KR102266906B1 - System louver - Google Patents

Abstract

The system louver installed in the ventilation hole for ventilation of the building includes a main frame attached to the ventilation hole, a plurality of louver blades fixed to the main frame and installed spaced apart from each other to create a gap, and a fan rotatably installed behind the louver blade and a motor for rotating the fan, and the fan rotates to generate a forced flow of air into the gap between the louver blades.

Description

system louver { System louver }

The present invention relates to a louver installed in a ventilation hole for ventilation of a building, and more particularly, to a system louver system configured to enable forced discharge through the ventilation hole.

Like patent document 1, there are many cases where "louver" is installed in the ventilation opening for ventilation of a building.

In general, the louver has a structure in which louver wings of a narrow width are installed side by side in the horizontal direction. Most of the louver wings are inclined downward to prevent the high-temperature air from the outdoor unit of the air conditioner from reaching directly to passers-by. In addition, it is preferred because it prevents the inflow of rainwater or direct sunlight through the sloping louver wings, and also protects privacy by preventing the inside of the building from being seen from the outside.

Recently, in the era of single-person families, buildings are being built as one-room or two-room, etc., and in order to utilize a small space, a boiler and an air conditioner outdoor unit are often installed together in one room.

The heat emitted from the outdoor unit during the operation of the air conditioner in summer causes the boiler and the outdoor unit of the air conditioner to malfunction, and often leads to a fire in a building.

Since the conventional louver depends on natural exhaust, there is a limitation in properly discharging heat such as an outdoor unit to the outside.

Korean Patent Registration No. 10-1190123

The present invention is to solve the problems of the prior art described above, while maintaining the advantages of the existing louvers, it is an object of the present invention to provide a forced circulation system louvers that can increase ventilation efficiency.

In order to achieve the above object, according to an aspect of the present invention, as a system louver installed in a ventilation hole for ventilation of a building, a main frame attached to the ventilation hole, and a main frame fixed to the main frame and spaced apart from each other to create a gap A plurality of louver blades, comprising a fan rotatably installed at the rear of the louver blades and a motor for rotating the fan, wherein the fan rotates to generate a forced flow of air into a gap between the louver blades A system louver is provided.

According to one embodiment, the fan has a cylindrical body, a cylindrical fan rotating about a central axis of the cylindrical body, the central axis of the cylindrical fan extends parallel to the longitudinal direction of the gap between the louver blades.

According to an embodiment, the fan blades of the fan are formed such that the direction of wind generated by the fan blades coincides with the width direction of the gap.

According to one embodiment, the system louver includes a plurality of cylindrical fans, wherein the plurality of cylindrical fans are respectively disposed between the plurality of louver blades.

According to one embodiment, the cylindrical fan is disposed adjacent to the entrance of the gap between the louver blades to block the entry and exit of the flies into the gap between the louver blades.

According to one embodiment, the cylindrical fan is movable forward and backward with respect to the louver blade.

According to one embodiment, the system louver includes a rotation shaft rotated by the motor, the rotation shaft is vertically connected to the central axis of the cylindrical body, and the rotation shaft has an end of each of the cylindrical bodies of the plurality of cylindrical fans. A plurality of bevel gears meshing with the bevel gear formed in the are formed, so that the plurality of cylindrical fans rotate at the same time by the rotation of the rotating shaft.

According to an exemplary embodiment, the ventilation hole is formed in a room in which the outdoor unit of the air conditioner is placed, and the motor is electrically connected to the outdoor unit and operates together when the outdoor unit is operated.

According to an embodiment, the system louver includes an auxiliary frame to which the main frame is detachably coupled to the rear, and the fan is rotatably installed on the auxiliary frame.

1 is a front perspective view of a system louver according to an embodiment of the present invention.
Figure 2 is a rear perspective view of the system louver of Figure 1;
Fig. 3 is a schematic side view showing the arrangement relationship between the cylindrical fan and the louver blade of the system louver of Fig. 1;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiment shown in the drawings, which is described as one embodiment, the technical idea of the present invention and its core configuration and operation are not limited thereby.

Figure 1 is a front perspective view of the system louver (1) according to an embodiment of the present invention, Figure 2 is a rear perspective view of the system louver (1).

The system louver 1 according to this embodiment is installed in a ventilation hole (not shown) for ventilation of a building (not shown), and may forcibly exhaust air inside the building. Here, the ventilation hole is not necessarily limited to only an opening formed exclusively for ventilation, and any part connected to the outside for ventilation, such as a window, may be sufficient.

The system louver (1) is at the rear of the main frame (10), a plurality of louver wings (21, 22, 23, 24) fixed to the main frame (10), and louver wings (21, 22, 23, 24) and a fan 30 to be installed.

In this specification, the outer direction of the building to which the louver wings 21, 22, 23, 24 are directed is referred to as "front", and the direction opposite to "front" is referred to as "rear". However, the front and the rear indicate an arbitrary direction indicating opposite directions, and are not intended to limit an absolute direction with respect to the ground.

