KR200477141Y1 - Heater control device - Google Patents

Abstract

The present invention discloses a heater control device. The present invention is configured to precisely control the heating intensity of the electric heater according to the location, the surrounding environment, or the thermal sensitivity sensed by the user. Thus, the electric heater can be easily used, So that unnecessary power dissipation can be prevented.

Description

[0001] HEATER CONTROL DEVICE [0002]

The present invention relates to a control technology for an electric heater, and more particularly, to a heater control device for freely and precisely controlling the heating intensity of an electric heater according to a location, a surrounding environment, or a thermal sensitivity sensed by a user.

Generally, an electric heater is provided in such a manner that electric power is supplied to a heating unit to perform a heating operation, such as that disclosed in Korean Utility Model Registration No. 20-0366779 (Oct. 26, 2004). In such an electric heater, Or by a push button or a rotary lever of one, two, or three stages.

However, the operating part for adjusting the heating intensity of the conventional electric heater is set by the manufacturer, and the user can not arbitrarily adjust the heating intensity of the heater.

That is, the location and ambient environment of the place or the user may feel the heat sensitivity, and depending on the place, the surrounding environment, and the thermal sensitivity, the first user may select the heating intensity located between the river and the middle level The second user may desire a strong or medium level of heating intensity while the second user may obtain the desired heating intensity through the manufacturer's pushbutton or rotary lever set, The desired heating intensity could not be obtained.

Accordingly, in many cases, when the electric heater is used, the user feels uncomfortable due to the adjustment of the heating intensity of the heater that is not desired by the user. In many cases, the electric heater causes a waste of electric power due to the unwanted heating intensity.

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an electric heater capable of precisely controlling the heating intensity of the electric heater according to the place, the surrounding environment, And it is an object of the present invention to provide a heater control device which can prevent an unnecessary power wastage as well as eliminating discomfort caused by heating of the heater.

The present invention provides a heater control apparatus including a heater unit for performing a heating operation by a commercial power supplied from a power supply unit, wherein a rotary output operation unit is connected to an output end of the power supply unit, And a charging unit that determines a charged amount and a discharge amount of the power supply according to a rotation direction and an amount of rotation of the output operation unit, and the charging unit is connected to the heater unit, And an output control unit for controlling the power intensity of the heater unit according to the heating operation.

The output operation unit may include a variable resistance unit for turning the output unit of the heater unit to the left or right direction so as to block the output intensity of the heater unit or adjust the output intensity to the maximum, And a resistance element for determining a power supply amount of the charging unit.

The output control unit may include a triac element that performs a turn-on operation during a discharging operation of the charger through a diode and controls an output intensity according to a heating operation of the heater unit by controlling a power supply amount to the heater unit Respectively.

Thus, the present invention is configured to precisely control the heating intensity of the electric heater according to the location and the surrounding environment or the user's sensed heat sensitivity, thereby enhancing the usability of the electric heater and eliminating the discomfort due to the heating of the electric heater It is possible to expect an effect of preventing unnecessary power wasting.

1 is a circuit diagram of a heater control apparatus according to an embodiment of the present invention;

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

1 is a circuit diagram of a heater control apparatus according to an embodiment of the present invention;

Referring to FIG. 1, the heater control apparatus according to the embodiment of the present invention eliminates discomfort caused by heat, heat, and / or heat in the conventional electric heater, The output intensity according to the heating operation of the heater unit 12 in which the heating operation is performed by the commercial power supply (for example, 220 VAC) supplied from the power supply unit 11 is performed in accordance with the location and surrounding environment or the thermal sensitivity And includes an output control unit 20, a charging unit 30, and an output control unit 40.

The output operation unit 20 is a rotary operation unit connected to the output terminal of the power supply unit 11. The output operation unit 20 is a rotary operation unit that is operated in the left direction (counterclockwise direction) so as to block the output intensity of the heater unit 12, The variable resistor unit VR1 includes a variable resistor unit VR1 and a variable resistor unit VR1. The variable resistor unit VR1 is connected to the variable resistor unit VR1 in series with the variable resistor unit VR1. And a resistance element R1 (R2) for determining the power supply amount of the charging unit 30 is included.

The charging unit 30 is configured to be connected to the output operation unit 20 and is configured to determine a charged amount of the power source and a discharged amount of the power source according to the rotational direction of the output operating unit 20 and the amount of rotation thereof.

The output control unit 40 is connected between the output control unit 20 and the charger unit 30. The output control unit 40 is connected to the heater unit 12 according to the charging amount and the discharging amount of the charging unit 30, And a triac element T1 for controlling the power supply amount to adjust an output intensity according to the heating operation of the heater unit 12. The triac element T1 is connected to the charging unit 30 through a diode D1, And the output power of the heater unit 12 is adjusted according to the heating operation of the heater unit 12. The power supply to the heater unit 12 is controlled by the turn-

That is, as shown in FIG. 1, the heater control apparatus according to the embodiment of the present invention uniformly controls the output intensity according to the heating operation of the heater unit 12, such as strong, medium, The variable resistor unit VR1 included in the output operation unit 20 is connected to the right side of the output control unit 20, (Clockwise) direction.

