KR102553399B1 - Air Purifier with Air Supply Diffuser Function - Google Patents

Abstract

The present invention is installed on a ceiling board and constitutes a main body of an air purifier, a housing mounted on the lower part of the housing and fastened to the ceiling board by a fastening member, and an inner cover fixing the housing to the ceiling board, formed on one side of the housing and through an air supply pipe. A housing supply vent connected to the ventilation equipment to supply outdoor air to the inside of the housing, a partition wall separating the inner space of the housing into two spaces: an air intake part and an air discharge part; A fan that discharges air into the air inlet and air outlet, a supply air damper, a first air cleaning damper, and a second air cleaning damper that control the inflow or outflow of air to the air intake and air outlet, a filter installed between the indoor air intake and the middle intake, and indoor air The air purifier composed of a sensor that detects the concentration of CO ₂ and the amount of dust in the air automatically switches to one of the operation modes selected from stop, air supply mode, or air cleaning mode according to the CO ₂ concentration and amount of dust detected by the sensor. It relates to an air purifier having an air supply diffuser function in which the functions of an air supply diffuser and an air supply diffuser are integrated.

Description

Air Purifier with Air Supply Diffuser Function}

The present invention relates to an air purifier installed in an installation hole formed on a ceiling board, and more particularly, the air purifier is connected to ventilation equipment through an air supply pipe to supply outdoor air into a housing, and a filter is installed inside the air purifier. and removes foreign substances in the indoor air, and controls the damper mounted on the air purifier according to the CO ₂ concentration and amount of dust detected by the sensor to automatically switch the operating mode of the air purifier to supply outdoor air or purify indoor air. It relates to an air purifier having an air supply diffuser function.

In general, a building is equipped with ventilation equipment that supplies outdoor air to the room in order to maintain the optimal CO ₂ concentration and cleanliness of the indoor air, and removes dust from the outside or fine dust generated during the cooking process in the kitchen. To do this, an air purifier is installed.

The ventilation equipment is connected to the air supply diffuser installed in each indoor space constituting the building through the air supply pipe, and supplies outdoor air to the indoor space to lower the gradually increasing concentration of CO ₂ in the indoor air. The air purifier and air supply diffuser are installed separately. In the case of doing so, installation and construction costs and time required for construction are increased in the process of individually installing separate devices, and have the disadvantage of deteriorating the usability of a limited size indoor space.

In order to solve this problem, in Korean Patent Registration No. 10-0617081 (registered on August 22, 2006), a suction port for sucking indoor air is formed on the bottom of the case, and a discharge port through which outdoor air is discharged is formed on one side of the case, Ventilation for air cleaning by installing a fan, filter, and damper inside the case to discharge the outdoor air supplied from the duct through the discharge port under the control of the damper, or intake the polluted indoor air through the intake port, filter it, and then supply it back to the discharge port. system is proposed.

An air cleaning ventilation system such as Registered Patent Publication No. 10-0617081 integrates an air purifier and an air supply diffuser into one device to reduce installation and construction costs and time required for construction, and to improve indoor space utilization. There are advantages.

However, since the ventilation system for air purification as described above must be installed at the corner of the ceiling where a branch duct for supplying outdoor air is formed, ventilation and air cleaning effects differ depending on the location of the indoor space when outdoor air supply or polluted indoor air cleaning is operated. may occur, and ventilation and air cleaning effects may be reduced in some indoor spaces.

In addition, in order to improve the air cleaning effect, it is necessary to increase the amount of indoor air filtered by the filter and re-supplied to the indoor space. By configuring it to protrude with a certain length, width, and height, the cross-sectional area of the inlet and outlet is secured. According to this configuration, the ventilation system for air cleaning protrudes into the indoor space, which deteriorates the utilization of indoor space and the aesthetics of the interior. have

Republic of Korea Patent Registration No. 10-0617081 (Registered on Aug. 22, 2006)

In an embodiment of the present invention, the air purifier integrated with the air supply diffuser function is installed in the upper space of the ceiling board mounted at a predetermined interval from the ceiling slab of the indoor space of the building, thereby minimizing the volume of the air purifier exposed to the indoor space. It aims to improve space utilization and aesthetics of the interior.

In an embodiment of the present invention, when indoor air intake and outdoor air supply are performed by an air purifier, uniform intake and supply of air occur in the indoor space, thereby minimizing the difference in ventilation and air cleaning effects depending on the location of the indoor space. to be

