KR100255934B1 - Control method of an electric heater - Google Patents

Abstract

PURPOSE: A method for controlling electric heater is provided to prevent overcurrent and overload of machines by turning on a plurality of heaters in order for a predetermined period of time at the time of an initial operation. CONSTITUTION: A method for controlling electric heater includes a heater heating process of performing heating operation according to a user's key input and turning on a plurality of heaters in order for a predetermined period of time at the time of an initial operation. The heater heating process includes the steps of turning on a first heater according to the user's key input, turning on a second heater as a predetermined time is passed after turning on the first heater, and turning on a third heater as a predetermined time is passed after turning on the second heater.

Description

Electric Heater Control Method

The present invention relates to an electric heater control method, and more particularly to an electric heater control method for performing a heating operation by controlling a plurality of heaters.

In general, an electric heater is a device that converts electrical energy into thermal energy by heating a plurality of heaters provided therein, and blows them into a room to perform heating in the room.

1 shows a state diagram of use of a conventional electric heater. According to this, the upper and lower sides of the main body 1 are provided with respective intake ports 3 and discharge ports 2 for inhaling or discharging the indoor air, and the user's operation command is input to the front of the main body 1, and An operation panel 6 for displaying the driving state of the electric heater is provided.

In addition, a heater 4 is provided inside the main body 1 to the rear of the discharge port 2, and below the heater 4, the indoor air sucked into the suction port 3 is discharged through the heater 4. Blowing fan (5) for blowing in the air is provided. The heater 4 is divided into first to third heaters 4a, 4b, and 4c as shown, and selectively heated according to the degree of heating.

2 is a control block diagram of FIG. 1, which includes an indoor temperature detector 10 that detects an indoor temperature, an overheat detector 20 that detects an overheated state of a heater 4, and a user's operation command. A display and key operation unit 30 for inputting and displaying a driving state according thereto is provided. In addition, in response to the input of the indoor temperature detector 10, the overheat detector 20, and the display and key manipulation unit 30 to selectively control operations of the heater driving means 50 and the blower fan driving unit 60 to be described later. The microcomputer 40 is provided.

The heater driving means 50 includes first to third heater driving units 51, 52, and 53 corresponding to the first to third heaters 4a, 4b, and 4c shown in FIG. The driving unit 60 drives the blowing fan 5 shown in FIG. In addition, the display and key operation unit 30 is preferably formed in the operation panel 6 shown in FIG.

In addition, Figure 3 is a flow chart illustrating a conventional electric heater control method, it will be described with reference to the conventional electric heater control method as follows.

First, when a user performs key input through the display and key operation unit 30 of the operation panel 6 formed on the front surface of the main body 1, the display and key operation unit 30 inputs the user's operation command to the microcomputer. The microcomputer 40 determines whether or not the heating operation is selected (101 to 102).

Here, when the heating operation is selected, the microcomputer 40 turns on the blower fan 5 through the blower fan driver 60, and the first to third heaters 4a, 4b, and 4c through the heater driver 50. The heating operation of the room is performed by turning on) (103 to 104).

Here, the user selects the heating operation state in multiple stages such as strong / medium / weak. For example, when “strong” is selected, the first to third heaters 4a, 4b, and 4c are turned on and “ If "medium" is selected, the first and second heaters 4a and 4b are turned on, and if "weak" is selected, only the first heater 4a is turned on to control the heating operation state.

In this heating operation state, the indoor temperature detection unit 10 detects the temperature of the room and applies it to the microcomputer 40, and the microcomputer 40 compares / determines whether the current indoor temperature has reached the set temperature (105 to S106). Therefore, when the room temperature reaches the set temperature, the heating operation is stopped by turning off the first to third heaters 4a, 4b, and 4c through the heater driving unit 50 (S107).

In addition, the overheat detection unit 20 detects the temperature of the heater 4 and applies it to the microcomputer 40, and accordingly, when the heater temperature is determined to be higher than the reference temperature in the microcomputer 40, the blower fan driving unit 60. ) To keep the heater temperature below the reference temperature to prevent overheating of the heater 4. On the other hand, when the heater 4 is below the reference temperature, all the driving of the electric heater is stopped by turning off the blower fan driving unit 60 (108 to 110).

However, in the above-described conventional electric heater apparatus and its control method, the heating operation state is selected by the user in multiple stages such as strong, medium, and weak. In particular, the heating operation state is "strong" during the initial operation of the electric heater. When selected as a plurality of heaters at the same time generates a large starting current flows by the heat, there was a problem that the overcurrent and overload occurs in the device.

Accordingly, an object of the present invention devised to solve such a problem is to perform a heating operation by controlling a plurality of heaters, and during the initial driving to sequentially turn on the plurality of heaters for a predetermined time to overload and overload the device It is to provide an electric heater control method to prevent.

