KR0177063B1 - Humidifier exit direction converting device and its method - Google Patents

Abstract

The present invention relates to a discharge direction switching device and a method of the humidifier, an input unit 200 consisting of keys for setting the operating environment of the humidifier, an infrared sensor 600 for sensing the surrounding human body or object, and the discharge port ( The position detection sensor 800 for detecting the position of the 170 and the infrared sensor 600 and the position detection sensor 800 are applied to set the discharge space and drive the motor 190 to the discharge space 170 to the discharge space. Microprocessor 300 for outputting a driving signal for rotating the motor, a data storage unit 700 storing various data processed by the microprocessor 300, and a drive output from the microprocessor 300. By configuring the motor driving unit 400 to rotate the motor 190 by receiving a signal, it is possible to discharge the space without the human body or the object of the fine water particles to be discharged.

Description

Humidifier discharge direction switching device and method thereof.

The present invention relates to a device for changing the discharge direction of the humidifier and a method thereof, and more particularly to rotate the discharge port for discharging the fine water particles generated inside the humidifier to discharge the fine water particles to the object or to the space without A discharge direction switching device of a humidifier and a method thereof.

As shown in FIG. 1, when the water stored in the water tank 110 is supplied to the heating bath 120 at a predetermined time, the supplied water is sterilized by the heater 140 to the humidification tank 130. Supplied. Then, the vibrator 150 generates ultrasonic waves, converts the water into fine water particles, and then discharges the air through the discharge port 170 together with the air sucked by the fan motor 160 installed on the bottom surface of the body. do. However, since the discharge port 170 that controls the discharge direction of the fine water particles is simply inserted into the body, in order to switch the discharge direction of the fine water particles, it is necessary to switch the installation direction of the humidifier body or manually change the direction of the discharge port. There is a hassle.

Accordingly, the present invention has been made to solve the conventional hassles as described above, the discharge direction switching device of the humidifier to switch the discharge direction of the fine water particles to the space without the object or the space set by the key input And to provide a method thereof.

The present invention for this purpose is to convert the water into fine water particles, the first step of confirming the input of the infrared sensing means when supplying the main power, and for spraying the fine water particles by receiving the input of the infrared sensing means And a second step of setting the discharge space, and a third step of spraying fine water particles while rotating the discharge port to the discharge space by driving the motor by receiving the input of the position sensing means.

That is, the present invention is a key input means consisting of keys for setting the operating environment of the humidifier, infrared sensing means for sensing the surrounding human body or object, position sensing means for sensing the position of the discharge port, infrared Control means for receiving the input of the sensing means and the position sensing means to set the discharge space, drive the motor to output a drive signal for rotating the discharge port into the discharge space, and data stored therein the various data processed It is characterized in that it comprises a storage means and a motor drive means for rotating the motor by receiving a drive signal output from the control means.

1 is a cross-sectional view showing the internal configuration of a typical humidifier,

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

3 is a cross-sectional view showing the internal configuration of the humidifier according to the present invention;

4 is an enlarged cross-sectional view of the main part of FIG. 3;

Figure 5 is a flow chart showing the operating state of the humidifier for achieving the object of the present invention.

Explanation of symbols on the main parts of the drawings

100: constant voltage unit 110: water tank

120: heating tank 130: humidification tank

140: heater 150: vibrator

160: fan motor 170: discharge port

180: body 190: motor

200: key input unit 210, 220: gear unit

300: microprocessor 400: motor drive unit

500: display unit 600: infrared sensor

700: data storage unit 800: position detection sensor

2 to 4, the configuration of the humidifier according to an embodiment of the present invention, a constant voltage unit 100 for supplying a constant voltage to the set, and a key input unit 200 consisting of keys for setting the operating environment of the humidifier ), The infrared sensor 600 for detecting the surrounding human body or object, the position sensor 800 for detecting the position of the discharge port 170, the input of the infrared sensor 600 and the position sensor 800 A microprocessor 300 is applied to set a discharge space and drive a motor 190 to output a drive signal for rotating the discharge port 170 to the discharge space, and various data processed by the microprocessor 300 are stored. A data storage unit 700, a motor driver 400 for rotating the motor 190 by receiving a drive signal output from the microprocessor 300, and a display unit for outputting a message informing the operation state of the set. (500) It is configured. The motor 190 is fixed to one side of the body 180, the gear portion 220 for engaging the gear portion 210 of the rotating shaft of the motor 190 to rotate the discharge port 170 is the discharge port 170 It is formed in the outer peripheral surface of the lower part.

FIG. 5 is a flowchart illustrating an operation state of the humidifier according to the present invention. In converting and discharging water into fine water particles, a first step of checking input of the infrared sensor 600 when the main power is supplied and the infrared sensor The second step of setting the discharge space for spraying the fine water particles by receiving the input of 600, and receiving the input of the position detection sensor 800 to drive back the motor 190 to drive the discharge port 170 It shows that the third step of spraying the fine water particles while rotating to the discharge space.

In particular, checking whether an object is detected while rotating the motor 190 to the left, setting the position at the time of object detection to the left moving position A, and rotating the motor 190 to the right, Checking the detection and setting the position at the time of object detection to the right moving position (B) to set the discharge direction, and drive the motor 190 to rotate the discharge port 170 to the left. Checking whether (A) has been reached, stopping the motor 190 in operation upon reaching position (A), and then driving the motor 190 to rotate the outlet 170 to the right while the position (B). ) And a step of stopping the motor 190 in operation when the position (B) is reached to switch the discharge direction. In another embodiment of the present invention, the discharge space may be set by the operation of the key input unit 200.