The main frame 10 is a frame-like frame having a substantially rectangular shape, is formed in a size suitable for the opening of the ventilation hole of the building, and is attached to the ventilation hole of the building.

According to this embodiment, four louver wings (21, 22, 23, 24) are fixed to the center of the main frame (10).

Louver blades (21, 22, 23, 24) are formed in parallel in the horizontal direction, each louver blade (21, 22, 23, 24) is formed to be inclined with a predetermined angle downward.

The louver blades 21, 22, 23, 24 are installed to be spaced apart from each other so that there is a gap therebetween. The louver blades 21, 22, 23, and 24 are inclined at the same angle to each other, so that the gap between the two louver blades forms a straight air path (see FIG. 3).

The number, extension direction, and inclination angle of the louver blades 21 , 22 , 23 , and 24 may be changed according to the environment in which the system louver 1 is installed. In addition, according to this embodiment, the system louver 1 is a fixed type in which the inclination angle of the louver blades 21, 22, 23, 24 is fixed, but the inclination of the louver blades 21, 22, 23, 24 as needed The variable type which can adjust an angle may be sufficient.

The auxiliary frame 50 is coupled to the rear of the main frame 10 . According to this embodiment, the main frame 10 is a frame exposed to the outside of the building around the ventilation hole, and the auxiliary frame 50 is disposed inside the building.

Referring to FIG. 2 , a fan 30 is installed inside the auxiliary frame 50 . The fan 30 rotates to generate wind, and generates a forced flow of air through the gap between the louver blades 21 , 22 , 23 and 24 .

According to this embodiment, the fan 30 is a cylindrical fan having a cylindrical body 31 . A plurality of fan blades 32 are formed around the body 31 .

The cylindrical fan 30 rotates about a central axis 34 of the cylindrical body 31 . The central axis 34 of the cylindrical fan 30 extends parallel to (ie, horizontally) the longitudinal direction of the gaps of the louver blades 21 , 22 , 23 , 24 .

The end of the central shaft 34 of each cylindrical fan 30 is rotatably fixed to the fixing plate 51 formed on the inner surface of the auxiliary frame 50 via a bearing or the like. Although not shown in detail, the fixing plate 51 is installed on both sides of the auxiliary frame 50 , respectively, to rotatably fix both ends of the central shaft 34 of the cylindrical fan 30 .

According to this embodiment, the system louver 1 includes a plurality (three in this embodiment) of cylindrical fans 30 . According to the present embodiment, the cylindrical fan 30 is provided with one smaller number than the louver blades 21, 22, 23, 24, and the cylindrical fan 30 is each between the louver blades 21, 22, 23, and 24. are placed That is, one cylindrical fan 30 corresponds to one gap between the louver blades 21 , 22 , 23 , and 24 , causing a forced flow of air into the gap.

The plurality of cylindrical fans 30 may be independently driven by separate driving means, but according to the present embodiment, the plurality of cylindrical fans 30 are simultaneously driven by one motor.

More specifically, as shown in FIGS. 1 and 2 , the motor box 40 is installed at the upper end of the auxiliary frame 50 , for example. One motor is provided inside the motor box 40 .

The rotating shaft 41 rotated by the motor is disposed to extend in the vertical direction inside the auxiliary frame 50 . The rotation shaft 41 is vertically connected to the central axis 34 of the cylindrical body 31 of the cylindrical fan 30 in a vertical direction.

Three bevel gears 41 , 42 , 43 are connected to the rotation shaft 41 to correspond to the positions of the respective cylindrical fans 30 . When the rotating shaft 41 rotates, the bevel gears 41 , 42 , 43 rotate together.

A bevel gear 33 meshed with the bevel gears 41 , 42 , 43 of the rotating shaft 41 is provided on the central shaft 34 of each cylindrical fan 30 .

The rotation direction of the rotating shaft 41 is switched by the meshing of the bevel gear, and the cylindrical fan 30 rotates around the central shaft 34 .

Three cylindrical fans 30 are simultaneously connected to one rotation shaft 41 , and the plurality of cylindrical fans 30 are simultaneously rotated by rotation of the rotation shaft 41 .

According to this embodiment, by placing the cylindrical fan 30 in an appropriate position with respect to the louver blade, the ventilation efficiency of the air is increased.

3 is a schematic side view showing the positions of the louver blades 21 , 22 and the cylindrical fan 30 .

As shown in FIG. 3 , the two louver blades 21 , 22 are arranged substantially in parallel to form a straight gap having an inlet 5 and an outlet 6 .

A cylindrical fan 30 is arranged so as to be adjacent to the inlet 5 of the gap. Preferably, the cylindrical fan 30 does not contact the louver blades 21 and 22, but the gap 7 between the cylindrical fan 30 and the louver blades 21 and 22 is small, so that small flying insects such as mosquitoes and flies can use the louver. It is good if it can be prevented from entering the building through the gap between the wings (21, 22).

The cylindrical fan 30 generates a forced flow of air through the gap between the louver blades 21 and 22, and forcibly discharges the air inside the building to the outside of the building.

