KR101158808B1 - Ventilating control system for a roof - Google Patents

Abstract

The present invention relates to a loop ventilation control system, and by forming an outside air induction path portion to naturally discharge upwardly the outside air flowing from the side, it is possible to smoothly maintain the discharge flow of the air inside the building, and support the bending plate roof panel It is an object of the present invention to provide a loop ventilation control system to reduce the resistance element to the exhaust air by installing on the outside and blocking the inflow of air.
According to the present invention, the wind flowing from the outside to the top of the lateral side is designed to be discharged to the outside again through the internal path so that when the air inside the building is discharged, the air flowing from the outside increases the discharge power to be accelerated and discharged. There is one advantage, and there is an advantage that can increase the air discharge power without extra energy consumption. In addition, by blocking the air flowing from the lower side of the side there is an advantage that the smooth air can be exhausted by preventing the outside air to act as a resistance when discharging the internal air.

Description

Loop ventilation control system {VENTILATING CONTROL SYSTEM FOR A ROOF}

The present invention relates to a loop ventilation control system, and in more detail, by forming an external air induction path part to naturally discharge upwardly the external air introduced from the side, it is possible to smoothly maintain the discharge flow of the air inside the building, It is related to a loop ventilation control system which is installed outside the supporting roof panel and installed to block the air inflow to reduce the resistance element to the exhaust air.

As is well known, buildings such as factory buildings and warehouses provided with roofs are provided with ventilation systems on the roofs. Since the warm air rises to the top of the building, the main installation site of the ventilation system is the roof, and the ventilation system must be operated inside the roof, which is impossible for the administrator to manually operate the ventilation system of the high roof. Recently, a fully automatic system has been released.

1 is a side cross-sectional view showing the structure of a loop ventilation control system according to a conventional embodiment.

Referring to this, the loop ventilation control system 2 according to the conventional embodiment is also called a loop monitor system. The roof monitor is not named for observing the roof condition, but for the system that controls the ventilation of the roof.

As shown in the figure, the loop ventilation control system 2 according to the conventional embodiment is installed at an angle to each other at a predetermined distance from the center portion of the roof panel so that foreign matters such as rain water can flow down ( 3) is provided, and the support frame 4 which supports the roof panel 3 is provided in the lower part of the roof panel 3. As shown in FIG.

In addition, the roof ventilation control system 2 is installed to surround the spaced space of the central part of the roof panel 3, and the loop ventilation control system 2 supports the lower part of the roof panel 3. It is connected to the frame 4, and provided with a vertical support frame 6 which is installed at regular intervals in the longitudinal direction, and is connected to the outer surface of the vertical support frame 6 by a predetermined length spaced apart horizontally supported frame ( 8) is provided in two stages, and a plurality of the transverse supporting frames 8 are also installed at regular intervals in the longitudinal direction of the roof panel 3, and are indicated by dotted lines in the drawing.

In addition, the vertical support frame 6 is composed of a roof-shaped upper end loop 14 inclined at the upper end thereof so that rainwater and foreign matter flows to the side end with respect to the center part.

Meanwhile, a loop monitor frame 10 connected to an end of the lateral support frame 8 and installed to surround the lateral support frame 8 and the upper loop 14 is a longitudinal direction of the loop ventilation control system 2. It is installed at regular intervals.

Since the support roof panel 12 is attached to the outer surface of the loop monitor frame 10, the loop monitor frame 10 is spaced at regular intervals in the longitudinal direction, and thus, the interior of the support roof panel 12. The loop monitor frame 10 is supported at a predetermined interval, and is configured in a structure that the air is discharged through the space.

In addition, the loop monitor frame 10 is uniformly spaced apart from the lower end thereof so as not to contact the vertical support frame 6 or the roof panel 3, and the outside of the vertical support frame 6 through the space. One end is attached to the side and the other end is bent to provide a guide plate 16 located on the upper surface of the roof panel 3.

