JP5562658B2 - Combustion device - Google Patents

Description

  The present invention relates to a combustion apparatus including a main burner for burning gas and a pilot burner for ignition.

  FIG. 8 shows an example of a combustion apparatus by a schematic system diagram (for example, see Patent Document 1).

  This combustion apparatus is a balance bath pot disposed in a bathroom, for example, and has a hot water supply main burner 10 and a hot water supply heat exchanger 7 heated by the hot water supply main burner 10. A water passage is provided. The hot water supply heat exchanger 7 is connected with a water supply introduction passage 19 for introducing water into the hot water supply heat exchanger 7 and a hot water supply passage 11 for guiding water heated through the hot water supply heat exchanger 7 to a hot water supply destination. Has been. A hot-water tap 9 is provided at the distal end side of the hot-water supply passage 11. In this example, the hot-water tap 9 is formed of a switching lever type plug. This type of hot water tap 9 selectively switches hot water that has passed through the hot water supply passage 11 from either the hot water discharge pipe 30 side of the currant side or the shower side passage 31 by switching the lever. A state where the hot water is selected from the side of the hot water discharge pipe 30 is shown.

  A water amount adjusting mechanism 21 is connected to the water supply introduction passage 19, and the water amount adjusting mechanism 21 is provided with a water governor 15, a diaphragm case 13, and a water amount adjusting chamber 20. The diaphragm case 13 is provided with a diaphragm 14, and the diaphragm 14 divides the inside of the diaphragm case 13 into a primary chamber 13a and a secondary chamber 13b. The water amount adjustment chamber 20 is provided with a temperature regulator 23, and the temperature regulator 23 is connected to the temperature adjustment knob 22.

  Further, the water amount adjusting mechanism 21 is connected to a water supply passage 8 for supplying water to the water amount adjusting mechanism 21, passages 16 and 18 for leading water from the water amount adjusting mechanism 21, and a drain passage 24. A filter 25 is interposed in the water supply passage 8. The low pressure obtained by opening the atmosphere to the hot water is transmitted to the diaphragm secondary chamber 13b through the passage 16. A drain plug 26 is provided in the drainage passage 24.

  A gas passage 32 is connected to the hot water supply main burner 10, and the gas passage 32 is connected to a gas introduction passage 35 via a water pressure automatic gas valve 33 and an instrument plug 34. The automatic water gas valve 33 is connected to the diaphragm 14, and the instrument plug 34 is connected to the instrument plug knob 48. The gas introduction passage 35 is for introducing fuel gas from the outside into the combustion apparatus, and the fuel gas introduced from the gas introduction passage 35 is supplied to the hot water supply main burner 10 through the gas passage 32 via the appliance plug 34. Is done. In addition, gas passages 36 and 37 are connected to the appliance plug 34, and the fuel gas introduced from the gas introduction passage 35 to the appliance plug 34 is introduced into the pyrophoric burner 38 through the gas passage 36, and gas is supplied to the appliance plug 34. A bath main burner (a reheating main burner for reheating a bath) 39 is supplied through a passage 37.

  A bath heat exchanger (heating heat exchanger) 40 heated by the bath main burner 39 is provided on the upper side of the bath main burner 39. The bath heat exchanger 40 has an air-fired safety device 46. Is provided. A hot water supply overheat prevention device 47 is provided on the outlet side of the hot water supply heat exchanger 7. In FIG. 8, reference numeral 50 denotes a thermistor, 51 is a water self-valve switch, 52 is an appliance plug switch, 54 is a gas solenoid valve, 24 is a capacity switching knob, and 45 is an overheat prevention device. The appliance plug switch 52 is constituted by a micro switch, and detects the position of the “bath” of the appliance plug knob 48.

  In this combustion apparatus, when a water tap (not shown) is opened, water flows through the water supply passage 8, the water governor 15, and flows into the primary chamber 13 a of the diaphragm case 13 and is branched by the water amount regulator 23. One of them passes through the passages 16 and 18 and is led to the hot water supply passage 11 side. The other is led to the hot water supply passage 11 side through the water supply introduction passage 19 and the hot water supply heat exchanger 7, and flows from the hot water supply passage 11 to the hot water discharge pipe 30 (or the shower side passage 31) to be discharged.

  When the instrument plug knob 48 is pushed down, the electromagnetic valve 54 is opened, and the instrument gas is flowed through the gas introduction passage 35 to the inlet of the instrument plug 34 by operating the instrument plug knob 48 to the “flame” position. The fuel gas passes through the instrument plug 34 and flows to the pilot burner 38. In this state, the ignition of the pilot burner 38 is performed by the igniter electrode 43 under the control of a combustion control unit (not shown).

