JP5406538B2 - Open combustion equipment - Google Patents

Description

The present invention comprises a burner for burning supplied fuel;
Ignition means for igniting the burner; and air blowing means for supplying combustion air to the burner;
Fuel intermittent means that can be switched between a fuel supply state for supplying fuel to the burner and a fuel supply stop state for stopping the supply of fuel to the burner;
A gas sensor for outputting a density corresponding signal corresponding to the gas concentration of the flammable gas is sensitive to flammable gas,
An opening provided with a control means for executing an ignition process for operating the blower means, operating the ignition means and switching the fuel intermittent means to the fuel supply state when the operation start means is instructed to start operation. Type combustion equipment.

Such an open-type combustion apparatus is operated in a state where combustion gas of the burner is released into the room, and specific examples include a gas fan heater and a gas stove.
Then, when the operation start command is issued by the operation command means, the burner is burned by executing the ignition process for operating the air blowing means, operating the ignition means, and switching the fuel intermittent means to the fuel supply state. Yes.

As a conventional example of such an open-type combustion apparatus, a gas sensor that responds to a combustible gas and outputs a concentration corresponding signal corresponding to the concentration of the combustible gas is provided, and the concentration corresponding signal of the gas sensor is used during combustion of the burner. When a fuel leak is detected based on this, the burner is extinguished by switching the fuel interrupting means to the fuel supply stop state, and there are those in which safety measures against the fuel leak are taken (for example, see Patent Document 1). ).

Then, Patent Document 1 described above is not described, conventionally, operation in such open burning appliances, detects a fuel leakage Chi was extinguished burner, the operation command unit as it is When the start is commanded, the operation start command is received and the ignition process is executed.

JP 2001-65989 A

However, in the conventional open type combustion equipment, to detects the fuel leakage Chi was extinguished burner, when the operation start is an operation command means is commanded, the ignition process accepts the operation start command remains in that state which is configured to perform, despite was extinguished burner by detection of leakage may fuel, there is a possibility that subsequently become immediately ignite the burner. Therefore, in the conventional open type combustion equipment, there is room for improvement in terms of further improving the safety against the leakage may fuel.

The present invention has been made in view of such circumstances, and its object is to provide an open burning appliance may further improve the safety against the leakage may fuel.

An open combustion apparatus of the present invention comprises a burner for burning supplied fuel,
Ignition means for igniting the burner; and air blowing means for supplying combustion air to the burner;
Fuel intermittent means that can be switched between a fuel supply state for supplying fuel to the burner and a fuel supply stop state for stopping the supply of fuel to the burner;
A gas sensor for outputting a density corresponding signal corresponding to the gas concentration of the flammable gas is sensitive to flammable gas,
An opening provided with a control means for executing an ignition process for operating the blower means, operating the ignition means and switching the fuel intermittent means to the fuel supply state when the operation start means is instructed to start operation. Type combustion equipment,
The first feature configuration is:
A device-side connector for receiving gas fuel to the burner in a state where the source-side connector attached to the gas fuel supply source is detachable and the source-side connector is connected;
Connection state detection means for detecting whether the supply source side connection tool and the device side connection tool are in a connected state or in a disconnected state is provided,
When the control means detects the leakages the fuel concentration corresponding signal of the gas sensor becomes a high signal gas concentration than the abnormality detecting preset value for detecting leakages fuel, the said fuel disconnecting means supply After switching to the stop state, the gas sensor concentration correspondence signal becomes a signal whose gas concentration is lower than the standby release setting value set to the concentration correspondence signal whose gas concentration is equal to or lower than the abnormality detection setting value. Until the combustion start of the burner is prohibited , and when the fuel leakage is detected, again after the change from the connected state to the disconnected state is detected by the connected state detecting means The burner is configured to be prohibited from starting combustion until it is detected as being in the connected state .

That is, by being leaking fuel is being detected, the fuel interrupting means is switched to the supply stop state when the burner is extinguished, the low signal gas concentration than the concentration corresponding signal dequeue set value of the gas sensor Until this happens, the start of combustion of the burner is prohibited.
In other words, when the fuel leak is detected and the burner is extinguished, the operation command means commands the start of operation until the concentration of the combustible gas becomes a safe concentration lower than the concentration for detecting the fuel leak. Even burner burn cannot be resumed .
It follows, it has become possible to provide an open combustion equipment which can further improve the safety against the leakage may fuel.
Further, according to this characteristic configuration, when the supply source side connection tool is connected to the device side connection tool, the connection state detection means detects that the supply source side connection tool and the device side connection tool are in a connected state, and supplies When the source side connection tool is removed from the device side connection tool, the connection state detection unit detects that the supply source side connection tool and the device side connection tool are in a disconnected state.
When a fuel leak is detected, the operation command means commands the start of operation until it is detected again that the connection state is detected after the connection state detection means detects a change from the connected state to the non-connected state. However, the burner does not resume burning.
In other words, even if it is detected that the connection state is detected by the connection state detection means, the supply-side connector may be connected to the device-side connector in a state where a minute foreign matter such as dust or sand is bitten. In such a case, it is conceivable that fuel is leaking from the connection point between the supply-side connector and the device-side connector.
In such a case, once the supply-side connector is removed from the device-side connector, and the supply-source-side connector is connected again to the device-side connector, the bite foreign matter is removed and the fuel is removed. There is a high possibility that the leak will be resolved.
Therefore, in this feature configuration, when the fuel leak is detected and the burner is extinguished, the supply side connector must be removed from the device side connector and the supply source side connector must be reconnected to the device side connector. The burner burn is prevented from restarting. Thus, the combustion of the burner can be resumed after eliminating the cause of the fuel leakage when the supply source side connector is connected to the equipment side connector in a state where foreign matter is bitten.
Therefore, when the fuel leak is detected and the burner is extinguished, the burner combustion can be resumed after the cause of the fuel leak is resolved and the concentration of the combustible gas is lowered to a safe concentration. Safety can be further improved.