The guide plate 16 is a rainwater dropped from the upper roof 14 or the support roof panel 12 while inducing air discharged from the inside of the building which is the lower part of the roof panel 3 to the center portion to the outside. Rainwater dropped from) is discharged to the bottom. In addition, the guide plate 16 is provided with triangular bent portions 18 on both side surfaces thereof so that the rainwater that has been bent outwardly and flows down to the lower end is not hindered by the rising wind.

On the other hand, the plate-shaped damper 20 for opening and closing the upper end of the guide plate 16 is provided in the separation space that is the upper end of the guide plate 16, the damper 20 is induced by rotating the motor Opening and closing the upper end of the plate 16 allows the internal air to be discharged to the outside in the summer, or to prevent the discharge of air inside the building during the winter.

The configuration indicated by the dotted line in the drawing shows that a plurality of spaced apart a predetermined interval in the longitudinal direction of the roof panel (3).

However, the loop ventilation control system 2 according to the conventional embodiment has a structure in which the guide plate 16 is surrounded by the support roof panel 12, and the upper loop 14 is disposed on the upper side of the guide plate 16. Since acts as a resistor, when the air inside the building is discharged, there is a problem that the discharge path is complicated and at the same time can be discharged to the outside only by the pressure of the discharge air is not smooth flow of air.

In addition, the loop ventilation control system 2 according to the conventional embodiment is provided with a bending plate 18 for blocking the inflow of air from the outside while draining the rain water falling on the predetermined portion of the guide plate 16. Although the bending plate 18 is configured inside the support roof panel 12, the wind flowing from the outer side rises along the inclination of the bending plate 18 in the process of ascending along the inclined plane and the upper end thereof. As the collision with the space 22 of the loop 14 to stay in a whirlwind to act as a resistance to the air discharge inside the building discharged through the guide plate 16. Therefore, there was a problem in that the exhaust flow of the air inside the building is not smooth.

The present invention has been made in view of the above-described prior art, and by forming an external air induction path portion to naturally discharge upwardly the external air introduced from the side, it is possible to smoothly maintain the discharge flow of the air inside the building, and the bending plate It is an object of the present invention to provide a loop ventilation control system for reducing the resistance element to exhaust air by installing the outside of the supporting roof panel and blocking the inflow of air.

In order to achieve the above object, according to a preferred embodiment of the present invention, the roof panel 3 is installed to have a constant slope with respect to the center portion, and the roof panel 3 is supported below the roof panel 3. In the loop ventilation control system provided with a support frame (4) is installed to surround the separation space of the center portion, the loop ventilation control system 30 is vertically installed at regular intervals in the longitudinal direction while being connected to the support frame (4) A support frame 6; Transverse support frames (8) installed on the outer surface of the vertical support frame (6) inclined in two stages, respectively; A loop monitor frame (10) installed to surround the vertical support frame (6) while having an inclined upper portion with respect to a center portion; An induction plate (16) attached to an outer surface of the vertical support frame (6), the other end of which is bent and positioned on the roof panel (3) to guide the air inside the building upward; Side roof panels 36 attached to both side surfaces of the loop monitor frame 10; An inner roof panel 40 fixed to an upper end of the vertical support frame 6 and having a constant inclination with respect to the center portion; The upper roof panel 32 is attached to the upper end of the loop monitor frame 10 and forms an external air induction path part 38 spaced apart from the side roof panel 36 by a predetermined distance, thereby providing air introduced from the outside. B. The air flows into the outside air induction path part 38 between the upper roof panel 32 and the side roof panel 36 and is discharged to the air discharge part 34 so that the air is discharged through the induction plate 16. Provided is a loop ventilation control system characterized in that the accelerated discharge.

Preferably, the guide plate 16 is the upper surface, the blocking plate 48 for blocking the wind or air flowing from the outside in a predetermined portion that is the outer side of the side roof panel is placed perpendicular to the ground A loop ventilation control system is provided.

The loop ventilation control system according to the present invention is designed to discharge the wind flowing from the outside to the top of the side to the outside again through the internal path to increase the discharge force of the wind flowing from the outside when the air inside the building is discharged One advantage is that it can be, and there is an advantage that can increase the air discharge power without extra energy consumption. In addition, by blocking the air flowing from the lower side of the side there is an advantage that the smooth air can be exhausted by preventing the outside air to act as a resistance when discharging the internal air.

