KR20100089604A - Aircleaner - Google Patents

Abstract

PURPOSE: An air cleaner is provided to rapidly remove contaminant by increasing the amount of air to be discharged as pollution level increases. CONSTITUTION: An air cleaner includes an inlet(124) which inhales the polluted air, an outlet(126) which discharges the purified air, a body part(120) which includes the inlet and the outlet, a filter part(140), a pollution level sensing part, and a controller. A louver(128) is rotatably installed in the outlet. The controller controls so that the louver rotatably moves in the range of a predetermined rotation angle. The controller largely sets the range of the rotation angle as a pollution level is high.

Description

Air purifier {AIRCLEANER}

The present invention relates to an air purifier.

An air purifier refers to a device that purifies contaminated air and converts it into fresh air. The air purifier sucks contaminated air into a fan to collect or filter fine dust and deodorize odors.

1 shows a conventional air purifier. When power is supplied to the air cleaner 10 and a button of the operation unit 18 formed on the top cover 16 is operated to operate the cleaning function, a fan (not shown) mounted inside the air cleaner 10 rotates. While starting to suck the outside air into the inside of the air cleaner 10 through the inlet 14 formed in the front cover 12. The sucked air passes through a filter mounted at the rear of the inlet 14, and the dust or odor contained therein is filtered and purified into clean air. The air changed into clean air is discharged to the outside of the air cleaner 10 through the discharge port 20 by the rotational force of the fan.

In addition, the air cleaner 10 is attached to the sensor for detecting the pollution degree of the air, such as dust sensor or odor sensor, by controlling the air pollution degree to control the amount of air discharged according to the air pollution degree. In other words, the greater the air pollution, the higher the air flow to supply fresh air in large quantities to purify the air, and the lower the air pollution, lower the air flow to reduce power consumption.

However, in the case of adjusting only the air volume according to the air pollution degree, the amount of fresh air discharged is increased to help the air purification, but there is a lack of more reliable and rapid air purification.

The present invention is designed to solve the problems of the prior art, and aims to provide a comfortable indoor environment more quickly by discharging the clean air appropriately according to the pollution degree of the indoor air.

According to a first aspect of the present invention for achieving the above object, a body portion having a suction port for sucking contaminated air and a discharge port for discharging the purified air, a filter unit for purifying the air sucked, air pollution Provides an air purifier comprising a pollution degree sensor for measuring a, and a control unit for receiving the pollution degree measured by the pollution degree sensor and controls the range of the direction of the air discharged through the discharge port based on the pollution degree do.

According to a second aspect of the present invention, a louver is rotatably installed at the discharge port, and the control unit controls the louver to reciprocally rotate within a range of a predetermined rotation angle.

According to a third aspect of the present invention, the control unit sets a larger range of the rotation angle as the pollution degree is higher.

According to a fourth aspect of the present invention, the control unit controls the louver to stop at a predetermined angle when the pollution degree is the lowest.

According to a fifth aspect of the present invention, the controller also controls the amount of air discharged based on the pollution degree.

According to a sixth aspect of the present invention, the control unit increases the amount of air discharged by increasing the rotational speed of the blowing fan as the pollution degree is higher.

According to the present invention, since the conventionally discharged air is deformed in a circulating manner so that the air is kept at a certain angle, it is helpful to the overall air flow, and contaminants can be removed more quickly.

In addition, the higher the degree of contamination, the larger the range of the discharged air, and thus, more extensively clean air is discharged to achieve rapid air cleaning.

In addition, the higher the degree of contamination, the higher the amount of air discharged, so that more rapid and reliable air cleaning is achieved.

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

2 is an exploded perspective view of an air cleaner according to an embodiment of the present invention, and FIG. 3 is a side cross-sectional view of the air cleaner according to the embodiment of the present invention.

2 and 3, the air cleaner 100 includes a body 120 and a filter 140.

Body portion 120 forms the appearance of the air cleaner 100, the front cover 122, the inlet 124 is formed on the front of the body portion 120 to suck the indoor air, the body portion 120 The upper portion of the discharge port 126 through which the purified air is discharged is formed.

The body part 120 includes a filter accommodating part 130 in which a plurality of filters are mounted, and a fan accommodating part 134 in which a blowing fan 132 for sucking indoor air by the rotational force and discharging the purified air back to the indoor part is installed. ) Is formed.