In addition to the first feature configuration, the second feature configuration is
Said control means, said Upon detection of leakages fuel, until said concentration corresponding signal of the gas sensor becomes a low signal gas concentration than the dequeue set value, is configured to continue the operation of the blowing means There is in point.

That is, when leakage may fuel but is detected, the fuel interrupting means is switched to immediately supply stop state burner is extinguished, the low signal gas concentration than the concentration corresponding signals for setting dequeues value of the gas sensor The operation of the air blowing means is continued until. Thereby, it is facilitated indoor ventilation, because concentration of the flammable gas is promoted to decrease, the burner concentration correspondence signal of the gas sensor becomes a low signal gas concentration than the set value for dequeued The time until combustion can be resumed is shortened.
That, is leakage fuel is detected when the burner is extinguished, it is possible to shorten the time until it can be safely resumed combustion burner.

By the way, during normal fire extinguishing, where the burner is extinguished based on the operation stop command, generally the configuration is such that the blower means is stopped when the post purge set time elapses after the fuel intermittent means is switched to the fuel supply stop state. since the even when detects the leakages fuel extinguishing the burner, as in the case of the conventional burner extinguishing, and the fuel and disconnecting means for the set time elapses for post-purge after switching to fuel supply stopped blowing It is conceivable to configure the means to stop.
However, the set time for the post-purge, since the combustion gas in the open burning appliance is intended to be set to short time enough to release to the outside of equipment, to detect the leakages fuel when extinguishing the burner , simply to operate the blowing means during the set time for the post-purge the indoor is not ventilated until concentration of the combustible gas is sufficiently reduced. After the set time for post-purge elapses, the room will be ventilated by natural ventilation, so the gas sensor concentration-corresponding signal will be a signal whose gas concentration is lower than the set value for standby release, which is safe. In addition, it is not possible to sufficiently shorten the time until the combustion of the burner can be resumed.
Thus, while suppressing the operation that decreases the usability and prevented from a long time before you may resume, it becomes possible to further improve the safety against the leakage may fuel.

In addition to the first or second feature configuration, the third feature configuration is
Operating said control means, when the operation start is commanded by the operation command means, activating the gas sensor so as to a detectable state capable of sensing the gas sensor combustible gas, by the operation command means It stops when stop commanded operation of the gas sensor, when it detects leakages the fuel switching the fuel disconnecting means to said supply stop state is configured to maintain the gas sensor to the detection state There is in point.

That is, the standby electric power can be reduced by starting the gas sensor when the operation start is instructed and stopping the operation of the gas sensor when the operation stop is instructed.
When the senses the leakages fuel switching the fuel interrupting means to supply stop state, since the gas sensor is maintained in a detectable state, on the basis of the detection information of the gas sensor was maintained so to a detectable state, it can be concentration of combustible gas detected accurately from a state where it is safe to resume combustion burner decreases. Thus, by so as to start the gas sensor when the operation start is commanded, even if a little time before the gas sensor becomes detectable state, safe concentration of advance combustible gas is sufficiently reduced Since the combustion of the burner is resumed in a state where the above is confirmed, the safety is not impaired.
Thus, while reducing standby power, it has become possible to further improve the safety against the leakage may fuel.

The fourth feature configuration is in addition to any one of the first to third feature configurations,
When the control unit detects the leakages the fuel lies in the alarm unit for outputting information indicating that encourage ventilation is provided.

That is, when is leaking fuel but the burner is detected is extinguished by the warning means, the information indicating that encourage ventilation is output, the user recognizes the information indicating that encourage such ventilation Thus, it is possible to take measures to promote indoor ventilation, such as opening windows and operating ventilation fans.
Therefore, to be able to operation while further suppress a decrease usability to further suppress the longer the time until the resume, to further improve the safety against the leakage may Fuel Became.

In addition to any one of the first to fourth feature configurations described above, the fifth feature configuration is
The burner is provided in a casing provided with an inlet and an outlet;
The air blowing means supplies the air outside the casing sucked through the air inlet as combustion air to the burner and ventilates the combustion gas of the burner from the air outlet to the outside of the casing. Provided in
The gas sensor is in the point that the provided near the intake port or the intake port to be sensitive to the flammable gas in the air sucked through the intake port.

That is, when a specific example of the open-type combustion device is a fan heater using gas fuel or liquid fuel as fuel, the air outside the casing sucked through the intake port is supplied to the burner as combustion air by the blowing means, and The space to be heated is heated by blowing the combustion gas of the burner out of the casing from the outlet provided in the casing.
Then, the gas sensor, since the provided air near port or intake port to be sensitive to the flammable gas in the air drawn through the air inlet, sensitive to flammable gases contained in the air in the heating target space based on the concentration correspondence signal outputted from the gas sensor and, it becomes possible to detect the leakages fuel, from the safety is impaired to be leaking fuel can be accurately detected.
Therefore, it has become possible to provide a fan heater capable of further improving the safety against the leakage may fuel.

