KR0131502Y1 - Gas boiler having auto-recovery system when error factors are resolved - Google Patents

Abstract

The present invention diagnoses the self-diagnosis when an error factor that prevents the normal operation of the gas boiler is displayed to the user, and when the error factor is solved, the gas with the automatic return function is released when the error factor is automatically operated. A boiler comprising: a gas boiler having a self-diagnosis function, comprising: an input signal sensing means for detecting an abnormal state of an operation state when a gas boiler is driven and outputting a sensing signal therefor and a sensing signal output from the input signal sensing means; On the basis of the error determination, as well as the control means for driving the overall device accordingly, if the error source is detected by the input signal detection means to output the corresponding error message according to a predetermined control command from the control means Hot water and heater according to the display means and the control command of the control means It is configured to include an operation execution unit for performing a function and the control means is characterized in that the drive control the entire apparatus to execute the next scheduled operation when the error factor is released.

Description

Gas boiler with automatic return function when canceling error factor

1 is an internal block diagram of a gas boiler having a conventional self-diagnosis function.

Figure 2 is a flow chart showing the operation of the gas boiler with an automatic return function when the error cancellation according to an embodiment of the present invention.

3 is a flowchart illustrating an initial error checking step of FIG. 2 according to an embodiment of the present invention.

4 is a diagram showing a conventional self-diagnosis operating state to the outside.

* Explanation of symbols for main parts of the drawings

1: Water temperature sensor 2: Overheat prevention sensor

3: wind pressure sensor 4: waste sensor

5: Setting temperature control sensor 6: Water flow sensor

7: flame detection sensor 10: input signal detection unit

20: micom 30: operation execution unit

31: exhaust fan 32: circulation pump

33: gas burner 34: igniter

40: freeze protection 41: operation indicator

42: operation indicator 43: status indicator

50: relay control unit 60: relay

70: power supply 80: test switch

The present invention relates to a gas boiler, and in particular, when an error factor that interferes with the normal operation of the boiler occurs, the self-diagnosis is displayed and displayed to the user. The present invention relates to a gas boiler with automatic return function.

The prior art will be described with reference to the accompanying drawings.

1 is a block diagram showing the internal structure of a gas boiler incorporating a microcomputer with a conventional self-diagnosis function. Reference numeral 10 denotes a water temperature sensor 1 for sensing the temperature of water in the gas boiler as an input signal detection unit, and a gas boiler. Overheat prevention sensor (2) for detecting the overheat of the exhaust fan, wind pressure sensor (3) for detecting the air pressure difference across the exhaust fan, waste sensor (4) for detecting the waste due to the water pressure difference between the both ends of the circulation pump and set by the user It consists of a set temperature control sensor (5) for sensing the temperature, a water flow sensor (6) for detecting the flow of water in the gas boiler, and a flame sensor (7) for detecting the presence or absence of a flame.

In addition, reference numeral 20 is a microcomputer for controlling the overall operation of the apparatus based on the signal data detected by the input signal detecting unit 10, 30 is an operation execution unit as an exhaust fan for emitting exhaust gas after combustion ( 31), a circulation pump 32 for circulating the heated hot water, a gas burner 33 for adjusting the amount of gas supplied to the combustion chamber, and an ignition device 34 for ignition.

Reference numeral 40 is a freeze arrester which is attached to the tube surface inside the gas boiler and detects the possibility of freezing of the gas boiler by sensing the temperature of the tube surface, and 50 is based on the signal data detected by the moving wave detector 40. Relay drive unit for intermitting relay 60 to be described later, 60 is turned on / off the driving power for the freeze protection supplied from the power supply device 70 to each system in accordance with the drive control signal output from the relay drive unit 50 Relay configured to be off.

That is, in the gas boiler with the conventional self-diagnosis function configured as described above, if an error element that is not suitable for the operation of the gas boiler is detected by the input signal detecting unit, an error is displayed to the user through the status indicator 43. After notification, the operation is stopped. In some cases, transient transients occurring during the initial operation of a normal boiler are mistaken as an error factor.

