KR20180026970A - Control circuit for fan motor of vantilator and vantilator comprising the same - Google Patents

Abstract

Provided is an operating circuit for a fan motor of a ventilator comprising a damper motor which is connected directly to a power supply unit and drives an electric damper for opening and closing an air flow path when a power switch is operated, and a fan motor which drives a ventilation fan for forcibly sucking or discharging air. The operating circuit for the fan motor of the ventilator comprises: a lever which is interlocked with an axial rotation of the damper motor, disposed at a first connecting position when power is supplied, and disposed at a second connecting position when the power is interrupted; a first switch which is pushed and electrically connected by the lever when the lever is pivoted and disposed at the first connecting position; a second switch which is pushed and electrically connected by the lever when the lever is pivoted and disposed at the second connecting position; a relay which is electrically connected to the first switch and driven by connection of the first switch; and the fan motor to which the power of the power supply unit is applied when the relay is driven to drive the fan motor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fan motor control circuit for a fan motor,

The present invention relates to an operation circuit of a fan motor for driving a ventilation fan disposed in the ventilation fan and for forcibly sucking or discharging air.

The ventilator is installed in the interior of a building, for example, on a wall or ceiling of a bathroom or toilet, forcibly draining the air in the room, and then discharges the air to the outside of the building through a duct to purify the room air and discharge the odor do.

When the ventilator is not driven, the air flow path is sealed. When the ventilator performs the venting operation, an air flow path (for example, an air discharge port of the exhaust duct or the ventilator) .

Conventionally, the ventilator has a circuit structure in which, when external power is applied, a damper motor for driving the damper and a fan motor for driving the ventilating fan are simultaneously operated. This causes the ventilation fan to drive first before the damper opens the air flow path, thereby creating a negative pressure in the ventilator. As a result, when the damper motor is operated and the damper is opened, there is a problem that an abnormal noise such as a 'popping sound' occurs in the ventilator.

Further, when the ventilation fan rotates before the air flow path is opened, there is a problem that the air pressure increases inside and the load of the fan motor increases. In addition, the conventional ventilator has a problem that the operation state of the damper motor and the fan motor can not visually be grasped from the outside.

Korean Patent Publication No. 10-1990-0012353 Korean Patent No. 10-0870873 Korean Utility Model Registration No. 20-0391985

The embodiments of the present invention have been made to solve the above-mentioned problems, and it is an object of the present invention to prevent an abnormal noise phenomenon that often occurs when power is supplied to the ventilator. Also, it is intended to prevent an increase in the load on the fan motor due to the driving of the ventilation fan before the damper is opened. In addition, it is desirable to visually and easily grasp the operation state of the damper motor and the fan motor from the outside.

In order to solve the above-described problems, an embodiment of the present invention is directed to an air conditioner, comprising: a damper motor that is directly connected to a power supply unit and drives an electric damper that opens and closes an air passage when a power switch is operated; And a fan motor for driving the fan motor, wherein the fan motor operating circuit is interlocked with the axis rotation of the damper motor, is disposed at a first connecting position when power is applied, and disposed at a second connecting position when power is interrupted lever; A first switch which is pushed and electrically connected by the lever when the lever is pivoted and is disposed at the first connecting position; A second switch which is pushed and electrically connected by the lever when the lever is pivoted to the second connecting position; A relay electrically connected to the first switch and driven by connection of the first switch; And a fan motor to which the power of the power supply unit is applied when the relay is driven to drive the fan motor.

When the lever is disposed in the first connecting position, the electric damper is opened, and when the lever is disposed in the second connecting position, the electric damper can be closed.

The lever can be rotated within a predetermined angular range.

The fan motor may be driven after a predetermined delay time has elapsed when the relay is driven.

The fan unit according to claim 1, further comprising: a fan unit including a fan motor operation circuit of the fan unit, wherein the fan unit is operable to display an external operating state, wherein the lamp unit is disposed at any one of the first connecting position and the second connecting position A first lamp which emits light of different colors depending on whether or not it is illuminated; And a second lamp which is turned on or off according to a driving state of the fan motor.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

The fan motor operation circuit of the fan according to the embodiment can delay the starting point of driving the fan motor within a few seconds of the starting point of the driving of the damper motor at the time of power supply application so that the abnormal noise phenomenon and the load Can be prevented.

