RU180365U1 - VENTILATION UNIT - Google Patents

Abstract

This utility model relates to electrical equipment, and more particularly, to ventilation units comprising, in a parallelepiped-shaped housing, air intake and air distribution openings, an air valve, a coarse filter, an automation unit with a heater, a fine filter and a fan. According to a utility model, the air intake and air outlet openings are located on adjacent sides of the housing, wherein the fan intake nozzle is connected to the air intake opening, there is a coarse filter between them, and the exhaust nozzle of the fan is connected to a fine filter, which is connected to the automation unit with a heater, which is connected an air valve located in the air outlet. Achievable technical result - reducing the size of the housing, its volume, increasing compactness.

Description

The technical field to which the utility model belongs.

This utility model relates to electrical equipment, and more particularly, to ventilation units comprising, in a parallelepiped-shaped housing, air intake and air distribution openings, an air valve, a coarse filter, an automation unit with a heater, a fine filter and a fan.

The following terms are used in this description:

air intake - a hole for air to enter the device,

air-dispensing aperture - a device for air to exit the device,

compactness - the presence of small sizes, in which there is no predominance of some linear dimensions (for example, length) over others (for example, latitude or depth).

fine filter - a filter for cleaning air from fine impurities, can be based on physical or chemical cleaning principles.

The level of technology.

The proposed technical solution relates to ventilation installations mainly 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.

It is known from the prior art that an air handling unit containing, located in a parallelepiped-shaped housing, air intake and air distribution openings, an air valve, a coarse filter, an automation unit with a heater, a fine filter and a fan, see the description of utility model patent No. 42631 , published in 2004.

This device is the closest in technical essence to the claimed utility model and is taken as a prototype for the proposed utility model.

In it, an air damper valve was used as an air valve, a preliminary filter was used as a coarse filter, an electric air heater was used as an automation unit with a heater, and a photocatalytic filter was used as a fine filter for the purifier.

The disadvantage of this device 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 placing the ventilation unit together with other elements of ventilation and air conditioning systems in the specified protective basket on the facade of the building. Indeed, in the prototype, the air intake and air distribution openings are arranged side by side, which leads to the fact that the body itself has an elongated shape, which has at least one linear size, significantly superior to others (i.e., an elongated shape). And the prototype has design features such that it does not allow to minimize the total volume by executing the casing, for example, approximately in the form of a cube, eliminating the noticeable predominance of some sizes of the sides of the box parallelepiped over others.

That is, the problem that the real utility model is aimed at is reducing the size of the case, its volume, and increasing compactness.

Disclosure of a utility model.

Based on this original observation, this real utility model mainly aims to propose a ventilation installation, which includes air intake and air distribution openings, an air valve, a coarse filter, an automation unit with a heater, a fine filter and a fan located in a parallelepiped housing , allowing at least to smooth at least one of the above disadvantages, namely to provide the ability to reduce the size of the body, its volume, increase the compact nity, which is a technical task.

To achieve this goal, the air intake and air outlet openings are located on adjacent sides of the casing, while the fan intake nozzle is connected to the air intake opening, there is a coarse filter between them, and the exhaust nozzle of the fan is connected to a fine filter, which is connected to the automation unit with a heater, which connected by an air valve located in the air outlet.

Thanks to this advantageous characteristic, it becomes possible to reduce the overall dimensions of the device case due to the new layout of the elements inside it. A dust filter placed in this way practically does not take the internal volume of the device, since it is installed directly in the air intake opening, the air flow inside the device’s body passes through all the elements, which allows you to save all the functions of the device, to ensure heating and air purification before it is fed into the room, but at the same time, in general, reduce the overall dimensions, exclude the elongation of the case, which allows, for example, to place such a unit together with an air conditioner or other similar units in one common th decorative basket on the facade of the building. This, in particular, allows to reduce the surface area of the facade of the protective basket when placing the ventilation unit together with the outdoor air conditioning unit in the specified protective basket on the facade of the building.

The novelty of the utility model is a new layout of the installation elements in the housing, which allows to reduce the overall installation size.

There is a variant of the utility model in which all elements are arranged so as to provide air movement inside the housing along its three adjacent sides, two of which are parallel to each other.

Due to this advantageous characteristic, it becomes possible to direct the air flow inside the installation housing mainly along its three adjacent sides. This allows you to save all the functions of the device, to provide heating and air purification before feeding it into the room, but at the same time reduce overall overall dimensions and eliminate the elongation of the case.

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 an arrangement of elements of an air handling unit, according to a utility model,

- figure 2 schematically depicts the appearance of an air handling unit, according to a utility model,

- figure 3 schematically depicts the direction of air movement in a three-dimensional model of an air handling unit, according to a utility model,

According to figures 1-3, the ventilation unit contains, located in the box 1, made in the form of a parallelepiped, an air intake 2 and an air distribution 3 openings, an air valve 4, a coarse filter 5, an automation unit 6 with a heater 7, a fine filter 8 and a fan 9.

As a rough cleaning 5, for example, a dust filter can be used, and as a fine filter 8 can be used, for example, a carbon-photocatalytic cleaner.

Air intake 2 and air distribution 3 openings are located on adjacent sides of the housing, while the intake nozzle of the fan 9 is connected to the air intake 2, between them there is a coarse filter 5, and the exhaust nozzle of the fan 9 is connected to the fine filter 8, which is connected to the automation unit 6 with a heater 7, which is connected to an air valve 4 located in the air outlet 3.

All elements are positioned to provide air movement inside the housing along its three adjacent sides, two of which are parallel to each other.

The figures also show:

- coarse filter cover 51

- the arrow in figure 3 shows the direction of air flow into the room.

The air valve has its own electric drive, not shown in the figures.

Implementation of a utility model.

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

Stage 1. Air enters through the air intake 2 aperture into the installation, passes through the coarse filter 5 and enters the fan 9.

Stage 2. Further, air through the fan 9 enters the fine filter 8, for example, into a coal-photocatalytic cleaner.

Stage 3. There it is cleaned and enters the automation unit 6 with heater 7, where it is heated.

Stage 4. Next, the air passes through the air valve 4, leaves the air distribution 3 of the opening and enters the room.

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 made a ventilation installation in which the air intake and air distribution openings are located on adjacent sides of the housing, while the fan intake nozzle is connected to the air intake opening, there is a coarse filter between them, and the exhaust nozzle of the fan is connected to the fine filter , which is connected to the automation unit with a heater, which is connected by an air valve located in the air outlet.

The pilot operation of such a ventilation installation, such that its design makes it possible to ensure the achievement of the technical result achieved, is the possibility of reducing the size of the housing, its volume, and increasing compactness.

Claims (2)

1. A ventilation unit comprising, located in a parallelepiped-shaped housing, air intake and air distribution openings, an air valve, a coarse filter, an automation unit with a heater, a fine filter and a fan, characterized in that the air intake and air distribution openings are located on adjacent sides case, while the fan intake nozzle is connected to the air intake opening, between them there is a coarse filter, and the exhaust nozzle of the fan is connected to a thin filter cleaning, which is connected to the automation unit with a heater, which is connected by an air valve located in the air outlet. 2. The ventilation installation according to claim 1, characterized in that all the elements are arranged so as to provide air movement inside the housing along its three adjacent sides, two of which are parallel to each other.

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