In addition, the body 120 may be attached to the sensor (not shown) for detecting the pollution of the air, such as dust sensor or odor sensor can measure the air pollution. The pollution degree sensor is connected to a controller to be described later, and configured to control the air cleaner 100 according to the measured pollution degree.

The filter unit 140 includes a plurality of filters, and the sucked indoor air is purified while passing through the filter unit 140. The filter unit 140 may include a pre-filter 142, a medium filter 144, an activated carbon filter 146, and a hepa filter 148.

The prefilter 142 may be configured using an antibacterial material, and may remove relatively large dust, mold, hair, pet hair, and the like. The medium filter 144 may be configured using an antibacterial material, and may remove medium dust, pet hair, and the like. In addition, the pre-filter 142 and the medium filter 144 is not limited to the above-described filter may be formed of a combination of various filters. At least one of the prefilter 142 and the medium filter 144 may be configured as a functional filter such as a yellow dust filter, an infant-only filter, a birdhouse-only filter, and a collector-only filter.

The activated carbon filter 146 may function to adsorb and remove tobacco smoke, volatile organic compounds, and other odorous substances with a coal or coconut shell deodorization filter.

The HEPA filter 148 may cleanly remove up to 99% of harmful substances such as harmful house dust, mites, viruses, molds, and contaminant dust having a size of 0.3 micron of particles contained in the incoming indoor air.

The blower fan 132 uses a centrifugal blower to which a sirocco fan (multi-blade fan) is applied, and air is sucked into the front suction port 124 and discharged to the upper discharge port 126.

The discharge grill 127 and the louver 128 are provided in the discharge port 126.

The discharge grill 127 is installed in a dense lattice shape so that the fingers of the infant do not enter, and the user's body is not injured by the rotating blower fan 132.

The louver 128 is composed of a plurality of plates arranged in parallel and is rotatably installed by the stepping motor 129. The louver 128 is disposed downstream of the discharge grill 127.

4A to 4D illustrate that flow paths of air discharged according to the rotation angles of the louvers 128 are formed differently. 4A illustrates a state in which the louver 128 is closed in which air is not discharged to the outside. 4B shows the louver 128 in an upright position in which air is discharged vertically upwards. 4C shows a state in which the louver 128 is rotated 20 ° backwards, in which air is discharged inclined 20 ° backwards. 4D illustrates a state in which the louver 128 is rotated 15 ° forward, in which air is inclined 15 ° forward.

In the drawing, two louvers 128 and two stepping motors 129 are installed, and each louver 128 is illustrated as having three plates. However, this is only one example and uses of the air cleaner 100 and It can be set differently according to the capacity.

The stepping motor 129 is connected to the louver 128 to rotate the louver 128 at a desired angle. The stepping motor 129 may be driven in a manual mode or an automatic mode. In the manual mode, the rotation angle of the louver 128 is set according to a user's operation, and in the automatic mode, the rotation angle of the louver 128 is controlled according to an instruction of a controller (not shown). The user can select whether to drive in the manual mode or the automatic mode by operating the operation unit.

FIG. 5 is a flow chart illustrating the flow of controlling the rotation angle of the louver 128 in the automatic mode.

Referring to FIG. 5, the controller determines whether the air cleaner 100 is in the automatic mode or the manual mode, and in the manual mode, determines the rotation angle of the louver 128 according to the user's operation. The procedure is started to determine the rotation angle of the louver 128 according to the measurement value of the contamination detection sensor (S1). The pollution level sensor measures the pollution level of the indoor air and sends the measured value to the controller (S2). The control unit receives the pollution degree of the indoor air from the pollution degree sensor, and determines the range of the rotation angle of the louver 128 according to the pollution degree.

If the pollution level is in a clean state, the controller drives the stepping motor 129 so that the louver 128 is in an upright position, that is, the position of FIG. 3B (S3). When the pollution level is clean, the louver 128 is stationary in the upright position and does not rotate.

If the pollution degree is a general contamination state, the control unit drives the stepping motor 129 to cause the louver 128 to rotate in a reciprocating manner between an upright position (position in FIG. 3B) and a forward 15 ° position (position in FIG. 3D) ( S4). In this manner, when the pollution degree is in a general pollution state, the louver 128 rotates in a predetermined range, so that the discharge area of the clean air is enlarged and rapid purification is possible.

If the pollution level is severe, the control unit drives the stepping motor 129 so that the louver 128 rotates back and forth between the rear 20 ° position (position in FIG. 3C) and the front 15 ° position (position in FIG. 3D). (S5). As such, when the pollution degree is severely contaminated, since the louver 128 rotates in a larger range than when the general contaminated state, the discharge area of the clean air is further enlarged to enable more rapid purification.