Further, the ventilator including the fan motor operation circuit can visually easily grasp the operation state of the damper motor and the fan motor from the outside. Also, even if the power supply to the fan is interrupted, the damper motor can be supplied with a current within a few seconds, so that the damper motor can rotate in the reverse direction.

1 is a schematic diagram of a fan motor operating circuit according to an embodiment of the present invention;
2 is a schematic view when the lever is disposed in the first connecting position;

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

1 is a schematic diagram of a fan motor 20 operating circuit according to an embodiment of the present invention. Referring to FIG. 1, the fan motor operation circuit of the fan unit includes a power supply unit 70, a damper motor 10, a fan motor 20, a lever 11, a first switch 30, a second switch 40, Relay 50 and the like. The power supply unit 70 refers to an external power source, for example, an AC 220V household power source, or the like. The ventilator is placed in a room such as a building, and power is supplied by connecting a power cable to a power outlet or the like.

The damper motor 10 drives the damper. The damper closes the air flow path when the ventilator is not driven, and opens the air flow path when the ventilator performs the exhaust operation. The air flow path includes an exhaust duct, an air outlet in the ventilator, and the like.

The damper according to an embodiment is an electric damper (not shown), and the electric damper controls an axis rotation operation of the disk-type shutter by using a forward / reverse motor that performs forward / reverse rotation in accordance with on / Open / Close. That is, the electric damper is directly connected to the power supply unit 70 to open / close the air flow path when the power switch is operated.

The ventilation fan (not shown) forcibly sucks or discharges the air. The ventilation fan includes a fan motor 20, an impeller installed inside the body, and a circuit for rectifying and converting power supplied from the power supply unit 70. The impeller is formed by arranging a plurality of rotary blades in a circular shape. The impeller is mounted on a rotary shaft of the fan motor 20 and receives rotating force from the rotary shaft. The impeller forcibly sucks indoor air while discharging the indoor air through an air outlet.

The fan motor 20 is a component that rotates the impeller. The fan motor 20 receives power from the power supply unit 70, converts the power to driving force, and rotates the rotating shaft. The rotating force of the fan motor 20 is transmitted to the impeller through the rotating shaft.

The damper motor 10 and the fan motor 20 according to the embodiment rectify AC power inputted from the power supply unit 70 to supply the power required for driving the damper motor 10 and the fan motor 20 together Lt; / RTI > That is, the fan motor 20 is also directly connected to the power supply unit 70.

The lever 11 is interlocked with the axial rotation of the damper motor 10 and disposed at the first connecting position a when power is applied and disposed at the second connecting position b when the power is interrupted. The lever 11 may be, for example, a bar shape in which the damper motor 10 is directly / indirectly connected to the shaft and hinged.

The damper motor 10 rotates in the first connecting position a when the power is applied and the damper motor 10 rotates in the second connecting position b when the power is shut off . As a result, when the lever 11 is disposed at the first connecting position (a), the electric damper is opened, and when the lever 11 is disposed at the second connecting position (b), the electric damper is closed. The lever 11 according to one embodiment rotates within a predetermined angle range. The first connecting position (a) and the second connecting position (b) according to an embodiment are located on orthogonal virtual axes so that the lever 11 is rotated in a 90 degree angle range.

The first switch 30 is pushed and electrically connected by the lever 11 when the lever 11 is turned and disposed at the first connecting position (a). To this end, the first switch 30 is disposed in the vicinity of the first connecting position (a). The second switch 40 is pushed and electrically connected by the lever 11 when the lever 11 is turned and disposed at the second connecting position b. To this end, the second switch 40 is disposed in the vicinity of the second connecting position b.

For example, the first switch 30 and the second switch 40 are microswitches and include a structure suitable for electrically opening and closing through fine contact intervals. Further, the microswitch is provided with a push button or the like so that it can operate promptly according to the pressing of the lever 11. [

The integrated circuit 60 is powered from the power supply unit 70 and is electrically connected to the first switch 30 and the second switch 40. The integrated circuit 60 further includes an electrolytic capacitor and can charge the current by a power source applied from the power supply unit 70. [

Fig. 2 is a schematic view when the lever 11 is disposed at the first connecting position (a). Referring to FIG. 2, the relay 50 is electrically connected to the first switch 30 and driven by the connection of the first switch 30. That is, when the power is applied and the lever 11 is disposed at the first connecting position (a), the relay 50 is driven.

