KR200188227Y1 - An apparatus for detecting the remocon state of a gas boiler - Google Patents

Abstract

The present invention provides a device for detecting the state of the remote control, and the conventional remote control has a selection switch (for example, power selection switch, heating / hot water selection switch, hot water temperature selection switch, heating temperature selection switch, etc.) Since the wires are connected to the main body, the wires to the main body and the remote control need more than 7 and 12 wires. Therefore, there is a problem in that the construction is inconvenient because the wire from the conventional remote control to the main body is thick, and the cost of the product increases as the wire becomes thick.

In order to solve the above problems, the present invention is characterized by providing a device for simplifying the construction by reducing the number of wires between the main body of the gas boiler and the remote control to two lines.

Description

Remote control state detection device for gas boilers {AN APPARATUS FOR DETECTING THE REMOCON STATE OF A GAS BOILER}

The present invention relates to a remote control state detection device of a gas boiler, and more particularly, in order to determine the state of the remote control, the voltage value of the response signal with respect to the resistance value of the remote control is bit-coded, The present invention relates to a device for determining a state of a remote controller.

In general, the main body of the gas boiler is located in the corner of the kitchen or the house, and is located far from the remote control REMOCON which actually controls the gas boiler.

Therefore, the main body and the remote control are connected by wires, and these wires transmit instructions of heating and hot water operated by the remote control to the main body.

Since the conventional remote controller is connected to the main body in one-to-one wires for each selection switch (for example, a power selection switch, a heating / hot water selection switch, a hot water temperature selection switch, a heating temperature selection switch, etc.), the main body and the remote controller are consequently connected. The number of mammary gland strands in between is required to be more than 7 and 12 lines. Therefore, there is a problem in that the construction is inconvenient, and the cost of the product increases because the wire from the conventional remote control to the main body is thick.

In addition, since there is no detection of an abnormal condition of the remote controller, when a problem such as disconnection or connection of the remote controller occurs, the gas boiler microcomputer has been inconvenient to stop the gas boiler system by treating the system as a simple error.

The present invention has been made to solve the problems of the prior art operating as described above, the main object is to provide a device for simplifying the construction by reducing the number of wires between the main body of the gas boiler and the remote control to two lines.

Another object of the present invention is to provide a device for identifying the state of the remote control by using a voltage divided by the pull-up resistor and the resistance with the remote control.

1 is a flow chart for detecting the state of the remote control according to an embodiment of the present invention;

2 is a block diagram of an apparatus for detecting a state of a remote controller according to a preferred embodiment of the present invention;

3 is a detection circuit diagram according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: microcomputer 20: power supply switching unit

30: supply power stabilization unit 40: response signal circuit unit

50: remote control 60: A / D conversion unit

70: ROM data unit 80: remote control state determination unit

DETAILED DESCRIPTION In order to achieve the above object, the present invention will be more clearly described with reference to the accompanying drawings.

According to another preferred embodiment of the present invention, a remote control state detecting apparatus for a gas boiler includes: a microcomputer unit for controlling a gas boiler; a supply power switching unit for switching to receive power from the outside when the power supply from the microcomputer to the remote controller is interrupted; Supply power stabilization unit for rectifying and stabilizing the power supplied from the power supply switching unit, response signal circuit unit for receiving power from the power supply stabilization unit to receive a pull-up resistor and the voltage divided by the resistance of the remote controller And an A / D converter for converting a voltage value received from the response signal circuit unit into a bit value, a ROM data unit for storing data of a bit value previously included in the microcomputer and the A The bit value received from the / D converter and the bit value of the ROM data are compared with each other. It is configured by interconnecting the remote control state determination unit for determining the state.

The present invention may be variously modified and may take various forms and only the specific embodiments thereof are described in the detailed description of the following invention. It is to be understood, however, that the present invention is not limited to the specific form set forth in the following description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the present invention configured as described above are as follows.

1 is a flowchart showing a state of a remote controller according to a preferred embodiment of the present invention.

The remote control state detection of the gas boiler according to the preferred embodiment of the present invention is the first step of supplying power to the MICOM and the remote control REMOCON of the gas boiler, after confirming the supplied power is transmitted from the micom to the remote control A second step of stopping the voltage for a predetermined time (Asec) at a predetermined period (Tsec), a third step of applying a voltage supplied to the remote controller during the stopped time to a pull-up resistor and the remote controller to divide the voltage; And a fifth step of dividing the divided voltage into the microcomputer, and a fifth step of detecting the current state of the remote controller by comparing the re-input voltage with data of a previously input bit.

In addition, in the fifth step of detecting the state of the remote controller by bitting the input voltage, it is preferable that the microcomputer recognizes only when the bittened data changes by 2 or more bits.

That is, the user turns on the power switch and at the same time, power is supplied to the MICOM and the remote controller REMOCON of the gas boiler (S2). After checking the supplied power (S4), a voltage is supplied from the microcomputer to the remote controller. If the power is not confirmed, the microcomputer determines that the remote controller is in an abnormal state and performs emergency operation or error mode operation (S5).