  Further, the fuel gas flows to the position where the water pressure automatic gas valve 33 is disposed by adjusting the instrument plug knob 48 to the position of “hot water supply / shower”. When the hot water tap 9 is opened in this state and water begins to flow through the water supply passage 8, this water passes from the primary chamber 13 a of the diaphragm case 13 through the passages 16 and 18, and the low pressure obtained by opening to the atmosphere is caused by the passage 16. The pressure is transmitted to the diaphragm secondary chamber 13b, the pressure difference from the primary chamber 13a (high pressure) acts as a load depending on the area of the diaphragm 14, and the diaphragm 14 moves to the secondary chamber 13b side.

  As a result, the water pressure automatic gas valve 33 connected to the diaphragm 14 is opened, fuel gas is supplied to the hot water supply main burner 10 through the gas passage 32, and the hot water supply main burner 10 is ignited from the ignition of the pilot burner 38. That is, the hot water supply main burner 10 starts combustion when the amount of water flowing (introduced into the combustion device) by opening the hot water tap 9 becomes equal to or higher than a predetermined set operating flow rate. The water passing through the hot water supply heat exchanger 7 is heated by the combustion of the hot water supply main burner 10 and discharged from the hot water discharge pipe 30 (or the shower side passage 31).

  Although not shown in FIG. 8, the bath heat exchanger 40 is connected to the bathtub through a bath circulation passage, and hot water or water up to a position higher than the connection portion (upper circulation port) by, for example, 10 cm or more. With the instrument plug knob 48 set to the position of “furo”, the fuel gas is supplied to the bath main burner 39 through the passage 36 and ignites the bath main burner 39 from the opening of the pilot burner 38. The hot water in the bathtub is heated by circulating through the bath heat exchanger 40.

  In this type of combustion apparatus, after the combustion of the hot water supply main burner 10 and the bath main burner 39 is stopped, the fire extinguishing operation is performed, that is, the appliance plug knob 48 is “fire extinguished” from the “flame” position. The combustion of the pilot burner 38 continues until it is returned to the position.

  Moreover, for example, a burner device having a structure as shown in an exploded perspective view of FIG. 9A is applied to the combustion device as described above. In this burner device, a hot water supply main burner 10 and a bath main burner 39 are arranged adjacent to each other with a space therebetween, and a pilot burner 38 is disposed at the space. FIG. 9B shows a plan view of the pilot burner 38.

As shown in these drawings, the pilot burner 38 includes a first flame port 1 provided on the hot water supply main burner 10 side, a second flame port 2 provided on the bath main burner 39 side, And a third flame port 3 provided between the second flame ports 1 and 2. The first crater 1 is provided with a thermocouple 44 that detects the heat of the flame emitted from the crater by an electromotive force generated by the heat, and the second crater 2 has an ignition means for igniting the pilot burner 38. The third flame outlet 3 is provided with a frame rod electrode 4 for detecting a flame emitted from the third flame outlet 3. The thermocouple 44 is electrically connected to the electromagnetic valve 54. When the electromotive force of the thermocouple 44 becomes equal to or higher than a predetermined electromagnetic valve maintenance voltage (L ₀ ), the electromagnetic valve is released even if the instrument plug knob 48 is released. When 54 is maintained in the open state and the electromotive force of the thermocouple 44 falls below the electromagnetic valve maintenance voltage, the electromagnetic valve 54 operates in the closing direction.

Japanese Patent No. 4181874

  By the way, in the balance bath, after the pilot burner 38 is ignited and the electromotive force of the thermocouple 44 exceeds the set voltage, the heat of the flame is continuously detected by the thermocouple 44. Confirmation of the presence or absence of flame is carried out. In the case where only the pilot burner 38 is combusted, when the output of the thermocouple 44 decreases, the flame is detected by the flame lot electrode 4.

  However, in the balance bath, if the wind blows at a delicate angle and speed, the wind may hit only a part of the pilot burner 38, and only the fire of the part of the flame blows off. Since there is no shaking (ignition sound) at the time of ignition or the like, it may continue to disappear. In this case, for example, although the flame of the first flame outlet 1 provided with the thermocouple 44 is burning, the second flame When the flame in the mouth 2 or the third flame outlet 3 is extinguished, the fire extinguishes for a long time and the raw gas is released into the apparatus. Then, when the supplied gas is propane gas, the released raw gas accumulates at the bottom of the pilot burner 38, and the raw gas accumulated at the bottom of the pilot burner 38 is, for example, 7 mm higher than the bottom of the pilot burner 38. When reaching the position of the crater, it could ignite all at once, making a loud noise and disturbing the neighborhood, or causing troubles such as surprised people walking nearby.

  The present invention has been made to solve the above-described conventional problems, and an object of the present invention is to provide a combustion apparatus that can reliably prevent troubles caused by the continuous disappearance of a part of a pilot burner. .

