RU180368U1 - VENTILATION INSTALLATION FOR INSTALLATION ON THE BUILDING FACADE - Google Patents

Abstract

This utility model relates to electrical equipment, and more particularly to ventilation installations for mounting on a building facade, including a housing within which a fan is located. According to a utility model, the casing has the shape of a parallelepiped with a recess in one of the edges of the casing along the entire length of the rib, the recess being located on the side of the casing, which, when installed, is parallel to the building’s facade and further from it. Achievable technical result - the possibility of compact placement of the ventilation unit in the space between the building facade and the outdoor unit of the air conditioner while allowing air to flow to the outdoor unit of the air conditioner from the side that faces the building facade.

Description

The technical field to which the utility model belongs.

This utility model relates to electrical equipment, and more particularly to ventilation installations for mounting on a building facade, including a housing within which a fan is located.

The following terms are used in this description:

A protective basket is a protective and decorative structure that is installed on the facade of buildings, covering the blocks of ventilation and air conditioning systems. Mostly performed in the form of a parallelepiped.

The facade of the protective basket is the surface of the parallelepiped of the protective basket, located with its visible part parallel to the facade of the building.

The level of technology.

Modern ventilation systems are designed to ensure complete air exchange, the correct distribution of air masses throughout the room and the formation of optimal microclimatic conditions for a comfortable stay of people.

The organization of high-quality ventilation is a difficult engineering task, for the solution of which individual calculations and the selection of the most suitable equipment are performed. There are a lot of types of ventilation units, and depending on the type of room, as well as the goals and objectives, certain equipment is selected.

By functional features, all ventilation units can be divided into three types:

• supply;

• exhaust;

• supply and exhaust

Fresh-air ventilation units serve for a constant influx of fresh air in the room, while it is pre-filtered, heated, cooled and, in some models, drained / humidified. Almost all models have the ability to regulate the set supply air temperature by heating or cooling (in the presence of a cooling unit).

The main purpose of exhaust ventilation systems is to exhaust the exhaust air from the room and evenly equalize the pressure with the current inflow. Exhaust ventilation units eliminate and remove not only unpleasant odors, but also remove various harmful substances from the room, such as carbon dioxide, dust, smoke, as well as other pollution and impurities dangerous to human health.

Air handling units are the most convenient, efficient and practical. They are widely used not only for private property, hotels, office buildings, but are also successfully used at large industrial enterprises, storage areas and workshops.

The proposed technical solution relates to ventilation installations for installation on the facade of a building of any type. Such installations are mounted on the facade of buildings in conjunction with other elements of ventilation and air conditioning systems and are optionally protected on the outside with a protective basket.

Existing ventilation units are located along the facade of the building often with other elements of ventilation and air conditioning systems, mainly with a compressor condensing unit. In this case, it is necessary to increase the size of the protective basket, which leads to an increase in the surface area of the facade of the protective basket. This is undesirable, as it leads to the consumption of material and occupies a visual majority of the facade of the building. In addition, problems may arise over a large area of icing in winter.

So known from the prior art ventilation installation for installation on the facade of the building, including a housing inside which a fan is located, see the description of patent for invention No. 2299358, published in 2013.

This device is the closest in technical essence to the claimed utility model and is taken as a prototype for the proposed utility model. The disadvantage of this device, as mentioned above, is the large surface area on the facade of the building, in particular the large surface area of the facade of the protective basket when the protective basket is in the form of a parallelepiped and when the ventilation unit is placed together with other elements of the ventilation and air conditioning systems in the specified protective basket on the facade of the building.

That is, the problem that the present utility model is aimed at is the large surface area on the building’s facade, the inability to place the ventilation unit between the outdoor air conditioning unit and the building’s facade, since access to the air intake to the outdoor air conditioning unit is blocked.

Disclosure of a utility model.

Based on this original observation, the present utility model mainly aims to propose a ventilation installation for installation on the facade of a building, including a housing inside which a fan is located, which allows at least to smooth out at least one of the above disadvantages, namely to provide the possibility of compact placement of the ventilation unit in the space between the building facade and the outdoor unit of the air conditioner while providing the possibility of air flow to the outdoor unit of the air conditioner and with that of his party, which faces the front of the building, which is a technical problem.

To achieve this goal, the casing has the shape of a parallelepiped with a recess in one of the edges of the casing along the entire length of the rib, the recess being located on the side of the casing, which, when installed, is parallel to the building’s facade and further from it.

Due to this advantageous characteristic, it becomes possible to install the ventilation unit between the building facade and the outdoor unit of the air conditioner, which allows to reduce the surface area of the facade of the protective basket when placing the ventilation unit together with the outdoor unit of the air conditioner in the specified protective basket on the building facade. The novelty of the utility model lies in the possibility of placing the ventilation unit in the space between the building facade and the outdoor unit of the air conditioner (compressor condenser unit).

Since the minimum free distance between the building’s facade and the air conditioning outdoor unit for the necessary air movement should be at least 100 mm, and the air conditioner outdoor unit moving forward from the wall is limited by the length of the brackets, deterioration of visibility from the window, and in some cases the dimensions of the protective basket, then it is impossible to place a ventilation unit between the building’s facade and the outdoor unit, since the air intake openings of the outdoor unit are blocked.

