the correction state by the time detecting means. On the other hand, when the rotation speed of the combustion fan is corrected outside the predetermined range, the elapsed time of the correction state is detected by the correction time detecting means, and an abnormality of the exhaust port occurs when the correction state continues for a predetermined time or more. Incomplete combustion and the like may occur, so that combustion of the burner is stopped by the combustion stop means.

In the present invention, in the case where the target air volume changes every time the burner is burned, a predetermined range is determined based on the ratio between the target air volume and the set rotation speed. If the ratio of the airflow rate detected by the airflow sensor and the corrected rotation speed of the combustion fan is within the predetermined range, combustion of the burner is continued without detecting the elapsed time of the correction state by the correction time detection means. On the other hand, when the ratio of the airflow rate detected by the airflow sensor and the corrected rotation speed of the combustion fan deviates from the predetermined range, the elapsed time of the correction state is detected by the correction time detection means, and the correction state is a predetermined time. If the abnormality continues, since the abnormality of the exhaust port may stop the combustion of the burner, combustion of the burner is stopped by the combustion stop means.

An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a system configuration diagram of the combustion apparatus of the present embodiment, and FIG. 2 is a main block configuration diagram of the combustion apparatus shown in FIG.

The combustion apparatus of this embodiment is a hot water heater, and in FIG. 1, 1 is a hot water heater main body incorporating a heat exchanger 2 and a burner 3 for heating it, 4 is a water supply pipe piped through the heat exchanger 2, 5 is a flow rate sensor for detecting a flow rate of water flowing through the water pipe 4 at an upstream side of the heat exchanger 2, and 6 for detecting a tapping temperature of water flowing through the water pipe 4 at a downstream side of the heat exchanger 2. Temperature sensor, 7 is a gas supply pipe for supplying gas to the burner (3), 8, 9 is an open and close solenoid valve and a proportional valve installed in the gas supply pipe (7) upstream side, 10 is the air for combustion in the burner (3) The combustion fan blowing air, 11 is a fan motor for driving the combustion fan 10, 12 is a rotation speed sensor composed of a hall element for detecting the rotation speed of the combustion fan 9, 13 is in the combustion fan 10 The flow rate sensor such as a hot air flow rate sensor disposed on the blow passage 14 to the burner 3, and the user sets the tapping temperature and the like. The operation unit 16 controls the fan motor 11, the gas proportional valve 9, etc. according to the set temperature of the hot water set by the operation unit 15 or the detection signals of the sensors 5, 6, 12, 13. The controller 17 is an igniter for igniting the burner 3, and 18 is a flame rod for detecting a combustion state such as whether or not the burner 3 is misfired.

In addition, the upstream side of the water pipe 4 is connected to a tap water (not shown), and the downstream side is connected to a hot water tap (not shown) such as a kitchen or a bathroom.

The controller 16 is constituted by an electronic circuit including a microcomputer, and as a basic functional configuration, as shown in FIG. 2, a set temperature given by the operation unit 15 and a water temperature sensor (not shown). The required combustion amount of the burner 3 required to match the tapping temperature with the set temperature from the inlet temperature detected by the sensor, the tapping temperature detected by the temperature sensor 6, and the flow rate detected by the flow sensor 5; A required combustion amount calculating unit 19 for obtaining a; An air volume setting unit 20 for setting a target air volume (supply amount of combustion air) from the combustion fan 10 to the burner 3 according to the required combustion amount obtained by the calculating unit 19; The rotation speed of the combustion fan 10 is controlled through the fan motor 11 according to the target air volume set by the air flow rate setting unit 20 or the actual air volume of the combustion fan 10 detected by the airflow sensor 13. A fan control unit 21; The rotation speed setting unit 23 (rotation speed setting) which is installed in the fan control unit 21 and sets the rotation speed of the combustion fan 10 in accordance with a predetermined data table or the like according to the target air volume set by the air flow rate setting unit 20. Means); A fan driver 24 (fan driver means) for driving the fan motor 11 in accordance with the set rotation speed; Similarly, it is provided in the fan control unit 21, and the air flow rate detected by the air flow sensor 13 determines the rotation speed of the combustion fan 10 when the target air flow is not obtained as the set rotation speed by the rotation speed setting unit 23. A correction unit 28 (correction means) for correcting accordingly; It is also installed in the fan control unit 21, and is determined in advance on the basis of the set rotation speed by the rotation speed setting unit 23, apart from the correction rotation speed of the combustion fan 10 by the correction unit 28. A correction range setting unit 25 for setting an allowable range of the correction rotation speed of the combustion fan 10 in accordance with the data table and the like; A monitoring unit (26) for monitoring whether the rotation speed of the combustion fan (10) detected by the rotation speed sensor (12) is within an allowable range set by the correction range setting unit (25); A correction time clock section 29 (correction time detection means) which starts time counting when the rotation speed of the combustion fan 10 detected by the rotation speed sensor 12 deviates from the allowable range; A valve control unit 22 for controlling a gas supply amount to the burner 3 by controlling the opening degree of the gas proportional valve 9 according to the rotation speed of the combustion fan 10 detected by the rotation speed sensor 12; The combustion fan 10 is determined through the fan control unit 21 according to the correction time indicated by the correction time display unit 29, and the gas supply to the burner 3 is supplied through the electronic safety valve 8. And a stop command section 27 (combustion stop means) for blocking.