It is a vertical side view which shows schematic structure of an open type combustion apparatus. It is a block diagram of the control structure of an open type combustion apparatus. It is a partial cross section figure in the surface in alignment with the axial center of the joint member which shows the state where the plug and the joint member are not connected. It is a partial cross section figure in the surface in alignment with the axial center of the joint member which shows the state where the plug and the joint member were connected. It is a figure which shows the flowchart of control operation | movement of an open type combustion apparatus.

Hereinafter, an embodiment in the case where the present invention is applied to a gas fan heater as an example of an open combustion apparatus will be described with reference to the drawings.
As shown in FIG. 1 and FIG. 2, the gas fan heater supplies a burner 1 for burning supplied gas fuel, an igniter 2 as ignition means for igniting the burner 1, and combustion air to the burner 1. A blower 5 as a blowing means, a fuel intermittent means V that can be switched between a fuel supply state for supplying gas fuel to the burner 1 and a fuel supply stop state for stopping the supply of gas fuel to the burner 1, and as a combustible gas A combustible gas sensor 3 that outputs a signal corresponding to the concentration of the combustible gas in response to the gas fuel, and a concentration of the incomplete combustion gas in response to the carbon monoxide gas as the incomplete combustion gas A CO sensor 17 that outputs a concentration-corresponding signal and a control unit 4 as control means for controlling the operation of the gas fan heater are provided.
That is, the combustible gas sensor 3 is provided as a gas sensor that outputs a concentration corresponding signal corresponding to the gas concentration of the combustible gas in response to the combustible gas, and is a gas sensor of the incomplete combustion gas in response to the incomplete combustion gas. The CO sensor 17 is provided as a gas sensor that outputs a concentration correspondence signal corresponding to the concentration.
The gas fan heater is further provided with a constant voltage circuit 6 for supplying power for driving the gas fan heater, and an operation unit 7 for instructing the control unit 4 to perform various control commands.

As shown in FIG. 1, the burner 1 is housed in a casing 10 having an intake port 8 on the upper side of the back surface and an outlet port 9 on the lower side of the front surface.
In the casing 10, a part of the air outside the casing sucked through the intake port 8 is guided to the burner 1 as combustion air, and the remaining portion is guided to the outlet port 9 in a state mixed with the combustion gas of the burner 1. Thus, an internal air passage 11 is formed. An air filter 12 is provided at the intake port 8.
The blower 5 sucks the intake port 8 and causes the discharge part to face the discharge port 9, that is, the burner 1 uses a part of the air outside the casing sucked through the intake port 8 as combustion air. And the remaining portion is mixed with the combustion gas of the burner 1, and is provided in the middle of the internal air passage 11 in a state where the air flows so as to blow out from the casing through the outlet 9.
And by the ventilation effect | action of the air blower 5, the combustion gas of the burner 1 is mixed with the air of the heating object space suck | inhaled through the inlet port 8, a warm air is produced | generated, and the warm air blows off from the blower outlet 9 to the heating object space. Thus, the space to be heated is heated.

As shown in FIG. 1, the igniter 2 is provided above the flame opening (not shown) of the burner 1, and a thermocouple 13 that detects ignition of the burner 1 is also provided above the flame opening of the burner 1. ing.
As shown in FIGS. 1 and 2, the fuel supply passage 14 for supplying gas fuel to the burner 1 has an electromagnetic on-off valve 15 for opening and closing the fuel supply passage 14 and the fuel supply amount to the burner 1. An electromagnetic proportional valve 16 to be adjusted is provided, and the on-off valve 15 and the proportional valve 16 constitute a fuel intermittent means V.
At the end of the fuel supply passage 14 on the gas receiving side, a joint member 30 as a supply-side connector attached to the gas hose 29 is detachable, and the gas to the burner 1 is connected to the joint member 30 in a connected state. A plug 40 is attached as a device-side connector for receiving fuel.
Further, a connection detection switch 28 is provided as a connected body detection means for detecting the connection state between the joint member 30 and the plug 40.
In this embodiment, the gas hose 29 is connected to, for example, a city gas pipe (not shown) to which city gas (13A or the like, gas mainly composed of methane gas (CH ₄ )) is supplied. To be supplied. The combustible gas sensor 3 is configured to output a concentration corresponding signal corresponding to the concentration of the combustible gas in response to, for example, methane gas as the combustible gas.

  The combustible gas sensor 3 is provided at the intake port 8 of the casing 10 so as to be sensitive to the combustible gas in the air sucked through the intake port 8, and the CO sensor 17 is also incompletely burned in the air sucked through the intake port 8. An air inlet 8 of the casing 10 is provided so as to be sensitive to gas.

  The constant voltage circuit 6 is configured to step down and rectify and smooth a commercial AC power supply to obtain a predetermined DC voltage. When the plug 19 of the power cord 18 for supplying device driving power to the gas fan heater is inserted into a power outlet (not shown) to which commercial power is supplied, the constant voltage circuit 6 supplies the control unit 4 with power. Driving power for driving it is configured to be supplied.

