KR200460524Y1 - electric fan - Google Patents

Abstract

The present invention relates to an electric fan having an ultra-violet operating function and selectively applying a driving voltage of a different level to a motor from a commercial power source supplied from a voltage generator controlled by a control module according to a selective operation signal of an operating unit, In the case of constructing the fan for determining the rotational force of the rotary vane connected to the shaft of the motor,

Wherein the voltage generator comprises a voltage drop unit configured to supply a starting voltage to the motor when the micro-wind mode is selected, the voltage being controlled by the control module to decrease a driving voltage according to a commercial power supply, The motor generates a driving force in an ultra-low-air-flow state from a starting voltage supplied when the super-low-wind mode is selected, so that the voltage is lowered at the lower portion of the voltage rail so that the residual rotational force of the rotating blades, And the like.

According to the fan of the present invention, when a super-low-wind mode is selected, a starting voltage, which is obtained by reducing the driving voltage according to the commercial power source, is applied to the motor in addition to the residual torque of the motor in response to the off- It is possible to perform super-low-wind operation that operates at a voltage lower than the driving voltage, thereby improving the function of the fan without increasing the cost.

Description

[0001] The present invention relates to a fan having an ultra-

The present invention relates to a fan, and more particularly, to a fan having an ultra-violet operation function.

Generally, an electric fan is provided with an operating unit of a breeze mode, a weak wind mode, and a strong wind mode, and a driving voltage corresponding to a mode selected by a voltage controller controlled by the control module is applied As the motor is rotated, the rotational force of the rotary blade connected to the motor shaft determines the intensity of the wind by the breeze, the weak wind, and the strong wind.

Here, the breeze is a stage in which the intensity of wind is weak, the weak wind is a stage in which the intensity of wind is medium, and the strong wind is a stage in which the intensity of wind is strong.

In the case of the breeze having the weakest wind intensity in the conventional fan, the rotational speed of the motor is set at a minimum of 500 to 600 rpm, which can cause hypothermia at the time of sleeping or when the elderly and infants are used for a long time.

Accordingly, there is a desperate need for an ultra-breezy phase that provides a weaker wind than the breeze at the time of sleeping or at a rotational speed of the motor lower than the speed of the motor corresponding to the breeze of the wind suitable for the elderly and babies However, since the super-low-voltage operation must operate at a voltage lower than the starting voltage of the existing motor, there is a problem that the super-low-voltage operation can not be performed in the conventional motor.

In the conventional fan, the breeze, the weak wind, and the strong wind are set in the control module so as to be sequentially and automatically converted in accordance with each wind selection periodic table. There is a fan having a natural-wind mode in which a driving voltage is applied to the motor to change the rotational speed of the motor to provide a wind close to the natural wind. However, even in the case of the natural-wind mode, It is not possible to perform an ultra-low-wind operation that operates at a voltage lower than the starting voltage of the motor because the wind is controlled by the strong wind.

Therefore, in order to perform the ultra-violent operation, it is necessary to use a motor that operates at a voltage lower than the voltage corresponding to the super-breeze. However, development of the motor has a problem of increasing the cost of the product.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an air- And the rotating blade is rotated by a driving force in a super-low-wind state by applying a starting voltage to a motor in which a driving voltage according to a commercial power source is lowered so that the residual rotating force of the rotor is maintained at a constant speed or less. .

According to an embodiment of the present invention, an electric fan having an ultra-violet operating function selectively supplies driving voltages of different levels to a motor from a commercial power source supplied from a voltage source controlled by a control module according to a selective operation signal of an operation unit And a rotating fan connected to the shaft of the motor for determining a rotating force of the rotating blades,

Wherein the voltage generator comprises a voltage drop unit configured to supply a starting voltage to the motor when the micro-wind mode is selected, the voltage being controlled by the control module to decrease a driving voltage according to a commercial power supply, The motor generates a driving force in an ultra-low-air-flow state from a starting voltage supplied when the super-low-wind mode is selected, so that the voltage is lowered at the lower portion of the voltage rail so that the residual rotational force of the rotating blades, And the like.

Here, the starting voltage is a voltage applied to the motor such that the rotational speed of the motor is in the range of 200 to 300 rpm.

The sub-controller includes a sensor for measuring the rotation speed of the motor and controls the voltage sensor to adjust the start voltage when the voltage required for the measured rotation speed of the detection sensor is out of the range of the start voltage desirable.

According to the fan of the present invention, when the super-low-wind mode is selected, the driving voltage is lowered according to the commercial power supply so that the residual rotational force of the rotating blades due to the off- Is applied to the motor, it is possible to perform an ultra-low-wind operation that operates with a voltage lower than the driving voltage even with the conventional motor, thereby improving the function of the fan.

In addition, by adding an ultra-violet function to the fan, it is possible to prevent the risk of hypothermia at the time of sleep or the weak wind suitable for the elderly and babies, and it is possible to prevent the hypothermia when using for a long time. The safety is improved.

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

FIG. 1 is a block diagram showing the configuration of a fan having an ultra-violet operating function according to the present invention, FIG. 2 is a circuit diagram of a fan having an ultra-violet operating function according to the present invention, and FIG. Fig. 5 is a graph showing the relationship between voltage and time of a fan having an operation function. Fig.