In addition, when the water flow to the water pipe 4 is started, the controller 16 detects the water through the flow sensor 5, and in accordance with the detection of the water, the fan 16 controls the combustion fan through the fan motor 11. 10 is rotated, the solenoid valve 8 of the gas supply pipe 7 is opened, and gas supply to the burner 3 is started, and the burner 3 is ignited through the igniter 15. In this way, the hot water supply operation is started.

When the water flow sensor 5 detects that the water flow of the water pipe 4 is stopped, the controller 16 shuts off the gas supply to the burner 3 by closing the electromagnetic safety valve 8. The fan control unit 21 stops the combustion fan 10, thereby terminating the hot water supply operation. The end operation of the hot water supply operation is similarly performed even when a misfire or the like of the burner 3 is detected by the flame rod 18 during the hot water operation.

Next, the operation of the hot water heater of the present embodiment will be described.

When the hot water supply operation is started as described above, the controller 16 burners necessary to match the tapping temperature detected by the temperature sensor 6 by the necessary combustion amount calculating unit 19 to the set temperature set by the operation unit 15. The required combustion amount of (3) is obtained at every time based on the detection data of the tapping temperature and the flow rate by the temperature sensor 6 or the flow sensor 5. In addition, the air volume setting unit 20 of the controller 16 sets the target air volume from the combustion fan 10 to the burner 3 corresponding to the required combustion amount calculated by the required combustion amount calculation unit 19 according to a predetermined data table or the like. do.

Subsequently, the controller 16 controls the combustion fan 10 by the fan control unit 21. That is, the rotation speed of the combustion fan 10 corresponding to the target air volume is set by the rotation speed setting unit 23 according to a predetermined data table or the like, and the fan driving unit 24 sets the fan motor 24 according to the set rotation speed. 11) to drive the combustion fan (10).

At this time, the correction unit 28 of the fan control unit 21 corrects the number of rotations of the combustion fan 10 when the air volume detected by the air volume sensor 13 is different from the target air volume. That is, if the detected air volume is smaller than the target air volume, the rotation speed of the combustion fan 10 is increased from the original rotation speed (set rotation speed) to increase the actual air volume, and in the opposite case, the rotation speed of the combustion fan 10 is increased. The actual air volume is reduced by reducing the original rotation speed (set rotation speed). In this way, the rotation speed of the combustion fan 10 is corrected so that the target air volume matches the actual air volume.

By the way, when the rotation speed of the combustion fan 10 is corrected, there may be a case in which an exhaust air is affected or an abnormality occurs in the exhaust port such as hole formation, peeling, clogging, etc. It is necessary to prevent incomplete combustion and the like as described above. At this time, in the case of hole formation or peeling of the exhaust port, the detection air volume is increased compared to the target air volume, and in the case of clogging the exhaust port, the detection air volume is smaller than the target air volume. Therefore, the controller 16 first determines the correction speed of the combustion fan 10 in accordance with a data table or the like previously determined by the correction range setting unit 25 on the basis of the setting speed by the rotation speed setting unit 23. Set the allowable range. Here, the allowable range is the range of the rotation speed of the combustion fan 10 formed corresponding to the respective set rotation speed corresponding to the degree to which the target air flow is set, and specifically, because of the dispersion of the precision due to the dirt of the air flow sensor 13, etc. It is the range of the rotation speed of the predetermined combustion fan 10 so that there may be no possibility of stopping combustion by misjudged that it is an abnormality of an exhaust port even if a correction state continues.

Subsequently, the rotation speed of the corrected combustion fan 10 is monitored by the monitoring unit 26 based on the detected rotation speed of the rotation speed sensor 12, and the combustion fan detected by the rotation speed sensor 12. When the rotation speed of (10) deviates from the allowable range, the correction time is counted by the correction time measuring unit 29. If the deviation is within a predetermined time, the correction time clock section 29 stops counting, but when the deviation exceeds the predetermined time, the stop command section 27 stops combustion.