According to an embodiment of the present invention, it is installed in an installation hole formed on a ceiling board, protrudes from the outer surface of the housing along the surface of the ceiling board to form a larger size than the housing and installation hole constituting the main body of the air purifier, and is formed on the protruding lower surface. A housing flange seated on the upper surface of the ceiling board, a fixing flange mounted on the lower portion of the housing, and protruding at the edge to form a larger size than the installation hole, and a fixing flange in contact with the lower surface of the ceiling board is attached to the ceiling board by a fastening member. An inner cover that fixes the housing to the ceiling board as it is fastened, a housing air supply vent that is formed on one side of the housing and is connected to ventilation equipment through an air supply pipe to supply outdoor air to the inside of the housing, and outdoor air supplied to the inside of the housing through the housing air supply vent. A first intermediate air supply vent formed on one side of the inner cover to supply air to the indoor space, a middle air intake vent formed on the other side of the inner cover to intake indoor air into the housing, and a middle air intake vent formed spaced apart from the first intermediate air supply vent by a predetermined distance. A second intermediate air supply outlet for resupplying indoor air taken into the housing to the indoor space through the air intake portion connected to the intermediate air intake port for the inner space of the housing, an air intake port connected to the housing air supply port and the first and second intermediate air supply outlets. A spiral shape formed inside the housing to separate the air outlet into two spaces, with a bulkhead formed with a connector connecting the air intake and air outlet, an intake port formed to face the middle intake port, and an exhaust port connected to the connector of the bulkhead. A fan installed inside a case having a shell structure, sucking in indoor air into the housing through rotational driving according to the operation of the motor, and discharging air from the air outlet to the indoor space, and directing the air intake in the center of the case toward the room. When the inner cover is mounted on the housing, it passes through the fixture formed on the inner cover and protrudes to the lower part of the inner cover, and the fixing pin, which binds the housing and the inner cover by fixing the lower surface of the inner cover by binding the fixing member, and the lower part of the inner cover An outer cover mounted so as to be closely attached to, an indoor air intake formed on the outer cover to communicate with the intermediate air intake, an indoor air intake formed on the outer cover to communicate with the first intermediate air intake, and an air formed on the outer cover to communicate with the second intermediate air intake. A clean exhaust port, an air supply damper that controls the opening and closing of the housing supply port, a first air cleaning damper that controls the opening and closing of the exhaust port, a second air cleaning damper that controls the opening and closing of the air cleaning exhaust port, installed between the indoor air intake port and the middle intake port The air purifier consists of a filter, a sensor that detects the CO ₂ concentration and amount of dust in the indoor air, and a display unit that displays the operating _status of the air purifier to the outside. It is automatically switched to one of the operating modes selected among the modes, but in the air supply mode, the exhaust port according to the closing operation of the 1st and 2nd air cleaning dampers and the closing of the air cleaning exhaust port and the open state of the housing supply port according to the opening operation of the air supply damper The outdoor air introduced into the housing by the operation of the ventilation equipment is supplied to the indoor space through the indoor air supply port, and in the air cleaning mode, the opening of the exhaust port and the air cleaning exhaust port according to the opening operation of the 1st and 2nd air cleaning dampers and In the closed state of the housing air supply inlet according to the closing operation of the air supply damper, indoor air is taken in through the indoor air inlet by the operation of the fan, foreign substances are removed by the filter, and then returned to the indoor space through the air cleaning outlet and the indoor air inlet. By resupplying, the function integration of the air purifier and supply air diffuser is achieved.

According to an embodiment of the present invention, the air supply damper is connected to the inner surface of the housing through a hinge, the first air cleaning damper is connected to the surface of the bulkhead in the direction of the air outlet through a hinge, and the rotational shafts of the air supply damper and the first air cleaning damper are The axis of rotation is formed in a direction parallel or perpendicular to the inner surface of the housing or the surface of the bulkhead, so that the air supply damper and the first air cleaning damper operate by swinging the hinge as the axis of rotation, respectively, or by controlling the angle of the rotation axis by flap operation. It is configured to open or close the exhaust port.

According to an embodiment of the present invention, a rack is formed on the upper surface of the second air cleaning damper so as to face the inside of the housing, and a stepping motor and a pinion connected to the rotational shaft of the stepping motor are mounted on one side of the second intermediate air supply device, The pinion and the teeth of the rack are connected to each other, so that the second intermediate air supply mechanism is opened or closed by moving the second air cleaning damper up and down according to the change in the up and down movement direction of the rack according to the rotation direction of the stepping motor.

According to an embodiment of the present invention, the display unit is mounted on the inner cover, displays the operating state of the air purifier to the outside through a display window formed on the outer cover, and the sensor is connected to the indoor space through a sensor sphere formed on the edge of the display window. .

According to the embodiment of the present invention, by integrating the function of the air supply diffuser into the air purifier, it is not required to install a separate air supply diffuser that is connected to the ventilation equipment and supplies outdoor air to the indoor space. Accordingly, the air supply diffuser and air cleaning system are installed. There is an effect of reducing cost and improving space utilization according to system integration and miniaturization.

According to an embodiment of the present invention, the first air purifying damper controlling the air purifying operation of the air purifier is configured to open and close the exhaust port while operating the flap using the hinge as a rotating shaft, so that in a limited space above the ceiling board where the air purifier is installed It allows the exhaust port to be enlarged and fully opened, and has an effect of improving air cleaning efficiency according to an increase in the flow rate of the filtered air passing through the exhaust port.

According to an embodiment of the present invention, the air supply damper controlling the air supply of outdoor air flowing into the air purifier through the housing air supply port when the ventilation equipment is operated controls the opening and closing of the housing air supply port through a swing operation using the hinge as a rotating shaft. By doing this, through the flap operation of the first air cleaning damper, the air cleaning efficiency is improved by increasing the ratio of the cross-sectional area of the exhaust port to the volume of the air purifier, and through the swing operation of the air supply damper, interference occurs between the first air cleaning damper and the air supply damper when opening and closing. By reducing the distance, there is an effect of reducing the weight and improving the efficiency of the installation space according to the miniaturization of the air purifier.

According to an embodiment of the present invention, an indoor air intake and an indoor air supply are formed on the side of the outer cover, and the indoor air intake and the indoor air supply are arranged in three directions, respectively, so that when the air purifier operates to supply outdoor air or purify the indoor air, Non-directional indoor air intake and outdoor air supply are performed at the intake and indoor air supply vents to ensure uniform air intake and supply within the indoor space, minimizing the difference in ventilation and air cleaning effects depending on the location of the indoor space. .

