KR0181020B1 - Method of controlling the rotation speed of a fan - Google Patents

Abstract

The present invention relates to a method for adjusting the rotational speed of a fan for generating a natural wind, the conventional fan because it continues to operate at the rotational speed set by the operation of the key input unit or the remote control to feel a cool feeling less. When the fan is initially operated, the cool feeling is caused by the wind generated from the fan. However, when the user continuously blows the wind with the same wind direction, the user does not have a cool feeling but rather feels unpleasant. When the power is supplied, the first step of reading and setting the rotational speed data stored in the data storage unit 700, the second step of driving the fan at the set rotational speed, and the rotational speed of the rotating fan There is no discomfort by performing a third step of counting the driving time while adjusting, and a fourth step of rotating the fan by reading a rotation speed data different from the previous rotation speed from the data storage unit 700 after a predetermined time has elapsed. You can get a natural wind.

Description

Rotation speed control method for generating natural wind.

The present invention relates to a method for adjusting the rotational speed of a fan for generating a natural wind, and more particularly, the rotation of the fan for generating a natural wind to set the rotational speed of the fan at different time intervals to control the rotational speed of the fan. It relates to a speed control method.

As shown in FIG. 1, a conventional fan includes a constant voltage unit 101 for supplying a constant voltage to a set, a key input unit 102 including keys for inputting a rotation speed and an operating time of the fan, and an overall fan. The microprocessor 103 for controlling the operation, the rotation speed adjusting unit 104 to adjust the rotational speed of the fan motor by receiving the drive data output from the microprocessor 103, and the rotation speed adjusting unit 104 A fan motor driver 105 for rotating the fan motor by receiving the rotation speed data output from the display unit, a display unit 106 for displaying an operation state of the fan including the microprocessor 103, and the microprocessor 103. The data storage unit 107 stores various kinds of data to be processed.

The fan is a driving power supplied from the constant voltage unit 101, the operation time and the rotational speed of the fan by the operation of the key input unit 102 consisting of a plurality of keys (switching element) while the microprocessor 103 is in the standby state When is set, the microprocessor 103 outputs the rotational speed data to the rotational speed adjusting unit 104 so that the fan motor can rotate at a predetermined rotational speed while counting the operating time of the driving fan. Rotational speed data for rotating the fan motor is generated from 104 and supplied to the fan motor driver 105. Accordingly, the level of the drive power supplied from the constant voltage unit 101 to the fan motor is adjusted by the fan motor driver 105 to rotate the fan motor at the set rotation speed.

When the operation time counted by the microprocessor 103 has passed the set time, the rotation speed data outputted to the rotation speed control unit 104 is cut off, and the drive output from the constant voltage unit 101 is supplied to the fan motor. By turning off the power supply, the rotation operation of the fan motor is completed. Here, the display unit 106 notifies the operation state of the fan by the lighting state of the letter or the light emitting diode so that the user can know the operation state of the fan as described above under the control of the microprocessor 103. The rotation speed or operation time of the fan may be selected by using a key input unit formed in the body of the fan. However, the user may obtain a desired rotation speed for a desired time more conveniently by operating the remote controller not shown.

Such a fan is constantly operated at a rotation speed set by a key input unit or a remote controller, so that the fan feels less cool. When the fan is initially operated, the user may feel cool by the wind generated from the fan, but if the user continues to blow the wind having the same wind direction, the user may not have a cool feeling, but rather feels uncomfortable.

Accordingly, the present invention has been made to solve this problem, to provide a method of adjusting the rotation speed of the fan to generate a natural wind to adjust the wind provided by the fan to the natural wind by setting the rotation speed of the fan differently at different time intervals. Its purpose is to.

In order to achieve the above object, the present invention provides a first step of reading and setting the rotation speed data stored in the data storage means when the main power is supplied, and a second step of driving the fan at the set rotation speed. The third step of counting the driving time while constantly adjusting the rotational speed of the fan in rotation, and the fourth step of reading the rotational speed data different from the previous rotational speed from the data storage means after the predetermined time has elapsed Characterized in that made to perform.

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

Figure 2 is a block diagram showing the configuration of a fan according to the present invention,

3 is a table showing a state of changing the rotational speed over time,

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

5 is a side view of the fan according to the present invention.

Explanation of symbols on the main parts of the drawings

100: constant voltage unit 200: key input unit

300: microprocessor 400: rotational speed control unit

500: motor drive unit 600: display unit

700: data storage unit 800: rotational speed sensor

810 light emitting element 820 light receiving element

830: fan

As shown in FIG. 2, the present invention includes a constant voltage unit 100 for supplying a constant voltage to a set, a key input unit 200 including keys for inputting a rotation speed and an operating time of a fan, and a rotation speed of a fan. The rotational speed sensor 800 for detecting the microcontroller, the microprocessor 300 for differently adjusting the rotational speed of the fan at different time intervals, and the rotational speed data output from the microprocessor 300 are applied to the fan motor. A rotation speed controller 400 for adjusting a rotation speed, a fan motor driver 500 for rotating the fan motor by receiving rotation speed data output from the rotation speed controller 400, and the microprocessor 300. Display unit 600 for displaying the operation state of the fan, including, and the rotational speed data of the fan corresponding to different time intervals are stored and the microprocessor 300 is processed It is composed of a data storage unit 700 in which various data is stored. Here, the rotational speed sensor 800 is composed of a light emitting device 810 and a light receiving device 820, as shown in Figure 5, these are installed facing the center around the fan 830.