1 is a side cross-sectional view showing the structure of a loop ventilation control system according to a conventional embodiment;
Figure 2 is a side cross-sectional view showing the structure of a loop ventilation control system according to an embodiment of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

Figure 2 is a side cross-sectional view showing the structure of a loop ventilation control system according to an embodiment of the present invention.

Referring to this, the loop ventilation control system 30 according to an embodiment of the present invention can smoothly maintain the discharge flow of the air inside the building by forming the outside air induction path portion to naturally discharge the outside air flowing from the side upward. It is a system to reduce the resistance element to the exhaust air by installing the bending plate on the outside of the support roof panel and blocking the air inlet.

In more detail, the roof ventilation control system 30 according to an embodiment of the present invention is installed at an angle to each other at a predetermined distance from the central portion of the roof panel 3 so that foreign substances such as rainwater can flow down. The center part of the roof panel 3 is provided with the air discharge part 34 which can mutually space and exhaust air in a building.

In addition, a support frame 4 for supporting the roof panel 3 is provided below the roof panel 3.

In addition, the roof ventilation control system 30 is installed so as to surround the spaced space of the central part of the roof panel 3, and the loop ventilation control system 30 supports the lower portion of the roof panel 3. The vertical support frame 6 is provided at regular intervals in the longitudinal direction, and is connected to the outer side surface of the vertical support frame 6 at a predetermined length, and the horizontal support frame 8 is installed to be inclined. Bars are provided in two stages, and a plurality of lateral support frames 8 are also installed at regular intervals in the longitudinal direction of the roof panel 3, and are indicated by dotted lines in the drawing.

In addition, the vertical support frame 6 has an inner roof panel 40 having a roof shape inclined at an upper end thereof, and drain grooves 42 for receiving rainwater at both edges of the inner roof panel 40. Is installed.

Meanwhile, a loop monitor frame 10 connected to an end of the lateral support frame 8 and installed to surround the lateral support frame 8 and the upper loop 14 is a longitudinal direction of the loop ventilation control system 30. It is installed at regular intervals.

One end is attached to the outer surface of the vertical support frame 6, the other end is bent is provided on the roof panel 3 is provided with a guide plate 16 for guiding the interior air discharged upward, The guide plate 16 guides the discharge of air concentrated from the inside of the building, which is the lower part of the roof panel 3 to the center, to the outside, and the rainwater dropped from the upper roof panel 32 or the inner roof panel ( Rainwater dropped in 40) is discharged to the bottom. In addition, the guide plate 16 is provided with triangular bent portions 18 on both side surfaces thereof so that the rainwater that has been bent outwardly and flows down to the lower end is not hindered by the rising wind.

In addition, the guide plate 16 is an upper surface thereof, and a blocking plate 48 for blocking wind or air flowing from outside from the outside of the side roof panel 36 is vertically placed on the ground. It is done.

Therefore, the blocking plate 48 rises as the wind or air collides over the side slope of the guide plate 16 while the gap with the side roof panel 36 is very narrow, and the elevated wind or air Since the lateral inclined toward the outside of the lower side of the roof panel 36 is not introduced into the loop ventilation control system 30 according to an embodiment of the present invention.

As described above, when the outside air or wind is introduced into the inside of the roof ventilation control system 30 from the outside side, the whirlwind is generated at the lower portion of the inner roof panel 40, so that the air is discharged from the inside of the building (emission in the E direction). Air) as a resistance element. Therefore, the blocking plate 48 may be prevented from inflow of external wind or air by installing the blocking plate 48 on the outer side of the side roof panel 36.

On the other hand, the roof ventilation control system 30 according to an embodiment of the present invention is provided with side roof panels 36 attached to both sides of the loop monitor frame 10, the side roof panel 36 is transverse The lower end of the lateral support frame 8 is bent along the directional support frame 8, and the lower end of the side roof panel 36 is also bent 36a.

At this time, the lower bending direction of the side roof panel 36 is a direction in which external wind or air bounced by the blocking plate 48 may be dispersed or raised from the outside of the system, as shown in the same figure. It is bent (wind direction to D direction).

