CN214364346U - Suspended ceiling through air flow channel of inner corridor building - Google Patents

Abstract

The utility model discloses a ceiling cross air flow channel of an inner corridor building, wherein a first air flow channel is arranged in a ceiling at the top of a room at the left side of an inner corridor, the first air flow channel and the space at the rear of the top of the inner corridor form a first cross air channel, the left side of the first cross air channel is communicated with the outer vertical surface of the room at the left side of the inner corridor, and the right side of the first cross air channel is communicated with the room at the right side of the inner corridor; set up second air current passageway in the furred ceiling in the top in interior corridor right side room, second air current passageway forms the second air duct of wearing to the hall with interior corridor top the place ahead space, and corridor left side room in second air duct left side intercommunication, the facade in corridor right side room in second air duct right side intercommunication. The utility model discloses to the room of interior corridor one side, set up airflow channel in the top furred ceiling in the room of opposite side to the form of taking a bridge, directly communicate the outer facade of opposite side, in order to form cross-hall wind, and airflow channel in the furred ceiling is the confined, has avoided polluting the room transmission with the noise in the corridor both sides.

Description

Suspended ceiling through air flow channel of inner corridor building

Technical Field

The utility model relates to a building field, in particular to furred ceiling cross air current channel of interior corridor building.

Background

The environment and energy conservation in buildings are one of the main development directions of the current building science and technology, wherein the natural ventilation technology can effectively improve the indoor air quality, does not consume any artificial energy, and is one of the hot energy conservation technologies. On the other hand, due to the rising of land price, in order to save land area, many buildings adopt the plane layout form of an inner corridor, such as rooms, office buildings, hospitals and the like, but the too large depth design causes unsmooth ventilation and increases the risk of spreading pollutants and noise in the rooms on two sides of the corridor. Particularly, the global outbreak of the novel coronavirus pneumonia before 2020 brought people to the unprecedented level of importance on the air quality of building spaces where people gather.

Based on the above reasons, it is urgently needed to invent a building design capable of enhancing the natural ventilation of the inner corridor room and simultaneously avoiding pollution and noise propagation so as to achieve the three goals of ventilation, pollutant dilution and indoor waste heat discharge.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a simple structure's furred ceiling cross air current passageway of interior corridor building.

The utility model provides a technical scheme of above-mentioned problem is: a first air flow channel is arranged in a ceiling at the top of a room on the left side of an inner corridor, the first air flow channel and a space behind the top of the inner corridor form a first cross air channel of the room on the right side of the inner corridor, the left side of the first cross air channel is communicated with an outer vertical surface of the room on the left side of the inner corridor, and the right side of the first cross air channel is communicated with the room on the right side of the inner corridor to form cross air; set up second air flow channel in the furred ceiling in interior corridor right side room, second air flow channel and interior corridor top the place ahead space form the second air flue of penetrating a hall in the left room of interior corridor, the left room of corridor in second air flue left side intercommunication, the facade in the right room of corridor in the second air flue right side intercommunication to form the wind of penetrating a hall.

The suspended ceiling through air flow channel of the inner corridor building is of a closed structure, and the first air flow channel is not communicated with a room on the left side of the inner corridor.

The suspended ceiling through air flow channel of the inner corridor building is of a closed structure, and the second air flow channel is not communicated with a room on the right side of the inner corridor.

The beneficial effects of the utility model reside in that: the utility model is aimed at the room on one side of the inner corridor, an airflow channel is arranged in the ceiling on the top of the room on the other side, and the airflow channel is directly communicated to the outer vertical surface on the other side in a bridging manner, so as to form cross wind and enhance the ventilation volume of the room on one side of the inner corridor; and the airflow channel in the suspended ceiling is closed, namely the airflow channel does not exchange airflow with the room on the other side of the inner corridor, so that three aims of ventilation, pollutant dilution and indoor waste heat discharge are realized, and meanwhile, the transmission of pollution and noise in the rooms on the two sides of the corridor is avoided.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of a first air flow path in a room on the left side of the inner corridor shown in fig. 1.

