KR100474974B1 - working memory appatus for boliler - Google Patents

Abstract

The present invention enables to send and receive signals between the control means of the boiler and the microcomputer of the indoor controller by wire to obtain data on the boiler operating condition in case of power failure or failure to determine the exact cause of failure and the location of the repair. The present invention relates to a boiler operating status storage device which can facilitate replacement and replacement of parts in case of boiler failure.

Description

Boiler Operation Status Storage {working memory appatus for boliler}

The present invention relates to a boiler operating status storage device, and more particularly, it is possible to send and receive signals between the control means of the boiler and the microcomputer of the indoor controller by wire to obtain data on the boiler operating status in case of power failure or failure in the storage unit. The present invention relates to a boiler operating status storage device that enables easy replacement and replacement of parts in the case of a boiler failure since it is possible to determine an accurate cause of failure and a failure part during repair.

In general, the boiler is equipped with a main control means in the boiler body to operate according to the operating conditions of the boiler and the set temperature of the temperature controller installed in the room.

However, such a conventional boiler has a problem that it is difficult to easily repair because the process of checking the cause of repair and failure is complicated and requires a lot of repair time since the entire boiler must be checked in order to identify the cause of the failure in case of failure.

The present invention is to solve such a conventional problem, the purpose is to transmit and receive signals by wire between the control means of the boiler and the microcomputer of the indoor controller to store the data on the operation status of the boiler in case of power failure or failure. It is to make it easy to replace and replace parts in case of boiler failure because it can determine the exact cause of failure and the part of failure during repair.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, working effects, and the like of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment, Various changes and modifications are possible within the scope without departing from the technical spirit of the present invention, as well as other equivalent embodiments will be found.

The present invention relates to a boiler for recording information data related to the combustion state in general, as shown in Figure 1 is connected to a control means (not shown) for controlling the operation of the entire boiler as shown in FIG. Boiler state storage control means that can save information data about boiler state and output it by request while transmitting and electrical signals to each other is connected as follows.

The boiler state storage control means processes the input signal and outputs a microcomputer 7 for outputting a control signal to display an abnormal state of the boiler at the output stage, and an output for displaying the operating status of the boiler output from the microcomputer 7. The display unit 9 is connected to a storage unit 10 for recording and reading the operating state-related data of the boiler output from the microcomputer 7.

The microcomputer 7 has an indoor temperature setting unit 4 for adjusting an indoor temperature at an input terminal, a water temperature setting unit 5 for adjusting a hot water temperature of a boiler, and a temperature sensing unit 6 for detecting an indoor temperature. Is connected.

In addition, the microcomputer 7 includes a power supply unit 3 for applying power to an input terminal, a wired receiver 1 for receiving an electric signal from the main control means of the boiler, and a wired transmitter for outputting an electric signal to the main controller means of the boiler ( 2) is connected.

Here, the wired receiver 1 transmits the signal transmitted from the main controller of the boiler in the form of a pulse through the diode D1 through the coupling capacitor C1 and the resistor R2 through the current limiting resistor R3 through the transistor Q1. ) Is connected to drive.

The signal amplified and sine through the pull-up resistor R4 by the driving of the transistor Q1 is input to the microcomputer 7. Resistor R1 removes noise (noise) included in the signal input at the boiler main controller.

In addition, diodes D1 and D3 remove the negative voltage at which the signal is generated via coupling capacitor C1.

The wired transmitter 2 transmits various data transmitted from the microcomputer 7 through the resistor R6 as a digital signal and transmits the transmitted signal to the control means of the boiler via the current limiting resistor R5. . The diode D4 is a passage of the power supply in a line using the power supply and the signal at the same time, and is a rectifying diode for maintaining a constant potential difference between the ground and the transmission signal.

The power supply unit 3 is different from the receiver unit 1, which interprets the signal through the diode D1, which is the receiver of the indoor controller, and the power supply and the signal transmitted from the control means of the boiler through the capacitor C1 and the resistor R2. One side is maintained at a constant voltage through the constant voltage IC (IC2) via the diode (D2) and used as a power supply means.

The electrolytic capacitors C2 and C3 are for voltage smoothing, and the rectifier diode D2 is for preventing voltage fluctuation due to the transmission signal of the boiler control means included in the input power line LINE.

The indoor temperature setting unit 4 is connected to the variable resistor VR1, and the microcomputer 7 recognizes the indoor temperature setting value according to the operation position of the variable resistor VR1. This function is to maintain a constant room temperature. Resistor R7 is a variable resistor and a voltage divider resistor of VR1.

The water temperature setting unit 5 is for arbitrarily setting the water temperature of the boiler circulated to the room, and recognizes the water temperature setting value in the microcomputer 7 according to the operation position of the variable resistor VR2 and transmits the value to the control means. The control means receives the water temperature setting value and controls the water temperature of the boiler to a predetermined temperature.

The resistor R8 is a voltage dividing resistor with the variable resistor VR2.

The temperature sensing unit 6 senses the indoor temperature and is connected to a negative temperature characteristic (NTC) thermistor (TH) whose resistance value changes as the temperature changes, and the microcomputer (7) is connected to the resistor (R9) and thermistor. It is connected to detect the divided voltage value with (TH) and convert it to temperature.

The button input unit 8 is a button for inputting various data such as indoor, sleeping, going out, bathing, reservation, power on-off control and water temperature, combustion state of the control means.

The resistor R10 and the resistor R11 are connected to a plurality of resistors and buttons, and each time the buttons are pressed, the microcomputer 7 detects the partial pressure value to determine the function of the button.

