KR100546834B1 - Ventilating structure at building - Google Patents

Abstract

The present invention relates to a ventilation facility structure inside a building that is installed for indoor ventilation purposes, comprising: a seating groove formed by cutting a bent portion in contact with an adjacent indoor wall at an angle to the inside of the wall; An upper inlet opening and a connection tube protruding upward in a tubular shape having a lower inlet hole at the center of the inlet, wherein the bottom surface of the inlet forms a curved surface for smooth air flow and a bottom in the seating groove. A base seated on the cotton; A case fitted on the base and covering an inner circumferential surface of the seating groove; An acceleration fan inserted into an open upper surface of the connection pipe to generate airflow upward; An inlet pipe having a plurality of intake holes formed on an outer circumferential surface of the upper and lower surfaces of the tubular shape, and fitted onto the connection pipe to include the acceleration fan; Blocking the inside of the case open to the interior block, but has a plurality of through-holes so that indoor air can be introduced, the through-holes are formed larger than the intake hole; And an exhaust fan covering the upper surface of the case and the inlet pipe and forcibly transporting the air in the inlet pipe to a ventilation pipe piped to the ceiling.

Description

Ventilating structure at building

1 is a perspective view showing a ventilation structure according to the present invention,

Figure 2 is a perspective view showing an exploded vent structure according to the present invention,

3 is a cross-sectional view showing a cross section of the ventilation facility structure according to the present invention.

-Explanation of terms for main parts of attached drawings-

100; Ventilation equipment structure 110; Base

111; Connector 112, 113; Seating jaw

114; Intake 115; Inflow hole

120; Case 130; Acceleration fan

131; Locking step 140; Inlet pipe

141; Intake hole 150; Open side

151; Through hole 160; Exhaust fan

200; Ventilator

The present invention relates to a ventilation system structure inside a building installed for the purpose of indoor ventilation.

Since the interior of the building is disconnected from the outside through the walls, it was necessary to install a separate ventilation facility to exchange internal and external air for ventilation. Therefore, the air vent communicates with the outside through a ventilation pipe and a ventilation fan is installed separately to ventilate the indoor air.

However, the ventilation port is installed for the purpose of ventilating the indoor air, and the suction removal treatment for dust or various floating matters generated in the room was only a secondary effect. In addition, since the ventilation hole is installed only in the ceiling, it could not be expected to clean a section in which dust and the like are easily collected, such as an indoor corner.

Accordingly, the present invention has been made to solve the above problems, to remove various dust and floats generated in the room with ventilation, and to effectively clean the room corners where the dust and floats are particularly concentrated. The purpose is to provide a ventilation system structure inside the building.

In order to achieve the above object, the present invention,

A seating groove formed by cutting a bent portion in contact with each other to form an interior wall adjacent to each other to the inside of the wall;

The upper surface of the intake hole and the center of the intake hole is provided with a connecting tube protruding upward in a tubular shape having an inlet hole through the lower end, wherein the bottom surface of the intake hole forms a curved surface to smoothly flow the seating groove A base seated on the bottom surface of the body;

A case fitted on the base and covering an inner circumferential surface of the seating groove;

An acceleration fan inserted into an open upper surface of the connection pipe to generate airflow upward;

An inlet pipe having a plurality of intake holes formed on an outer circumferential surface of the upper and lower surfaces of the tubular shape, and fitted onto the connection pipe to include the acceleration fan;

Blocking the inside of the case open to the room is blocked, has a plurality of through-holes so that indoor air can be introduced, the through-holes are formed larger than the intake hole; And,

An exhaust fan covering the upper surface of the case and the inflow pipe and forcibly transferring the air in the inflow pipe to the ventilation pipe piped to the ceiling;

Ventilation structure inside the building, characterized in that consisting of.

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

1 is a perspective view showing a ventilation facility structure according to the present invention, Figure 2 is an exploded perspective view of the ventilation facility structure according to the present invention, will be described with reference to this.

Ventilation facility structure according to the present invention is made by the ventilation facility structure 100 is built in the bending portion that is bent in contact with the adjacent indoor wall (W) at an angle.

The ventilation system structure includes a seating groove (H) formed by cutting the bent portion of the interior walls (N) adjacent to each other at an angle to the inside of the wall (W); The upper inlet opening 114 and the center of the inlet 114 is provided with a connecting pipe 111 protruding upward in a tubular shape having an inlet hole 115 (see Fig. 3) through the lower end, the inlet ( The bottom surface of the 114 is a base 110 which is seated on the bottom surface of the seating groove (H) while forming a curved surface so that the air flow smoothly; A case 120 fitted on the base 110 and covering an inner circumferential surface of the seating groove H; An acceleration fan 130 inserted into an open upper surface of the connection pipe 111 to generate airflow upward; A plurality of intake holes 141 are formed on the outer circumferential surface of the upper and lower surfaces of the tubular shape, and the inlet pipe 140 is fitted on the connection pipe 111 to include the acceleration fan 130; Blocking the inner side of the case 120 opened to the room, but blocked, has a plurality of through-holes 151 so that indoor air can be introduced, the through-hole 151 is an open surface formed larger than the intake hole 141 150; And an exhaust fan 160 covering the upper surfaces of the case 120 and the inflow pipe 140 and forcibly transporting the air in the inflow pipe 140 to the ventilation pipe 200 (see FIG. 3) piped to the ceiling. )

As shown in FIG. 1, the ventilation facility structure 100 according to the present invention is disposed at the bent portion of the interior wall W. As shown in FIG. To this end, the bent portion is cut to secure a seating groove (H).