On the other hand, the user may not only have to operate the error factor that can be eliminated after a predetermined time has elapsed without the user's operation, but the user may have to perform the device operation again from the beginning when restarting.

Therefore, the present invention was devised in view of the above circumstances, and when an error occurred during the normal operation of the gas boiler and the erratic factor was solved, it was detected and automatically returned to the next step to operate normally. The object of the error that can eliminate the trouble of the user having to re-manually is to provide a gas boiler with an automatic return upon release.

According to an aspect of the present invention, there is provided a gas boiler with a self-diagnosis function, comprising: an input signal detecting means for detecting an abnormal state of an operation state when driving the gas boiler and outputting a detection signal thereto; Control means for determining whether an error is based on a detection signal output from the input signal detection means, and accordingly driving control of the entire apparatus; Status display means for outputting a corresponding error message according to a predetermined control command from the control means when an error source is detected by the input signal detecting means; And an operation execution unit for performing hot water and heating according to a control command of the control means, wherein the control means drives and controls the entire apparatus to execute the next scheduled operation when the error factor is released. .

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

According to the present invention according to the above configuration, when an error factor that causes a failure in the normal operating frame of the boiler occurs, the self-diagnosis is displayed to the user, and when the error factor is solved, the boiler can be automatically operated normally. Will be.

The construction of the present invention is the same as that shown in FIG. 2 is a view for explaining the control operation of the microcomputer embedded in the gas boiler with an automatic return function when the error cause is released according to an embodiment of the present invention, Figure 3 is an initial error check step (ST2) of FIG. 4 is a diagram for displaying a conventional self-diagnostic operation state to the outside.

In FIG. 2, step ST1 is a mode selection step in which the user selects one of the hot water mode, the heating mode, and the neutral board by operating a three-stage switch. At this time, when the hot water mode is selected by the user in the mode selection step ST1, as shown in FIG. 3, the initial error checking step ST2 for determining the condition of the initial state is executed.

On the other hand, as shown in FIG. 3, in step ST2, when the gas boiler operates normally and the air pressure difference is generated between the exhaust fans before the exhaust fan is driven, it is determined whether the wind pressure switch is on. After stopping the operation of the gas boiler and outputting the error message A1 to the status indicator 43, the process returns to the step ST101 again to determine the barometric pressure difference between the exhaust fans at atmospheric pressure through the chimney. When the corresponding error factor is removed by this, the error message output through the status indicator 43 is released and normal operation is performed to automatically return to the next step ST102.

Thereafter, through the steps ST102, ST103, and ST104, the state of the water temperature sensor and the temperature setting state by the user are judged, and if an error occurs, the error message Ab, Ac, Ad) is output and the operation stops.

In step ST105, the differential pressure between both ends of the circulation pump is sensed to determine whether the waste switch is in an on state, and if it is on, the operation of the gas boiler is stopped and an error message A3 is output through the status indicator 43. After returning to the step ST105, the waste switch is judged to be on / off again. When the waste switch is normally operated and the hydraulic pump is removed from both ends of the circulation pump, the gas boiler is operated normally to the next scheduled stage. It consists of the steps of automatic return.

Thereafter, in step ST110, the flow of water is detected through the water flow sensor 6, in which case, if the flow of water is not detected, the flow returns to step ST110, and when the flow is detected, the air pressure pump is turned on. Proceed to step ST4.

On the other hand, if the heating mode is selected by the user through the same process as in the above-described step (ST2) it is determined whether the indoor controller in the on state in step (ST3), if the off state returns to step (ST3) Is in the standby operation state, the user compares the set temperature set by the set temperature control sensor (5) with the sensor temperature detected by the water temperature sensor (step ST4). The exhaust fan is driven (step ST5), and when the sensor temperature is set, the flow returns to step ST4 to enter the operation standby state.