Since the combustible gas sensor 3 and the CO sensor 17 are well known, detailed description and illustration thereof will be omitted and will be briefly described.
In this embodiment, for example, the combustible gas sensor 3 and the CO sensor 17 are both semiconductor type sensors, and the semiconductor type sensor is made of a metal oxide semiconductor such as tin oxide. A sensor element whose resistance value changes when it comes into contact with carbon gas is provided.
The combustible gas sensor 3 is configured to output a change in the resistance value of the sensor element that changes according to the concentration of the combustible gas as a change in voltage, and a voltage (hereinafter, referred to as a resistance value of the sensor element). May be described as a detection voltage) as a concentration corresponding signal corresponding to the concentration of the combustible gas.
Further, the CO sensor 17 is configured to output a change in the resistance value of the sensor element that changes according to the concentration of the carbon monoxide gas as a change in voltage, and a voltage (hereinafter, referred to as a resistance value of the sensor element) May be described as a detection voltage) as a concentration corresponding signal corresponding to the concentration of carbon monoxide gas.

  For example, the combustible gas sensor 3 is configured such that the resistance value of the sensor element decreases and the detection voltage increases as the concentration of the combustible gas increases. Similarly, the CO sensor 17 also includes the concentration of the carbon monoxide gas. The sensor element is configured such that the resistance value of the sensor element decreases and the detection voltage increases.

Each of the sensors 3 and 17 includes an electric heater (not shown) for heating the sensor element and a heating control unit (not shown) for controlling the heating operation of the electric heater. As the sensor driving power is supplied from the constant voltage circuit 6, heating of the sensor element is started by the electric heater, and thereafter the heating operation of the electric heater is performed so that the temperature of the sensor element becomes a predetermined heating target temperature. Is configured to be controlled.
When each sensor element of the combustible gas sensor 3 and the CO sensor 17 is heated to the heating target temperature set for each, the combustible gas sensor 3 responds to the combustible gas and adjusts the concentration of the combustible gas. The CO sensor 17 is in a detectable state capable of being detected with sufficient accuracy, and the CO sensor 17 is in a detectable state capable of detecting the carbon monoxide gas concentration with sufficient accuracy in response to the carbon monoxide gas.

Based on FIG.3 and FIG.4, the joint member 30, the plug 40, and the connection detection switch 28 are demonstrated.
FIG. 3 shows a non-connected state where the joint member 30 is not connected to the plug 40, and FIG. 4 shows a connected state where the joint member 30 is connected to the plug 40.

When the joint member 30 is not connected to the plug 40 as shown in FIG. 3, the joint member 30 is in a closed state where the outflow of gas fuel from the tip of the joint member is stopped, and connected to the plug 40 as shown in FIG. In the connected state, it is configured to be in an open state in which the outflow of gas fuel from the joint member tip is allowed.
The configurations of both the joint member 30 and the plug 40 are well-known configurations and will be briefly described below.

  The joint member 30 includes a cylindrical main body 31, a connector 32 that connects the gas hose 29, an operating member 33 that is disposed inside the cylindrical main body 31 so as to be movable along the axial direction, and the cylindrical main body 31. A cylindrical sleeve member 34 disposed on the distal end side of the outer peripheral portion of the cylindrical main body 31 so as to be movable along the axial direction, a cover member 35 covering the proximal end portion of the outer peripheral portion of the cylindrical main body 31, and a cylindrical shape The main body 31 includes a plurality of locking balls 36 and the like that are individually disposed in a plurality of ball disposition holes formed at intervals in the circumferential direction at a distal end side portion of the main body 31.

As shown in FIG. 3, in the joint member 30 in the closed state, the actuating member 33 is held in a state located on the side opposite to the connector 32 side by an urging means such as a coil spring (not shown). The operation member 33 held in this manner presses the locking ball 36 radially outward to engage with the sleeve member 34, and the sleeve member 34 is held in a state of being located on the joint member proximal end side. The
In the joint member 30 in the closed state, the inside of the cylindrical main body 31 and the inside of the actuating member 33 are not in communication, and the outflow of gas fuel from the tip of the joint member 30 is stopped.

Further, as shown in FIG. 4, in the joint member 30 in the open state, the operating member 33 is pushed into the joint member proximal end side by the plug 40, and the inside of the cylindrical main body 31 and the inside of the operating member 33 are in communication with each other. Thus, a communication path is formed across the connector 32, the inside of the cylindrical main body 31, and the inside of the operating member 33, and gas fuel flows from the connector 32 and flows out from the tip of the joint member 30. Is acceptable.
In the joint member 30 in the open state, the lock ball 36 is fitted into the lock groove 47 of the plug 40, the state where the lock ball 36 is engaged with the sleeve member 34 is released, and the sleeve member 34 is not shown. It moves to the joint member tip side by biasing means such as a coil spring.

As shown in FIGS. 3 and 4, the plug 40 includes a plug main body 41, a small diameter portion 42 having a smaller diameter than the plug main body 41, and a smaller diameter than the small diameter portion 42, from the proximal end to the distal end. The connecting portion 43 connected to the joint member 30 and the internal gas passage 44 penetrating in the axial direction are configured.
The connection portion 43 includes a first annular portion 45 on the distal end side, a second annular portion 46 on the proximal end side, and a lock groove 47 therebetween.
The connecting portion 43 is configured to be insertable into the cylindrical main body 31 of the joint member 30 while being in sliding contact with the inner peripheral surface thereof, and the outer diameter of the small diameter portion 42 is larger than the inner diameter of the sleeve member 34 of the joint member 30. The outer diameter of the plug main body portion 41 is smaller than the inner diameter of the sleeve member 34 of the joint member 30.