According to an embodiment of the present invention, by applying a spiral-shaped shell structure to a case in which a fan is installed, noise caused by wind noise generated when the fan is operated is reduced, and the volume of the case is reduced to reduce the size of the housing.

According to an embodiment of the present invention, when the ceiling board mounting of the housing and the inner cover is performed during the air purifier installation process, the inner cover and the housing are temporarily fastened through the binding between the fixing pin and the fixing member, so that the fixing flange of the inner cover There is an effect that the installation work of fixing to the ceiling board by penetrating the fastening member can be performed more easily.

1 is a view showing the internal cross-sectional structure of an air cleaner having an air supply diffuser function according to an embodiment of the present invention.
2 is an exploded view of an internal cross-sectional structure of an air cleaner having an air supply diffuser function according to an embodiment of the present invention.
3 is a view showing an arrangement structure of an indoor air intake, an indoor air supply, and an air cleaning exhaust of an outer cover of an air purifier having an air supply diffuser function according to an embodiment of the present invention.
4 is a view showing a connection structure of a ventilation equipment that is connected to an air purifier having an air supply diffuser function according to an embodiment of the present invention and integrates functions between the air purifier and the air supply diffuser.
5 is a view showing a damper opening/closing state of an air purifier having an air supply diffuser function according to an embodiment of the present invention in a stopped operation state.
6 is a view showing an open/closed state of a damper in an air supply mode of an air cleaner having an air supply diffuser function according to an embodiment of the present invention.
7 is a view showing an open/closed state of a damper in an air cleaning mode of an air cleaner having an air supply diffuser function according to an embodiment of the present invention.

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

It will be described in detail focusing on the parts necessary for understanding the operation and action according to the present invention.

While describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted.

This is to more clearly convey the gist of the present invention without obscuring it by omitting unnecessary description.

In addition, in describing the components of the present invention, different reference numerals may be assigned to components having the same name according to the drawings, and the same reference numerals may be assigned even though the drawings are different.

However, even in this case, it does not mean that the corresponding component has different functions according to embodiments, or that it has the same function in different embodiments, and the function of each component does not mean that each embodiment has a function. It will have to be judged based on the description of each component in .

In addition, technical terms used in this specification should be interpreted in terms commonly understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined otherwise in this specification, and are not excessively comprehensive. It should not be interpreted as meaning or in an excessively reduced meaning.

Also, singular expressions used in this specification include plural expressions unless the context indicates otherwise.

In this application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or some of the steps It should be construed that it may not be included, or may further include additional components or steps.

A ceiling board (1) is attached to the ceiling slab of the indoor space of the building so as to be spaced apart from the surface of the ceiling slab at a certain interval, and to the ceiling board (1), a space formed on top of the ceiling board (1) and an installation hole (2) connecting the indoor space to each other ) is formed, and the housing 100 constituting the main body of the air purifier having the air supply diffuser function according to the embodiment of the present invention is fixed to the upper part of the installation hole 2, so that the air purifier 10 is installed under the ceiling slab and on the ceiling. It is installed so as to be disposed in the space between the top of the board 1.

As shown in FIGS. 1 and 2, the air purifier 10 has a housing flange 110 protruding a certain length to form a larger size than the mounting hole 2 along the surface direction of the ceiling board 1 on the outer surface of the housing 100. ) is formed, and the protruding lower surface of the housing flange 110 is caught on the upper surface of the ceiling board 1 at the edge of the installation hole 2 so that the housing 100 is seated in the upper space of the ceiling board 1.

The inner cover 200 is coupled and fixedly mounted on the lower part of the housing 110, and a fixed flange protrudes a certain length along the edge of the inner cover 200 to form a size larger than the mounting hole 2 along the surface direction of the ceiling board 1 120 is formed, and in a state where the upper surface of the fixed flange 120 is in contact with the lower surface of the ceiling board 1 at the edge of the mounting hole 2, the fastening member 3 penetrates the fixed flange 120 to the ceiling board By being fastened to (1), the housing 100 and the inner cover 200 are fixed to the ceiling board 1.

Inside the housing 100, a partition wall 140 is formed that separates the inner space of the housing 100 into two spaces of the air intake part 141 and the air discharge part 142 along the horizontal direction, and the air intake part ( 141) and the air outlet 142 are connected to each other through a connector 143 formed in the partition wall 140.

Indoor air is introduced into the housing 100 through the air intake unit 141 , and indoor or outdoor air introduced into the housing 100 is discharged into the indoor space through the air discharge unit 142 .

Hereinafter, the structure of the air purifier 10 will be described by defining the direction of the air discharge unit 142 as one side of the housing 100 and the direction of the air intake unit 141 as the other side of the housing 100.

A housing air supply outlet 130 is formed on one side wall of the housing 100, and as shown in FIG. Air is supplied into the housing 100, and the air supply pipe 21 is disposed on a space formed above the ceiling board 1.

A case 151 having a spiral-shaped shell structure is mounted in the inner space of the air intake unit 141, and inside the case 151, indoor air is sucked into the housing 100 and the air outlet of the housing 100 A fan 150 is mounted to discharge the air inside 142 to the indoor space.

