KR101926374B1 - Appartus and method for air clearing and dehumidification - Google Patents

Abstract

The present invention relates to a dehumidifying air purifier and a dehumidifying method using the dehumidifying air purifier. The dehumidifying air purifier according to an embodiment of the present invention includes a filter unit for filtering contaminants contained in air flowing into the dehumidifier; A dehumidifier for removing water vapor contained in the introduced air; A blowing fan that is rotated by a motor and that introduces outside air into the inside; And a control unit for checking whether the rotational speed of the blowing fan is higher than a predetermined rotational speed when the dehumidifying operation signal is inputted and driving the dehumidifying unit if the rotational speed of the blowing fan is higher than the predetermined rotational speed.

Description

[0001] The present invention relates to a dehumidifying air purifier and a dehumidifying method using the dehumidifying air purifier.

The present invention relates to a dehumidifying air purifier and a dehumidifying method using the dehumidifying air purifier. More particularly, the present invention relates to a dehumidifying air purifier capable of avoiding sudden noise and vibration which may occur during a dehumidifying operation, and a dehumidifying method using the same.

The dehumidifier is a device that adjusts the humidity of the indoor space by removing the moisture contained in the air. The dehumidifier removes moisture in the air by using a refrigeration cycle consisting of a compressor, a condenser and a heat exchanger. That is, the moisture in the air is removed by condensing the water vapor contained in the air in the heat exchanger with water.

Generally, when the dehumidifier operates, the compressor can perform an operation of compressing refrigerant gas using an electric motor. In this case, vibration may occur along with the noise due to the rotation of the electric motor. In particular, when the dehumidifier is driven in a quiet room, the user can feel noise and vibration due to the driving of the electric motor.

Thus, the user may be surprised by the sudden noise and vibration, and the noise and vibration may cause the user to doubt whether the dehumidifier is operating properly.

Disclosed is a dehumidifying air cleaner capable of avoiding sudden noise and vibration which may occur during a dehumidifying operation, and a dehumidifying method using the same.

According to an embodiment of the present invention, there is provided a dehumidifying air cleaner including: a filter unit for filtering contaminants contained in air flowing into the dehumidifier; A dehumidifier for removing water vapor contained in the introduced air; A blowing fan that is rotated by a motor and that introduces outside air into the inside; And a control unit for raising the rotational speed of the blowing fan to a predetermined rotational speed when the dehumidifying operation signal is inputted and driving the dehumidifying unit when the rotational speed of the blowing fan reaches the predetermined rotational speed.

The dehumidifying unit may include a compressor for compressing the refrigerant gas; A condenser for liquefying the compressed refrigerant gas; And a heat exchanger for cooling the introduced air by vaporizing the liquefied refrigerant gas, and converting the water vapor in the introduced air into water by cooling of the introduced air.

Here, the controller may drive the compressor when the rotational speed of the blowing fan reaches a preset rotational speed.

Here, the blowing fan may generate a noise equal to or greater than a noise generated when the compressor is driven at the predetermined rotational speed.

Here, the controller may reset the rotational speed of the blowing fan to the dehumidifying operation speed after the compressor is driven.

According to an embodiment of the present invention, there is provided a dehumidification operation signal input step of receiving a dehumidification operation signal for controlling the dehumidification part of the dehumidifying air cleaner to perform a dehumidification operation for removing water vapor in the air; Operating the blowing fan to blow air into the dehumidifying air cleaner when the dehumidifying operation signal is input; A rotational speed checking step of checking whether the rotational speed of the blowing fan is equal to or greater than a preset rotational speed; And a dehumidifying part driving step of driving the dehumidifying part of the dehumidifying air cleaner if the blowing fan is at a predetermined rotational speed or more.

Here, the dehumidifying method of the dehumidifying air cleaner may further include a dehumidifying operation speed resetting step of resetting the rotational speed of the blowing fan to the dehumidifying operation speed after the dehumidifying part is driven.

According to the dehumidifying air cleaner and the dehumidifying method using the dehumidifying air purifier according to an embodiment of the present invention, it is possible to prevent sudden noise and vibration from occurring in the dehumidifying operation of the dehumidifying cleaner.

Therefore, it is possible to prevent the user from being surprised by the noise and vibration, and to prevent the user from questioning the performance of the dehumidifier and normal operation. In addition, since the user can be relied on the operation of the dehumidifying air cleaner, the user's satisfaction can be increased.

1 is a block diagram showing a dehumidifying air purifier according to an embodiment of the present invention.
2 is a flowchart showing a dehumidifying method of a dehumidifying air cleaner according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

1 is a block diagram showing a dehumidifying air purifier according to an embodiment of the present invention.

