KR20070031681A - Automatic Operation Test Control Method and System of Boiler - Google Patents

Abstract

According to the present invention, when the power is supplied, checking whether a detection signal is input from the low water level sensor, switching to a normal mode when a detection signal is input from the low water level sensor, and if the detection signal is not input from the low water level sensor, trial run It relates to a method for controlling automatic commissioning of a boiler consisting of a step of executing a mode and a control apparatus according to the same.

In addition, after checking the configuration of the boiler and whether the pipes are frozen, in the case of a freezing state, a freezing error message is output, and when not in the freezing state, the check signal is input from the low water level sensor. After checking whether the remote control is connected to the operating mode when connected to the normal mode, and if the remote control is not connected or does not operate in the connected state, the test run further comprises checking whether the detection signal is input from the low water level sensor It relates to a method for controlling automatic commissioning of a boiler consisting of a step of executing a mode and a control apparatus according to the same.

Therefore, when power is applied to the boiler when the boiler is first installed, the boiler automatically performs a commissioning operation so that it is possible to quickly check whether the boiler is abnormal, as well as to replace the boiler when the boiler is abnormal. It is intended to be easy to repair.

Therefore, it is a very useful invention such that the convenience in use is improved and the merchandise is more improved.

Boiler, Commissioning, Power Supply, Water Level Sensor, Control Module, Buzzer, Speaker

Description

Automatic Operation Test Control Method and System of Boiler

1 is a flow chart for the automatic commissioning control method of the boiler according to the present invention.

Figure 2 is a block diagram of the automatic commissioning control device for a boiler according to the present invention.

Explanation of symbols on the main parts of the drawings

10: power supply unit 20: detection unit

21: water level sensor 30: operation input unit

40: storage unit 50: control module

60: drive means 70: output means

The present invention relates to a method and apparatus for controlling automatic commissioning of a boiler. More particularly, when power is applied to the boiler during initial installation of the boiler, the boiler automatically performs a commissioning operation, thereby causing abnormality of the boiler. It can be quickly confirmed, of course, to facilitate the replacement and repair of the boiler in the event of a failure of the boiler.

In general, a boiler refers to a facility that boils water to supply hot water to a heating facility. In the case of a home boiler, hot water is supplied to a pipe installed on the floor of a room to heat or supply hot water through a water pipe. It is being used.

Such a boiler is first installed during the construction of a house, or when a new boiler is installed due to the aging of a used boiler, a trial run is performed to check the operating state of the installed boiler.

However, in the trial operation of the boiler as described above, the boiler is inconvenient to be commissioned only after the installer completes the installation of the boiler by pressing a switch for operating the trial operation mode.

In addition, if it is impossible to execute the trial run mode due to a mistake of the installer, the user may not check whether the boiler is abnormal, and if an abnormality occurs after the installation of the boiler, the after-service should be applied for repair of the boiler. There is an inconvenience, there was a problem that can not use the boiler until the repair of the boiler is completed.

Accordingly, an object of the present invention is to solve the above-mentioned problems. When power is supplied to the boiler during initial installation of the boiler, the boiler automatically performs a commissioning operation, thereby quickly detecting whether the boiler is abnormal. Of course, to provide a method and apparatus for automatic commissioning control of the boiler to facilitate the replacement and repair of the boiler in the event of abnormality of the boiler.

Another object of the present invention is to provide a method and apparatus for automatic commissioning control of a boiler to improve the convenience of use and to improve the marketability.

The automatic start-up control method of the boiler according to the present invention for achieving the above object, when the full power is supplied, checking whether the detection signal is input from the low water level sensor, and when the detection signal is input from the low water level sensor to the normal mode When switching and if the detection signal is not input from the low water level sensor, characterized in that consisting of the step of executing a trial run mode.

In addition, the automatic commissioning control apparatus of the boiler according to the present invention for achieving the above object, and comprises a power supply for supplying electrical energy for the operation of the boiler, and a water level sensor for detecting the low water level of the water tank and A sensing unit for detecting a temperature of the heating water and whether the heating water is heated, an operation input unit for receiving the operation of the boiler by the user, a control algorithm such as a test operation mode of the boiler, a general operation mode, and the like. A storage unit for storing setting information such as heating water temperature set by the controller; and analyzing the signals input to the power supply unit, the sensing unit, and the operation input unit, and storing the setting information input to the operation input unit in the storage unit. A control module for outputting a control signal for controlling the operation of the boiler according to the analysis result; Wherein the drive means operated by the fish signal and the output means for outputting a control result by the control signal output from the control module, wherein the control module, when electrical energy is supplied from the power supply, Check whether the detection signal output from the water level sensor for low water level detection is input, and if the detection signal is not input from the water level sensor, control the driving means according to the trial run mode stored in the storage unit. It is done.