4 is a flowchart illustrating an operating state of the fan according to the present invention. When the main power is supplied, a first step of reading and setting the rotation speed data stored in the data storage unit 700 and the set rotation speed A second step of driving the fan, a third step of counting the driving time while constantly adjusting the rotational speed of the rotating fan, and a predetermined rotational speed different from the previous rotational speed from the data storage unit 700 after a predetermined time elapses; The fourth step of rotating the fan by reading the data is shown.

Here, the operation of maintaining the constant rotational speed of the fan includes the steps of detecting the rotational speed (A) of the rotating fan, reading the previously detected rotational speed (B), and the rotational speed (A) and Checking the variation of the rotational speed in preparation for the rotational speed (B) and adjusting the rotational speed of the fan according to the difference between the rotational speed (A) and the rotational speed (B) when the rotational speed is changed. Is done.

The microprocessor 300 of the fan configured as described above determines whether there is a key input for operating the fan when the main power is supplied (S1) while maintaining the standby state (S2). If the operating environment of the fan is not set, the standby state is maintained, and if the operating environment is set, the microprocessor 300 reads the rotation speed data for rotating the first fan motor from the data storage unit 700 (S3). (S4). That is, as shown in FIG. 3, the rotation speed data for rotating the fan motor of the first electric fan at 800 RPM is output to the rotation speed adjusting unit 400 so that the motor driving unit 500 is output from the rotation speed adjusting unit 400. The speed of the fan motor is counted while the fan motor is rotated (S5). The microprocessor 300 checks whether an input corresponding to the rotation speed detected by the rotation speed sensor 800 is input (S6). Here, the rotation speed sensor 800 is composed of a light emitting device 810 and a light receiving device 820, as shown in Figure 5, the light received from the light emitting device 810 passes through the fan 830 rotates Since the device 820 is received, the rotation state of the fan 830 may be checked. That is, when the light emitting device 810, the fan 830, and the light receiving device 820 are in a straight line, the light emitted from the light emitting device 810 is not received by the light receiving device 820, but the light emitting device is in a straight line. When there is no fan 830 between the 810 and the light receiving element 820, the light emitted from the light emitting element 810 is received by the light receiving element 820. Accordingly, the microprocessor 300 checks the state in which the light emitted from the light emitting element 810 is received by the light receiving element 820 to check the rotation state of the fan 830.

When the fan 830 does not rotate, the display unit 600 is driven to output a message indicating this (S7). When the fan 830 rotates, the input of the rotational speed sensor 800 is sensed. This is counted (S8) to calculate the rotation speed (A) of the fan 830 (S9). The rotational speed B stored in the data storage unit 700 refers to the rotational speed of operating the fan for the first time. Then, after a predetermined time, the rotational speed sensor 800 detects the new rotational speed. Read the sensed rotation speed previously stored in the data storage unit 700) (S10), and checks the state of variation of the rotational speed (S10) in comparison with the associated rotational speed (A). Then, the rotation speed of the fan is constantly adjusted by correcting the rotation speed data output to the rotation speed adjusting unit 400 according to the result.

In more detail, when the rotation speed A newly detected by the rotation speed sensor 800 is greater than the previous rotation speed B stored in the data storage 700, the rotation speed is increased. Determining and correcting the rotational speed data applied to the rotational speed adjusting unit 400 to reduce the rotational speed of the fan (S12), the rotational speed (A) and the data storage unit newly detected by the rotational speed sensor 800 ( If the previous rotational speed (B) stored in the 700 is the same, it is determined that the rotational speed is normal and the rotational speed of the fan is maintained by maintaining the rotational speed data applied to the rotational speed adjusting unit 400 in the current state. While maintaining the current state (S13), if the rotational speed (A) newly detected by the rotational speed sensor 800 is smaller than the previous rotational speed (B) stored in the data storage unit 700 rotation Thereby to determine and correct the rotation speed data applied to the rotation speed control unit 400 that the degree of reduction increasing the rotational speed of the electric fan (S14).

Then, the above operation is repeated while changing the rotational speed of the fan each time the operation time of the fan counting in the above step (S5) passes the set time (S15) as shown in FIG.

While generating the natural wind as described above, the rotation speed of the fan is constantly adjusted in contrast to the rotation speed value (A) and the rotation speed value (B), and then the microprocessor 300 performs key input or operation of the key input unit 200. Check the time (S16). And if there is a key input for stopping the rotation of the fan or the set time has elapsed, the rotation of the fan is blocked.

According to the present invention, by setting the rotational speed of the fan differently at different time intervals to drive the fan, the wind generated from the fan can be adjusted to the natural wind.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (5)

A first step of reading and setting rotation speed data stored in the data storage unit 700 when the main power is supplied; A second step of driving the fan at the set rotation speed; A third step of counting a driving time while constantly adjusting a rotation speed of a rotating fan; And a fourth step of rotating the fan by reading a rotation speed data different from the previous rotation speed from the data storage unit 700 after a predetermined time has elapsed. The method of claim 1, wherein the third step comprises the steps of: detecting a rotational speed A of the rotating fan, reading a previously detected rotational speed B, rotating speed A and rotational speed (B) to check the variation of the rotational speed in accordance with the step of adjusting the rotational speed of the fan in accordance with the difference between the rotational speed (A) and the rotational speed (B) when the rotational speed changes How to adjust the rotation speed of the fan to generate natural wind. The method of claim 2, wherein the rotation speed (B) is read out from the data storage unit (700) and set every time a predetermined time for which the rotation speed is changed elapses. The method of claim 1, wherein the time for differently setting the rotation speed is set at different time intervals. The method of claim 1, wherein the time interval for reading out the rotational speed data different from the previous rotational speed into the data storage unit 700 is set differently.