Referring to FIG. 1, the dehumidifying air cleaner according to an embodiment of the present invention may include a filter unit 10, 10 ', a dehumidifying unit 20, a blowing fan 30, and a control unit 40.

Hereinafter, a dehumidifying air purifier according to an embodiment of the present invention will be described with reference to FIG.

The filter units 10 and 10 'can filter contaminants contained in the air flowing into the inside. The filter units 10 and 10 'can collect the contaminants by adsorbing contaminants in the air flowing through the air blowing fan 30.

The filter units 10 and 10 'can be distinguished into a first filter unit 10 and a second filter unit 10' Filters may be included.

The first filter unit 10 may include a prefilter and a functional filter, and the second filter unit 10 'may include a HEPA filter, a deodorizing filter, and the like.

The pretreatment filter can remove relatively large dust, hair, pet hair, and the like, and the functional filter can remove antibacterial, pollen, house dust mites, bacteria, bacteria, and the like.

In addition, the HEPA filter can remove various bacteria such as fine dust, indoor mold, etc., and the deodorizing filter can perform functions to remove various odors and noxious gases in the room.

The dehumidifying part (20) can remove water vapor contained in the introduced air. The dehumidifying unit 20 may be a cooling system that reduces the amount of water vapor that the air may contain by cooling the incoming air. Specifically, the dehumidifying part 20 may include a compressor 21, a condenser 22, a heat exchanger 23, and a water receiver 23.

The compressor (21) compresses the refrigerant gas, and the condenser (22) can liquefy the refrigerant gas compressed by the compressor (21). The refrigerant gas may be introduced into the compressor 21 after being vaporized and expanded in the heat exchanger 23 and then compressed. That is, the refrigerant gas can repeatedly undergo a phase change while circulating through the compressor 21, the condenser 22, and the heat exchanger.

The configuration of the compressor 21 and the condenser 22 used here may be generally utilized in a dehumidifying device. The refrigerant gas may be R-22, which is generally used as a refrigerant such as a dehumidifier, or any other refrigerant that can be used as a refrigerant in a dehumidifying device or the like.

Here, the compressor 21 may compress the refrigerant gas using an electric motor, and sudden vibration and noise may occur when the electric motor operates. The operation of the compressor (21), that is, the electric motor, can be controlled by the controller (40). The electric motor can start operation only when the control unit 40 inputs a signal for the operation of the electric motor.

The heat exchanger 23 can cool the introduced air by vaporizing the liquefied refrigerant gas, and convert the water vapor in the introduced air into water by cooling the introduced air.

The heat exchanger 23 is capable of vaporizing the refrigerant gas compressed and liquefied by the compressor 21 and the condenser 22. The refrigerant gas is vaporized and absorbs the surrounding heat, so that the air introduced into the heat exchanger 23 can be cooled.

The cooled air reaches a dew point, and the water vapor in the air can be liquefied with water and removed in the air. The liquefied water can be collected in a water receiving container (24) provided at the lower end of the heat exchanger (23). Therefore, the air passing through the heat exchanger 23 can be converted into dry air by removing steam contained therein.

Accordingly, the dehumidifying unit 20 may include the compressor 21, the condenser 22, and the heat exchanger 23 to perform a dehumidifying function of removing steam in the air.

The blowing fan 30 is rotated by a motor, and can blow outside air into the inside. The motor for rotating the blowing fan 30 may be a motor separate from the electric motor for operating the compressor 21. The rotational speed of the blowing fan 30 can be controlled by the controller 40 and the amount of the outside air flowing into the dehumidifying air cleaner can be changed according to the rotational speed.

When the dehumidifying air cleaner operates in the air purifying mode, the rotational speed of the air blowing fan 30 can be changed to a higher rotational speed than that in the dehumidifying mode have. Therefore, the dehumidifying air cleaner can have a wider range of rotational speed at which the blowing fan 30 can be driven than a general dehumidifier. The blowing fan 30 can transmit the rotational speed value of the blowing fan 30 to the controller 40.

When the dehumidifying operation signal is input, the control unit 40 may first raise the rotational speed of the blowing fan 30 to a predetermined rotational speed. [0043] Thereafter, when the rotational speed is equal to or higher than the predetermined rotational speed, (20) can be driven.

In order to perform the dehumidifying function of the dehumidifying air cleaner, both of the blowing fan 30 and the dehumidifying unit 20 need to operate. Here, if the dehumidifying part 20 is operated first, noise and vibration may occur due to the operation of the dehumidifying part 20, and the user may be able to avoid the sudden noise and vibration due to the operation of the dehumidifying part 20 And it can be judged that there is an abnormality in the operation of the dehumidifying air cleaner.