The connection detection switch 28 includes an action portion 28s biased in a protruding direction (indicated by a broken line arrow in FIG. 3), and is configured to be turned on when the action portion 28s is pushed. Yes.
Such a connection detection switch 28 is provided on the outer peripheral portion of the plug main body 41 in a state in which the action portion 28 s projects to the tip side of the plug main body 41 of the plug 40.
Although illustration is omitted, the connection detection switch 28 and the control unit 4 are connected by lead wires so that an ON / OFF signal of the connection detection switch 28 is transmitted to the control unit 4.

Next, the operation of each of the plug 40 and the joint member 30 and the operation of the connection detection switch 28 when the joint member 30 is connected to the plug 40 or the joint member 30 is removed from the plug 40 will be described.
When connecting the joint member 30 to the plug 40, the joint member 30 in the closed state as shown in FIG. 3 is moved toward the plug 40 in a state where the connecting portion 43 of the plug 40 is inserted into the cylindrical main body 31. . Then, while the actuating member 33 is pushed into the joint member proximal end side by the connecting portion 43 of the plug 40, the locking ball 36 approaches the locking groove 47 of the connecting portion 43 and fits into the locking groove 47 as shown in FIG. As a result, the state in which the sleeve member 34 is engaged with the locking ball 36 is released, and the sleeve member 34 projects toward the distal end side of the joint member, and the joint member 30 is connected to the plug 40. When the sleeve member 34 protrudes to the distal end side of the joint member in this manner, the distal end surface of the sleeve member 34 comes into contact with the action portion 28s of the connection detection switch 28, and the action portion 28s is pushed in. The switch 28 is switched on.

  When the joint member 30 is removed from the plug 40, the sleeve member 34 of the joint member 30 connected to the plug 40 as shown in FIG. 4 is moved to the joint member proximal end side against the biasing force of the biasing means (not shown). Let Then, the state in which the action portion 28s of the connection detection switch 28 is pressed by the sleeve member 34 is released, and the action portion 28s protrudes, whereby the connection detection switch 28 is switched to the off state. In addition, the locking ball 36 is allowed to move radially outward, whereby the joint member 30 can be pulled out from the connection portion 43 of the plug 40, and the joint member 30 is removed from the plug 40. be able to.

As shown in FIG. 2, the operation unit 7 has an operation switch 20 as an operation command means for instructing operation start and operation stop of the gas fan heater, and prompts ventilation when a fuel leak or incomplete combustion is detected. Displays various information such as a speaker 21 for notifying a message, an abnormality notification lamp 22 that is turned on when fuel leakage or incomplete combustion is detected, a temperature setting unit 23 for setting a heating target temperature, a heating target temperature, an indoor temperature, and the like. A display unit (not shown) and the like are provided.
The operation switch 20 is configured so that an operation start and an operation stop are alternately commanded every time the push operation is repeated.

Hereinafter, the control operation of the control unit 4 will be described.
The control unit 4 includes a fuel leak detection set value Sma (corresponding to an abnormality detection set value) set in advance in the concentration correspondence signal of the combustible gas sensor 3 for detecting fuel leak, and the fuel leak detection A setting value Smr for standby release at the time of fuel leakage set to a concentration corresponding signal whose combustible gas concentration is lower than the set value Sma (corresponding to a setting value for standby release), a CO sensor 17 for detecting incomplete combustion The incomplete combustion detection setting value Sca (corresponding to the abnormality detection setting value) set in the concentration correspondence signal, and the concentration correspondence signal in which the carbon monoxide gas concentration is lower than the incomplete combustion detection setting value Sca. The set incomplete combustion standby release setting value Scr (corresponding to the standby release setting value) is stored.
In this embodiment, the set value Smr for standby release at the time of fuel leak is set to a concentration corresponding signal having a combustible gas concentration lower than the set value Sma for fuel leak detection, and the set value Scr for standby release at the time of incomplete combustion is incomplete. Although the carbon monoxide gas concentration is set to a concentration corresponding signal lower than the combustion detection set value Sca, the fuel leak detection set value Sma and the incomplete combustion detection set value Sca are set values on the safe side. The setting value Smr for waiting release at the time of fuel leakage is set to a concentration correspondence signal having the same flammable gas concentration as the setting value Sma for fuel leakage detection, and the setting value Scr for waiting release at the time of incomplete combustion is set to the setting value for incomplete combustion detection. Sca and carbon monoxide gas concentrations may be set to the same concentration correspondence signal.

Incidentally, the set value Sma for fuel leakage detection is set to a concentration corresponding signal corresponding to, for example, 3000 ppm of methane gas, and the set value Smr for standby release at the time of fuel leakage is set to a concentration corresponding signal corresponding to, for example, the concentration of 1000 ppm of methane gas. Set to
The incomplete combustion detection set value Sca is set to a concentration corresponding signal corresponding to the concentration of, for example, 300 ppm of carbon monoxide gas, and the incomplete combustion standby release setting value Scr is set to, for example, the concentration of 100 ppm of methane gas. The corresponding density correspondence signal is set.

The control unit 4 starts the control operation when the supply of driving power is started as the plug 19 of the power cord 18 is inserted into the power outlet.
Then, when the operation start is instructed by the operation switch 20, the control unit 4 performs heating so as to supply sensor driving power to each of the combustible gas sensor 3 and the CO sensor 17 in a detectable state. Ignition for igniting the burner 1 when each is started by controlling the operation of the control unit, and when it is detected that the connection detection switch 28 is in the on state and the joint member 30 and the plug 40 are in the connected state. After the process is executed, when the operation stop is instructed by the operation switch 20, a fire extinguishing process for extinguishing the burner 1 is executed.