In order to achieve the above object, the present invention has the following configuration as means for solving the problems. That is, the first invention is provided with a main burner and a pilot pilot burner adjacent to the main burner. When the main burner is burned, the pilot burner is ignited and the main burner is ignited by the flame. A combustion apparatus that continues combustion of the pilot burner after the flame outlet of the burner is ignited and until the fire extinguishing operation is performed after the combustion is stopped by the combustion stopping operation of the main burner, and the pilot burner has a plurality of flames. More than the air when the flame of some of the plurality of flame outlets of the pilot burner disappears and the raw gas leaks from the flame mouth during the combustion operation of the pilot burner. A set time for preventing the raw gas having a high specific gravity from reaching the bottom of the pilot burner toward the upper side after the raw gas is accumulated on the bottom side of the appliance below the flame outlet. And predetermined, the elapsed time from the time of stopping combustion by the combustion stop operation of the main burner when the combustion of only the pilot burner is not performed combustion of the main burner by the combustion stop operation is performed As a means for solving the problem, the combustion burner is forced to stop when the set time has elapsed to prevent the raw gas from reaching the pilot burner near the flame opening. Yes.

In the second aspect of the invention, the hot water supply main burner and the bath main burner are arranged with an interval therebetween, and a pilot burner for ignition is provided at the interval, and the pilot burner is ignited by igniting the pilot burner. The pilot ignites at least one flame outlet of the hot water supply main burner and the bath main burner by flame to perform main burner combustion, and until the fire extinguishing operation is performed after the combustion is stopped by the combustion stop operation of the main burner. The burner is a combustion device that continues to burn, wherein the pilot burner has a plurality of flame openings, and the flames of some of the plurality of flame openings of the pilot burner during the combustion operation of the pilot burner When the gas disappears and the raw gas leaks from the flame mouth, the raw gas having a specific gravity higher than that of air accumulates on the bottom side of the instrument below the flame mouth, and then the upper side. Toward time prevented from reaching the flame opening neighborhood of the pilot burner is predetermined as the set time, when the combustion of only the pilot burner to the combustion of the main burner is not performed is performed by the combustion stop operation the main burner elapsed time said from the time of the combustion stop according to the combustion stop of the to near flame port of the pilot burner of the raw gas by forcibly stopping the combustion of the pilot burner when older than the set time A configuration having a combustion forcible stop portion for preventing the arrival is used as means for solving the problem.

  In addition to the configurations of the first and second inventions, the third invention provides a notification notifying the forced combustion stop when the combustion of the pilot burner is forcibly stopped by the combustion forced stop unit. Features.

  In the present invention, a combustion apparatus provided with a main burner and a pilot burner adjacent to the main burner, and two main burners, a hot water supply main burner and a bath main burner, are arranged with a space therebetween. In the combustion apparatus in which the pilot burner for ignition is provided at the interval, when the time during which only the pilot burner is burned without burning the main burner has exceeded a predetermined set time, the combustion is performed. The forced stop unit forcibly stops the combustion of the pilot burner.

  Therefore, even if some of the flame outlets of the pilot burner are extinguished and the raw gas is released into the pilot burner and accumulates at the bottom, the raw gas remains in the pilot burner flame outlet. Since the combustion of the pilot burner is stopped before reaching the position, it will make a loud noise and annoy the neighborhood, and people walking nearby will be surprised by igniting the accumulated raw gas at once. Can be prevented.

  Further, in the present invention, when the combustion of the pilot burner is forcibly stopped by the combustion forcible stop unit, the notification for informing the forced combustion stop is provided, and the forced combustion stop of the pilot burner by the combustion forcible stop unit is notified. Thus, the user can be prompted to return the operation unit of the burner to the fire extinguishing position.

It is a block diagram which shows the control structure of one Example of the combustion apparatus which concerns on this invention. They are a perspective exploded explanatory view (a) which shows composition of a burner provided in a combustion device of an example, and a plane explanatory view (b) of the pilot burner. It is explanatory drawing which shows typically the structure of the burner provided in the combustion apparatus of the Example. It is a system block diagram of the combustion apparatus of an Example. It is a flowchart which shows the example of operation | movement in the combustion apparatus of an Example. It is a flowchart which shows the example of operation | movement following FIG. 5 in the combustion apparatus of an Example. It is explanatory drawing which shows typically the structure of the burner provided in the combustion apparatus of the other Example. It is a system block diagram which shows an example of the conventional combustion apparatus. They are a perspective exploded explanatory view (a) which shows composition of a burner provided in a combustion device, and a plane explanatory view (b) of the pilot burner. It is a perspective exploded view which shows another structural example of a burner.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the description of the present embodiment, the same reference numerals are assigned to the same names as those in the conventional example, and the duplicate description is omitted or simplified.

