KR19980030859A - Wind speed control device and method for electric fan by humidity and temperature - Google Patents

Abstract

The present invention relates to a fan, comprising a key input unit (100) composed of keys for inputting rotation speed and operation time, a microprocessor (500) for controlling the overall operation of the fan, and the microprocessor (500). The fan motor driver 300 for controlling the rotational speed of the fan motor by receiving the output drive signal, the display unit 400 for displaying the operation state of the fan, including the microprocessor 500, and an external power source for the microprocessor 500. ) And a fan having a power supply unit 200 for supplying operating power to the fan motor driving unit 300, the sensing unit 600 configured to sense an ambient humidity and an ambient temperature is configured, and the microprocessor 500 ) Detects the ambient humidity and temperature by receiving the detection signal applied from the detection unit 600, and outputs a drive signal for controlling the wind speed of the fan accordingly. Is composed by to adjust the rotation speed of the fan motor driving section 300 is applied to the fan motor receives a drive signal outputted from the microprocessor (500), (M), is to maximize the efficiency of the fan.

Description

Wind speed control device and method for the fan by humidity and temperature.

The present invention relates to an apparatus and a method for controlling the rotational speed of a fan, and more particularly, to an apparatus and method for controlling the wind speed of a fan based on humidity and temperature to automatically set the rotational speed according to the ambient humidity and temperature of the fan. It is about.

That is, the present invention is to automatically adjust the rotational speed of the fan to rotate faster or slower than the rotational speed set by the temperature and humidity detected in the surroundings.

As shown in FIG. 1, a conventional fan includes a key input unit 101 including keys for inputting a rotation speed and an operating time, a microprocessor 105 for controlling the overall operation of the fan, and the microprocessor ( The fan motor driving unit 103 for adjusting the rotational speed of the fan motor by receiving the driving signal output from 105, the display unit 104 for displaying the operation state of the fan, including the microprocessor 103, and an external power source. And a power supply unit 102 for supplying the processor 105 and the fan motor driving unit 103 with operating power.

The fan is a driving power supplied from the power supply unit 102, the operation time and the rotational speed of the fan by the operation of the key input unit 101 consisting of a plurality of keys (switching elements) while the microprocessor 105 maintains the standby state When set to, the microprocessor 105 supplies a drive signal to the fan motor driver 103 so that the fan motor can rotate at a set rotation speed while counting the operating time of the fan. Accordingly, the level of the driving power supplied from the power supply unit 102 to the fan motor by the fan motor driver 103 is adjusted so that the fan motor rotates at the set rotation speed.

When the operation time counted by the microprocessor 105 has passed the set time, the drive signal output to the fan motor driver 103 is cut off and the drive power output from the power supply unit 102 is supplied to the fan motor. By blocking, the rotation operation of the fan motor is terminated. Here, the display unit 104 notifies the operating state of the fan by the lighting state of the letter or the light emitting diode so that the user can know the operating state of the fan as described above.

The rotation speed or operation time of the fan may be selected using a key input unit formed on the body of the fan, or may be selected by operating a remote controller, not shown, to obtain a desired rotation speed for a desired time.

Also, in the related art, the rotation speed of the fan was automatically adjusted according to the ambient temperature by varying the rotation speed of the fan according to the ambient temperature, but this has a limitation in that it cannot cope with the change in humidity.

The present invention is to maximize the efficiency of the fan while overcoming these limitations, to calculate the control amount for the rotation of the fan motor of the fan according to the ambient temperature and humidity and humidity to adjust the rotation speed of the fan based on this The purpose of the present invention is to provide an apparatus and a method for controlling a wind speed of a fan based on temperature.