When the main processor is supplied (S1) while maintaining the standby state, the microprocessor 300 of the humidifier configured as described above checks whether there is a key input for operating the humidifier (S2). Subsequently, when the humidifier is input, it is determined whether the input of the infrared sensor 600 is normally input (S3).

When the infrared sensor 600 does not detect an object, the display unit 500 drives the display unit 500 to output a message informing of this. When the input of the infrared sensor 600 is normally performed, the discharge port 170, that is, the motor 190. Set the rotation direction of the right side (S5). The microprocessor 300 drives the motor 190 (S6) and rotates the discharge port 170 and the infrared sensor 600 to the right to check whether the object is detected by receiving the input S7 of the infrared sensor 600. (S8). Subsequently, the position where the object is detected is set to the right position (A; the position that can be rotated to the right as much as possible when the discharge port 170 is rotated) (S9).

Next, the microprocessor 300 sets the rotation direction of the discharge port 170, that is, the motor 190 to the left (S10). The microprocessor 300 drives the motor 190 (S11) and checks whether an object is detected by receiving the input S12 of the infrared sensor 600 while rotating the discharge port 170 and the infrared sensor 600 to the left. (S13). Then, the position where the object is detected is set to the left position (B; the position that can be rotated to the left as much as possible when rotating the discharge port 170) (S14).

As described above, the microprocessor 300 that sets the rotational space of the discharge port 170 sets the rotation direction of the discharge port 170, that is, the motor 190 to the right (S15). In addition, the microprocessor 300 drives the motor 190 (S16), rotates the discharge port 170 to the right, receives the input S17 of the position detection sensor 800, senses the position of the discharge port 170, and discharges the discharge port 170. It is checked whether the position of 170 has reached the right position A (S18). As a result, when it is determined that the discharge port 170 is rotated to the right position A, the rotation of the motor 190 is stopped (S19).

Next, the microprocessor 300 sets the rotation direction of the discharge port 170, that is, the motor 190 to the left (S20). Then, the microprocessor 300 receives the input S22 of the position sensor 800 while rotating the discharge port 170 to the left by driving the motor 190 (S21), and detects the position of the discharge port 170, and discharge port It is checked whether the position of 170 has reached the left position B (S23). As a result, when it is determined that the discharge port 170 is rotated to the left position B, the rotation of the motor 190 is stopped (S24).

In this way, by driving the motor 190 to switch the direction of the discharge port 170 to switch the discharge direction of the fine water particles, the microprocessor 300 checks the key input state of the key input unit 200 to determine whether the stop mode is set. Check (S25). As a result, if the stop mode is not set, the above operation is repeatedly performed, but if the stop mode is set, all the operations are stopped and the standby state is switched.

The present invention detects a space without an object using an infrared sensor and sets it as a discharge space or sets a space set by key input as a discharge space, and then drives a motor linked with the discharge port to set the rotation space of the discharge port. It can be limited to space.

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 (7)

A key input unit 200 comprising keys for setting an operating environment of the humidifier; An infrared sensor 600 for detecting a human body or an object in the vicinity; Position detection sensor 800 for detecting the position of the discharge port 170; The microprocessor 300 which receives the input of the infrared sensor 600 and the position detection sensor 800 and sets the discharge space and drives the motor 190 to output a drive signal for rotating the discharge port 170 to the discharge space. ; Data storage unit 700 that stores a variety of data processed by the microprocessor 300: Discharge direction switching device of the humidifier, characterized in that consisting of a motor drive unit 400 for rotating the motor 190 by receiving the drive signal output from the microprocessor (300). 2. The gear unit of claim 1, wherein the motor 190 is fixed to one side of the body 180 and meshes with the gear unit 210 of the rotation shaft of the motor 190 to rotate the discharge port 170. Discharge direction switching device of the humidifier, characterized in that the 220 is formed on the outer peripheral surface of the lower discharge port 170. The apparatus of claim 1, wherein the infrared sensor 600 and the discharge port 170 for discharging the fine water particles are installed to face the same direction. In converting and discharging water into fine water particles, A first step of checking an input of the infrared sensor 600 when the main power is supplied; A second step of setting a discharge space for spraying fine water particles by receiving the input of the infrared sensor 600; Discharge of the humidifier, characterized in that to perform the third step of spraying fine water particles while rotating the discharge port 170 to the discharge space by driving the motor 190 by receiving the input of the position detection sensor 800 back Direction change method. The method of claim 4, further comprising: checking whether an object is detected while rotating the motor 190 to the left, setting a position at the time of detecting the object to the left moving position A, and rotating the motor 190 to the right. And discharging direction is set by checking whether an object is detected while rotating and setting the position at the time of object detection to the right moving position (B). The method of claim 4, further comprising: driving the motor 190 to check whether the position A is reached while rotating the discharge port 170 to the left side, and stopping the operating motor 190 when the position A is reached. And then driving the motor 190 to check whether the position B is reached while rotating the outlet 170 to the right, and stopping the motor 190 in operation upon reaching the position B. The discharge direction switching method of the humidifier, characterized in that for performing the switching of the discharge direction. 5. The method according to claim 4, wherein the discharge space can be set by an operation of the key input unit (200).