RU130050U1 - SUPPLY AND VENTILATION DEVICE - Google Patents

Abstract

The supply and ventilation device that is built into the external walls of buildings, comprising a housing, an adjustable ventilation grill, a protective facade grill and a porous insulation located in the housing, characterized in that the facade grilles are rigidly fixed at least to the upper and lower surfaces of the housing, at least at least two lamellar partitions made of airtight material installed parallel and counter to each other with the formation between them of a channel for air passage.

Description

The utility model relates to the field of ventilation, mainly ventilation of residential and industrial buildings with wet operation.

A known ventilation system (Copyright USSR No. 255526), including exhaust fans and ducts, as well as elements in the form of porous inserts embedded in the outer walls.

A disadvantage of the known solution is that when filtering cold air through a porous insert, intense heat is removed from the external walls from the areas adjacent to the insert, which in the wet operating conditions of buildings leads to the formation and even freezing of condensate on the surfaces adjacent to the inserts. The ejection of internal moist air by a filtered stream contributes to the intensification of the condensate formation process. In addition, under adverse climatic conditions (strong winds and low outdoor temperatures), a significant increase in infiltrating air occurs, which leads to an even greater decrease in the temperature of the inner surface of both the porous insert and the outer wall adjacent to the insert.

In order to prevent an excessive increase in infiltration, the supply and ventilation devices (PES) must be designed for the most unfavorable combination of external climatic influences. This leads to an increase in the calculated air permeability of the porous elements and, accordingly, to a low productivity of the device at small pressure drops.

In addition, when the PVU is operating under alternating pressure drops due to exfiltration of moist internal air, condensation may form in the thickness of the breathable element, which will lead to a deterioration in the functional properties of the material and a decrease in the operational reliability and durability of the device.

Closest to the claimed is a supply and ventilation device, protected by patent RU No. 2194222, IPC F24F 7/10, and including a housing, an adjustable ventilation grill, a protective facade grill and a porous insulation located in the housing, and a windproof valve is arranged behind the facade grille inside the housing consisting of an airtight plate pivotally mounted in the upper part of the housing.

The disadvantages of this device are:

- the impossibility of ensuring air flow through the PMD in a direct wind (valve closed);

- low reliability of the device due to wear of the hinge mount of the windproof valve and its failure;

- noise discomfort with sudden gusts of wind.

The technical result of the utility model is the elimination of these shortcomings, namely: improving the reliability of the device and the comfort of its operation, as well as ensuring the functioning of the PMD in any direction of the wind.

The specified technical result is achieved by the fact that in the supply and ventilation device that is built into the external walls of the buildings, containing a housing, an adjustable ventilation grill, a protective facade grill and a porous insulation located in the housing, according to the claimed technical solution, behind the facade grill at an angle, respectively, to the upper and lower surfaces of the housing, at least two lamellar partitions of airtight material rigidly fixed in parallel and opposite each other are rigidly fixed y Mezhuyev channel to form them for the passage of air.

The utility model is illustrated by the attached drawing, where figure 1 shows the supply and ventilation device (top view); figure 2 is a cross section of the supply and ventilation device according to aa in figure 1.

PVU is installed in the prepared mounting opening, located in the outer wall of the building, under the windowsill. The PVA contains the upper 1 and lower 2 surfaces of the casing made of airtight material, an adjustable ventilation grill 3, a protective front grille 4, and a porous insulation 5. At least two lamellar rigidly fixed to the upper 1 and lower 2 surfaces of the casing partitions 6 and 7 of airtight material installed parallel and counter to each other with the formation between them of the channel for the passage of air. The front grille 4 protects the PVD from damage by foreign objects or adverse external climatic influences, and the adjustable ventilation grille 3 allows you to select the filtering mode depending on individual needs.

PVU works as follows.

The air flow entering through an adjustable ventilation grill sequentially encounters lamellar partitions 6 and 7 on its way, which ensures its stabilization, reduction of turbulence, and uniform flow of air into the room.

When external cold air is infiltrated through a porous insulation, it is heated by oncoming heat flow from the room and provides controlled natural air exchange, eliminating sharp fluctuations in temperature and humidity in the rooms.

The absence of articulated elements in the PVU increases the reliability of the device by eliminating the wear of moving elements and ensures the functioning of the device in any wind direction.

In addition, increases the comfort of operation of the device by eliminating noise exposure during sudden gusts of wind.

Claims (1)

The supply and ventilation device that is built into the external walls of buildings, comprising a housing, an adjustable ventilation grill, a protective facade grill and a porous insulation located in the housing, characterized in that the facade grilles are rigidly fixed at least to the upper and lower surfaces of the housing, at least at least two lamellar partitions made of airtight material installed parallel and counter to each other with the formation between them of a channel for air passage.

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