In order to achieve the above object, the present invention provides a selection means composed of keys for inputting a rotational speed and an operating time, control means configured to control the overall operation of the fan, and a drive output from the control means. Fan motor driving means adapted to adjust the rotational speed of the fan motor by receiving a signal; In the fan having a power supply means for supplying the sensor, the sensing means is configured to detect the ambient humidity and the ambient temperature, the control means is applied to the sensing signal applied from the sensing means the ambient humidity and temperature And outputs a driving signal for controlling the wind speed of the fan accordingly. The fan motor driving means is configured to adjust the rotational speed of the fan motor by receiving a drive signal output from the control means, and then detect the ambient temperature and the humidity in the purge mode, and the ambient temperature and the ambient temperature. A third step of calculating the addition value ADD corresponding to the humidity, a fourth step of adding the addition value ADD to the control amount SC for each rotation speed, and a calculated fan motor by the calculated control amount ADDS. It is characterized in that it is made to perform the fifth step of rotating (M).

1 is a block diagram showing the configuration of a general electric fan,

2 is a schematic configuration diagram showing a configuration of a fan according to the present invention;

3 is a flow chart showing an operating state of the fan according to an embodiment of the present invention;

4 is a flowchart illustrating an operating state of the fan according to the present invention.

Explanation of symbols on the main parts of the drawings

100: key input unit 200: power supply unit

300: fan motor drive unit 400: display unit

500: microprocessor 600: detector

700: clock oscillation unit 800: wind direction gear operation unit

SW: Purge Switch T1: Temperature Sensor

T2: Humidity Sensor R1 ~ R4: Resistance

PC: Photocoupler TRIAC: Triac

As shown in FIG. 2, the present invention includes a key input unit 100 including keys for inputting rotation speed and operation time, a microprocessor 500 for controlling the overall operation of a fan, and the microprocessor 500. Fan motor driving unit 300 to adjust the rotational speed of the fan motor by receiving the drive signal output from the), the display unit 400 for displaying the operating state of the fan, including the microprocessor 500, and external power microprocessor In the fan having a 500 and the power supply 200 for supplying the operating power to the fan motor driving unit 300, the sensing unit 600 is configured to detect the ambient humidity and the ambient temperature, the microprocessor 500 detects the ambient humidity and temperature by receiving the detection signal applied from the detection unit 600, and outputs a drive signal for controlling the wind speed of the fan correspondingly. Is registered, and configuration, and to control the rotation speed of the fan motor driving section 300 is applied to the fan motor receives a drive signal outputted from the microprocessor (500) (M).

Here, the fan motor driver 300 is driven by a photo coupler (PC) for wirelessly transmitting a drive signal output to the microprocessor 500 and a drive signal transmitted through the photo coupler (PC) to supply a power supply unit ( 200 is configured as a triac (TRIAC) for adjusting the power level supplied to the fan motor (M) to control the wind speed of the fan.

Figure 3 is a flow chart showing the operating state of the fan according to an embodiment of the present invention, Figure 4 is a flow chart showing the operating state of the fan according to the present invention, the fan motor is operated by the arbitrarily set operating time and rotational speed In the fan control method of controlling the rotational speed and the rotation time of the fan, the first step of detecting the ambient temperature and the humidity in the purge mode, and calculating the addition value (ADD) corresponding to the ambient temperature and the ambient humidity And a fourth step of adding the addition value ADD to the control amount SC for each rotation speed, and a fifth step of rotating the fan motor M by the calculated control amount ADDS. Is showing.

That is, the control amount varies depending on the temperature, and as the humidity changes, a predetermined amount is added to the control amount to calculate a control amount for driving the fan motor, and the control amount changed by the humidity increases as the humidity increases. It is made to increase.

In the process of setting the operation environment of the fan, when the power is applied (S2) while waiting for the input of power (S1), it waits for the input of another key (S3). When the key for setting the operating environment is not input, the standby state is maintained, but when the key for setting the operating environment is input, it is determined whether the input key is a key for setting the operating state of the fan (S5).