Therefore, when power is applied to the boiler during the initial installation of the boiler, the boiler automatically performs a commissioning operation, it is possible to quickly check whether the boiler abnormality.

In addition, the ease of use is improved, and the merchandise is more improved.

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

1 is a flowchart illustrating a method for controlling automatic commissioning of a boiler according to the present invention. After installing a boiler, when power is applied to the boiler (S101), a control device (control module installed in the boiler itself) installed in the boiler is The freezing state of the various pipes installed inside and outside the boiler is checked (S102).

Here, the method for confirming the frozen state may be variously applied according to the needs of those skilled in the art, and therefore it is not limited to the specific one.

As a result of checking the freezing state, when the various pipes installed inside and outside the boiler are blocked by freezing, that is, completely frozen (S103), the freezing error message is output.

Here, the freeze error message may inform the user as visual or auditory information through a liquid crystal display (LCD), a light emitting diode (LED), a buzzer, a speaker, and the like.

If the various pipes installed inside and outside the boiler are not completely frozen (S103), the controller checks the electrical connection state of the wired / wireless remote controller for controlling the operation of the boiler (S104).

Checking the connection state of the wired / wireless remote controller is to check this because it is not necessary to perform a trial run when the supply of electric energy is temporarily stopped due to external factors (such as power failure) during the use of the boiler.

That is, if the remote control is operating in a connected state (S105), it is determined that the supply of electrical energy is resumed after a short pause during the use of the boiler, the boiler is operated in the normal mode.

If the remote controller is not connected (S104), or does not operate in a connected state (S105), it is determined as the initial installation of the boiler, to check whether the detection signal is input from the low water level sensor installed in the water tank (S106). do.

At this time, by receiving the signal from the low water level sensor for a predetermined determination time (S107), in determining whether the operation of the trial run mode, it is possible to prevent the malfunction of the test run mode due to the detection of the low water level sensor in advance.

Here, the setting of the low water level sensor and the determination time can be variously applied according to the needs of those skilled in the art, and therefore it is not limited to a specific device and time.

When the detection signal is not input from the low water level sensor so that the determination time elapses, that is, when it is determined that there is no water stored in the water tank (S108), it is determined that the boiler is first installed and the test operation mode is executed (S109). )

Here, the test run mode includes a function of automatically supplying water to the water tank, and may be configured to manually supply water according to the needs of those skilled in the art.

If the detection signal is input from the low water level sensor (S108) within the determination time, it is determined that water is stored in the water tank to execute the general mode of the boiler.

2 is a block diagram of the automatic commissioning control device of the boiler according to the present invention, the power supply unit 10, the sensing unit 20, the operation input unit 30, the storage unit 40, the control module 50, driving Means 60 and output means 70.

The power supply unit 10 supplies electrical energy for the operation of the boiler, and informs the control module 50 of the power supply to each electric and electronic component of the boiler through the power supply unit 10. .

Here, the power supplied through the power supply unit 10 is also supplied to the control module 50, when the control module 50 is operated by receiving electric energy, it is determined that the power is supplied to the boiler. You can do that.

The detection unit 20 is a water level sensor 21 for detecting the low water level of the water tank, a temperature sensor 22 for detecting the temperature of the heating water and direct water, to determine whether the heating means installed in the boiler It is configured to include a flame sensor 23 for the detection, the detection signal of each of the sensors are transmitted to the control module 50.

In addition, since the type and performance of each sensor are variously applied according to the needs of those skilled in the art, of course, it is not limited thereto.

The operation input unit 30 is for receiving the operation of the boiler by the user, and refers to a control panel and a wired / wireless remote controller installed directly in the boiler.

The storage unit 40 is a ROM (Read Only Memory) for storing control algorithms such as a test operation mode, a general operation mode of the boiler, and EPPROM (Electrical Erasable Programmable) for storing setting information such as a heating water temperature set by a user. ROM) and random access memory (RAM), which is a temporary storage for arithmetic processing.

The control module 50 analyzes signals input to the power supply unit 10, the sensing unit 20, and the operation input unit 30, and stores the setting information input to the operation input unit 30 in the storage unit 40. ) And to output a control signal for controlling the operation of the boiler according to the analysis result. The control module 50 outputs the control signal according to the flowchart shown in FIG. 1.