The resistance value of the variable resistor section VR1 and the resistance value of the resistance elements R1 and R2 connected in parallel to the variable resistor section VR1 The power charge gradually increases.

That is, when the variable resistor unit VR1 is gradually rotated clockwise, the resistance value of the variable resistor unit VR1 is gradually lowered, so that the variable resistor unit VR1 and the parallel- The combined resistance value of the resistors R1 and R2 connected to the charging unit 30 can be gradually increased.

At this time, when the power supply charge amount of the charging unit 30 exceeds a predetermined constant charging amount, the discharging operation is performed in the charging unit 30, and the power discharged from the charging unit 30 is discharged through the diode D1, When the gate of the triac element T1 is applied to the gate of the triac element T1, the turn-on operation of the triac element T1 is performed.

Then, the power supply amount of the heater unit 12 gradually increases according to the turn-on operation of the triac element T1, and the output intensity of the heater unit 12 according to the heating operation is also gradually increased. The heat generated by the heating operation in the heater unit 12 can be gradually increased.

That is, the output intensity according to the heating operation of the heater unit 12 is not uniformly controlled as in the first, second, and third stages, but is controlled by the user who adjusts the resistance value of the variable resistor unit VR1, So that it can be adjusted gradually and arbitrarily.

On the other hand, when the user slowly rotates the variable resistor portion VR1 included in the output manipulating portion 20 in the left direction (counterclockwise direction), the resistance value according to the amount of rotation of the variable resistor portion VR1, The power supply charge amount in the charging section 30 gradually decreases from the resistance value of the resistance elements R1 and R2 connected in parallel to the resistance section VR1.

That is, when the variable resistor unit VR1 slowly rotates in the left direction (counterclockwise direction), the resistance value of the variable resistor unit VR1 gradually increases, and the resistance value of the variable resistor unit VR1, The combined resistance value of the resistors R1 and R2 connected to the charging unit 30 can be gradually reduced.

When the power supply charge of the charger 30 approaches a reference charge amount, the charger 30 performs a discharging operation and the power discharged from the charger 30 is output through the diode D1. When applied to the gate of the triac element T1 which is the unit 40, the triac element T1 performs a turn-on operation.

Then, the power supply amount of the heater unit 12 is gradually reduced in accordance with the turn-on operation of the triac element T1, and the output intensity of the heating unit 12 is gradually decreased. The heat generated by the heating operation in the heater unit 12 can be gradually lowered.

That is, the output intensity according to the heating operation of the heater unit 12 is not uniformly controlled as in the first, second, and third stages, but is controlled by the user who adjusts the resistance value of the variable resistor unit VR1, So as to be adjusted gradually lower.

At this time, when the user fully rotates the variable resistance unit VR1 to the limited range to the left (anticlockwise), the power supply charge amount of the charging unit 30 becomes lower than the reference charge amount, 30, the discharging operation is not performed, and the triac element T1, which is the output regulating unit 40, is turned off.

Then, the power supply to the heater unit 12 is cut off by the turn-off operation of the triac element T1, and the heating operation of the heater unit 12 is not performed.

Although the technical idea of the heater control device according to the present invention has been described above with reference to the accompanying drawings, it is to be understood that the present invention is by way of example only and is not intended to be limiting of the present invention.

Accordingly, it is intended that the present invention not be limited to the particular preferred embodiments described herein, and that it will be apparent to those skilled in the art that various modifications may be made thereto without departing from the spirit of the invention, It is to be understood that such changes and modifications are within the scope of the claims.

11; A power supply unit 12; The heater section
20; An output control unit 30; Live part
40; An output control unit VR1; The variable-
R1, R2; Resistive element T1; Triac element

Claims (3)

And a heater unit for performing a heating operation by a commercial power source supplied from a power supply unit,
The output power of the heater unit is cut off or the output intensity of the heater unit is controlled so as to precisely adjust the heating intensity of the heater unit in accordance with the location, And a rotary output operation unit including a variable resistor unit connected to the variable resistor unit in parallel and a resistance element for determining a power supply charge amount of the charger unit,
Wherein the output operation unit is configured to connect the charging unit, which determines a charged amount and a discharged amount of the power supply, in accordance with the rotation direction and the rotation amount of the output operation unit,
And a control unit for controlling the amount of power supplied to the heater unit according to a charging amount of the charging unit and a discharging amount of the power source so as to adjust an output intensity according to a heating operation of the heater unit, And an output control unit including a triac element for controlling an output intensity according to a heating operation of the heater unit by controlling a power supply amount to the heater unit in a turn-on operation during a discharging operation, . delete delete

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