The rotation shaft of the motor that rotates and drives the fan 150 is disposed on the central axis of the spiral of the case 151, and the suction port 152 is formed along the edge of the motor mounting portion of the case 151 on the lower surface of the case 151, An exhaust port 153 connected to the vent 143 is formed on a side surface of the partition 151 toward the partition wall 140 .

When the fan 150 is operated, the indoor air taken into the air intake part 141 of the housing 100 through the intake hole 152 moves to the air discharge part 142 through the exhaust hole 153 and the connector 143, and then discharged into the interior space.

The spiral-shaped shell structure formed in the case 151 operates the fan 150 by minimizing the generation of wind noise while the indoor air sucked in through the intake port 152 moves to the air discharge unit 142 through the exhaust port 153. Noise is reduced and the housing 100 can be miniaturized according to the volume reduction of the case 151 .

A fixing pin 154 is formed on the outer surface of the central portion of the inlet 152 of the case 151 to face the room, and the inner cover on which the fixing pin 154 is disposed during the mounting process of the inner cover 200 to the housing 100. At the position (200), a fixture 240 penetrating the upper and lower surfaces of the inner cover 200 is formed.

Accordingly, when the housing 100 and the inner cover 200 are connected, the fixing pin 154 passes through the fixture 240 and protrudes to the bottom of the inner cover 200, and the fixing pin 154 protrudes to the bottom of the inner cover 200. ) The fixing member 241 is bound to fix the lower surface of the inner cover 200 through the fixing member 241.

In addition, when the ceiling board 1 of the housing 100 and the inner cover 200 is mounted, the inner cover 200 and the housing 100 are connected through the binding between the fixing pin 154 and the fixing member 241. When the fastening is performed, the installation work of fixing the fastening member 3 to the ceiling board 1 by penetrating the fastening flange 120 of the inner cover 200 can be performed more easily.

A first intermediate air supply port 210 is formed on one side of the inner cover 200 to supply outdoor air supplied to the air outlet 142 of the housing 100 through the housing air supply port 130 to the indoor space, An intermediate intake port 220 is formed on the other side of the inner cover 200 to face the intake port 152 to take in indoor air through the air intake unit 141 of the housing 100 .

In addition, on one side of the inner cover 200, a second intermediate air supply port 230 is formed to be spaced apart from the first intermediate air supply port 210 at a predetermined interval, and the middle intake port 220 is formed through the middle intake port 220 and the intake port 152. Indoor air that has passed through the air intake unit 141 and the exhaust port 153 sequentially and flowed into the air discharge unit 142 is discharged and re-supplied to the indoor space.

The lower surface of the mounting portion of the case 151 of the inner cover 200 is recessed toward the top of the housing 100 to form a space between the inlet 152 and the middle inlet 220, and the space below the mounting portion of the case 151 has a filter ( 170) is mounted to remove foreign substances in the indoor air moving to the air outlet 142 through the middle intake port 220 and the intake port 152 when the fan 150 is operating, and the filter 170 removes fine particles from the indoor air. It may be composed of a pre-filter and a HEPA filter so that dust filtration or harmful bacteria can be sterilized and deodorized.

An air supply damper 131 for controlling the opening and closing of the housing air supply port 130 is mounted on the side of the housing air supply port 130, and a first air cleaning damper 160 for controlling the opening and closing of the exhaust port 153 on the side of the exhaust port 153 ) is installed.

Parallel to the surface of the partition wall 140 on the partition wall 140 in the direction of the air discharge unit 142 so that the first air cleaning damper 160 can be opened in the direction of the inner wall of the housing 100 facing the air discharge unit 142 The first air cleaning damper 160 is connected to the partition wall 140 to be rotatable through a hinge formed with a rotation shaft forming the.

1. Opening and closing operation of the housing air supply port (130) through the air supply damper (131):

The hinge axis of rotation of the air supply damper 131 is connected to the housing 100 so as to be parallel or perpendicular to the inner surface of the housing 100, and is parallel or perpendicular to the inner surface of the housing 100 during the opening or closing operation of the air supply damper 131. The design configuration of the hinge rotating in the vertical direction may be selectively made.

When the air supply damper 131 is configured to rotate in a direction parallel to the inner surface of the housing 100, the air supply damper 131 opens the housing air supply mechanism 130 through a swing operation using the hinge as a rotation axis Or closed, and when the air supply damper 131 is configured to rotate in a direction parallel to the inner surface of the housing 100, the air supply damper 131 operates a flap using the hinge as a rotation axis to (130) is opened or closed.

At this time, a stepping motor that generates a driving force when opening and closing the air supply damper 131 is directly connected to the hinge rotation shaft of the air supply damper 131 or indirectly connected through a rotational force transmission structure such as a gear, so that the angle of the rotation axis is controlled by operating the stepping motor The air supply damper 131 may be configured to open or close the housing air supply port 130 through.

Alternatively, a spring is connected to the hinge rotation shaft of the air supply damper 131, and the air supply damper 131 is opened by wind pressure caused by the air flow passing through the housing air supply port 130, and the housing air supply port 130 is opened, and the wind pressure acts When stopped, the air supply damper 131 may be closed by the elastic restoring force of the spring, and the housing supply mechanism 130 may be closed.