In this way, the controller 16 not only corrects the rotation speed of the combustion fan 10 when the target air volume is not obtained, but also prevents incomplete combustion and the like caused by abnormality of the exhaust port which causes the correction.

On the other hand, the valve control unit 22 of the controller 16 controls the opening degree of the gas proportional valve 9 to control the gas supply amount of the burner 3 in parallel with the control of the combustion fan 10 as described above. . In this case, the valve control part 22 basically controls the opening degree of the gas proportional valve 9 according to the actual rotation speed of the combustion fan 10 detected by the rotation speed sensor 12. Therefore, when there is no abnormality of the exhaust port or the influence of the draft, the rotational speed of the combustion fan 10 and the actual air volume correspond to each other. Thus, as described above, the gas proportional valve 9 depends on the rotational speed of the combustion fan 9. By controlling the opening degree of), the gas supply amount to the burner 3 corresponds to the air volume to the burner 3 controlled to the target air volume, and the burner 3 burns according to the required combustion amount. In addition, in the case where the combustion fan 10 fluctuates due to an abnormality in the exhaust port or the influence of external wind, the rotation speed of the combustion fan 10 is corrected so that the actual air volume matches the target air volume as described above. Even if the air volume to 3) is the same, the rotation speed of the combustion fan 10 is increased or decreased. Therefore, by simply controlling the opening degree of the gas proportional valve 9 in accordance with the rotation speed of the combustion fan 10, even if the air volume to the burner 3 is the same, the gas proportionality depends on the rotation speed of the combustion fan 10. The opening degree of the valve 9 changes and the gas supply amount to the burner 3 changes. Therefore, the valve control unit 22 of the controller 16 rotates the combustion fan 10 when the detected air volume by the air volume sensor 13 is smaller than the target air volume in order to offset the correction amount of the rotation speed of the combustion fan 10. Since the number is increased as described above, the opening degree of the gas proportional valve 9 is reduced from the opening degree according to the rotational speed of the combustion fan 10, and in the opposite case, the opening degree of the gas proportional valve 9 is reduced. It increases more than the opening degree according to the rotation speed of (10). In this way, the gas supply amount to the burner 3 corresponds to the required combustion amount of the burner 3, and the burner 3 burns smoothly by the required combustion amount.

Next, a second embodiment of the present invention will be described with reference to FIGS. 3 and 4. 3 is a block diagram of the main part of the combustion apparatus of the second embodiment, and FIG. 4 is a diagram for explaining the operation of the combustion apparatus of the second embodiment. Further, the blower of the second embodiment is provided in the hot water heater of FIG. 1, and the system configuration of this hot water heater is the same as that of FIG. Hereinafter, about the thing of the same structure as the water heater of FIG. 1, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted.

In the hot water heater equipped with the combustion apparatus of the present embodiment, the controller 16 shown in FIG. 1 has the necessary combustion amount calculating unit 19, the air volume setting unit 20, the fan control unit 21, The monitoring unit 26, the correction time clock unit 29, the valve control unit 22, and the stop command unit 27 are provided. The fan control unit 21 is provided with a rotation speed setting unit 23, a fan driving unit 24, a correction unit 28, and a correction range setting unit 25 as in the first embodiment.

And the controller 16 of this embodiment is newly provided with the calculation part 30 which calculates the ratio of the airflow amount which the airflow rate sensor 13 detects, and the rotation speed which the rotational speed sensor 12 detects.

In the hot water heater of the present embodiment, the operations of the required combustion amount calculation unit 19, the air flow rate setting unit 20, the valve control unit 22, and the stop command unit 27 are the same as in the first embodiment described above.

Therefore, the operation of the hot water heater of this embodiment and another hot water heater of the first embodiment will be described next.

In the hot water heater of the present embodiment, the fan control unit 21 of the controller 16 is basically the correction unit 28 of the fan control unit 21 detects the air flow sensor 13 as in the first embodiment described above. When one air volume is different from the target air volume, the rotation speed of the combustion fan 10 is corrected to match the target air volume and the actual air volume.

At this time, the correction range setting unit 25 of the controller 16 allows the range of the value of the ratio of the air flow rate to the rotational speed on the basis of the value of the ratio of the set speed to the target air flow rate by the rotation speed setting unit 23. Set. Here, in the allowable range, as shown in Fig. 4, when the reference line a having the inclination of the ratio between the target air volume and the set speed is shown, the correction state is due to the dispersion of the precision due to the dirt of the air volume sensor 13, and the like. Even if is continued, it is the range (b) which is predetermined so that combustion may not be stopped by erroneously determining that the exhaust port is abnormal.