The base 110 is seated on the bottom surface of the secured mounting groove (H). The base 110 has an inlet port 114 opened to the upper surface, while a tubular connecting pipe 111 is placed in the center of the inlet port 114. At this time, the inlet hole 115 (refer to FIG. 3) is formed on the outer circumferential surface of the lower end of the connection pipe 111 so that the space between the intake port 114 and the connection pipe 111 can communicate with each other.

An acceleration fan 130 is mounted on the upper surface of the connection pipe 111. The acceleration fan 130 is driven to generate air flow upward, through which air is sucked into the inlet port 114 on the base 110, and then into the connection pipe 111 through the inlet hole 115. It flows in and is discharged upwards.

A protruding locking jaw 131 is formed on the outer circumferential surface of the acceleration fan 130 to be engaged with the connecting pipe 111.

The inlet pipe 140 has a plurality of intake holes 141 formed along the outer circumferential surface in a tubular shape having an upper and lower surfaces thereof opened. The inlet pipe 140 includes the acceleration fan 130 and communicates with the connection pipe 111. Structurally, the inflow pipe 140 should be seated on the connection pipe 111. For this purpose, a seating jaw 112 in which a bottom end of the inflow pipe 140 may be engaged with an outer circumferential surface of the connection pipe 111. ) May be formed.

Since the seating groove H is formed by cutting a wall of cement or concrete, the inner circumferential surface of the seating groove H has a rough surface. Since the rough surface prevents the smooth flow of air by generating the vortex, the case 120 which covers the outer circumferential surface of the seating groove H to secure a space is fitted on the base 110.

In general, the seating groove H may have a cylindrical shape, and thus the case 120 may also have a curved surface. Meanwhile, in order to fit the case 120 on the base 110, a seating jaw 113 may be formed on an outer circumferential surface of the base 110, and the lower end of the case 120 is fixed while being engaged. .

The opening in which the space in the case 120 is opened to the interior is blocked by the open surface 150 having a plurality of through holes 151. The open surface 150 is a curved surface having the same curvature as the case 120 is fitted on the seating jaw 113 of the base 110 to form a tubular shape with the k 120.

The case 120, the open surface 150, and the inlet pipe 140 are fixed to each other by an exhaust fan 160 covering their upper surfaces. The exhaust fan 160 generates air flow in the inlet pipe 140 so as to suck only air in the inlet pipe 140 while serving as a cap.

3 is a cross-sectional view showing a cross section of the ventilation facility structure according to the present invention will be described with reference to this.

As shown, the fan forcibly generating air flow has an acceleration fan 130 at the bottom and an exhaust fan 160 at the top, and based on the inlet pipe 140, the acceleration fan 130 supplies air. Pushed upward, the exhaust fan 160 sucks air in the inlet pipe 140 and transfers it to the ventilation pipe 200 piped to the ceiling.

Through the generation of air flow, the indoor air is taken into the through hole 151 of the open surface 150 and then re-introduced into the inlet pipe 140 through the intake hole 141.

On the other hand, at the lower end of the inlet pipe 140, the suction force of the exhaust fan 160 is weakened by driving the acceleration fan 130, the air remaining in the lower end of the inlet pipe 140 inlet ( It is transferred to the inner lower end of the inlet pipe 140 through 114. The air thus transported is discharged upwardly through the acceleration fan 130 to the inlet pipe 140 to generate an upward air flow. The upper air flow lowers the air pressure in the inlet pipe 140 together with the exhaust fan 160, thereby allowing the air remaining in the space surrounded by the inner circumferential surface of the case 120 and the outer circumferential surface of the inlet pipe 140 to intake air 141. It is sucked into the inlet pipe 140 through).

By the way, the suction force to the inlet pipe 140 is relatively strong to detect the intake near the ventilation facility structure 100 according to the present invention. This may cause inconvenience in life, the opening surface 150 is disposed to be spaced apart from the inlet pipe 140 by a predetermined distance so that the intake is not easily felt, the through hole 151 is the intake hole 141 By being wider, the intake force of the ventilation facility structure 100 is not directly detected from the outside.

On the other hand, the bottom surface of the inlet port 114 constituting the base 110 when the air in the space formed between the case 120 and the inlet pipe 140 is introduced into the inlet hole 115 through the inlet port 114 It is desirable to have a curved surface to ensure a smooth flow.

According to the present invention as described above, as well as the ventilation of the indoor air is disposed in a location where the indoor dust and suspended matter, etc. are concentrated to suck the dust and suspended matter to the outside, while strong suction force can be easily detected in the adjacent area. This can reduce the inconvenience caused by this.

Claims (1)

A seating groove formed by cutting a bent portion in contact with each other to form an interior wall adjacent to each other to the inside of the wall; An upper inlet opening and a connection tube protruding upward in a tubular shape having an inlet hole through a lower end at the center of the inlet, wherein the bottom of the inlet forms a curved surface for smooth air flow and a bottom in the seating groove. A base seated on the cotton; A case fitted on the base and covering an inner circumferential surface of the seating groove; An acceleration fan that is inserted into an open upper surface of the connection pipe to generate airflow upward; An inlet pipe having a plurality of intake holes formed on an outer circumferential surface of the upper and lower surfaces of the tubular shape, and fitted onto the connection pipe to include the acceleration fan; Blocking the inside of the case open to the room is blocked, has a plurality of through-holes so that indoor air can be introduced, the through-holes are formed larger than the intake hole; And, An exhaust fan covering the upper surface of the case and the inflow pipe and forcibly transferring the air in the inflow pipe to the ventilation pipe piped to the ceiling; Ventilation structure inside the building, characterized in that consisting of.

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