The method of controlling the opening and closing of the air supply damper 131 through the spring is applied only when the air supply damper 131 opens and closes the housing air supply inlet 130 through flap operation, and the ventilation equipment 20 removes the outdoor air indoors. When air is supplied to the space, outdoor air flowing into the air discharge unit 142 through the air supply pipe 21 is discharged to the indoor space through the indoor air supply port 320, and wind pressure acts on the air supply damper 131. , When the force acting in the direction in which the air supply damper 131 is opened by the wind pressure is greater than the elastic restoring force of the spring connected to the air supply damper 131, the air supply damper 131 rotates around the hinge so that the housing air supply 130 An open flap opening operation is made.

When the indoor air cleaning operation is performed or the operation of supplying outdoor air to the indoor space through the ventilation equipment 20 is stopped by stopping the air purifier 10, the elastic restoring force of the spring connected to the air supply damper 131 As the air supply damper 131 reversely rotates on the axis of the hinge, a flap closing operation is performed in which the housing supply port 130 is closed.

2. Opening and closing operation of the exhaust port 153 through the first air cleaning damper 160:

The hinge axis of rotation of the first air cleaning damper 160 is connected to the partition wall 140 so as to be parallel or perpendicular to the surface of the partition wall 140 in the direction of the air discharge unit 142, and the opening or opening of the first air cleaning damper 160 The design configuration of the hinge which rotates in a direction parallel to or perpendicular to the surface of the bulkhead 140 during the closing operation may be selectively made.

When the first air cleaning damper 160 is configured to rotate in a direction parallel to the surface of the partition wall 140, the first air cleaning damper 160 performs a swing operation using the hinge as a rotational axis to remove the exhaust outlet 153. ) is opened or closed, and when the first air cleaning damper 160 is configured to rotate in a direction parallel to the surface of the partition wall 140, the first air cleaning damper 160 is a flap having a hinge as a rotation axis ( The exhaust port 153 is opened or closed through flap operation.

At this time, a stepping motor that generates a driving force during the opening and closing operation of the first air cleaning damper 160 is directly connected to the hinge rotation shaft of the first air cleaning damper 160 or indirectly connected through a rotational force transmission structure such as a gear, so that the stepping motor The first air cleaning damper 160 may be configured to open or close the exhaust port 153 by controlling the rotation axis angle by operation.

Alternatively, a spring is connected to the hinge rotation shaft of the first air cleaning damper 160, and the first air cleaning damper 160 is opened by wind pressure caused by the air flow passing through the exhaust port 153, and the exhaust port 153 is opened, When the wind pressure action is stopped, the exhaust port 153 may be closed while the first air cleaning damper 160 is closed by the elastic restoring force of the spring.

The opening and closing control method of the first air cleaning damper 160 through a spring is applied only when the first air cleaning damper 160 opens and closes the exhaust port 153 through a flap operation, and the first air cleaning damper 160 ) When the spring for opening/closing operation is applied, when the fan 150 for indoor air cleaning operation is operated, the indoor air introduced into the case 151 is discharged through the exhaust port 153 to the first air cleaning damper 160. When the wind pressure acts and the force acting in the direction in which the first air cleaning damper 160 is opened by the wind pressure is greater than the elastic restoring force of the spring connected to the first air cleaning damper 160, the first air cleaning damper 160 A flap opening operation is performed in which the exhaust port 153 is opened while rotating about the hinge.

When the indoor air cleaning operation is stopped or when the outdoor air is supplied to the indoor space through the ventilation equipment 20, the operation of the fan 150 is stopped, and the elasticity of the spring connected to the first air cleaning damper 160 A flap closing operation in which the exhaust port 153 is closed while the first air cleaning damper 160 reversely rotates around the hinge by the action of restoring force is performed.

Due to the nature of the operation of the air cleaning function, which consists of a process of sucking in indoor air from the indoor space by the operation of the fan 150, removing foreign substances in the indoor air through the filter 170, and resupplying it to the indoor space, the air cleaning function In order to increase the efficiency of removing foreign substances, the flow rate of circulated indoor air is greater than the flow rate of outdoor air formed when the air supply diffuser function for supplying outdoor air to the indoor space through the ventilation equipment 20 is activated.

Accordingly, the cross-sectional area of the exhaust port 153 is formed larger than the cross-sectional area of the housing air supply port 130, so that the cross-sectional area of the first air cleaning damper 160 that controls the opening and closing of the exhaust port 153 also increases the opening and closing of the housing air supply port 130. It has structural characteristics that must be formed larger than the cross-sectional area of the air supply damper 131 for controlling.

Since the height of the air purifier 10 is limited to less than the distance between the upper surface of the ceiling board 1 and the ceiling slab structure in the upper space of the ceiling board 1, in order to stably install the air purifier 10, the housing 100 There is a need for miniaturization by reducing the height, and the height of the bulkhead 140 is limited in order to achieve miniaturization of the housing 100 .

At this time, when the first air cleaning damper 160 is opened and closed in a swing operation method, the swing operation height of the first air cleaning damper 160 is limited, so that the exhaust port 153 cannot be completely opened, or the exhaust port Since the cross-sectional area of the exhaust port 153 is small enough to fully open the exhaust port 153, the flow rate of indoor air passing through the exhaust port 153 may decrease and the air cleaning efficiency may decrease. ) It is preferable to configure the first air cleaning damper 160 in a flap operation method so that the exhaust port 153 can be fully opened even if the cross-sectional area of the ) is large.