Subsequently, the calculator 30 calculates a ratio of the detected rotational speed of the rotational speed sensor 12 of the combustion fan 10 and the airflow rate detected by the airflow sensor 13. The monitoring unit 26 monitors whether or not the value of the calculation unit 30 is within the range (b), and when the deviation (b) is deviated, the correction time clock unit 29 corrects the correction. Reveals time. In this way, even if both the amount of air detected by the air volume sensor 13 and the number of rotations of the combustion fan 10 corrected accordingly change each time, it is possible to reliably monitor the correction state of the number of rotations of the combustion fan 10. Incomplete combustion and the like can be reliably prevented from occurring due to an abnormality of the exhaust port which causes the correction.

In addition, the combustion apparatus of this invention is not limited to each embodiment mentioned above, Of course, various deformation forms are possible. For example, in the above embodiment, the correction duration time for stopping the combustion is shown to be constant regardless of the combustion amount, but may be shortened as the combustion amount is larger.

In the above embodiment, the correction time clock section 29 only makes a time limit when the rotation speed sensor 12 deviates from the allowable range of the rotation speed of the combustion fan 10, but the allowable range is not set. If it is in the corrected state, it may be timed.

As is clear from the above description, according to the present invention, when the blowing air amount detected by the air flow sensor is different from the target air flow rate due to the influence of external wind or abnormality of the exhaust port during operation of the combustion fan, the rotation speed of the combustion fan is adjusted by the correction means. Of course, when the rotation speed of the combustion fan is corrected by the correction means, the elapsed time of the correction state is detected by the correction time detection means, and the exhaust port such as hole formation, peeling, clogging, etc. As described above, when the correction state continues for a relatively long time, combustion of the burner can be stopped by the combustion stop means. In this way, incomplete combustion and the like when abnormality of the exhaust port occurs can be prevented.

In the present invention, a predetermined range based on the set rotational speed is determined in advance among the rotational speeds of the combustion fan, and the correction time detection means corrects the combustion fan when the combustion fan is corrected at the rotational speed within the predetermined range. When the combustion fan is corrected outside the predetermined range without detecting the elapsed time of the state, the elapsed time of the corrected state is detected by the correction time detecting means. By doing this, even if the correction state continues for a predetermined time or more, combustion is not stopped if it is within a predetermined range, and therefore, combustion can be prevented from being incorrectly determined to be an abnormality of the exhaust port due to the dispersion of the precision of the air volume sensor.

Further, in the present invention, even when the target air volume is changed at the time of burning the burner, a predetermined range is determined based on the ratio between the target air volume and the set rotation speed, and the air volume detected by the air flow sensor and the combustion If the ratio of the corrected rotational speed of the fan 10 is within the predetermined range, the elapsed time of the correction state is not detected by the correction time detecting means, and when the deviation is within the predetermined range, correction is made by the correction time detecting means. The elapsed time of the state is detected. In this way, when the correction state continues for a predetermined time or more, there is a possibility that a large amount of exhaust leakage or the like may occur at incomplete combustion or other than the exhaust port, so that combustion of the burner can be stopped.

Therefore, according to the present invention, even if the exhaust port is influenced by external wind or the like, it is possible to accurately obtain the air volume corresponding to the required combustion amount of the burner, and to provide a combustion apparatus capable of preventing incomplete combustion or the like caused by abnormality of the exhaust port. have.

Claims (3)

The combustion fan is controlled by a combustion fan blown to a burner, rotation speed setting means for setting the rotation speed of the combustion fan based on a target air volume corresponding to the required combustion amount of the burner, and rotation speed by the rotation speed setting means. A fan driving means for driving, a wind flow sensor for detecting the blow amount from the combustion fan to the burner, and the rotation speed of the combustion fan so that the target wind amount is obtained when the blow amount detected by the wind flow sensor is different from the target wind amount. A combustion apparatus comprising correction means for correcting, the correction time detecting means for detecting an elapsed time of a correction state when the rotation speed of the combustion fan is corrected by the correction means, and when the correction state continues for a predetermined time or more. And a combustion stop means for stopping combustion of the burner. The method of claim 1, wherein when the rotation speed of the combustion fan is corrected by the correction means, the correction time detection means is used when the corrected rotation speed of the combustion fan deviates from a predetermined range based on the set rotation speed. Combustion apparatus for detecting the elapsed time. 2. The method of claim 1, wherein when the rotation speed of the combustion fan is corrected by the correction means, the correction time detection means determines a ratio between the blow amount detected by the air flow sensor and the corrected rotation speed of the combustion fan and the target air volume. A combustion apparatus characterized by detecting the elapsed time when the deviation from the predetermined range based on the ratio of the set rotation speed.