According to this embodiment, the cylindrical fan 30 rotates in the rotational direction (counterclockwise in FIG. 3) toward the upper louver blade 21.

Even when the direction of the wind formed by the louver blade 21 becomes the horizontal direction to the ground, smooth air discharge to the outlet 6 of the gap can be expected by the louver blade 21 inclined downward.

However, according to this embodiment, in order to increase the efficiency, the traveling direction of the wind 4 generated by the fan blade 32 coincides with the width direction of the gap between the two louver blades 21 and 22. The shape of the fan blades 32 of the cylindrical fan 30 is determined as much as possible.

Accordingly, the flow of air formed by the cylindrical fan 30 can escape to the outside of the building without being resisted by the downwardly inclined louver blades 21 .

The system louver 1 according to this embodiment has excellent air discharge performance, and is suitable to be installed in a vent for discharging high-temperature air generated by the outdoor unit 2 of an air conditioner.

Referring back to FIG. 1 , the system louver 1 according to the present embodiment is installed in a ventilation hole of a narrow room where the outdoor unit 2 of the air conditioner is placed.

In the above environment, it is preferable to operate the cylindrical fan 30 when the outdoor unit 2 operates to generate high-temperature air. According to the present embodiment, the motor for operating the cylindrical fan 30 is interlocked with the outdoor unit 2 through an electrical connection 3 . Accordingly, when the outdoor unit 2 is operated, the cylindrical fan 30 is operated together with the operation of the outdoor unit 2 by allowing the motor to operate through the corresponding power and signal. Accordingly, unnecessary power consumption can be reduced.

As described above, according to this embodiment, the cylindrical fan 30 is installed close to the louver blades so that the flying insects do not pass easily, so if the cylindrical fan 30 does not operate, it is natural through the gap between the louver blades. Exhaust may be obstructed.

Referring back to FIG. 2 , the auxiliary frame 50 includes a guide rail 52 on which the fixing plate 51 can move forward and backward, and a lever 53 that can be operated by a user to move the fixing plate 51 forward and backward. has been Accordingly, as the cylindrical fan 30 moves the fixed fixing plate 51 forward and backward, the cylindrical fan 30 moves forward and backward toward or away from the louver blades 21. 22, 23, 24 as needed. position can be moved to

Accordingly, when the cylindrical fan 30 is not operated, by retracting the cylindrical fan 30 to open a gap with the louver blade, natural exhaust can be achieved well.

The main frame 10 and the auxiliary frame 50 may be formed as one frame integrally formed, but according to the present embodiment, the auxiliary frame 50 is formed separately from the main frame 10 and the main frame 10 ) is detachably formed in the rear.

By separating the auxiliary frame 50 from the main frame 10 , the components formed in the auxiliary frame 50 such as the cylindrical fan 30 and the motor can be detached.

That is, the system louver 1 according to this embodiment is an auxiliary frame 50 in which a cylindrical fan 30 and a motor are installed in a louver (a conventional louver having only the main frame 10 and louver wings) installed in an existing building. can be formed by combining Therefore, it is possible to reduce the cost for installing the system louver (1).

Claims (9)

As a system louver installed in a ventilation hole for ventilation of a building,
a main frame attached to the ventilation hole;
a plurality of louver wings fixed to the main frame and installed to be spaced apart from each other to form a gap;
A fan rotatable to the rear of the louver blade in a cylindrical shape and is installed to be movable in a forward and backward position with respect to the louver blade;
a motor rotating the fan; and
an auxiliary frame detachably coupled to the rear of the main frame and rotatably installed with the fan;
including,
The auxiliary frame is
a fixing plate to which the fan is fixed to an inner surface;
a guide rail that the fixing plate can move forward and backward; and
a lever for moving the fixing plate forward and backward;
includes,
The system louver, characterized in that the fan rotates to generate a forced flow of air into the gap between the louver blades. According to claim 1,
The fan rotates about a central axis, and the central axis of the fan extends parallel to the longitudinal direction of the gap between the louver blades. 3. The method of claim 2,
The fan blade of the fan is a system louver, characterized in that the wind direction generated by the fan blade is formed to coincide with the width direction of the gap. 3. The method of claim 2,
a plurality of cylindrical fans;
The system louver, characterized in that the plurality of cylindrical fans are respectively disposed between the plurality of louver blades. 5. The method of claim 4,
The cylindrical fan is disposed adjacent to the inlet of the gap between the louver blades system louver, characterized in that to block the entry and exit of the fly into the gap between the louver blades. delete 5. The method of claim 4,
It includes a rotating shaft rotated by the motor,
The rotation axis is connected to the central axis of the cylindrical body perpendicularly,
A system louver, characterized in that the plurality of bevel gears meshing with the bevel gears formed at the ends of the cylindrical bodies of the plurality of cylindrical fans are formed on the rotation shaft, and the plurality of cylindrical fans rotate at the same time by the rotation of the rotation shaft. According to claim 1,
The ventilation hole is formed in a room in which the outdoor unit of the air conditioner is placed,
The motor is electrically connected to the outdoor unit, and the system louver operates together when the outdoor unit operates. delete

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