If it is determined that the power key has been operated (S7), it is determined whether the current power flag is set. In other words, when it is determined that the power is supplied to the fan (S8), it is determined that the electric power is being supplied. In this case, the operating power supplied to the fan is cut off so that the electric fan maintains the standby state. If it is determined that the operation is not made, since the operating power is supplied to the fan including the fan motor (S9).

When the control key (S10) for setting the rotational speed of the fan is operated in the state that the power key is not operated, the rotational speed is sequentially set according to the number of operation of the operation key. Of course, if a control key outside the rotational speed is input, the set number of stages is cleared and returned to the standby state again (S11), S12, S13, S14, S15, S16, and S17.

Next, when the rotation key for converting the wind direction is input (S18), it is determined whether the operation mode of the current fan is the rotation mode (S21). As a result, if the operation mode of the current fan is the rotation mode, the operation mode of the fan is Switch to the stop mode (S23; refers to the mode that does not rotate the fan's head) and return to the standby state, in the case of the current stop mode, switch the operation mode of the fan to the rotation mode (S22) and return to the standby state. .

In addition, when the operation mode of the fan is set to the purge mode (S19; refers to a mode that automatically rotates by setting the head of the fan to a specific position), after returning to the standby state after setting the purge mode (S20), If the purge mode is not set, it returns to the standby state.

Looking at the operation of the fan set the operating environment in Figure 4, in the state of setting the rotation speed and the wind direction by the key input (S31) (S32) in the microprocessor 500, the current operation mode of the fan is the rotation speed of the fan It is determined whether or not the fuzzy mode for automatically adjusting (S33). As a result, in the case of the mode of adjusting the rotational speed of the fan motor M by the rotational speed set by the key input instead of the purge mode, a driving signal corresponding to the rotational speed is generated and the photocoupler of the fan motor driving unit 300 is generated. The drive of the triac TRIAC is controlled by supplying the gate terminal of the triac TRIAC via the PC (S34). Accordingly, the operating power generated by the power supply unit 200 is supplied to the fan motor M so as to correspond to the driving signal, and the fan motor M rotates (S35) (S36).

Meanwhile, when the purge mode is set, the temperature is sensed by the temperature sensor T1 of the sensing unit 600 (S37) and the humidity is sensed by the humidity sensor T2 (S38). The addition value ADD corresponding to the humidity is calculated at a specific temperature.

That is, when the ambient temperature detected by the temperature sensor T1 is 25 ° C. or less (S39), when the ambient temperature is 70% or less according to the humidity detected by the humidity sensor T2 (S40), the addition value ADD is added. If 0 (S41), 80% or less (S42), the addition value (ADD) is 1 (S43); if 90% or less (S44), the addition value (ADD) is 2 (S45), 90% or more The addition value ADD is set to 3 (S46).

When the ambient temperature detected by the temperature sensor T1 is 28 ° C. or less (S47), when the temperature is 70% or less according to the humidity detected by the humidity sensor T2 (S50), the addition value ADD is 1. In the case of low (S51) and 80% or less (S52), the addition value (ADD) is set to 2 (S53), and in the case of 90% or less (S54), the addition value (ADD) is set to 3 (S55) and 90% or more. The addition value ADD is set to 4 (S56).

In addition, when the ambient temperature detected by the temperature sensor T1 is 31 ° C. or lower (S57), if the ambient temperature is 70% or less according to the humidity detected by the humidity sensor T2 (S58), the addition value ADD is 2; Low (S59), 80% or less (S60) Addition value (ADD) to 3 (S61), 90% or less (S62) Addition value (ADD) to 4 (S63), 90% or more The addition value ADD is set to 5 (S64).

Finally, when the ambient temperature detected by the temperature sensor T1 is 31 ° C. or higher, when the temperature is less than 70% according to the humidity detected by the humidity sensor T2 (S65), the addition value ADD is set to 3 ( S66), when the value is 80% or less (S67), the addition value ADD is 4 (S68), and when the value is 90% or less (S69), the addition value ADD is 5 (S70). (ADD) is set to 6 (S71).