  In the ignition process, the control unit 4 activates the blower 5 and, after the blower 5 is activated, activates the igniter 2 and opens the on-off valve 15 and the proportional valve 16 when the pre-purge set time has elapsed, and opens the thermocouple. When the ignition of the burner 1 is detected by the electromotive force 13, the process of stopping the operation of the igniter 2 (corresponding to switching to the fuel supply state) is executed. (This corresponds to switching to the fuel supply stop state), and after the valves are closed, a process for stopping the blower 5 is executed when the post-purge setting time has elapsed. Incidentally, the pre-purge setting time is set to a time in the range of 4 to 7 seconds, for example, and the post-purge setting time is set to a time in the range of 100 to 160 seconds, for example.

The control unit 4 executes a fuel leak detection process for detecting whether or not a fuel leak has occurred based on the detection voltage Vm of the combustible gas sensor 3 from the start of the ignition process to the end of the fire extinguishing process, and Based on the detection voltage Vc of the CO sensor 17, incomplete combustion detection processing for detecting whether or not incomplete combustion has occurred is executed.
In the fuel leak detection process, the control unit 4 detects that the detection voltage Vm of the combustible gas sensor 3 is higher than the fuel leak detection set value Sma (that is, the combustible gas concentration is higher than the fuel leak detection set value Sma). When fuel leakage is detected (corresponding to a high signal), the on-off valve 15 and the proportional valve 16 are closed while the operation of the blower 5 is continued.

In this way, when the fuel leak is detected, the combustion of the burner 1 is stopped. In the present invention, after the combustion of the burner 1 is stopped due to such a fuel leak, the concentration of the combustible gas becomes the fuel. The combustion of the burner 1 cannot be resumed until a safe concentration lower than the concentration for detecting leakage is obtained.
That is, in the present invention, the control unit 4 determines that the detected voltage Vm of the combustible gas sensor 3 is lower than the set value Smr for waiting release at the time of fuel leakage (that is, the combustible gas is lower than the set value Smr for waiting release at the time of fuel leak). This corresponds to a signal having a low density) and is turned on again after the connection detection switch 28 is turned off (that is, it is detected that the connection detection switch 28 is disconnected and then is connected again). Until the operation start command by the operation switch 20 is not accepted (that is, the combustion start of the burner 1 is prohibited).
Further, when the fuel leakage is detected in the fuel leakage detection process, the control unit 4 continues the operation of the blower 5 until the detection voltage Vm of the combustible gas sensor 3 becomes lower than the set value Smr for standby release at the time of fuel leakage. It is configured.

  The control unit 4 executes the ignition process when the connection detection switch 28 is in the ON state (that is, when it is detected that the joint member 30 and the plug 40 are in the connected state). Since the fuel leak detection process is executed in a state where it is detected that the plug 30 and the plug 40 are connected, the control unit 4 detects that the connection state is established by the connection detection switch 28 when the fuel leak is detected. If it is, the combustion detection of the burner 1 is prohibited until the connection detection switch 28 detects that it is in the disconnected state until it is detected again as the connected state. Become.

Further, when the detection voltage Vc of the CO sensor 17 becomes higher than the set value Sca for detecting incomplete combustion in the incomplete combustion detection process and the incomplete combustion is detected, the control unit 4 continues the operation of the blower 5. The on-off valve 15 and the proportional valve 16 are each closed.
In this way, when incomplete combustion is detected, the combustion of the burner 1 is stopped. In the present invention, after the combustion of the burner 1 is stopped by such incomplete combustion, the combustion of the incomplete combustion gas is stopped. The combustion of the burner 1 cannot be resumed until the concentration reaches a safe concentration lower than the concentration for detecting incomplete combustion.
That is, in the present invention, the control unit 4 is configured not to accept an operation start command from the operation switch 20 until the detection voltage Vc of the CO sensor 17 becomes lower than the setting value Scr for incomplete combustion standby release. ing.
Further, when the control unit 4 detects incomplete combustion in the incomplete combustion detection process, the operation of the blower 5 is continued until the detection voltage Vc of the CO sensor 17 becomes lower than the set value Scr for standby release at the time of incomplete combustion. Is configured to do.

In addition, when the fuel leak detection process detects the fuel leak and closes each of the on-off valve 15 and the proportional valve 16, the control unit 4 sets the temperature of the sensor element of the combustible gas sensor 3 to the heating target temperature. By continuing the control of the heating control unit and the control of the heating control unit for setting the temperature of the sensor element of the CO sensor 17 to the heating target temperature, each of the combustible gas sensor 3 and the CO sensor 17 is controlled. It is configured to maintain a detectable state.
Similarly, when the incomplete combustion is detected in the incomplete combustion detection process and the on-off valve 15 and the proportional valve 16 are closed, the control unit 4 can detect the combustible gas sensor 3 and the CO sensor 17 in the same manner. Configured to maintain state.

Further, when the fuel leakage is detected in the fuel leakage detection process or when the incomplete combustion is detected in the incomplete combustion detection process, the control unit 4 notifies the user of a ventilation message that prompts the user to ventilate the room. Is configured to do.
That is, the control unit 4 and the speaker 21 constitute alarm means A that outputs information indicating that ventilation is promoted when fuel leakage or incomplete combustion is detected.