On the other hand, in general, the noise due to the rotation of the blowing fan 30 is smaller than the noise due to the operation of the dehumidifying part 20, and users are surprised at the noise caused by the rotation of the blowing fan 30, .

Accordingly, the control unit 40 may drive the blowing fan 30 before the dehumidifying unit 20 operates. The user can recognize that the air cleaner has started to operate due to the noise generated by the driving of the blowing fan 30 and then, even if the dehumidifying part 20 operates to generate noise and vibration, As shown in FIG. In addition, the size of the noise due to the operation of the dehumidifying part 20 may be relatively low due to the noise caused by driving the blowing fan 30.

Specifically, the dehumidifying unit 20 may be operated after the blowing fan 30 operates at a predetermined speed or more to properly obtain the effect of driving the blowing fan 30 first. That is, since the noise generated by the rotation of the blowing fan 30 can hinder the noise generated by the dehumidifying part 20, the blowing fan 30 can generate the noise of the desired size, The rotational speed of the fan 30 can be set in advance.

The control unit 40 may operate the blowing fan 30 after receiving the dehumidifying operation signal and may receive the rotational speed of the blowing fan 30 from the blowing fan 30, It can be repeatedly compared with the set rotational speed. When the rotational speed of the blowing fan 30 is measured to be higher than the preset rotational speed, a control signal is transmitted to the dehumidifying part 20 so that the dehumidifying part 20 operates, . ≪ / RTI >

Here, the control unit 40 may control the operation of the compressor 21 in the dehumidifying unit 20 in detail. As described above, since the compressor 21 functions to compress the refrigerant gas using the electric motor, the noise and vibration generated by the dehumidifying part 20 are mainly caused by the electric motor of the compressor 21 .

Therefore, the control unit 40 may be configured to drive the compressor 21 only when the rotational speed of the blowing fan 30 is equal to or higher than a predetermined rotational speed. Here, when the blowing fan 30 operates at a predetermined rotational speed, when the compressor 21 starts to operate, that is, when the compressor 21 is started, .

The control unit 40 can receive a dehumidifying operation signal. When the dehumidifying operation signal is received, the controller 40 controls the dehumidifying air purifier to perform the dehumidifying function . The dehumidifying operation signal may be input by a user through an interface (not shown) provided outside the dehumidifying air cleaner.

The control unit 40 can reset the rotational speed of the blowing fan 30 to the dehumidifying operation speed after the compressor 21 is driven. When the compressor (21) starts to be driven, noise and vibration generated when the compressor (21) is started can be reduced. Accordingly, when the compressor 21 starts to be driven, the rotation speed of the blowing fan 30 is reduced, and the rotation speed of the blowing fan 30 can be reduced to a speed suitable for the dehumidifying operation.

FIG. 2 is a flowchart showing dehumidification of a dehumidifying air cleaner according to an embodiment of the present invention.

Referring to FIG. 2, the dehumidifying method of a dehumidifying air purifier according to an embodiment of the present invention includes a dehumidifying operation signal input step S10, a blowing fan operation step S20, a rotational speed checking step S30, Step S40.

Hereinafter, a dehumidifying method of a dehumidifying air cleaner according to an embodiment of the present invention will be described with reference to FIG.

The dehumidifying operation signal input step S10 may receive a dehumidifying operation signal for controlling the dehumidifying unit of the dehumidifying air cleaner to perform a dehumidifying operation for removing water vapor in the air.

The dehumidifying operation signal may be a signal for operating the dehumidifying unit of the dehumidifying air cleaner to remove water vapor from the air flowing into the dehumidifying air cleaner. The dehumidifying operation signal may be input from a user by an interface unit (not shown) located outside the dehumidifying air cleaner.

The dehumidifying air cleaner may separately perform a dehumidifying function for removing water vapor in the air and an air cleaning function for removing contaminants in the air, or both functions may be performed simultaneously. The dehumidifying operation signal may be inputted only when the dehumidifying function and the air cleaning function are performed at the same time.

When the dehumidifying operation signal is inputted, the blowing fan operation step S20 may operate a blowing fan for blowing outside air into the dehumidifying air cleaner. When the dehumidifying operation signal is inputted, the blowing fan can be operated first, and noise may be generated by the operation of the blowing fan.

In order to perform the dehumidifying operation, the blowing fan must be operated together with the dehumidifying unit provided in the dehumidifying air cleaner, but only the blowing fan may be operated before the dehumidifying unit is operated.