In the above, the pollution degree is divided into three states, and the rotation range of the louver 128 is set between the rear 20 ° position, the upright position, and the front 15 ° position according to each state, but this is only one example. Of course, it can be changed according to the performance or capacity of 100).

FIG. 6 is a flow chart illustrating a flow for simultaneously controlling the rotation angle of the louver 128 and the rotation speed of the blowing fan 132 in the automatic mode.

It is determined whether the automatic mode (S1), and the pollution detection sensor measures the pollution degree of the indoor air and sends the measurement value to the control unit (S2), the same as the embodiment shown in Figure 5 will be omitted.

Referring to FIG. 6, when the pollution level is in a clean state, the controller drives the stepping motor 129 so that the louver 128 is in an upright position, that is, the position of FIG. 3B (S3). In addition, the control unit sets the rotational speed of the blowing fan 132 to "low" so that the discharge amount of clean air becomes "low". As such, when the pollution degree is in a clean state, the louver 128 is stopped at an upright position and the discharge amount is set to "lower" so that predetermined air purification can be performed.

If the pollution degree is a general pollution state, the control unit drives the stepping motor 129 to rotate the louver 128 to reciprocate between an upright position (position in FIG. 3B) and a forward 15 ° position (position in FIG. 3D) (S4). . The control unit also sets the rotational speed of the blowing fan 132 to "medium" so that the discharge amount of clean air becomes "medium". In this way, when the pollution degree is a general pollution state, the louver 128 rotates to a predetermined range, so that not only the discharge area of clean air is enlarged, but also the discharge amount is set to "medium" so that a large amount of clean air is discharged, Purification is possible.

If the contamination level is severe, the control unit drives the stepping motor 129 so that the louver 128 rotates back and forth between the rear 20 ° position (position in FIG. 3C) and the front 15 ° position (position in FIG. 3D) ( S5). Further, the control unit sets the rotational speed of the blowing fan 132 to "high" so that the discharge amount of clean air becomes "up". As such, when the pollution level is severely contaminated, the louver 128 rotates to a larger range than when the general contamination state not only increases the discharge area of clean air, but also the discharge amount is set to " phase " Clean air is discharged, enabling faster purification.

In the embodiment of FIG. 5, the rotation range of the louver 128 is controlled according to the pollution degree of the indoor air. In the embodiment of FIG. 6, the rotation range of the louver 128 and the rotation of the blower fan 132 are controlled according to the pollution degree of the indoor air. In controlling the speed, these two modes can be selected and driven according to the user's operation.

1 is a perspective view of a conventional air purifier.

2 is an exploded perspective view of an air cleaner according to an embodiment of the present invention.

3 is a side cross-sectional view of an air cleaner according to an embodiment of the present invention.

4A shows the louver closed.

4B shows the louver in an upright position.

4C shows a state in which the louver is rotated 20 degrees backwards.

4D shows the louver rotated forward 15 °.

5 is a flow chart illustrating a flow for controlling the rotation angle of the louver in the automatic mode.

6 is a flow chart illustrating a flow for simultaneously controlling the rotation angle of the louver and the rotation speed of the blowing fan in the automatic mode.

Explanation of symbols on the main parts of the drawings

100 Air Purifier 120 Body

124 inlet 126 outlet

128 Louver 132 Blower Fan

140 filter section

Claims (6)

Body portion 120 having a suction port 124 for sucking contaminated air and a discharge port 126 for discharging the purified air, Filter unit 140 for purifying the air sucked, A pollution degree sensor for measuring pollution of air, and And a controller configured to receive the pollution degree measured by the pollution degree sensor and control a range of the direction of air discharged through the discharge port 126 based on the pollution degree. The method according to claim 1, The louver 128 is rotatably installed in the discharge port 126, And the control unit controls the louver to move reciprocally in a range of a predetermined rotation angle. The method according to claim 2, The control unit is characterized in that the higher the pollution degree, the larger the range of the rotation angle is set up. The method according to claim 3, The control unit, characterized in that for controlling the louver to stop at a predetermined angle when the pollution degree is the lowest. The method according to any one of claims 1 to 4, The control unit, characterized in that for determining the amount of air discharged based on the degree of pollution. The method according to claim 5, The control unit increases the amount of air discharged by increasing the rotational speed of the blowing fan 132 as the pollution degree is higher.

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