  The combustion apparatus according to the present embodiment has a characteristic burner configuration as shown in FIGS. FIG. 2B shows a plan configuration of the pilot burner 38. As shown in these drawings, in the present embodiment, the first flame outlet 1 is provided with a thermocouple 44 for detecting the heat of the flame coming out of the first flame outlet, and the second flame outlet 2 Is provided with a flame lot electrode (pilot-side frame rod electrode) 4 for detecting a flame coming out of the second flame outlet, and the third flame outlet 3 is provided with an igniter electrode 43 for igniting the pilot burner 38. ing. In addition, a hot water supply side frame rod electrode 5 for detecting a flame coming out of the hot water supply main burner 10 is provided near the pilot burner 38 at the flame outlet of the hot water supply main burner 10. The location of the hot water supply side frame rod electrode 5 is not necessarily the vicinity of the pilot burner 38.

  FIG. 4 shows the system configuration of the combustion apparatus of this embodiment. As shown in FIG. 4, this embodiment is different from the system configuration of the conventional combustion apparatus shown in FIG. The rod electrode 5 is added.

  FIG. 1 shows a characteristic control configuration of this embodiment. As shown in the figure, this embodiment has a control device 55 having a flame detection control unit 6, a clock mechanism 27, and a forced combustion stop unit 28. The control device 55 includes a thermocouple 44, a hot water supply side. The flame lot electrode 5, the pilot side flame lot electrode 4, the igniter electrode 43, the reheating combustion command output unit 29, and the notification means 41 are connected.

  After the pilot burner 38 is ignited, the flame detection control unit 6 first detects a flame at the pilot side frame lot electrode 4. After the electromotive force of the thermocouple 44 becomes equal to or higher than a set voltage (for example, Hi), The flame detection by the pilot side frame rod electrode 4 is stopped, and the flame heat detection by the thermocouple 44 is continuously performed.

  The flame detection control unit 6 detects the flame by the hot water supply side frame rod electrode 5 and the flame by the pilot side frame rod electrode 4 when the hot water supply main burner 10 or the bath main burner 39 starts to burn. When flame detection is performed with the hot water supply side frame rod electrode 5 at the start of combustion of the hot water supply main burner 10, if no flame is detected, the electromotive force of the thermocouple 44 is from the set voltage (eg, Hi). Even if it is not lowered (it takes a long time after the flame disappears for the electromotive force of the thermocouple 44 to decrease), it is determined that the flame of the first flame outlet 1 of the pilot burner 38 is extinguished. The result (judgment result of flame extinguishing of the first crater 1) is added to the combustion forced stop unit 28.

  The flame detection control unit 6 determines that the flame in the second flame outlet 2 of the pilot burner 38 has disappeared when flame is not detected when flame detection is performed with the pilot-side frame lot electrode 4. Then, the determination result (determination result of the flame extinguishing of the second crater 2) is added to the forced combustion stop unit 28.

  When the combustion of the hot water supply main burner 10 or the bath main burner 39 is started, the forced combustion stop unit 28 determines from the flame detection control unit 6 whether the flame of the first flame outlet 1 or the flame extinction of the second flame outlet 2 has disappeared. When added, fuel supply to the bath main burner 39, the hot water supply main burner 10, and the pilot burner 38 is forcibly cut off to stop burner combustion.

  In addition, during the combustion of the hot water supply main burner 10, the flame detection control unit 6 performs flame detection setting timing at predetermined intervals (for example, 30 seconds) in addition to the flame detection operation based on the electromotive force of the thermocouple 44. Thus, the flame detection by the pilot side frame rod electrode 4 is performed intermittently. However, when the electromotive force of the thermocouple 44 falls below a predetermined allowable range (for example, when it becomes Min), the flame is detected. Even if it is not a detection setting timing, the flame detection by the pilot side frame rod electrode 4 is performed.

  At this time, when the flame is not detected by the pilot side frame rod electrode 4, the flame detection control unit 6 outputs an ignition command to the pilot burner 38 to the igniter electrode 43. In response to this command, the igniter electrode 43 ignites the pilot burner 38. Further, when the flame detection control unit 6 outputs an ignition command to the igniter electrode 43, the flame detection control unit 6 also applies the signal to the forced combustion stop unit 28.

  The combustion forced stop unit 28 outputs an ignition command from the flame detection control unit 6 when the hot water supply main burner 10 is being burned, and before igniting the pilot burner 38 by the igniter electrode 43 based on the ignition command. When the ignition command for the bath main burner 39 is output from the reheating combustion command output unit 29, the solenoid valve 54 is forcibly closed to supply fuel to the bath main burner 39, the hot water supply main burner 10, and the pilot burner 38. Is forcibly shut off to stop burner combustion. The reheating combustion command output unit 29 may be configured to output a reheating command by the device plug switch 52 when the device plug knob 48 of the balance bath pot is set to the “bath” position. A remote control device may be connected to the hook, and a rebatch command may be output when the rebirth operation unit is operated.

