KR101047340B1 - Fan control device - Google Patents

Abstract

PURPOSE: A fan control device is provided to drive a fan gradually depending on a temperature, thereby preventing unnecessary power consumption. CONSTITUTION: A fan control device controls an output of fan depending on a temperature. A plurality of driving control module(110) is connected with a fan and reduces the output of fan when a temperature is above the fixed temperature. A thermal guide(TG1) operates in case of the specific temperature or higher. A resistor(R1) is connected with the thermal guide in parallel. The driving control module is formed more than two and controls the output of fan gradually.

Description

Fan Control Device {Fan Control Device}

The present invention relates to a fan control device, and more particularly, to a fan control device capable of removing unnecessary power loss and reducing noise due to fan operation by adjusting a fan speed according to a temperature.

In general, various electronic devices generate heat according to the use of electric power, and have a heat dissipation structure for dissipating the generated heat.

Fan (Fan) which is a device for controlling the temperature by forcibly discharging the heat generated from the inside of the heat dissipation structure as described above is widely used for heat dissipation.

However, the conventional fan can only control the on / off, so if the temperature inside the electronic device is higher than the set temperature, the fan operates at a constant speed. There was a problem.

In addition, since the fan operates at a constant output even when the temperature is not high, there was a problem that unnecessary noise occurs.

An object of the present invention is to provide a fan control device that can prevent unnecessary power consumption and minimize noise by controlling the fan to be driven stepwise according to the temperature.

In order to achieve the above object, the fan control device according to the present invention is a fan control device for controlling the output of the fan according to the temperature, at least one connected to the fan to operate when the temperature is higher than the set temperature to reduce the output of the fan It characterized in that it comprises a drive control module.

The driving control module may include a thermal guide operating when the temperature is higher than a specific temperature and a resistor connected to the thermal guide.

When the temperature is higher than the specific temperature, the thermal guide operates to switch to an on state so that the voltage drop through the resistor is removed to increase the output of the fan by the voltage drop value.

In addition, the thermal guide is characterized by consisting of a bimetal.

And when two or more drive control modules are formed, the temperature at which the thermal guide of each drive control module operates is set differently.

In addition, when two or more drive control modules are formed, the resistance of each drive control module is characterized in that the resistance of the same size or different size.

As described above, the fan control apparatus according to the present invention can adjust the output of the fan in stages according to the temperature, thereby producing an excellent effect of preventing unnecessary power loss.

In addition, when the temperature is not high, there is an excellent effect of minimizing the noise generated by the fan operating at high power.

1 is a circuit diagram schematically showing a fan control apparatus according to a preferred embodiment of the present invention.
2 illustrates a circuit flow with temperature in accordance with a preferred embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

1 is a circuit diagram schematically showing a fan control apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 1, a fan control apparatus according to the present invention may include a drive control means 10 for controlling a driving speed of a fan according to a temperature.

The driving control means may include at least one driving control module 110 including a thermal guide TG turned on at a specific temperature and a resistor R connected to the thermal guide.

The thermal guide (TG) is a device that operates when a specific temperature is reached, and is made of a bimetal fabricated by attaching two metal plates having different thermal expansion coefficients by a rolling method so that the two metal plates bend with an expansion difference according to a change in temperature. Can be.

Here, the size of the resistor (R) included in the drive control module 110 may be determined according to the output and specifications of the fan.

In addition, the resistors included in each driving control module may be connected to resistors of the same size, but may be connected to resistors of different sizes.

Two or more driving control modules 110 may be formed to adjust the output of the fan step by step. For example, when the three drive control module is configured to set the thermal guide to operate when the first drive control module is 30 degrees or more, the second drive control module to set the thermal guide to operate when 50 degrees or more, The third drive control module may set the thermal guide to operate when the third drive control module is 60 degrees or more.

In addition, the fan control apparatus according to the present invention may further include capacitors C1 and C2 for noise removal.

Hereinafter, a fan control method according to the present invention will be described.

2 illustrates a circuit flow with temperature in accordance with a preferred embodiment of the present invention.

This embodiment is related to the case where two drive control modules (first drive control module and second drive control module) are configured, but three or more drive control modules may be connected according to the output and specifications of the fan.

In the present embodiment, it will be assumed that the first drive control module operates when it is 30 degrees or more, and the second drive control module operates when it is 50 degrees or more.

First, when the temperature is 30 degrees or less, the first and second thermal guides TG1 and TG2 of the first and second drive control modules do not operate. And a first resistor R1 and a second resistor R2 of the second driving control module.

Therefore, since the fan is driven by the output reduced according to the voltage drop through the first resistor R1 and the second resistor R2 as shown in FIG. 2A, the fan operates at a low driving speed of the fan. Done.

Here, the device may further include means for controlling the fan not to operate below a specific temperature in order to minimize power consumption. For example, when the temperature is set below the temperature sensor (for example, 20 degrees) or less, the fan may be programmed not to be driven, thereby controlling the fan operation.

When the temperature is 30 degrees or more, the first thermal guide TG1 of the first driving control module is turned on to be turned on, so that the first driving control module is closed and the voltage drop through the first resistor R1 is reduced. Does not occur.

In this state, since only the voltage drop through the second resistor R2 occurs as shown in FIG. 2B, the output supplied to the fan increases by the reduced voltage drop, thereby increasing the output of the fan and driving speed.

Subsequently, when the temperature reaches 50 degrees or more, the second thermal guide TG2 of the second driving control module is turned on to be turned on, and thus the second driving control module is also closed, so that the voltage drop through the second resistor R2 is reduced. Also does not occur.

That is, since the voltage drop through the first and second resistors R1 and R2 does not occur as shown in FIG.

When the elevated temperature falls below 50 degrees as described above, the operation of the second thermal guide of the second driving control module is cut off and the second driving control module is opened to generate a voltage drop through the second resistor R2. The output, which is reduced by the voltage drop, is supplied to the fan.

Subsequently, when the temperature drops below 30 degrees, the operation of the first thermal guide of the first drive control module is also cut off, and the first drive control module is also opened to open the first resistor (2) together with the voltage drop through the second resistor R2. A voltage drop through R1) occurs, further reducing the power supplied to the fan.

When a plurality of drive control modules are formed as described above, the output of the fan can be controlled step by step, and the output of the fan can be controlled by adjusting the size of the resistor included in the drive control module.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: drive control means 110: drive control module

Claims (6)

A fan control device that controls the output of the fan in accordance with the temperature;
A plurality of N connected drive control modules connected in series with the fan to reduce the output of the fan by operating when the temperature is higher than a set temperature;
Each of the drive control module
A thermal guide operating when the temperature is higher than a specific temperature;
A resistor connected in parallel with the thermal guide;
The thermal guides formed in each of the driving control modules sequentially set different operating temperatures to operate at high temperatures (T1, T2, ..., TN) so that all the driving is performed when the temperature is below the minimum temperature T1 of the thermal guide. Since the thermal guide of the control module is in the off state, a voltage drop through the resistors of all the drive control modules occurs to minimize the output of the fan;
As the temperature increases the minimum temperature T1 of the thermal guide, the thermal guide of the driving control module is sequentially turned on, and the voltage drop through the resistance of the driving control module is sequentially removed, thereby sequentially outputting the fan. Fan control device characterized in that it is controlled to increase.
delete delete The method of claim 1,
The thermal guide
Fan control device, characterized in that consisting of bimetal.
delete The method of claim 1,
The resistance formed in each drive control module is
Fan control device characterized in that the resistance of the same size or different size.

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