In addition, when the first air cleaning damper 160 and the air supply damper 131 are configured in a flap operation method at the same time, the process of switching between the indoor air cleaning operation of the air purifier 10 and the outdoor air supply operation through the ventilation equipment 20 When the first air cleaning damper 160 is opened and closed, the opposite end of the hinge connection part of the first air cleaning damper 160 moves, and when the air supply damper 131 is opened and closed, the opposite end of the hinge connection part of the air supply damper 131 moves As the trajectories overlap each other, interference between the air supply damper 131 and the first air cleaning damper 160 may result in defective opening/closing operation of the damper or damage to the damper.

Therefore, when the air supply damper 131 and the first air cleaning damper 160 are opened and closed at the same time by the flap operation method, overlapping operation trajectories between the air supply damper 131 and the first air cleaning damper 160 In order to prevent, The inner surface of the housing 110 and the surface of the partition wall 140 are configured to be spaced apart from each other at a distance greater than the sum of the widths of the air supply damper 131 and the first air cleaning damper 160, or the housing air supply port 130 and the exhaust port ( 153) is preferably arranged to be staggered from each other in the horizontal direction along the inner surface of the housing 110 and the surface of the partition wall 140.

However, in order to prevent interference between the air supply damper 131 and the first air cleaning damper 160 when the housing air supply inlet 130 and the exhaust outlet 153 are simultaneously opened and closed according to the flap operation, the housing air supply inlet 130 and the exhaust outlet 153 ) If the spaced arrangement interval is increased, the size of the air purifier 10 increases, and the weight of the air purifier 10 may increase and the efficiency of the installation space may decrease.

Therefore, the air supply damper 131 is configured in a swing operation method, so that the movement trajectory formed by the air supply damper 131 during the opening and closing operation of the air supply damper 131 is formed during the flap type opening and closing operation. The first air cleaning damper 160 It is desirable to prevent overlapping with the movement trajectory of .

Through this, when the first air cleaning damper 160 and the air supply damper 131 are opened and closed at the same time, the separation distance in which interference does not occur between the first air cleaning damper 160 and the air supply damper 131 can be reduced. And, according to the miniaturization of the air purifier 10, it is possible to reduce the weight and improve the efficiency of the installation space.

The outer cover 300 is mounted in close contact with the lower surface of the inner cover 200, and on one side of the outer cover 300, an indoor air supply port 320 and a second intermediate air supply port communicating with the first intermediate air supply port 210 are provided. An air cleaning exhaust port 330 communicating with the 230 is formed, and an indoor air intake port 310 is formed on the other side of the outer cover 300 to communicate with the middle intake port 220 .

A sensor 180 for detecting the concentration of CO ₂ and the amount of dust in the indoor air is mounted on the edge of the space between the inner side of the inner cover 200 on which the filter 170 is mounted and the partition 140, and the sensor 180 is mounted on the inner side of the space. A display unit 250 for displaying the operating state of the air purifier 10 to the outside is mounted on the outer center of the cover 200 .

Check the operating state information of the air purifier 10 displayed on the display unit 250 in the indoor space through the display window 340 formed on the outer cover 300 where the sensor 180 and the display unit 250 are disposed. In addition, a sensor sphere 341 connecting the indoor space and the inside of the inner cover 200 is formed at the edge of the display window 340 at the location where the sensor 180 is mounted, so that the sensor 180 transmits the indoor air. It is configured to detect CO ₂ concentration and amount of dust.

A second air cleaning damper 231 for controlling the opening and closing of the air cleaning exhaust port 330 is mounted on the air cleaning exhaust port 330 .

A rack 232 is formed on the upper surface of the second air cleaning damper 231 so as to face the inside of the housing 100, and a stepping motor and a rotating shaft of the stepping motor are connected to one side of the second intermediate air supply 230. The pinion 233 is mounted, and the teeth of the pinion 233 and the rack 232 are connected to each other.

The rotational motion of the stepping motor is converted into linear motion by the pinion 233 and the rack 232, and the rack 232 moves upward or downward according to the forward or reverse rotation of the stepping motor. The opening or closing operation of the second intermediate supply outlet 230 is performed through the second air cleaning damper 231 by allowing the air cleaning damper 231 to move up and down.

At the end of the connection guide that guides the ascending and descending direction of the second air cleaning damper 231 and connects the second air cleaning damper 231 to the second intermediate air supply outlet 230, the descending of the second air cleaning damper 231 A stopper limiting the height may be formed, and when an excessive descent of the second air cleaning damper 231 occurs due to a malfunction of the stepping motor, the second air cleaning damper 231 ) is stopped to prevent separation or damage of the second air cleaning damper 231.

As shown in FIG. 3, the indoor air inlet 310 and the indoor air inlet 320 are located in three directions along the side of the outer cover 300 mounted so as to protrude at a certain height from the lower surface of the ceiling board 1 toward the indoor space. is formed

Through this, when the air purifier 10 operates to clean the air, non-directional indoor air intake is performed through the indoor air intake port 310 and uniform intake air is generated in the indoor space, resulting in a difference in air cleaning effect depending on the location of the indoor air pollutant. is minimized, and when the air purifier (10) is operated by operating the ventilation equipment (20), the indoor air supply outlet (320) conducts non-directional outdoor air supply to generate uniform air supply in the indoor space, so that the indoor space is located It is possible to minimize the difference in ventilation effect according to the ventilation effect.