In addition, an upper roof panel 32 is formed at an upper end of the loop monitor frame 10 to form an external air induction path part 38 spaced apart from the side roof panel 36 by a predetermined distance.

That is, between the upper roof panel 32 and the side roof panel 36 attached to the loop monitor frame 10 and the lateral support frame 8, the external air induction path portion 38 having a predetermined gap. Is formed so that wind or air blowing from the outside toward the system is introduced through the external air induction path part 38 and guided by the inclination of the inner roof panel 40 to be immediately discharged to the air discharge part 34. do.

Therefore, the outside air or wind flowing into the outside air induction path part 38 may accelerate the discharge speed to the air discharge part 34 with respect to the air (air in the E direction) discharged from the inside of the building.

The configuration indicated by the dotted line in the drawing shows that a plurality of spaced apart a predetermined interval in the longitudinal direction of the roof panel (3).

On the other hand, the inner roof panel 40, the upper roof panel 32 or the side roof panel 36 is made of a transparent PVC material to increase the light.

In addition, the damper 44 is mounted to a predetermined upper end of the guide plate 16 and rotated about the hinge 46 to open and close the upper end of the guide plate 16. By rotating the upper end of the guide plate 16 by the electric rotation to allow the internal air to be discharged to the outside in the summer, or to prevent the discharge of air inside the building during the winter season.

At this time, the damper 44 is bent at an angle based on the hinge 46 to prevent dust from accumulating while increasing the air discharge force.

That is, in the summer, the dampers 44 are rotated to face each other as shown to be in close contact with each other, so that the air lifted and discharged through the openings of the roof panel 3 and the guide plate 16 can be smoothly exhausted. In the winter season, the damper 44 expands in a reverse V-shape to keep the air inside the building not to be discharged. In addition, since the damper 44 is bent in a reverse V-shape and bent in the winter season, since the inclined surfaces are formed on both sides of the hinge 46, less dust is accumulated.

On the other hand, the loop ventilation control system according to an embodiment of the present invention is not limited only to the above-described embodiment, various modifications can be made without departing from the technical gist of the present invention.

3: roof panel, 4: support frame,
6: vertical frame, 8: transverse support frame,
10: loop monitor frame, 16: induction plate,
30: loop ventilation control system, 32: upper roof panel,
34: air outlet, 36: side roof panel,
38: outside air induction path portion, 40: inner roof panel,
42: drain gutter, 44: damper,
48: blocking plate.

Claims (2)

The roof panel 3 is installed to have a constant inclination with respect to the center portion, and a support frame 4 for supporting the roof panel 3 is installed at the lower portion of the roof panel 3 to surround the spaced space of the center portion. In a loop ventilation control system installed so that
The loop ventilation control system 30 includes a vertical support frame 6 connected to the support frame 4 at regular intervals in the longitudinal direction; Transverse support frames (8) installed on the outer surface of the vertical support frame (6) inclined in two stages, respectively; A loop monitor frame (10) installed to surround the vertical support frame (6) while having an inclined upper portion with respect to a center portion; An induction plate (16) attached to an outer surface of the vertical support frame (6), the other end of which is bent and positioned on the roof panel (3) to guide the air inside the building upward; Side roof panels 36 attached to both side surfaces of the loop monitor frame 10; An inner roof panel 40 fixed to an upper end of the vertical support frame 6 and having a constant inclination with respect to the center portion; The upper roof panel 32 is attached to the upper end of the loop monitor frame 10 and forms an external air induction path part 38 spaced apart from the side roof panel 36 by a predetermined distance, thereby providing air introduced from the outside. B. The air flows into the outside air induction path part 38 between the upper roof panel 32 and the side roof panel 36 and is discharged to the air discharge part 34 so that the air is discharged through the induction plate 16. In the loop ventilation control system, characterized in that to accelerate the discharge, located on the upper surface of the guide plate 16, for blocking the wind or air flowing from the outside to a predetermined portion of the outer side of the side roof panel Loop ventilation control system, characterized in that the blocking plate 48 is placed perpendicular to the ground. delete

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