The driving means 60 is operated by the control signal output from the control module 50 to operate the heating and hot water supply of the boiler, the three-way drive unit for switching the piping system according to the supply of heating or hot water (61), the pump driving unit 62 for circulating the heating water, the hot water valve driving unit 63 for controlling the supply of hot water, the ignition mechanism driving unit 64 for igniting the heating means for heating the heating water, for fuel combustion And a fan valve 65 for supplying air, a gas valve driver 66 for controlling the supply of gas, and the like.

The output means 70 outputs a control result by a control signal output from the control module 50, and voice or visual information such as an LCD (Liquid Crystal Dispaly), an LED (Light Emitting Diode), a buzzer, a speaker, and the like. It comprises at least one of the output means.

Hereinafter will be described the operating state of the automatic commissioning control device of the boiler according to the present invention configured as described above.

First, after the boiler is installed, when power is applied to the boiler through the power supply unit 10, the control module 50 checks the freezing state of the various pipes installed inside and outside the boiler.

Here, the method for confirming the frozen state may be variously applied according to the needs of those skilled in the art, and therefore it is not limited to the specific one.

As a result of checking the freezing state, when the various pipes installed inside and outside the boiler are blocked due to freezing, that is, completely frozen, the control module 50 transmits a control signal to the output means 70. The output means 70 outputs a freeze error message through an LED, a buzzer or a speaker according to the control signal.

If the various pipes installed inside and outside the boiler are not completely frozen, the control module 50 may be electrically connected to the wired / wireless remote controller for controlling the operation of the boiler, that is, the manipulation input unit 30. Will be confirmed.

If the operation input unit 30 is not connected or does not operate in a connected state, the control module 50 determines that the boiler is initially installed, and from the water level sensor 21 installed in the water tank. It is checked whether a detection signal is input.

When the detection signal from the water level sensor 21 is input to the control module 50, the control module 50 determines that water is stored in the water tank to execute the test run mode of the boiler.

That is, when electric energy is supplied from the power supply unit 10, by checking whether the detection signal output from the water level sensor 21 for detecting the low water level of the water tank is input, from the water level sensor 21. If the detection signal is not input, the driving means 60 is controlled according to the trial run mode stored in the storage unit 40.

The present invention may be modified in various ways without departing from the basic concept according to the needs of those skilled in the art.

As described above, according to the present invention, when power is applied to the boiler when the boiler is first installed, the boiler automatically performs a commissioning operation so that it is possible to quickly check whether the boiler is abnormal, as well as the boiler. When an abnormality occurs, there is an effect to facilitate the replacement and repair of the boiler.

Therefore, it is a very useful invention such that the convenience in use is improved and the merchandise is more improved.

Claims (5)

When the power is supplied, checking whether the detection signal is input from the low water level sensor, Switching to a normal mode when a detection signal is input from the low water level sensor; If the detection signal is not input from the low water level sensor, the automatic commissioning control method of the boiler, characterized in that the step of executing a commissioning mode. The method according to claim 1, After confirming the boiler configuration and piping freezing, If frozen, freeze error message is displayed. When not in the frozen state, the automatic start-up control method of the boiler, characterized in that made to include checking whether the detection signal is input from the low water level sensor. The method according to claim 1 or 2, After checking whether the remote control is connected, If the remote control is working with it connected to the normal mode, When the remote control is not connected or does not operate in a connected state, the automatic start-up control method of the boiler, characterized in that further comprising the step of confirming whether the detection signal is input from the low water level sensor. The method according to claim 3, Checking whether the detection signal is input from the low water level sensor, The automatic commissioning control method of the boiler, characterized in that the step consisting of checking the input of the detection signal during the determination time. A power supply unit 10 for supplying electrical energy for the operation of the boiler, It comprises a water level detection sensor 21 for detecting the low water level of the water tank, the sensing unit 20 for detecting the temperature of the heating water and whether the heating water is heated, and the like; An operation input unit 30 which receives an operation of the boiler by a user; A storage unit 40 for storing control information such as a test operation mode of the boiler, a general operation mode, and setting information such as a heating water temperature set by a user; Analyzing the signals input to the power supply unit 10, the sensing unit 20, the operation input unit 30, and stores the setting information input to the operation input unit 30 in the storage unit 40, A control module 50 for outputting a control signal for controlling the operation of the boiler according to the analysis result; A drive means 60 operated by a control signal output from the control module 50 and In the configuration comprising an output means 70 for outputting a control result by the control signal output from the control module 50, The control module 50, When the electrical energy is supplied from the power supply unit 10, by checking whether the detection signal output from the water level sensor 21 for detecting the low water level of the water tank is input, the detection signal from the water level sensor 21 Is not input, the automatic commissioning control device of the boiler, characterized in that configured to control the drive means (60) according to the trial run mode stored in the storage (40).

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