The relay 50 can constitute an electrically independent circuit by using the property that the coil 51 becomes a magnet when current flows. That is, when the coil 51 disposed on one side becomes an electromagnet, the relay 50 can electrically turn on / off the other circuit by closing the contact of the switch part 52 disposed on the other side. However, the relay 50 can not operate at high speed because it mechanically closes or opens the contact.

The fan motor 20 according to the embodiment of the present invention is driven by power of the power supply unit 70 by driving the relay 50. [ Specifically, the fan motor 20 is electrically connected to the power supply unit 70 when the contact of the switch unit 52 is connected to the other-side switch unit 52 in the relay 50 described above, Thereby forming a menopausal path.

The damper motor 10 is driven so that the lever 11 is disposed at the first connecting position a so that the first switch 30 is turned on when the power supply unit 70 is powered on, The relay 50 can be driven only when the relay 50 is driven. That is, the operation circuit of the fan motor 20 according to the embodiment allows the fan motor 20 to be driven after the fan motor 20 is delayed by a predetermined time compared to the start timing of driving the damper motor 10. [ As a result, the ventilation fan rotates only after the damper is fully opened first.

This can prevent a noise from being generated when the damper is opened due to negative pressure formed in the ventilator by the ventilation fan before the damper is opened. Further, before the damper is opened, the ventilation fan is operated to increase the air pressure in the exhaust duct, thereby effectively preventing the load on the impeller from increasing.

On the other hand, the fan motor 20 can be driven after a predetermined delay time has elapsed when the relay 50 is driven. That is, as described above, a delay time of 1 second, 2 seconds, and so on can be separately set using the integrated circuit 60 separately from the delay time depending on the characteristics of the relay 50 itself.

However, when the power supply is shut off, the driving of the damper motor 10 and the fan motor 20 is stopped at the same time. At this time, the damper motor 10 receives the electric current charged from the electrolytic capacitor included in the integrated circuit 60, and receives the electric current for a few seconds from the time when the electric power is cut off even when the electric power is cut off. This allows the damper motor 10 to rotate in a reverse direction, so that the lever 11 can be disposed at the second connecting position (b). As a result, the shutter of the electric damper can rotate reversely to block the air flow path.

The ventilator including the fan motor 20 operation circuit of the ventilator according to an embodiment may further include a lamp unit (not shown) for displaying an external operating state. Specifically, the lamp unit is provided with a first lamp which emits light of different colors depending on whether the lever 11 is disposed at the connecting position (a) or the second connecting position (b) And a second lamp which is turned on or off according to the driving state. As a result, the operating state of the ventilator can be visually recognized.

 The first lamp and the second lamp may include an illuminant including an LED element or the like. It is preferable that the lamp unit is disposed in the outer case of the ventilator, and is installed in the front part of the ventilator through which the air is sucked.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: damper motor 20: fan motor
11: lever 30: first switch
40: second switch 50: relay
51: coil 52: switch part
60: Integrated circuit 70: Power supply
a: first connection position b: second connection position

Claims (5)

A damper motor connected directly to the power supply unit to drive an electric damper for opening and closing the air flow path when the power switch is operated and a fan motor for driving the ventilation fan for forcibly sucking or discharging the air, In this case,
A lever interlocked with an axial rotation of the damper motor, disposed at a first connecting position when power is applied, and disposed at a second connecting position when power is interrupted;
A first switch which is pushed and electrically connected by the lever when the lever is pivoted and is disposed at the first connecting position;
A second switch which is pushed and electrically connected by the lever when the lever is pivoted to the second connecting position;
A relay electrically connected to the first switch and driven by connection of the first switch; And
And a fan motor to which the power of the power supply unit is applied when the relay is driven to drive the fan motor.
The method according to claim 1,
Wherein the electric damper is opened when the lever is disposed at the first connecting position and the electric damper is closed when the lever is disposed at the second connecting position.
The method according to claim 1,
Wherein the lever rotates within a predetermined angle range.
The method according to claim 1,
Wherein the fan motor is driven after a predetermined delay time elapses when the relay is driven.
A ventilator comprising the fan motor operating circuit of the ventilator of claim 4,
And a lamp unit for displaying an operating state outside,
Wherein the lamp unit includes a first lamp that emits light of different colors depending on whether the lever is disposed at the connection position of the first connection position or the second connection position; And
And a second lamp that is turned on or off according to a driving state of the fan motor.

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