The voltage supplied to the remote controller is composed of a display power supply for the display, an abnormal state display power supply, and a prosecuting power supply, and the voltage is stopped for a predetermined period (Amsec) at a predetermined period (Tmsec) ( S6). Here, the predetermined period (Tmsec) is preferably set larger than a predetermined time (Amsec).

The external power supply Vcc is switched to supply the remote controller to the remote controller during the suspended time Amsec. The switched power is passed to the supply power stabilization unit composed of zener diodes ZD1, ZD2, ZD3 and diodes D1, D2, D3, and rectified. The voltage is applied to the remote controller connected in parallel with the resistor (S8). The divided voltage is re-input to the microcomputer through the response signal circuit (S10).

The resistance value changes according to the input state of the remote controller selected by the user, and the voltage value is divided into the microcomputer according to the resistance value. Therefore, the input voltage value is converted into a bit value, and this conversion (analog value to digital value) is performed by the A / D converter.

At this time, the microcomputer recognizes only when the input voltage value is 2 bits or more as the converted bit value, thereby preventing the case where the state of the remote controller is incorrectly judged by the input value due to an error. In addition, in case of such an error, an error state of the remote controller is displayed to the user and emergency operation is performed according to the error state.

The converted bit values are compared with the bit values stored in the read only memory (ROM). This comparison is made within a predetermined range, which in turn makes it possible to determine the state of the remote control according to the level of the predetermined range. The remote control state determination is performed by the remote control state determination unit.

For example, the voltage re-input to the microcomputer is 5V, and when converted into bits, the value is converted into 256 bits. Comparing this value with the bit value of the ROM data part, this value can determine that the hot water is in the middle temperature and the heating temperature is between 40 ° C and 80 ° C while the remote controller is currently turned on.

As a result, the microcomputer that determines the indication value of the remote controller by the above method and controls the components of each gas boiler.

Figure 2 is a block of the device for detecting the state of the remote control according to the present invention, Figure 3 shows a detection circuit diagram respectively.

In another preferred embodiment of the present invention, the microcomputer 10 for controlling the gas boiler determines whether the power switch is on and performs the component control of the boiler accordingly. The power supply switching unit 20 transmits three power signals RE1, RE2, and RE3 output from the microcomputer 10 to the remote controller 50.

However, while detecting the state of the remote controller 50, the power signals RE1, RE2, and RE3 are interrupted (sending a low signal for a predetermined time), and the detection time Amsec is a constant period (Tmsec). Is performed for a predetermined time (Amsec), and in this case, the switching of the power is adjusted to receive the power (Vcc) from the outside.

As described above, the switched power is stabilized by rectifying the voltage input from the outside through the supply power stabilization unit 30 through zener diodes (ZD1, ZD2, ZD3) and diodes (D1, D2, D3). Let's do it.

The voltage received from the power supply stabilization unit 30 is divided by the pull-up resistor Rdd connected in parallel in the response signal circuit unit 40 and the resistance generated by the operation of the remote controller 50 switch, and then the microcomputer. Entered by (10). In more detail, the voltage distribution of the remote controller 50 including the pull-up resistor Rdd and the resistor is performed so that the divided voltage is re-input to the microcomputer 10. Therefore, the remote controller 50 changes the resistance value according to the selection of the switch made of the resistor, and the voltage input to the microcomputer 10 also changes according to the change of the resistance value.

Meanwhile, the A / D converter 60 included in the microcomputer 10 converts the incoming voltage value back into a bit value. In other words, the analogue value is converted into a digital value. The bit value is read from the ROM 70, which stores the data of the bit value previously input, and compared with the input bit value.

In addition, the remote control state determination unit 80 compares the input value of the ROM 70, and determines the comparison to recognize the result to the microcomputer 10. The microcomputer 10 that recognizes the state of the remote control in this way controls the boiler as instructed by the remote control.

According to the present invention as described above, by using the resistance value according to the state of the remote control, the voltage divided by the resistance is recognized and the voltage is bitized to obtain the effect of identifying the state of the remote control.

In addition, it is obvious that it is a very advantageous design to display the abnormal state to the user when a remote control error occurs and to perform emergency operation according to the remote control error condition.

Claims (1)

A microcomputer unit for controlling the gas boiler; A power supply switching unit which switches to receive power from the outside when the power from the microcomputer to the remote controller is interrupted; A supply power stabilization unit for rectifying and stabilizing power supplied from the supply power switching unit; A response signal circuit unit receiving power from the supply power stabilization unit and receiving a pull-up resistor and a voltage divided by a resistance of the remote controller; An A / D conversion unit included in the microcomputer to convert a voltage value received from the response signal circuit unit into a bit value; A ROM data unit included in the microcomputer and storing data of bit values input in advance; And And a remote controller state determination unit configured to interconnect the remote controller state determination unit by comparing the bit value input from the A / D converter and the bit value of the ROM data unit to determine the state of the remote controller.