RU192319U1 - DEVICE FOR PREVENTING THE FORMATION OF ICE ROSES ON ROOFS - Google Patents

Abstract

This utility model relates to the field of construction and the housing system and, in particular, can be used to prevent the formation of ice growths on the roofs of residential and industrial buildings. The technical result is an increase in the efficiency of using warm air from ventilation and sewer flows by the fact that the exits located on the roof of the ventilation and sewer channels are equipped with flexible hydrophobic sleeves, the ends with holes that are located under the roof eaves, and the holes face the lower surfaces of the eaves . 1 ill.

Description

This utility model relates to the field of construction and the housing system and, in particular, can be used to prevent the formation of ice growths on the roofs of residential and industrial buildings.

There is a known problem of the increase in wintertime of ice growths on the eaves of roofs of buildings, which cripple and even kill passers-by in the fall.

Roof cleaning of such houses is carried out by housing and communal services workers who use scraps for this, which destroy the roof of the house.

A known system for combating such ice formations by using heat coming out of the ventilation and sewer channels, which are attached to the metal roof through black metal shunts, thereby transferring its heat and breaking the connection between the ice build-up and the roof surface, see EN 2435005, E04D 13 / 076 from 06/10/2010

However, the known solution is not fully effective. when used in the northern regions of Russia, where the temperature in winter reaches -30 ° C, and there is no sun for almost six months a year, the cooling of the system occurs faster than heat will be transferred to the edge of the roof cornice ..

The purpose of creating this utility model is to achieve a technical result for increasing the efficiency of using warm air from ventilation and sewer flows.

The specified technical result is achieved by the fact that the hydrophobic sleeves with openings at the ends located under the roof eaves and their openings facing the lower surfaces of the eaves are placed on the exits of the ducts of the ventilation and sewer systems located on the roof of the house.

The utility model is illustrated by graphic materials. In FIG. 1 shows a General view of the design of the supply of warm air from the ventilation outlet to the eaves of the roof, which presents the following notation.

1. the roof of the house;

2. the exit of the ventilation duct on the roof;

3. Roof sewer outlet

4. hydrophobic sleeve;

5. holes at the end of the sleeve;

6. roof eaves.

The design of the utility model consists of ventilation 2 and sewer 3 channels overlooking the roof 1 of the house. They are attached hydrophobic sleeves 4, each of which is brought out under the eaves 6 of the roof, and the holes 5 at the ends of the sleeves 4 are facing the lower surface of the eaves 6 ..

With the device they work as follows.

On each ventilating 2 or sewer 3 channel facing the roof, hydrophobic flexible hoses 4 are put on and laid first on the roof of the house in the direction of the nearest roof eaves 6, and then brought out under the roof eaves 6 so. so that the holes 5 at the end of the sleeve 4 were facing the lower surface of the eaves 6 of the roof. Now warm air from the two channels enters the ends of the hydrophobic sleeves 4, on which the openings are made 5. Warm air from the openings 5 comes out and rises, heating the cornice and preventing the formation of an ice outgrowth on it.

The claimed utility model is new, previously unknown, which indicates its compliance with the patentability criterion - novelty.

The utility model can be manufactured and installed on each house by the specialists of the local housing and communal services, which indicates its compliance with the criterion - industrial applicability.

Claims (1)

A device for preventing the formation of ice growths on the roofs, containing, located on the roof, the exits of the channels of the ventilation and sewer systems, characterized in that the outputs of the channels of the ventilation and sewer systems are equipped with flexible hydrophobic sleeves, the ends with the openings of which are located under the eaves of the roof, and the openings are facing bottom surface of cornices.

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