RU209179U1 - DEVICE FOR PROTECTING BUILDING FACADE FROM EXPOSURE TO CONDENSATE GENERATED FROM FUME EXHAUST GASES - Google Patents

Abstract

The utility model relates to the field of artificial gas ventilation and can be used in the creation and reconstruction of chimneys equipped with a deflector. A device for protecting the facade of a building from the effects of condensate from flue gases, designed for installation on a chimney deflector, is proposed. The device is an inclined reflector made in the form of a canopy made of a rectangular steel sheet with closed edges, the width of the canopy is from 50 to 250 mm, the length is from 50 to 350 mm, the length of each of the curved edges is from 3 to 30 mm. During operation, the device ensures efficient removal of exhaust gases from the chimney of the coaxial chimney from the facade of the building, as a result of which the facade of the building retains its integrity. 1 ill.

Description

The utility model relates to the field of artificial gas ventilation and can be used in the creation and reconstruction of chimneys equipped with a deflector.

An air distributor is known from the prior art, comprising a hollow body configured to be connected to air supply and exhaust means, and a deflector with an air flow control function located coaxially with the hollow body, while the body is provided with a visor in the lower part, a thread is made on the inner surface of the body , and the deflector is made in the form of a plate and a branch pipe connected to it with through windows for air outlet, while the plate is placed to form an annular gap with a peak, and the branch pipe is made with the possibility of a threaded connection with a hollow body (RU 67231 U1, 10.10.2007).

Known vane-deflector containing a rotating housing connected to the rod, rotating elements in the form of bearings mounted on the rod, a weather vane rigidly mounted on a rotating housing, a ring for connection to the chimney, while on the rotating housing connected to the rod, separately curved visors, which are interconnected along the edges of the side walls, with each curved visor entering the next one at a slight angle with the possibility of passing outside air, and the rotating elements are hermetically installed in a glass, which is rigidly connected with a ring by means of ties (RU 119859 U1, 27.08 .2012).

A known device is located on a brick pipe, which is a thickening of the brickwork of the pipe at the outlet of the roof and is designed to protect against precipitation penetrating between the roof and the pipe (Shepelev AM How to build a rural house. M .: Gosselkhozizdat, 1980, p. 248) .

A device is known for protection against the penetration of atmospheric precipitation between the chimney and the roof, which is made in the form of a steel rectangular sheet installed with an overlap on the brickwork of the chimney, having a window for the chimney on one side, holes for communication with the solution, made with the possibility of placing them along the center of the brickwork, and at the opposite end a downward bend forming a protective visor (RU 2182209 C2, 05/10/2002).

The main disadvantage of devices known from the prior art, used when installed on a deflector or directly on a chimney pipe, is their inefficiency in protecting the facade of a building from the effects of condensate generated from flue gases, i.e. these devices do not ensure the removal of exhaust gases from the facades of buildings during their operation.

Exhaust gases, when leaving the central pipe of the coaxial chimney through the deflector basket, rush upwards parallel to the wall of the facade of the building and part of the exhaust gases comes into contact with the facade of the building, and the condensate present in them partially settles on the facade of the building. As a result, condensate penetrates into microcracks located in the building and during the off-season, when frequent temperature transitions through zero occur, the condensate freezes and, in the process of defrosting, by expanding, snaps off (separates) part of the facade material, which during long-term operation leads to significant destruction of the facade (walls) of a building.

The task to be solved by the proposed utility model is the development of a device that ensures the removal of exhaust gases generated during the operation of a gas convector, as far as possible from the facade of the building, to prevent its destruction.

EFFECT: ensuring efficient removal of exhaust gases from the chimney from the building facade to prevent its destruction.

The proposed technical result is achieved due to the device for protecting the facade of the building from the effects of condensate formed from flue exhaust gases, designed to be installed on a chimney deflector, while the device is an inclined reflector made in the form of a visor made of a rectangular steel sheet with closed cuts, while the width of the visor is from 50 to 250 mm, the length is from 50 to 350 mm, the length of each of the curved edges is from 3 to 30 mm.

In FIG. 1 shows the mounting scheme of the proposed device on the chimney deflector

1 - visor;

2 - deflector;

3 - chimney.

The proposed device for protecting the facade of the building from the effects of condensate formed from flue gases, intended for installation directly on the chimney deflector, is made by any known method from a steel sheet. In this case, the overall dimensions of the finished product must comply with the following parameters: width from 50 to 250 mm, length from 50 to 350 mm. The specified dimensions are due to the dimensions of a typical deflector, which is installed on the pipes of a coaxial chimney, so that the condensate of exhaust gases passing through the specified deflector completely departs for a considerable distance from the building facade, without settling on it and, as a result, without destroying it. In the process of manufacturing the device, the edges of the steel sheet, which, when installed on the deflector, will be located perpendicular to the facade of the building, are bent down to additionally protect the facade of the building from condensation on it. In this case, the length of each of the folded edges is from 3 to 30 mm. This interval is also determined by the dimensions of a typical deflector installed on the chimney pipe.

According to the research, the proposed device during operation ensures efficient removal of exhaust gases from the chimney of the coaxial chimney from the facade of the building, as a result of which the facade of the building retains its integrity.

Claims (1)

A device for protecting the facade of the building from the effects of condensate generated from flue exhaust gases, located on the chimney deflector, characterized in that it is placed at an angle to the chimney deflector and is a reflector made in the form of a visor made of a rectangular steel sheet with curved edges, while the width of the visor is from 50 to 250 mm, the length is from 50 to 350 mm, the length of each of the curved edges is from 3 to 30 mm.

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