  Further, the forced combustion stop unit 28 does not perform the main burner combustion of at least one of the hot water supply main burner 10 and the bath main burner 39, and the time during which only the pilot burner 38 is burned has exceeded a predetermined set time. In this case, the solenoid valve 54 is closed to shut off the fuel (fuel gas) supply to the pilot burner 38, and the combustion of the pilot burner 38 is forcibly stopped.

  The forced combustion stop unit 28 detects the time during which only the pilot burner 38 is burned without performing the main burner burning as follows. That is, for example, after the ignition of the pilot burner 38 by the igniter electrode 43 is started, the time from when the flame is detected by the pilot side frame lot electrode 4 and the electromotive force of the thermocouple 44 becomes the set voltage (Hi) is set to the clock mechanism. 27, the combustion start command from the reheating combustion command output unit 29, and the flame confirmation information of the hot water main burner 10 by the hot water supply side frame rod electrode 5 applied via the flame detection control unit 6. In response, the time during which only the pilot burner 38 is burned without the main burner burning being detected is detected.

  The method for detecting the time during which only the pilot burner 38 is burned without performing the main burner combustion is not limited to this method, and is set as appropriate. For example, the combustion information of the bath main burner 39 can be determined by time information in which the appliance plug knob 48 is set to the position of “furo”.

The set time set for forcibly stopping the pilot burner 38 by the combustion forcible stop unit 28 is determined by experiment or the like. An example obtained by calculation will be described below. The calorific value of propane gas is 23680 kcal / Nm ^3. On the other hand, in the case of the pilot burner 38 having a bottom area of 540 mm × 230 mm and a height from the bottom surface to the flame outlet of 70 mm, for example, the flame of the pilot burner 38 The volume of the space formed below the mouth (to which gas can flow) is 540 × 230 × 70 = 0.0669694 m ³ . When the calorie generated by the heat generated by the pilot burner 38 is 250 kcal / h (h is time), the explosion limit is 1.8% (the explosion limit is usually 9.5 to 2.1%, butane etc.) May be around 1.8%), the explosive raw gas that accumulates on the bottom of the appliance is 250 ÷ 60 ÷ 23680 ÷ 1.8% (0.018) = 0.009775 Nm ³ / min (min ) The set time is set to 53 seconds at the shortest when assuming the case where the rich raw gas released from the pilot burner becomes thin immediately, for example. Further, the primary air ratio of propane gas (the ratio of air mixed with propane gas during the combustion of propane gas) is 30%, and the pilot burner 38 generates a concentrated raw gas having a concentration of 0.00025 Nm ³ / min. Since it is discharged, it is set to a maximum of 34 minutes, for example.

  Note that the propane gas accumulated in the pilot burner 39 fluctuates due to the wind, and even if the amount of propane gas does not reach the volume of the space, considering the possibility of reaching the flame outlet of the pilot burner 39, the set time is short. On the contrary, since there is no raw gas coming out of all three flame outlets, there was raw gas coming out of one of the flame outlets that reduced 1/3 of the whole (250 kcal / h) When considering the case (in this case, for example, the setting of 34 minutes at the maximum is set to 34 × 3 = 102 minutes), or considering that a part of the accumulated propane gas is separated from the pilot burner 39 by ventilation, The set time is set longer. Therefore, the set time is set by obtaining a safety factor that incorporates these elements in various ways through experiments or the like and multiplying that value by the calculated value.

  Then, as described above, the forced combustion stop unit 28 forcibly stops the pilot burner 38 when the time during which only the pilot burner 38 is combusted does not perform main burner combustion exceeds a preset time. Is performed, the forcible stop command is added to the notification means 41.

  When the forcible stop command is received from the forced combustion stop unit 28 and the combustion forced stop unit 28 forcibly stops the combustion of the pilot burner 38, the notification unit 41 performs a notification to notify the forced combustion stop. This notification is performed by appropriate means such as an error message.

  FIG. 5 and FIG. 6 show an example of the operation accompanying flame detection in the present embodiment. 5 and 6, FR indicates the pilot side frame lot electrode 4, IG indicates the igniter electrode 43, and hot water supply FR indicates the hot water supply side frame rod electrode 5. When an ignition command (ignition ignition command) is issued to the pilot burner 38 in step S1 in FIG. 5, energization to the igniter electrode 43 (IG) is turned on in step S2, and an ignition operation is performed. Energization of the side frame lot electrode 4 (FR) is turned on, and the flame detection operation by the pilot side frame lot electrode 4 is started. Until the flame is detected by the pilot side frame lot electrode 4 in step S3, the operation of step S2 is repeated. When the flame is detected, the igniter electrode 43 is turned off in step S4.