1 is a use state diagram showing a conventional electric heater,

2 is a control block diagram of FIG. 1;

3 is a flow chart showing a conventional electric heater control method;

Figure 4 is a flow chart showing a preferred embodiment of the electric heater control method according to the present invention.

Explanation of symbols on the main parts of the drawings

4a, 4b, and 4c: first to third heaters 5: blowing fans

10: room temperature detection unit 20: overheat detection unit

30: display and key operation unit 40: microcomputer

50: heater driving means 51: the first heater driving unit

52: second heater driver 53: third heater driver

60: blower fan drive unit

A feature of the electric heater control method according to the present invention for achieving the above object, in the electric heater control method for heating operation by heating the room air through a plurality of heaters, performing the heating operation according to the user's key input However, during the initial driving includes a heater heating process to turn on each heater sequentially through a predetermined time interval. Here, the heater heating process is the step of turning on the first heater according to the key input, the step of turning on the second heater as a predetermined time elapses after turning on the first heater and after turning on the second heater The third heater is turned on as a predetermined time elapses.

In addition, when the room temperature reaches a set temperature in a state in which the heating of the room is performed through the heater heating process, the first to third heaters are turned off, and when the heater temperature is determined to be higher than the reference temperature, the air blowing is performed. It is preferable to further include a room temperature control process for continuing to operate the fan to lower the heater temperature below the reference temperature and then turn off the blowing fan.

Therefore, during the initial driving, the overcurrent and overload of the device is prevented by sequentially turning on the heaters for a predetermined time without turning on the plurality of heaters at the same time.

Hereinafter, a preferred embodiment of the electric heater control method according to the present invention will be described in detail with reference to the accompanying drawings, the same components as in the prior art will be described by applying the same reference numerals.

4A and 4B are flowcharts illustrating an electric heater control method of the present invention. Referring to this, a conventional electric heater control method will be described below.

First, when the user selects the heating function through the operation panel 6 on the front of the main body 1, the display and key operation unit 30 inputs the user's operation command to the microcomputer 40, and the microcomputer ( 40 determines the heating operation state (201).

Here, when the user selects, for example, the heating operation state as "strong", the microcomputer 40 rotates the blowing fan 5 through the blowing fan driving unit 60 (202 to 203), and the first heater driving unit ( The first heater 4a is turned on through the 51 (204). Thereafter, after a predetermined time has elapsed, the second heater 4b corresponding to the same is turned on through the second heater driver 52, and the third heater 4c is sequentially turned on through the third heater driver 53. The plurality of heaters 4a, 4b, and 4c are heated step by step (205 to 208).

Therefore, by dispersing the starting current during initial driving, overcurrent and overload of the heater 4 are prevented, and indoor air flows into the intake port 3 in front of the main body 1 and is then heated by the heater 4. A predetermined heating operation is performed through a heater heating process in which air is blown into the room through the discharge port 2.

Thereafter, as the indoor temperature control process (A), the indoor temperature detection unit 10 detects the indoor temperature and applies it to the microcomputer 40, and the microcomputer 40 reaches the preset temperature input by the user in advance. Compare / determine whether or not (209-210).

Here, when the indoor temperature reaches the set temperature, the heating operation is stopped by turning off the first to third heaters 4a, 4b, and 4c (211). In addition, the overheat detection unit 30 senses the temperature of the heater 4 and applies it to the microcomputer 40. Accordingly, when the microcomputer 40 determines that the heater temperature is higher than the reference temperature, the blower fan 5 is removed. Continuous operation keeps the heater temperature below the reference temperature to prevent overheating of the heater. On the other hand, when the heater 4 is below the reference temperature, the blower fan 5 is turned off to stop all driving of the electric heater (212 to 214).

As described above, the electric heater control method of the present invention has the effect of preventing overcurrent and overload of the device by sequentially turning on a plurality of heaters for a predetermined time without turning on a plurality of heaters at the time of initial driving.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (3)

In the electric heater control method for heating operation by heating the room air through a plurality of heaters, the heating operation is performed in accordance with the user's key input, the initial operation of each of the heaters are sequentially turned on through a predetermined time interval Electric heater control method comprising a heater heating process to. The method of claim 1, wherein the heater heating process, Turning on the first heater according to a key input; Turning on the second heater as a predetermined time elapses after turning on the first heater; And And turning on the third heater as a predetermined time elapses after the second heater is turned on. The method of claim 1, wherein the first to third heaters are turned off when the indoor temperature reaches a set temperature in a state where the heating of the room is performed through the heater heating process, and the heater temperature is determined to be equal to or higher than the reference temperature. And controlling the blower fan to continue operating the blower fan to lower the heater temperature below a reference temperature and to turn off the blower fan.