Next, a series of control operations by the control unit 4 will be described based on the flowchart shown in FIG.
When the driving power is supplied as the plug 19 of the power cord 18 is inserted into the power outlet, the control unit 4 starts the control operation.
Then, when the operation start is instructed by the operation switch 20, the control unit 4 executes sensor activation processing so that each of the combustible gas sensor 3 and the CO sensor 17 can be detected, and then the connection detection switch 28 is activated. By determining whether the joint member 30 and the plug 40 are in a connected state or a non-connected state by determining whether the joint member 30 is in an on state or an off state, the joint member 30 is connected by the speaker 21 in the non-connected state. If the connection abnormality message indicating that the burner is not connected is notified and the connection is in a connected state, an ignition process for igniting the burner 1 is executed (steps # 1 to # 5).

The controller 4 is proportional so that the detected temperature of a room temperature sensor (not shown) that detects the temperature of the space to be heated becomes the heating target temperature until the operation stop is instructed by the operation switch 20 after the ignition process is executed. Combustion amount adjustment control for adjusting the amount of combustion of the burner 1 by adjusting the opening of the valve 16, fuel leakage detection processing for detecting the presence or absence of fuel leakage based on the detection voltage Vm of the combustible gas sensor 3, and CO Based on the detection voltage Vc of the sensor 17, incomplete combustion detection processing for detecting the presence or absence of occurrence of incomplete combustion is executed, and the operation switch 20 is commanded to stop operation in a state where neither fuel leakage nor incomplete combustion is detected. Then, a fire extinguishing process is executed, and the operation of each heating control unit is controlled so as to stop the supply of sensor driving power to each of the combustible gas sensor 3 and the CO sensor 17. After performing the stop process, the process returns (step # 6-11).
Incidentally, the control unit 4 executes the combustion amount adjustment control for each set period for adjusting the combustion amount, and executes the fuel leakage detection process and the incomplete combustion detection process for each set period for detecting abnormality.

When the detected voltage Vm of the combustible gas sensor 3 becomes higher than the fuel leak detection set value Sma and detects the fuel leak in Step # 7, the control unit 4 closes the on-off valve 15 and the proportional valve 16 respectively. The abnormality notification lamp 22 is turned on, and the speaker 21 notifies the user of a ventilation message that prompts the user to ventilate the room and a reconnection message that prompts the user to reconnect the joint member 30, and then the combustible gas sensor. 3 is lower than the set value Smr for standby release at the time of fuel leakage, and after the connection detection switch 28 is turned off, the joint member 30 is reconnected to the plug 40. When this is determined, the abnormality notification lamp 22 is turned off, the blower 5 is stopped, and after the sensor stop process is executed, the process returns (steps # 12 to # 19, 1).
In the fuel leak detection in step # 7, the connection detection switch 28 does not detect a connection abnormality between the joint member 30 and the plug 40, but the joint member 30 and the plug 40 are connected in a state in which foreign matter is caught. Therefore, it is configured to notify a reconnection message such as “Please reconnect the coupling member 30”.
That is, when a fuel leak is detected, the detection voltage Vm of the combustible gas sensor 3 becomes lower than the set value Smr for standby release at the time of fuel leak, and the joint member 30 and the plug 40 are not connected by the connection detection switch 28. The operation start command by the operation switch 20 is not accepted until the connection state is detected again after the state is detected, and the operation of the gas fan heater cannot be resumed.

In step # 8, when the detected voltage Vc of the CO sensor 17 becomes higher than the incomplete combustion detection set value Sca and detects incomplete combustion, the control unit 4 closes the on-off valve 15 and the proportional valve 16 respectively. When the abnormality notification lamp 22 is turned on and a ventilation message is notified by the speaker 21, and then the detection voltage Vc of the CO sensor 17 becomes lower than the set value Scr for standby release during incomplete combustion, the abnormality notification lamp 22 is turned off, the blower 5 is stopped, and after the sensor stop process is executed, the process returns (steps # 20 to 23, 18, 19, and 11).
That is, when incomplete combustion is detected, the operation start command by the operation switch 20 is not accepted until the detection voltage Vc of the CO sensor 17 becomes lower than the incomplete combustion standby release setting value Scr, and the gas fan The heater operation cannot be resumed.

[Another embodiment]
Next, another embodiment will be described.
(A) In the above embodiment, when the control unit 4 detects the fuel leak in the fuel leak detection process, the detection voltage Vm of the combustible gas sensor 3 is set after the on-off valve 15 and the proportional valve 16 are closed. The operation of the blower 5 is continued until the set value Smr for standby release at the time of fuel leakage becomes lower. However, after the on-off valve 15 and the proportional valve 16 are closed, if the set time for post purge elapses, the combustibility is increased. The blower 5 may be stopped regardless of whether or not the detection voltage Vm of the gas sensor 3 is lower than the set value Smr for standby release at the time of fuel leakage.
Further, when the control unit 4 detects incomplete combustion in the incomplete combustion detection processing, the detection voltage Vc of the CO sensor 17 is used for canceling the standby state during incomplete combustion after the on-off valve 15 and the proportional valve 16 are closed. The operation of the blower 5 is continued until it becomes lower than the set value Scr. However, when the post-purge set time elapses after the on-off valve 15 and the proportional valve 16 are closed, the detection voltage Vc of the CO sensor 17 is reduced. You may comprise so that the air blower 5 may be stopped regardless of whether it becomes lower than the setting value Scr for standby release at the time of incomplete combustion.