The output display unit 9 is composed of a numeric display or a lamp, and is made of a component for visually displaying various functions, temperature and boiler conditions, and a self-diagnosis function in case of failure.

The storage unit 10 is composed of EEPROM, and stores various functions and maintains various data values normally even when power is reapplied after a power failure. In particular, when the boiler breaks down, the breakdown content and the combustion state are received from the wired transmission / reception unit (1) (2) of the control means and stored in the storage unit (10) sequentially and then used for failure, repair and inspection. .

Referring to the effects of the present invention configured as described in detail as follows.

The present invention relates to a device for storing the data on the operation status of the boiler as information and to be able to check when the failure, as shown in Figure 1 the control means inside the boiler and the boiler state recording control means mutual signal By exchanging the error condition, the recorded boiler status is output to determine the cause of the failure.

The boiler state recording control means first operates by receiving a stable power supply by the power supply unit 3 on the basis of the microcomputer 7, and displays various functions, temperature and boiler state, etc., on the output display unit 9 of the output stage. It will be indicated by a flashing light, and it will indicate a failure in case of failure. In addition, the storage unit 10 of the output terminal of the microcomputer 7 may store various functions in EEPROM in real time in the operating state of the boiler, and thus the stored data may be used as it is even after a power failure. In particular, the storage unit 10 is to receive and store the failure details and combustion state from the control means of the boiler when the boiler breaks down and to be used in the subsequent failure and repair or inspection.

Here, the microcomputer 7 receives a signal transmitted from the control means for the operating state of the boiler and receives the wired receiver 1, where the wired receiver 1 resists noise components in the electrical signal output from the boiler control means. The signal is amplified and sine through the transistor Q1 by removing the negative voltage generated from the coupling capacitor C1 by the diode D1 and D3. So that it can be stored in Eipirom.

On the contrary, the microcomputer 7 transmits the data stored in the IPIROM of the storage unit 10 through the wired transmitter 2 when a data output is requested from the boiler control means in the event of a power failure or failure of the boiler.

Meanwhile, the microcomputer 7 adjusts the variable resistance VR1 of the room temperature setting unit 4 and the variable resistance VR2 of the water temperature setting unit 5 by controlling the indoor and hot water of the user who uses the boiler. The sensing temperature value of the temperature sensing unit 6 is to be controlled so that the indoor temperature and the water temperature accuracy value match.

The present invention acting as described above allows signals to be transmitted and received between the control means of the boiler and the microcomputer of the indoor controller to obtain data on the operation status of the boiler in case of power failure or failure from the storage unit, thereby correcting the cause of failure and the location of the failure. Since it can be determined, it is easy to replace and replace parts in case of boiler failure.

1 is a circuit diagram of an apparatus capable of storing a boiler operating state according to an embodiment of the present invention.

Code descriptions for the main parts of the drawings

1; wired receiver 2; wired transmitter

3; power supply unit 4; room temperature setting unit

5; water temperature setting unit 6; temperature detection unit

7; microcomputer 8; key input unit

9; output display section 10; storage section

Claims (5)

A microcomputer 7 which is connected to the control means of the boiler and outputs a control signal so as to display an abnormal occurrence state of the boiler, an output display unit 9 which displays the operating state of the boiler output from the microcomputer 7, and the A storage unit 10 for recording and reading the operating state related data of the boiler output from the microcomputer 7 and an indoor temperature setting unit connected to the microcomputer 7 input terminal for adjusting the indoor temperature; 4), a water temperature setting unit 5 connected to the input terminal of the microcomputer 7 to adjust the hot water temperature of the boiler, and a temperature sensing unit 6 connected to the input terminal of the microcomputer 7 to sense room temperature. And, the power supply unit 3 for applying power to the input terminal of the microcomputer (7), the wired receiving unit (1) connected to the input terminal of the microcomputer (7) for receiving an electrical signal to the control means of the boiler, and the microcomputer (7) Connected to the output of the boiler Boiler operation status storage device comprising an wire transmitter (2) for outputting an electric signal to the main control unit. According to claim 1, wherein the wired receiving unit (1) is a signal transmitted from the main controller of the boiler in the form of a pulse through the diode (D1) via the coupling capacitor (C1) and the resistor (R2) current limiting resistor (R3) Through the transistor Q1 is connected through, the signal amplified and sine through the pull-up resistor R4 by the driving of the transistor Q1 is input to the microcomputer 7, the resistor R1 is a signal from the boiler control means. Boiler operating state storage device connected to remove the noise contained in the input. 3. The boiler operating condition storage device according to claim 2, wherein the diodes (D1) and (D3) are connected so as to remove a negative voltage from which a signal is generated through the coupling capacitor (C1). 2. The wired transmitter (2) according to claim 1, wherein the wired transmitter (2) drives the transistor (Q2) via a resistor (R6) as a digital signal and transmits the data through a current limiting resistor (R5). The boiler operating status storage device is transmitted to the control means of the boiler, the passage of the power in the line using the power and the signal at the same time, the rectifier diode (D4) is connected to maintain a constant potential difference between the ground and the transmission signal. According to claim 1, The storage unit 10 is built in the internal EEPROM (EEPROM) is to store the various functions, even when the power is re-applied after power failure to maintain the various data values are normally maintained boiler In the event of a failure, the contents of the failure and the combustion state are received from the wired transmission / reception unit (1) and (2) of the control means in order to be stored in the storage unit 10, and then connected to be utilized for failure and repair and inspection. Operational Status Storage.