The fan of the present invention includes an operation unit 100 provided with an ultra-low-wind mode, a breeze mode, a weak wind mode and a strong wind mode, and a voltage generator (not shown) controlled by the control module 120 according to a signal of a selected mode of the operation unit 100 A motor 160 driven by the driving voltage from the voltage generator 140 and a rotary vane 180 connected to the shaft of the motor 160.

When the bass mode, the weak wind mode and the strong wind mode are selected in the operation unit 100, the driving voltage aV corresponding to the mode selected in the voltage unit 140 under the control of the control module 120 according to the signal of the selected mode, The rotational force of the rotary vane 180 connected to the motor shaft has wind strength corresponding to the selected mode.

The voltage generator 140 is provided with a voltage lower portion 200.

Under the control of the control module 120, the voltage lower part 200 supplies the starting voltage bV to the motor 160 when the driving voltage aV corresponding to the commercial power is lowered .

The starting voltage bV is a voltage applied to the motor 160 so that the driving speed of the motor 160 ranges from 200 to 300 rpm.

That is, when the operation unit 100 selects the ultra-low-air-flow mode, the voltage unit 140 under the control of the control module 120 according to the ultra-low- (BV) in which the driving voltage (aV) is lowered to the motor (160).

However, since the starting voltage bV is lower than the driving voltage aV of the motor 160, the motor 160 can not be driven only by the starting voltage bV.

Accordingly, the motor 160 may be driven at a voltage higher than the drive voltage aV of the motor 160 by selecting one of the breeze mode, the weak wind mode and the strong wind mode, A starting voltage bV supplied from the voltage lower part 200 is supplied to the motor 100 so that the residual rotational force of the rotating blades generated when the driving voltage aV of the selected mode is turned off is maintained at a constant speed or lower, (160).

The motor 160 is driven by the residual rotational force of the rotating blades so that the motor 160 continues to be driven with the starting voltage bV and the rotating blade 180 ) To provide a wind corresponding to the ultra-low-wind mode.

The motor 160 is provided with a sensing sensor 300 for measuring the rotational speed of the motor 160. When the voltage required for the measured rotational speed of the sensing sensor 300 is out of the range of the starting voltage bV, And a sub controller 400 for controlling the voltage generator 140 to be controlled by the voltage bV.

The detection sensor 300 measures the rotation speed of the motor 160 and provides the measured rotation speed to the sub controller 400 in real time. The sub controller 400 detects the rotation speed of the motor 160, Controller 140 controls the voltage controller 140 such that the sub-controller 400 is controlled to the starting voltage bV when the voltage V required for the rotational speed of the motor 160 is out of the range of the starting voltage bV, ) At the rotating speed of the motor.

As described above, according to the present invention, when the super-low-wind mode is selected, the starting voltage bV obtained by lowering the driving voltage aV according to the commercial power source is applied to the motor 160 in addition to the residual rotational force of the rotary vane due to the off- It is possible to stably perform an ultra-low-wind operation that operates with a voltage not higher than the driving voltage (aV) even with a conventional motor.

It is to be understood that the present invention is not limited to the specific preferred embodiments described above and that various modifications may be made by those skilled in the art without departing from the scope of the present invention, It is to be understood that such changes and modifications are within the scope of the claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the configuration of a fan having an ultra-violet operating function according to the present invention; FIG.

2 is a circuit diagram of a fan having an ultra-violet operating function according to the present invention.

3 is a graph showing a relationship between voltage and time of a fan having an ultra-violet operating function according to the present invention.

Description of the Related Art [0002]

100: Operation part 120: Control module

140: Voltage transformer 160: Motor

180: Rotating blade 200: Voltage lower part

300: Detection sensor 400:

aV: driving voltage

bV: Starting voltage

Claims (3)

A driving voltage of a different level is selectively applied to a motor from a commercial power source supplied from a voltage source under the control of a control module according to a selective operation signal of the operation unit to determine a rotational force of a rotary vane connected to the shaft of the motor In constructing the fan, The operation section of the fan is constituted by an ultra- In the fan, first of all, the motor is initially driven with a driving voltage of the selected mode by selecting one of a breeze mode, a weak wind mode and a strong wind mode which is driven at a voltage higher than the driving voltage of the motor, When the super-low-wind mode is selected, the voltage generator is controlled by the control module so that the residual voltage of the rotating blades generated when the driving voltage of the selected mode is turned off is maintained at a constant speed or lower, Constitutes a voltage drop portion for supplying a voltage to the motor, Wherein the motor is operated in a super-low-air-flow state from a start-up voltage supplied from a lower voltage of the voltage ramp so that the residual rotational force of the rotating blades generated when the drive voltage is turned off is maintained within a range of 200 to 300 rpm A driving force is generated, And a sub-controller having a sensor for measuring a rotation speed of the motor and controlling the voltage to be adjusted to the starting voltage when the voltage required for the measured rotation speed of the detection sensor is out of the range of the starting voltage Features a super ventilated fan. delete delete

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