Subsequently, in step ST6, the air pressure difference between the both ends of the exhaust fan driven in the step ST5 is sensed through the wind pressure sensor 3 to stop the operation of the gas boiler and the status indicator ( 43, an error message A2 is outputted, and the process returns to step ST6. For example, when a predetermined time has elapsed and the air pressure difference across the exhaust fan reaches a predetermined value or more, the error message output from the status indicator 43 is output. After releasing, the gas boiler operates normally and automatically returns to the next step ST7 to proceed. In addition, if it is in the ON state, it is determined whether the on / off state of the waste switch and the flame is detected through the steps ST7 and ST8 and if the waste switch is not in the ON state for 30 minutes (ST7). After repeating the operation, if the waste switch is turned off, the gas boiler stops operation and outputs an error message (A5). If a flame is detected, the error message (A7) is output to the status indicator (43). After outputting, the system will stop.

After the above process, the igniter is driven (step ST9), and after 2 seconds, the governor is driven (step ST10). After the above steps (ST9, ST10), the flame is detected again and the flame is not detected. After outputting the error message (A6) through 43), the operation is stopped, and when a flame is detected, normal combustion (step ST12) is performed. Then, the set temperature is again compared with the set temperature by the sensor temperature. If abnormal, the temperature comparison (step ST13) is continued, and if the set temperature is lower than the sensor temperature, the governor is turned off (step ST14). After determining whether the flame is detected, if the flame is detected, stop the gas boiler operation and output the corresponding error message (A8) to the status indicator 43, and if the flame is not detected, compare the set temperature with the sensor temperature (step If the set temperature is higher than the sensor temperature, the process returns to step ST4 and the gas boiler is restarted. If the set temperature is lower than the sensor temperature, the step ST16 is repeatedly performed for 30 seconds. After the elapse of seconds, the exhaust fan is turned off (step ST18).

After the step ST18, if the set temperature is compared with the sensor temperature again, if the set temperature is equal to or higher than the sensor temperature, the process returns to the step ST4, and if the gas boiler is restarted, the controller is turned on if the set temperature is lower than the sensor temperature. The on / off state is determined (step ST20), and if it is on, the process returns to step ST19 to execute step ST19, and if off, the operation of the gas boiler is stopped.

On the other hand, when the user selects the neutral mode in the step (ST1), the gas boiler is not in operation but in the standby state, in this case is attached to the tube surface inside the gas boiler to determine the possibility of freezing on the basis of the tube surface temperature When freezing possibility is detected by the water temperature sensor 1 that determines the freezing possibility based on the temperature of the freezing blocker 40 or watering (step ST50), an error message (error 9) is outputted through the status indicator 43. At the same time, the power source and the heater are turned on (step ST51) to operate the gas boiler, and then the process returns to the step ST4.

As described above, according to the present invention constituted as described above, if the element is not suitable for normal operation during the initial operation of the gas boiler, the gas boiler is stopped and the user is notified of the error. If it is removed, the error message output to the status indicator 43 is released and the gas boiler performs normal operation and executes the next scheduled step, so as to eliminate the trouble of having to restart the user by operating the device in case of an error. It is possible to realize a gas boiler with automatic return function when the error factor is eliminated.

On the other hand, the present invention is not limited to the above embodiment, it can be variously modified within the scope without departing from the technical gist of the present invention.

Claims (1)

A gas boiler with a self-diagnosis function, comprising: an input signal detecting means for detecting an abnormal state of an operation state when a gas boiler is driven and outputting a detection signal thereto; If an error factor is detected based on the detection signal output from the input signal detecting means, and if an error factor is detected, the overall operation of the apparatus is stopped by controlling the entire drive according to the error factor. When the error factor is released, the gas boiler is deactivated. Control means for driving control of the entire apparatus to perform a normal operation by carrying out a normal operation; Status display means for outputting a corresponding error message according to a predetermined control command from the control means when an error factor is detected by the input signal detecting means, and automatically releasing the error message when the error factor is released; And an operation execution unit for performing hot water and heating according to a control command of the control means.