  Next, in step S5, it is determined whether or not the electromotive force of the thermocouple 44 has reached the set voltage (set value Hi) for determining that there is a flame in the first flame port 1, and the thermocouple 44 is determined. Is equal to or higher than the set value Hi, the energization of the pilot side frame lot electrode 4 is turned off in step S6. In step S7, it is determined whether or not combustion of the hot water supply main burner 10 is started. When started, the hot water supply side frame rod electrode 5 is turned on in step S8a, and in step S8b, the pilot side frame lot electrode 4 is turned on. Turn on. In step S9a, it is determined whether or not the flame detection of the hot water supply main burner 10 has been performed on the hot water supply side frame rod electrode 5 side. In step S9b, the second flame of the pilot burner 38 is detected on the pilot side frame lot electrode 4. It is determined whether or not the flame detection of the mouth 2 has been performed. When it is determined that both have flames, the process proceeds to step S20 in FIG.

  When no flame is detected in step S9a, it is determined that the flame in the first flame outlet 1 of the pilot burner 38 has disappeared, and when no flame is detected in step S9b, the second of the pilot burner 38 is determined. It is judged that the flame in the flame outlet 2 of the flame has disappeared. In any of these cases, in step S11, the solenoid valve 54 is turned off to stop the burner combustion.

  If it is determined in step S7 that combustion of hot water supply main burner 10 is not started, it is determined in step S12 whether combustion of bath main burner 39 is started. When the combustion of the bath main burner 39 is started, although not shown in the figure, the hot water supply side frame rod electrode 5 is similar to the operation of steps S8a and S8b when the hot water supply main burner 10 starts to burn. And the pilot side frame lot electrode 4 is turned on to perform the same operation as described above.

  However, when the combustion of the bath main burner 39 is started, no flame is detected in step S9a, and if a flame is detected in step S9b, the process proceeds to step S20 in FIG. At the same time, after both the hot-water supply side frame rod electrode 5 and the pilot-side frame lot electrode 4 are turned off, the pilot-side frame lot electrode 4 is turned on and flame detection is performed every 30 seconds. At this time, when flame detection is not performed, the electromagnetic valve 54 is turned off. In addition, the operation | movement of step S7 and step S12 may be reverse (the combustion start of the bath main burner 39 may be detected before the combustion start of the hot water supply main burner 10), or may be simultaneous.

  Further, when the combustion of the bath main burner 39 is not started in step S12 of FIG. 5, neither the hot water supply main burner 10 nor the bath main burner 39 is burned, and only the pilot burner 38 is burning. In step S13, the timer is started, and when the time from the timer start reaches the set time set in the forced combustion stop unit 28 in step S15 (that is, the hot water supply main burner 10 and the bath main burner). When the time during which the combustion of only the pilot burner 38 is performed without passing the combustion of 39 is not less than the set time), the solenoid valve 54 is turned off and the burner combustion is turned off in step S16.

Even when the electromotive force of the thermocouple 44 reaches the solenoid valve maintenance voltage L ₀ in step S14 after the timer is started in step S13, the solenoid valve 54 is turned off and burner combustion is performed in step S16. Turn off. In addition, if the hot water supply or the combustion of the bath is performed during the timer measurement from step S13, the timer may be reset. This is because it is thought that the exhaust of the bottom surface raw gas is promoted by the rising airflow due to combustion. Note that the timer is preferably reset after a predetermined time has elapsed after the start of combustion (after the rising air flow is stabilized).

  In step S20 of FIG. 6, both the hot water supply side frame rod electrode 5 and the pilot side frame lot electrode 4 are turned off, and the timer is started. When it is confirmed in step S21 that 30 seconds have elapsed, in step S32, energization of the pilot side frame lot electrode 4 is turned on again. In step S33, the pilot burner 38 is turned on by the pilot side frame lot electrode 4. It is determined whether or not a flame at the second crater 2 is detected. When a flame is detected, the process returns to step S20. When no flame is detected, the process returns to step S2 in FIG. Repeat the operation.

  Further, in this embodiment, in step S21 in FIG. 6, it is monitored in step S22 whether or not the electromotive force of the thermocouple 44 falls below an allowable range in step S22. When the electric power falls below the allowable range, that is, when the electric power falls below the set value Min, the pilot side frame lot electrode 4 is turned on in step S23. If the flame of the second flame outlet 2 of the pilot burner 38 is detected by the pilot side frame lot electrode 4 in step S24, the process returns to step S20. If no flame is detected, flame detection is performed in step S25. The controller 6 outputs an energization command to the igniter electrode 43.

