RU148528U1 - DEVICE FOR REMOVING ICE EDUCATION (NALEDIA) - Google Patents

Abstract

A device for removing ice formation (ice), including a coating, inside which there is a strong perforated pipe located on the roof of buildings or structures, and a device for supplying compressed air connected through a hose to the outer end of the coating, characterized in that the coating is made in the form of a sealed tubular and elastic with slight cryoadhesion, the shell, which, together with the perforated pipe, is placed on hooks under the edge of the roof cornice, which is the center of ice formation development (ice).

Description

The utility model relates to housing and communal services, in particular, to means for removing ice formations (ice) during the operation of industrial and other facilities, as well as on the eaves of roofs of buildings, where large icicles form in the form of icicles, usually at stable negative air temperatures, fall which poses a serious danger to people or vehicles below.

A device for the destruction of icicles along the perimeter of the roof of the building, including a mechanism for making contact and force interaction directly with each of the icicles individually, is a sequence of thin rigid rods freely hanging down along the edge of the roof, which are guides for draining from the roof of the water when snow and ice melt. , i.e. fittings for the formed icicles, and made of a material with a smooth change of shape under the influence of changes in ambient temperature (Utility Model of the Russian Federation No. 101474, E04D 13/076, published on January 20, 2011).

The disadvantages of the analogue are the inability to disperse water when dripping from the eaves of the roof over the places of hanging of thin rigid rods and their implementation from expensive thermobimetallic tape, especially since icicles can form at a constant negative temperature.

A device is known for preventing icing of structures and / or their elements, including a coating located on the surface of the structure and / or its element and made of elastic rubber, containing communicating cavities connected to a compressed air supply device, the coating being attached to the element by anchors, it is made of valves for bleeding air (Utility Model of the Russian Federation No. 118977, ЕВВ 5/08, publ. 08/10/2012).

The disadvantages of this device is that this device is effective as a means of protection against icing subvertical surfaces of large structures, for example, mooring walls, concrete fencing spillways of hydroelectric power plants, etc. In the housing and communal structure it is difficult to use such devices.

Known pneumatic de-icing system for the elimination of icicles on the roofs of buildings, including a tread made flat from folded in half in the longitudinal direction of the roll of cloth with an inlet δ = 10 ^... 30 cm of one side, which from all sides freely surrounds a large coarse mesh, for example, a rectangular shape covering the entire internal area of the tread, through which a tube with fittings at the ends is passed and which is attached to the edge of the coarse mesh on the inlet side, the tubes in the tread are perforated with holes or holes in the form of nozzles, and the outlet of the compressed air source (compressor), through the first outlet of the splitter (tee) connected to its outlet, and the hose are connected to the inlet of the tube, the outlet fitting which is closed by a plug, the second output of the splitter (tee) is connected to the input of a normally open electric fan, the winding of which and the compressor motor winding through a two-pole switch are connected in parallel to a low-voltage, for example 12 V, source power supply and to an outlet for connecting to an autonomous low-voltage portable power supply system (utility model patent No. 131768, E02D 13/076, publ. 08/27/2013).

According to the number of similar features and the achieved result, this technical solution is selected as a prototype of the claimed utility model.

The disadvantage of this device is that the tread (bag) must be in suspension just below the edge of the eaves of the roof, and without any deviation to the wall of the building. Otherwise, the water draining from the cornice will not fall onto the front surface of the tread (bag). Such a state can be achieved only in the complete absence of wind deflecting the tread (bag) from its working position under the edge of the cornice on which ice forms, turning into an “icicle”. If the wind deflects the protectors (bags) away from the wall of the building, conditions will be created for the irreversible formation of ice on the outer surface of the protectors (bags) with their corresponding inclination to the wall, in which the ice will form on the outer surface of the protectors (bags) and be stable when they are inflated. To prevent this from happening, it is necessary to interrupt this process at the very beginning.

The technical task of the proposed utility model is to remove ice formation (ice) on the roof cornice by using pneumatic destruction of this formation.

To achieve the specified technical result in a device for removing ice formation (ice), including a coating inside which is a strong perforated pipe located on the roof of buildings or structures, and a device for supplying compressed air connected through a hose to the outer end of the coating, while made in the form of a sealed tubular and elastic, with little cryoadhesion, shell, which, together with a perforated pipe, is placed on hooks under the edge of the roof cornice, which is the focus of the formation of an ice formation (ice).

Distinctive features of the proposed model is the implementation of the coating in the form of a sealed tubular and elastic, with little cryoadhesion of the shell, attachment of a device for supplying compressed air to the outer end of the perforated pipe, placement of the shell with a perforated pipe on hooks under the edge of the roof eaves.

Due to the presence of these signs, the ice formation is destroyed in its root part when the sealed tubular and elastic shell expands due to the air pressure coming from the compressed air supply device, the perforated pipe provides the mechanical strength of the proposed device, taking into account the additional load from the ice formation formed on the shell.

The proposed utility model is illustrated in the drawing, in which the positions indicated:

1 - cornice of the roof of the building,

2 - ice formation (ice) on the cornice 1 and on the shell of the device,

3 - sealed shell

4 - perforated pipe,

5 - air compressor,

6 - a layer of snow on the roof,

7 - hooks on which a sealed shell 3 with a perforated pipe 4 is laid,

8 - tight seal.

The operation of the device for removing ice formation works as follows.

On the contour of the cornice 1 of the roof of the building on hooks 7 with intervals pre-determined by their bearing capacity and calculated according to the mechanical strength of the proposed device to perceive the weight of the ice formation formed on it (ice) 2, a sealed shell 3 is located directly under the edge of this cornice 1 with a perforated inside pipe 4. Since the shell 3 is sealed with a hermetic seal 8, with the exception of the entrance to it of a perforated pipe 4, which is connected to the air compressor 5, for example, to the air compressor used by car enthusiasts to pump tires, then as the snow layer 6 melts on the roof and potentially dangerous ice formations (ice) 2 form on the edge of the cornice 1, the air compressor 5 is turned on. Further, as a result of filling the perforated pipe 3 with air , its expansion deformation occurs, as a result of which the root part of the ice formation (ice) 2 is destroyed, and when precautionary measures are taken, it falls.

Claims (1)

A device for removing ice formation (ice), including a coating, inside which there is a strong perforated pipe located on the roof of buildings or structures, and a device for supplying compressed air connected through a hose to the outer end of the coating, characterized in that the coating is made in the form of a sealed tubular and elastic with slight cryoadhesion, the shell, which, together with the perforated pipe, is placed on hooks under the edge of the roof cornice, which is the center of ice formation development (ice).

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