(B) When providing connection state detection means for detecting whether the supply source side connection tool 30 and the device side connection tool 40 are connected or not connected, the specific configuration of the connection state detection means is as described above. It is not limited to the connection detection switch 28 illustrated in the embodiment.
For example, the device-side connector 40 is provided with a pair of terminal portions, and the pair of terminal portions are electrically connected to the supply-source-side connector 30 in a state where it is normally connected to the device-side connector 40. A connection state detecting means may be configured by providing the conduction portion to be connected and the pair of terminal portions and the conduction portion.

( C ) The specific configuration of the alarm means A that outputs information indicating that ventilation is promoted when a fuel leak or incomplete combustion is detected is limited to a configuration including the speaker 21 as exemplified in the above embodiment. It is not a thing. For example, a display device that displays and outputs a message indicating that ventilation is encouraged or a lamp may be provided. Moreover, you may comprise including any two or all of the speaker 21, a display apparatus, and a lamp | ramp.

(D) In the above embodiment, it is provided both the combustible gas sensor 3 and the CO sensor 17, may be provided only combustible gas sensor 3.

( E ) The types of the combustible gas sensor 3 and the CO sensor 17 are not limited to the semiconductor type as exemplified in the above-described embodiment. For example, various types such as a catalytic combustion type, an infrared type, an electrochemical type, etc. Sensors can be used.

( F ) In the above-described embodiment, the case where the present invention is applied to an open-type combustion apparatus including the burner 1 that uses gas fuel as the fuel has been illustrated. However, the present invention includes the burner 1 that uses liquid fuel as the fuel. The present invention can also be applied to an open-type combustion device. In this case, the concentration of the gas obtained by vaporizing the liquid fuel is detected by the combustible gas sensor 3.
In addition, when the present invention is applied to an open combustion apparatus equipped with a burner 1 that uses gas fuel as fuel, the gas fuel is not limited to city gas mainly composed of methane, and may be propane gas, for example.

( G ) The present invention can be applied to various open combustion devices such as a gas stove, an oil fan heater, an oil stove, and a hot water supply device in addition to the gas fan heater exemplified in the above embodiment.

As described above, it is possible to provide an open combustion equipment which can further improve the safety against the leakage may fuel.

1 burner 2 ignition means 3 gas sensor 4 control unit 5 blower means 8 inlet 9 air outlet 10 casings grayed
2 0 Operation command means 28 Connection state detection means 30 Supply side connector 40 Equipment side connector A Alarm means V Fuel interrupting means

Claims (5)

A burner for burning the supplied fuel;
Ignition means for igniting the burner; and air blowing means for supplying combustion air to the burner;
Fuel intermittent means that can be switched between a fuel supply state for supplying fuel to the burner and a fuel supply stop state for stopping the supply of fuel to the burner;
A gas sensor for outputting a density corresponding signal corresponding to the gas concentration of the flammable gas is sensitive to flammable gas,
An opening provided with a control means for executing an ignition process for operating the blower means, operating the ignition means and switching the fuel intermittent means to the fuel supply state when the operation start means is instructed to start operation. Type combustion equipment,
A device-side connector for receiving gas fuel to the burner in a state where the source-side connector attached to the gas fuel supply source is detachable and the source-side connector is connected;
Connection state detection means for detecting whether the supply source side connection tool and the device side connection tool are in a connected state or in a disconnected state is provided,
When the control means detects the leakages the fuel concentration corresponding signal of the gas sensor becomes a high signal gas concentration than the abnormality detecting preset value for detecting leakages fuel, the said fuel disconnecting means supply After switching to the stop state, the gas sensor concentration correspondence signal becomes a signal whose gas concentration is lower than the standby release setting value set to the concentration correspondence signal whose gas concentration is equal to or lower than the abnormality detection setting value. Until the combustion start of the burner is prohibited , and when the fuel leakage is detected, again after the change from the connected state to the disconnected state is detected by the connected state detecting means An open-type combustion device configured to prohibit the start of combustion of the burner until it is detected as being in the connected state . Said control means, said Upon detection of leakages fuel, until said concentration corresponding signal of the gas sensor becomes a low signal gas concentration than the dequeue set value, is configured to continue the operation of the blowing means The open combustion apparatus according to claim 1. Operating said control means, when the operation start is commanded by the operation command means, activating the gas sensor so as to a detectable state capable of sensing the gas sensor combustible gas, by the operation command means It stops when stop commanded operation of the gas sensor, when it detects leakages the fuel switching the fuel disconnecting means to said supply stop state is configured to maintain the gas sensor to the detection state The open-type combustion apparatus according to claim 1 or 2. When the control unit detects the leakages the fuel, open burning appliance as claimed in any one of claims 1 to 3, an alarm unit for outputting information indicating that encourage ventilation is provided. The burner is provided in a casing provided with an inlet and an outlet;
The air blowing means supplies the air outside the casing sucked through the air inlet as combustion air to the burner and ventilates the combustion gas of the burner from the air outlet to the outside of the casing. Provided in
The open-type combustion according to any one of claims 1 to 4, wherein the gas sensor is provided in or near the intake port so as to be sensitive to a combustible gas in the air sucked through the intake port. machine.

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