  Here, if the ignition command for the bath main burner 39 is output from the reheating combustion command output unit 29 in step S26 before the pilot burner 38 is ignited by the igniter electrode 43 based on the ignition command, the igniter Without performing the ignition operation by the electrode 43, in step S30, the igniter electrode 43 is turned off, the pilot side frame lot electrode 4 is turned off, the detection circuit of the thermocouple 44 is turned off, and in step S31, the electromagnetic valve 54 is closed, The pilot burner 38 is turned off, and the hot water supply main burner 10 is also turned off.

When the ignition command of the bath main burner 39 is not output and the pilot burner 38 is ignited by the igniter electrode 43 based on the ignition command in step S25, the pilot side flame lot electrode 4 is detected in step S27. the detection is performed second flame port 2 flame of the pilot burner 38, when the detection of the flame has been performed, in step S2 9, turns off the igniter electrodes 43, the flow returns to step S20. Further, in step S27, when the detection of the flame was not performed by the pilot side flame rod electrode 4, in step S28, detects the electromotive force of the thermocouple 44, the electromotive force becomes the solenoid valve sustain voltage L ₀ If so, the process proceeds to step S31.

  In this embodiment, the characteristic operation as described above is performed, and the time during which only the pilot burner 38 is burned without the hot water supply main burner 10 and the bath main burner 39 being burned is determined in advance. When the set time has elapsed, the combustion of the pilot burner 38 is forcibly stopped, so that some of the flame outlets 1, 2, 3 of the pilot burner 38 are extinguished, and raw gas Even if the gas is discharged into the pilot burner 38 and accumulates at the bottom thereof, the combustion of the pilot burner 38 is stopped before the raw gas reaches the positions of the flame outlets 1, 2, and 3 of the pilot burner 38. As described above, by immediately igniting the accumulated raw gas, it is possible to prevent troubles such as making a loud noise and annoying the neighborhood, or surprised people walking nearby.

  In addition, according to the present embodiment, when the hot water supply side frame rod electrode 5 is provided and the flame detection is performed by the hot water supply side frame rod electrode 5 at the start of combustion of the hot water supply main burner 10, Even if the electromotive force of the thermocouple 44 is not greatly reduced from the set voltage, it is determined that the flame of the first flame outlet 1 of the pilot burner 38 has disappeared. Therefore, at the start of combustion of the hot water supply main burner 10, the pilot burner 38 It is possible to reliably detect whether or not there is a flame in the first flame outlet 1 and start combustion of the hot water supply main burner 10. When no flame is detected at the first flame outlet 1 of the pilot burner 38, fuel supply to the bath main burner 39, the hot water supply main burner 10, and the pilot burner 38 is forcibly cut off to stop burner combustion. Therefore, troubles due to raw gas leakage can be prevented and safety can be further improved.

Furthermore, according to the present embodiment, the pilot-side frame lot electrode 4 is provided in the second flame outlet 2 (the bath main burner 39 side) of the pilot burner 38, and when the combustion of the bath main burner 39 starts, the pilot-side frame rod electrode 4 , after the flame detection is performed, the bath main burner 39 is combusted. When the flame detection is not performed, the fuel supply to the bath main burner 39, the hot water supply main burner 10, and the pilot burner 38 is forcibly cut off. Since combustion is stopped, troubles due to raw gas leakage can be prevented, and safety can be further improved.

  Furthermore, according to the present embodiment, the flame detection control unit 6 is configured to perform every predetermined 30 seconds when the electromotive force of the thermocouple 44 falls below a predetermined allowable range during combustion of the hot water supply main burner 10. Even if it is not the flame detection setting timing, the flame detection by the pilot side frame rod electrode 4 is performed, and when the flame detection by the pilot side frame rod electrode 4 is not performed, the igniter electrode 43 ignites the pilot burner 38. Therefore, when the flame of the pilot burner 38 is extinguished during the combustion of the hot water supply main burner 10, the combustion of the pilot burner 38 can be restored by reignition. Therefore, the flame of the first flame outlet 1 disappears, whereby the electromotive force of the thermocouple 44 is lowered, the electromagnetic valve 54 is automatically shut off, the burner combustion is stopped, and cold water comes out. Can be prevented, and usability can be improved.

  Further, when the reheating command is output before the reignition by the igniter electrode 43, all the burner combustion is stopped, and therefore, the second flame port 2 on the side of the bath main burner 39 in the pilot burner 38 is assumed. When the flame is extinguished and there is a raw gas leak, burner combustion is stopped and safety can be ensured.

  In addition, this invention is not limited to the said Example, It sets suitably. For example, in the above embodiment, the hot water supply side frame rod electrode 5 is provided on the hot water supply main burner 10 side, but the configuration of the burner device applied to the combustion device is the same as that of the conventional example (see FIG. 9). Alternatively, it may be as shown in FIG. In the configuration of the burner device shown in the figure, a pilot-side frame rod electrode 4 for detecting a flame emitted from the first flame outlet is provided in the first flame mouth 1 of the pilot burner 38, and the second flame mouth 2 is provided with the pilot flame rod electrode 4. The thermocouple 44 for detecting the heat of the flame coming out of the second flame outlet 2 is provided, the igniter electrode 43 is provided in the third flame outlet 3, and the flame of the bath main burner 39 is provided at the flame outlet of the bath main burner 39. A bath-side frame rod electrode 42 for detecting a flame coming out of the mouth is provided.