Due to the fact that the casing has the shape of a parallelepiped with a recess in one of the edges of the casing, the recess being located on the side of the casing that is parallel to the building’s facade and is located farther from it, it becomes possible to mount the ventilation unit between the building’s facade and the outdoor air conditioning unit so that the place where the compressor is located outside the air conditioner unit and there is no grille for air movement, the ventilation unit case is thick and can fit close to the air conditioner outdoor unit, and there where it is necessary to ensure the movement of air to discharge heat from the outdoor unit of the air conditioner, there the housing of the ventilation unit has a smaller thickness and does not interfere with airflow. At the same time, the necessary air exchange of the outdoor unit of the air conditioner is not limited, and the ventilation unit is mounted without going beyond the dimensions of the already existing non-wall outdoor unit of the air conditioner.

There is a variant of the utility model in which the notch has the shape of a parallelepiped.

Thanks to this advantageous characteristic, it becomes possible to manufacture the housing of the ventilation unit in the simplest manner.

The set of essential features of the proposed utility model is unknown from the prior art for devices of a similar purpose, which allows us to conclude that the criterion of "novelty" for the utility model is met.

A brief description of the drawings.

Other distinguishing features and advantages of the utility model clearly follow from the description below for illustration and not being restrictive, with reference to the accompanying drawings, in which:

- figure 1 depicts the appearance of the placement of the ventilation unit together with other elements of ventilation and air conditioning systems on the facade of the building, according to the prior art,

- figure 2 schematically depicts a top view of the placement of the ventilation unit together with the outdoor unit of the air conditioner on the facade of the building, according to the utility model,

- figure 3 schematically depicts a General view of the placement of the ventilation unit on the facade of the building, according to the utility model,

- figure 4 schematically depicts a General view of the placement of the ventilation unit together with the outdoor unit of the air conditioner on the facade of the building, according to the utility model.

According to figures 2-4, the ventilation unit 1 for mounting on the facade 2 of the building includes a housing 11, inside of which a fan 12 is located.

The casing has the shape of a parallelepiped with a recess 13 in one of the edges of the casing along the entire length of the rib, and the recess is located on the side of the casing, which during installation is parallel to the facade of building 2 and further from it.

The figures also show:

21 - hole in the facade of the building,

3 - outdoor air conditioning unit,

4 - mounting bracket for mounting the ventilation unit and the outdoor unit of the air conditioner

5 - arrows show the direction of the air discharge from the outdoor unit of the air conditioner 3,

6 - arrows show the direction of air intake in the outdoor unit of the air conditioner 3,

7 - the arrow shows the direction of air intake into the ventilation unit 1, and it is possible to organize the intake of air into the ventilation unit from the other side.

8 - the arrow shows the direction of air flow into the room.

Implementation of a utility model.

The ventilation unit operates as follows. (An example of installation and operation not limiting the use of the utility model is provided).

Stage 1. For the installation of such an installation according to a utility model, the housing of the ventilation installation is made so that the housing has a parallelepiped shape with a recess in one of the edges of the housing, the recess being located on the side of the housing that is parallel to the building’s facade and is located further from it.

Stage 2. Install the ventilation unit between the building facade and the outdoor unit of the air conditioner so that in the place where the outdoor unit of the air conditioner has a compressor and there is no grille for air movement, the case of the ventilation unit has a large thickness and can fit close to the outdoor unit of the air conditioner, and there where it is necessary to ensure the movement of air to discharge heat from the outdoor unit of the air conditioner, there the housing of the ventilation unit has a smaller thickness and does not interfere with airflow. At the same time, the necessary air exchange of the outdoor unit of the air conditioner is not limited, and the ventilation unit is mounted without going beyond the dimensions of the outdoor unit of the air conditioner already existing on the wall.

In general, the proposed design of the housing of the ventilation unit allows one to go beyond the dimensions of the outdoor air conditioning unit already existing on the wall, the very possibility of placing them parallel to each other along the facade of the building is essential.

Step 3. Install an outdoor air conditioner unit on the ventilation unit.

The above embodiments of the utility model are exemplary and allow you to add new options or modify the described.

Industrial applicability.

The ventilation installation can be carried out by a specialist in practice and, when implemented, ensures the implementation of the declared purpose. The possibility of being implemented by a specialist in practice follows from the fact that for each feature included in the utility model formula based on the description, the material equivalent is known, which allows us to conclude that the criterion of “industrial applicability” for the utility model is consistent with the criterion of “completeness of disclosure” for utility model.

In accordance with the proposed utility model, the applicants manufactured a ventilation installation, which had a sign that the casing was in the form of a parallelepiped with a recess in one of the edges of the casing, the recess being located on the side of the casing that is parallel to the building’s facade and is located further from it.

The pilot operation of such a ventilation unit that its design allows to achieve the achieved technical result is the possibility of compact placement of the ventilation unit in the space between the building’s facade and the outdoor unit of the air conditioner while allowing air to flow to the outdoor unit of the air conditioner from the side that faces the building’s facade .

Claims (2)

1. A ventilation installation for mounting on the facade of a building, including a housing inside which a fan is located, characterized in that the housing is parallelepiped-shaped with a recess in one of the edges of the housing along the entire length of the rib, the recess being located on the side of the housing, which installation is parallel to the facade of the building and further from it. 2. The ventilation installation according to claim 1, characterized in that the recess is in the form of a parallelepiped.

Images