The rotational speed checking step (S30) can confirm whether the rotational speed of the blowing fan is equal to or greater than a predetermined rotational speed. The rotational speed of the blowing fan can be confirmed after operating the blowing fan. As described above, the blowing fan is rotated first to operate the dehumidifying unit after the noise generated by the operation of the blowing fan is generated first. Therefore, the rotational speed of the blowing fan can be gradually increased until it reaches the preset rotational speed.

Generally, the higher the rotational speed of the blowing fan, the greater the noise generated. Therefore, the rotational speed of the blowing fan can be checked to ascertain whether the noise generated by the blowing fan is increased by the target noise level. Here, the target noise level may be equal to or greater than the noise level generated when the dehumidifying unit operates.

The dehumidifying part drive step (S40) can drive the dehumidifying part of the dehumidifying air cleaner if the blowing fan is at a predetermined rotational speed or more. That is, when the rotational speed of the blowing fan is greater than or equal to the preset rotational speed, the noise generated by the blowing fan is greater than the target noise.

Therefore, even if the dehumidifying part of the dehumidifying air cleaner is driven, the user may not be surprised by the noise and vibration due to the driving of the dehumidifying part, and the dehumidifying air cleaner may not be mistaken for malfunctioning.

Here, driving the dehumidifying part can be seen as driving a compressor which is a constituent of the dehumidifying part. The compressor compresses the refrigerant gas. Since the compressor uses an electric motor, high noise and vibration may occur during operation.

Accordingly, when the blowing fan operates at a predetermined rotational speed or more, the compressor of the dehumidifying part may start driving.

Although not shown, the dehumidifying operation speed resetting step may further include a dehumidifying operation speed resetting step of resetting the rotational speed of the blowing fan to the dehumidifying operation speed after the dehumidifying part is driven. The noise and vibration generated by the compressor after the dehumidifying part, specifically the compressor, may be reduced. Accordingly, when the compressor starts to be driven, the rotational speed of the blowing fan is reduced to be rotated at a speed suitable for the dehumidifying operation, that is, a dehumidifying operation speed.

The present invention is not limited to the above-described embodiments and the accompanying drawings. 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 as defined by the appended claims, .

10, 10 'filter portion 20: dehumidifying portion
21: compressor 22: condenser
23: heat exchanger 24:
30: blower fan 40:
S10: dehumidification operation signal input step S20: blowing fan operation step
S30: rotational speed check step S40: dehumidification part driving step

Claims (7)

A filter unit for filtering contaminants contained in the air flowing into the inside;
A dehumidifier for removing water vapor contained in the introduced air;
A blowing fan that is rotated by a motor and that introduces outside air into the inside; And
And a control unit for raising the rotational speed of the blowing fan to a predetermined rotational speed when the dehumidifying operation signal is inputted and driving the dehumidifying unit when the rotational speed of the blowing fan reaches the preset rotational speed,
Wherein the control unit decreases the rotational speed of the blowing fan to a dehumidifying operation speed as noise generated in the dehumidifying unit is reduced after the dehumidifying unit is driven.
The air conditioner according to claim 1, wherein the dehumidifying portion
A compressor for compressing the refrigerant gas;
A condenser for liquefying the compressed refrigerant gas; And
And a heat exchanger for cooling the introduced air by vaporizing the liquefied refrigerant gas and converting the water vapor in the introduced air into water by cooling of the introduced air.
3. The apparatus of claim 2, wherein the control unit
And when the rotational speed of the blowing fan reaches a predetermined rotational speed, the dehumidifying air cleaner drives the compressor.
4. The air conditioner according to any one of claims 1 to 3, wherein the blowing fan
And when the predetermined rotational speed is reached, generates a noise equal to or greater than a noise generated when the compressor of the dehumidifying unit is driven.

delete A dehumidifying operation signal input step of receiving a dehumidifying operation signal for controlling the dehumidifying part of the dehumidifying air cleaner to perform a dehumidifying operation for removing water vapor in the air;
Operating the blowing fan to blow air into the dehumidifying air cleaner when the dehumidifying operation signal is input;
A rotational speed checking step of checking whether the rotational speed of the blowing fan is equal to or greater than a preset rotational speed;
A dehumidifying part driving step of driving a dehumidifying part of the dehumidifying air cleaner if the blowing fan is at a predetermined rotational speed or more; And
And a resetting step of reducing the rotational speed of the blowing fan to a dehumidifying operation speed as noise generated in the dehumidifying part is reduced after the dehumidifying part is driven.

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