Fig. 3 is a cross-sectional view of a second airflow path through a room to the right of the inner corridor of fig. 1.

Fig. 4 is an external elevation view of a multi-storey building and the position of a through air duct.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1-3, a first air flow channel is arranged in a ceiling of a room a on the left side of an inner corridor, the first air flow channel and a space behind the top of the inner corridor form a first hall air duct 1 of a room B on the right side of the inner corridor, the left side of the first hall air duct 1 is communicated with an outer vertical surface of the room a on the left side of the inner corridor, and the right side of the first hall air duct 1 is communicated with the room B on the right side of the inner corridor to form hall air of the room B on the right side of the inner corridor; set up second air current passageway in interior corridor right side room B's the furred ceiling, second air current passageway and interior corridor top the place ahead space form interior corridor left side room A's second cross-air duct 2, and corridor left side room A in 2 left sides intercommunications in the second cross-air duct, the facade of corridor right side room B in 2 right sides intercommunications in the second cross-air duct to form the cross-air of interior corridor right side room B.

The first air flow channel is of a closed structure and is not communicated with the room A on the left side of the inner corridor. The second airflow channel is of a closed structure and is not communicated with the room B on the right side of the inner corridor.

The utility model discloses a theory of operation does:

the needle is in interior corridor left side room A, when outdoor wind blows by the facade where interior corridor left side room A external window is located to the head-on, and outdoor new trend firstly goes into interior corridor left side room A, behind the top in interior corridor, then the second airflow channel through interior corridor right side room B top discharges outdoors to reach the effect of taking a breath and heat extraction. The side walls of the second air flow channel are closed, i.e. there is no air flow exchange with the room B on the right side of the inner corridor, thereby avoiding the transfer of pollution and noise between the two rooms. A cross-sectional view of this process is shown in fig. 2.

For the room B on the right side of the inner corridor, when outdoor wind is blown out from the facade of the outer window of the room A on the left side of the inner corridor, the outdoor fresh wind firstly passes through the first air flow channel on the top of the room A on the left side of the inner corridor, then enters the room B on the right side of the inner corridor after passing through the top of the inner corridor, and finally is exhausted out of the room through the outer window of the inner corridor, so that the effects of air exchange and heat exhaust are achieved. The side walls of the first air flow channel are closed, i.e. there is no air flow exchange with the room a on the left side of the inner corridor, thereby avoiding the transfer of pollution and noise. A cross-sectional view of this process is shown in fig. 3.

When the utility model discloses be applied to a five-storey building, every floor respectively arranges 5 rooms along interior corridor both sides, and its window place outer facade is as shown in figure 4, 3 be the wind channel of wearing a hall in figure 4, 4 be the window.

Claims (3)

1. The utility model provides a furred ceiling of interior corridor building is worn hall wind air current and is said, its characterized in that: a first air flow channel is arranged in a ceiling at the top of a room at the left side of the inner corridor, the first air flow channel and a space behind the top of the inner corridor form a first cross air duct of the room at the right side of the inner corridor, the left side of the first cross air duct is communicated with an outer vertical surface of the room at the left side of the inner corridor, and the right side of the first cross air duct is communicated with the room at the right side of the inner corridor to form cross air; set up second air flow channel in the furred ceiling in interior corridor right side room, second air flow channel and interior corridor top the place ahead space form the second air flue of penetrating a hall in the left room of interior corridor, the left room of corridor in second air flue left side intercommunication, the facade in the right room of corridor in the second air flue right side intercommunication to form the wind of penetrating a hall.

2. The suspended ceiling through-the-hall air flow channel of an internal corridor building as recited in claim 1, further comprising: the first air flow channel is of a closed structure and is not communicated with the room on the left side of the inner corridor.

3. The suspended ceiling through-the-hall air flow channel of an internal corridor building as recited in claim 1, further comprising: the second airflow channel is of a closed structure and is not communicated with the room on the right side of the inner corridor.

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