At this time, since a separate damper is not mounted on the first intermediate air supply inlet 210 and the indoor air inlet 320, they are kept open at all times. When the clean air introduced into the 142 is re-supplied to the indoor space, the clean air is exhausted to the indoor air supply port 320 as well as the air cleaning exhaust port 330 opened by the opening operation of the second air cleaning damper 231 will occur simultaneously.

Since the flow rate cross-sectional area for exhausting clean air by indoor air cleaning operation can be sufficiently secured through the air cleaning exhaust port 330 and the indoor air supply port 320, the flow rate of the indoor air supply port 320 formed on the side of the outer cover 300 It is preferable to make the cross-sectional flow area of the indoor air intake port 310 larger than the cross-sectional area. is determined according to

The air purifier 10 according to the embodiment of the present invention configured as described above is selected from among stop, air supply mode (M1), and air cleaning mode (M2) according to the concentration of CO ₂ and the amount of dust detected by the sensor 180. It works by automatically switching to the operating mode of

In the stopped state of the air purifier 10, as shown in FIG. 5, the operation of the ventilation equipment 20 and the fan 150 is stopped, and the air supply damper 131 and the first and second air cleaning dampers 160 and 231 are closed By the operation, the exhaust port 153, the air cleaning exhaust port 330, and the housing supply port 131 are closed.

When the operation mode of the air purifier 10 is switched to the air supply mode (M1), as shown in FIG. Closed, the housing air supply port 130 is opened by the opening operation of the air supply damper 131, and the operation of the fan 150 is stopped.

After outdoor air is introduced into the air outlet 142 through the air supply pipe 21 and the housing air supply port 130 by the operation of the ventilation equipment 20, the first intermediate air supply port 210 and the indoor air supply port Air is supplied to the indoor space through 320 to lower the CO ₂ concentration in the indoor air.

When the operation mode of the air purifier 10 is switched to the air cleaning mode (M2), as shown in FIG. 7, the exhaust port 153 and the air cleaning exhaust port 330 are opened by the opening operation of the first and second air cleaning dampers 160 and 231 is opened, the housing air supply port 130 is closed by the closing operation of the air supply damper 131, and the fan 150 is operated.

The indoor air taken into the outer cover 300 through the indoor air intake port 310 by the operation of the fan 150 is freed from foreign substances by the filter 170, and then passes through the middle intake port 220 and the intake port 152. and the exhaust port 153, the air is introduced into the air discharge unit 142, and is supplied back to the indoor space through the air cleaning exhaust port 330 to clean the indoor air.

At this time, since dampers are not formed on the first intermediate air supply port 210 and the indoor air supply port 320, when the air cleaning mode (M2) is operated, clean air through the air cleaning exhaust port 330 as well as the indoor air supply port 320 The resupply of the indoor space is performed at the same time. As described above, in the air cleaning mode (M2), the air flow rate passing through the air purifier 10 is increased compared to the air supply mode (M1) in order to increase the efficiency of removing foreign substances in the air cleaning function. Since it is formed large, the air cleaning efficiency of the air cleaning mode (M2) is increased by simultaneously discharging clean air from the indoor air supply port 320 and the air cleaning exhaust port 330.

In addition, when the air cleaning mode (M2) is operated, the second air cleaning damper 231 descends and protrudes from the outer cover 300, so that even if the user does not closely check the display of operation information on the display unit 250, the air cleaning mode ( M2) Make it possible to intuitively check whether it is working or not.

In addition, the air purifier having an air supply diffuser function according to an embodiment of the present invention does not require installation of a separate air supply diffuser that is connected to the ventilation equipment 20 and supplies outdoor air to the indoor space, and the air supply diffuser in the air purifier 10 By integrating the functions of the air supply diffuser and air cleaning system installation costs can be reduced, and space utilization can be improved through device integration and miniaturization.

Although the embodiments of the present invention have been described with reference to the above, those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing the technical spirit or essential features.

Therefore, the embodiments described above should be understood as illustrative and not restrictive in all respects, and the scope of the present invention described in the detailed description is indicated by the claims to be described later, and the meaning and meaning of the claims All changes or modifications derived from the scope and equivalent concepts should be construed as being included in the scope of the present invention.

1: ceiling board 2: installation hole
3: fastening member 10: air purifier
20: ventilation equipment 21: air supply
100: housing 110: housing flange
120: fixed flange 130: housing supply port
131: air supply damper 140: bulkhead
141: air intake part 142: air discharge part
143: connector 150: fan
151 case 152 suction port
153: exhaust port 154: fixing pin
160: first air cleaning damper 170: filter
180: sensor 200: inner cover
210: first intermediate air intake 220: intermediate air intake
230: second intermediate air supply 231: second air cleaning damper
232: rack 233: pinion
240: fixture 241: fixing member
250: display unit 300: outer cover
310: indoor air intake 320: indoor air intake
330: air cleaning outlet 340: display window
341: sensor sphere