  Also in this case, at the start of combustion of the hot water supply main burner 10 or the bath main burner 39, a flame detection control unit 6 is provided that performs flame detection by the bath side frame rod electrode 42 and flame detection by the pilot side frame rod electrode 4, When the flame detection control unit 6 performs flame detection with the bath-side frame rod electrode 42 at the start of combustion of the bath main burner 39 and no flame is detected, the flame of the second flame outlet 2 of the pilot burner 38 disappears. By judging that it exists, there can exist an effect similar to the said Example.

  Further, instead of the igniter electrode 43, ignition means such as a piezoelectric ignition device may be provided.

  Further, the form of the pilot burner 38 is not, for example, a form having the first, second, and third flame outlets 1, 2, 3, but, for example, as shown in FIG. The hot water supply main burner 10 and the bath main burner 39 may be arranged in the longitudinal direction.

  Furthermore, the burner apparatus applied to the combustion apparatus of the present invention may have a configuration in which one of hot water supply main burner 10 and bath main burner 39 and pilot burner 38 are included.

  In any case, in the present invention, when the time during which the main burner is not burned and only the pilot burner is burned exceeds a preset time, the forced combustion stop unit 28 is It is only necessary to have a configuration for forcibly stopping the combustion, and other configurations such as a flame detection configuration and a notification configuration, a system configuration, and the like are not particularly limited and are appropriately set. .

  The present invention can be used as a safe combustion device having functions such as a bath and hot water supply because it can prevent troubles caused by leakage of raw gas even if a part of the flame of the pilot burner disappears.

DESCRIPTION OF SYMBOLS 1 1st flame mouth 2 2nd flame mouth 3 3rd flame mouth 4 Pilot side flame rod electrode 5 Hot water supply side flame lot electrode 6 Flame detection control part 10 Hot water supply main burner 28 Combustion forced stop part 29 Reheating combustion command output Section 38 Pilot burner 39 Bath main burner 41 Notification means 43 Igniter electrode 44 Thermocouple

Claims (3)

A main burner and an ignition pilot burner adjacent to the main burner are provided.When the main burner is burned, the pilot burner is ignited, and the flame of the main burner is ignited by the flame. A combustion apparatus in which combustion of the pilot burner continues until the extinguishing operation is performed after the combustion is stopped by the combustion stop operation of the main burner. The pilot burner has a plurality of flame ports, and the pilot burner When the flame of some of the plurality of flame outlets of the pilot burner disappears during the combustion operation of the pilot burner and the raw gas leaks from the flame outlet, the raw gas having a higher specific gravity than air is The time that can be prevented from reaching the vicinity of the flame outlet of the pilot burner toward the upper side after accumulating on the instrument bottom side below the mouth is determined in advance as the set time, When the elapsed time from the stopping combustion by the combustion stop operation of the main burner when the combustion of only the pilot burner without the combustion of the main burner is performed is performed by shrink stopping operation is older than the set time A combustion apparatus, comprising: a combustion forcible stop unit that forcibly stops combustion of the pilot burner to prevent the raw gas from reaching the pilot burner near the flame opening . A hot water supply main burner and a bath main burner are arranged with an interval therebetween, and a pilot burner for ignition is provided at the interval. The hot water supply main burner and the hot burner burn by the flame of the pilot burner Combustion device in which combustion of the pilot burner is continued until the fire extinguishing operation is performed after the combustion is stopped by the combustion stop operation of the main burner by igniting at least one flame mouth of the bath main burner The pilot burner has a plurality of flame outlets, and during the combustion operation of the pilot burner, the flames of some of the plurality of flame mouths of the pilot burner disappear and the When a raw gas leak occurs, raw gas having a specific gravity higher than that of air accumulates on the bottom side of the appliance below the flame opening and then moves upward toward the pyrolyzer. Time prevented from reaching the flame hole near the Tobana is predetermined as the set time, by the combustion stop operation of the main burner when the combustion of only the pilot burner to the combustion of the main burner is not performed is performed wherein when the elapsed time from the combustion stop according to the combustion stop operation older than the set time prevents reaching the vicinity of the flame port of the pilot burner of the raw gas by forcibly stopping the combustion of the pilot burner combustion A combustion apparatus having a forced stop portion.   3. The combustion apparatus according to claim 1, wherein when the combustion of the pilot burner is forcibly stopped by the combustion forcible stop unit, a notification for notifying the forced combustion stop is performed.

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