The microprocessor 500 that calculates the addition value ADD according to the temperature and humidity then determines in which stage the rotation speed of the fan set in the key input unit 100 is set. Then, the control amount ADDS obtained by adding the addition value ADD to the control amount SC corresponding to the set rotation speed is obtained. That is, when it is determined that the rotational speed of the fan is one stage (S72), the control amount ADDS is calculated by adding the addition value ADD corresponding to the temperature and humidity to the control amount SC 10 corresponding thereto. In addition, when it is determined that the fan rotation speed is two stages (S74), the control value ADS is calculated by adding the addition value ADD corresponding to temperature and humidity to the control amount SC 20 corresponding thereto, and the rotation speed is calculated. Is determined in three stages (S76), the control amount ADDS is calculated by adding the addition value ADD corresponding to the temperature and humidity to the control amount SC 30 corresponding thereto. When it is determined that the rotational speed of the fan is four stages, the control amount ADDS is calculated by adding the addition value ADD corresponding to the temperature and humidity to the control amount SC 40 corresponding thereto.

After calculating the control amount by the rotational speed and temperature and humidity set by the key input, it is set (S79), and then a corresponding driving signal is generated to the gate of the triac via the photocoupler PC. Is authorized. Accordingly, the operating power generated by the power supply unit 200 is supplied to the fan motor M so as to correspond to the driving signal (S80), and the fan motor M rotates (S81).

The present invention calculates the control amount by adding the calculated value corresponding to the temperature and humidity to the control amount corresponding to the rotational speed set by the key input, and then adjusts the rotational speed of the fan motor to adjust the rotational speed of the fan. The humidity can be adjusted.

Claims (5)

Key input unit 100 consisting of keys for inputting the rotation speed and operation time, the microprocessor 500 for controlling the overall operation of the fan, and the drive signal output from the microprocessor 500 is applied to the fan Fan motor driving unit 300 for controlling the rotational speed of the motor, the display unit 400 for displaying the operating state of the fan, including the microprocessor 500, and the external power source to the microprocessor 500 and the fan motor driver 300 In the fan having a power supply unit 200 for supplying the operating power to the The sensing unit 600 is configured to detect the ambient humidity and the ambient temperature; The microprocessor 500 is configured to sense an ambient humidity and temperature by receiving a detection signal applied from the detection unit 600, and output a driving signal for controlling the wind speed of the fan accordingly; The fan motor driver 300 is a wind speed control device of the electric fan by the relative humidity, characterized in that for controlling the rotational speed of the fan motor (M) by receiving a drive signal output from the microprocessor (500). According to claim 1, wherein the fan motor driver 300 is a photo coupler (PC) for wireless transmission of the drive signal output to the microprocessor 500, and by the drive signal transmitted via the photo coupler (PC) The wind speed control device of the fan by humidity and temperature, characterized in that consisting of a triac (TRIAC) for controlling the wind speed of the fan by controlling the power level supplied to the fan motor (M) from the power supply 200. In the fan operation control method for controlling the fan rotation speed and rotation time by operating the fan motor according to the arbitrarily set operating time and rotation speed, A first step of sensing an ambient temperature and an ambient humidity in the purge mode; Calculating an addition value ADD corresponding to the ambient temperature and the ambient humidity; A fourth step of adding the addition value ADD to the control amount SC for each rotation speed; And a fifth step of rotating the fan motor (M) by the calculated control amount (ADDS). 4. The control amount ADS of claim 3, wherein the control amount according to the temperature is changed, and the control amount ADS for driving the fan motor M is calculated by adding a predetermined amount of the control amount ADD to the control amount SC as the humidity changes. Wind speed control method of the fan by the humidity and temperature, characterized in that made. The method of claim 4, wherein the control amount changed by the humidity is increased so as to increase the humidity. 6.