Claims (4)

a housing 100 installed in the installation hole 2 formed in the ceiling board 1 and constituting the main body of the air purifier 10;
A housing flange 110 formed by protruding to the outer surface of the housing 100 along the surface of the ceiling board 1 to form a size larger than the mounting hole 2, and having the protruding lower surface seated on the upper surface of the ceiling board 1 ;
Mounted on the lower part of the housing 100, a fixed flange 120 protruding to form a larger size than the mounting hole 2 is formed at the edge, and the fixed flange 120 in contact with the lower surface of the ceiling board 1 is a fastening member An inner cover 200 fixing the housing 100 to the ceiling board 1 while being fastened to the ceiling board 1 by (3);
A housing air supply vent 130 formed on one side of the housing 100 and connected to the ventilation equipment 20 through the air supply pipe 21 to supply outdoor air into the housing 100;
a first intermediate air supply port 210 formed on one side of the inner cover 200 to supply outdoor air supplied into the housing 100 through the housing air supply port 130 to the indoor space;
a middle intake port 220 formed on the other side of the inner cover 200 to intake indoor air into the housing 100;
a second intermediate air supply vent 230 formed spaced apart from the first intermediate air supply vent 210 at a predetermined interval and re-supplying indoor air taken into the housing 100 through the intermediate air intake vent 220 to the indoor space;
The inner space of the housing 100 includes an air intake 141 connected to the middle intake port 220, an air discharge unit 142 connected to the housing air supply port 130 and the first and second intermediate air intake ports 210 and 230. A partition wall 140 formed inside the housing 100 to separate into two spaces and having a connector 143 connecting the air intake unit 141 and the air discharge unit 142 to each other;
Mounted inside the case 151 having a spiral-shaped shell structure in which the intake port 152 formed to face the middle intake port 220 and the exhaust port 153 connected to the connector 143 of the partition wall 140 are formed, and the motor a fan 150 that draws indoor air into the housing 100 through rotational driving according to the operation of the fan 150 and discharges air from the air outlet 142 into the indoor space;
It is formed at the center of the inlet 152 of the case 151 toward the room, and when the inner cover 200 is mounted on the housing 100, the inner cover 200 passes through the fixture 240 formed on the inner cover 200. A fixing pin 154 protruding downward and binding the housing 100 and the inner cover 200 by fixing the lower surface of the inner cover 200 by binding the fixing member 241;
An outer cover 300 mounted so as to be in close contact with the lower part of the inner cover 200;
an indoor air intake port 310 formed on the outer cover 300 to communicate with the middle intake port 220;
An indoor air supply port 320 formed on the outer cover 300 to communicate with the first intermediate air supply port 210;
An air cleaning exhaust port 330 formed on the outer cover 300 to communicate with the second intermediate air supply port 230;
Air supply damper 131 for controlling the opening and closing of the housing supply mechanism 130;
A first air cleaning damper 160 controlling the opening and closing of the exhaust port 153;
A second air cleaning damper 231 controlling the opening and closing of the air cleaning exhaust port 330;
a filter 170 mounted between the indoor air intake port 310 and the intermediate intake port 220;
A sensor 180 for detecting the concentration of CO ₂ and the amount of dust in the indoor air;
a display unit 250 that externally displays the operating state of the air purifier 10;
The air purifier 10 composed of is automatically switched to one of the operation modes selected from stop, air supply mode (M1) or air cleaning mode (M2) according to the CO ₂ concentration and the amount of dust detected by the sensor 180,
In the air supply mode (M1), the housing supply port 130 according to the closing operation of the first and second air cleaning dampers 160 and 231, the closing of the exhaust port 153 and the air cleaning exhaust port 330, and the opening operation of the air supply damper 131 ), the outdoor air introduced into the housing 100 by the operation of the ventilation equipment 20 is supplied to the indoor space through the indoor air supply port 320,
In the air cleaning mode (M2), the exhaust port 153 and the air cleaning exhaust port 330 are opened according to the opening operation of the first and second air cleaning dampers 160 and 231, and the housing supply port according to the closing operation of the air supply damper 131 ( 130) in the closed state, indoor air is taken into the indoor air intake port 310 by the operation of the fan 150 and foreign substances are removed by the filter 170, and then the air cleaning exhaust port 330 and the indoor air supply port ( 320) by supplying it back to the indoor space,
An air purifier having an air supply diffuser function, characterized in that the function of the air purifier and the air supply diffuser is integrated. According to claim 1,
The air supply damper 131 is connected to the inner surface of the housing 100 through a hinge, the first air cleaning damper 160 is connected to the surface of the bulkhead 140 toward the air discharge unit 142 through a hinge, and the air supply damper ( 131) and the rotation axis of the first air cleaning damper 160 are formed in a direction parallel or perpendicular to the inner surface of the housing 100 or the surface of the partition wall 140, so that the air supply damper 131 and the first air cleaning damper (160) is configured to open or close the housing supply port 130 and the exhaust port 153 through swing operation using the hinge as the rotation axis or control of the rotation axis angle by flap operation. Characterized in that An air purifier with a supply air diffuser function. According to claim 1,
A rack 232 is formed on the upper surface of the second air cleaning damper 231 so as to face the inside of the housing 100, and a stepping motor and a rotating shaft of the stepping motor are connected to one side of the second intermediate air supply 230. The pinion 233 is mounted, and the teeth of the pinion 233 and the rack 232 are connected to each other, and the second air cleaning damper 231 according to the vertical movement direction of the rack 232 according to the rotation direction of the stepping motor An air purifier having an air supply diffuser function, characterized in that the opening or closing of the second intermediate air supply device 230 is performed by moving up and down. According to claim 1,
The display unit 250 is mounted on the inner cover 200 and displays the operating state of the air purifier 10 to the outside through a display window 340 formed on the outer cover 300, and the sensor 180 displays the display window 340. (340) An air purifier having an air supply diffuser function, characterized in that it is connected to the indoor space through the sensor sphere 341 formed on the edge.

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