RU94256U1 - DEVICE FOR REMOVING IKERS FROM BUILDING ROOF Eaves - Google Patents

Abstract

 A device for removing icicles from the eaves of the roof of the building, containing two bimetallic plates connected to a power source, characterized in that the bimetallic plates are mounted cantilever on the wall of the building at a distance from each other along the ledge and directly below it with the protruding free ends beyond the edge of the eaves so that the active layers of the plates are turned in one direction, while the plates are interconnected by a system of thin steel cables stretched parallel to each other and to the edge of the cornice along the entire length of the plates Erez predetermined pitch distance.

Description

The utility model relates to problems of servicing housing and communal services, namely to cleaning the territory, cleaning roofs of snow, etc.

Known anti-icing device for roofs, containing fixed on contact with the edge of the roof and located on its section or around the perimeter with the formation of a closed loop heating tubular element with exhaust openings connected to transport ducts, air intakes, the ends of which are placed in the vertical channels of the building below the exhaust openings / cm. RF patent for the invention No. 2340746, class E04D 13/076, 2006 [1] /.

The disadvantages of the known device are significant energy consumption, a serious complication of the roof structure.

Izvestia is also an icicle breaker on the road, consisting of a telescopic pipe mounted with control units on the car chassis, at the upper end of which there is an electric motor mounted on a bearing support, on the shaft of which a conical flap breaker is mounted, and a retracting cable-cable is installed inside the pipe for retraction pipes, and for power transmission, connected to the control system and power supply / cm. RF patent for the invention No. 2187595, class. E01H 5/00, 2001 [2] /.

The disadvantages of this device are the extreme complexity of the design, the possibility of its use not systematically as the formation of icicles, but only in critical cases, the inability to prevent the process of formation of icicles, but only to eliminate them after the appearance.

In addition, there is a device for removing icicles along the perimeter of the roof of buildings, including a handle with handles and a tip and a knife, while the tip is equipped with a brace and an anchor, fixed by braces to the parapet fence, the knife is made with a console fixed on the tip, the anchor is a curved strip from a waterproof material located on the roof, and the tip, brace and console are interconnected with the possibility of changing the position of the knife / cm. RF patent for the invention No. 2194137, cl. E04D 13/076, 2003 [3] /.

The disadvantages of this device are the complexity of the design, the complexity of operation with a danger to humans, low efficiency and limited functionality, due to the manual nature of the process, the need to lift a person to the roof and move it during work along the edge of the roof.

The closest device of the same purpose to the claimed utility model in terms of essential features is a device for breaking ice, including a breaking block laid out in the form of two bimetallic plates in an elastic shell connected to a power source / cm. RF patent for the invention No. 2193933, cl. BVB 7/02, B64D 15/16, 2000 [4] /, and adopted as a prototype.

The disadvantages of the prototype device are high energy costs due to the need to create significant power loads on bimetallic plates when they are used to destroy a continuous layer of ice by expanding it from below, limited functionality due to the low efficiency of using the known design for removing icicles due to small movements of bimetallic plates.

The essence of the utility model consists in creating an extremely simple, effective and economical device for removing icicles from the eaves of a building roof, which ensures optimal conversion of bending deformations of bimetallic plates into translational movements of a system of cutting working elements that completely overlap the areas of possible icicle formation with relatively small static power loads on bimetal and minimal power consumption.

The technical result is a reduction in energy consumption, increasing the efficiency of the device and expanding its functionality.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known device for removing icicles from the eaves of the roof of a building containing two bimetallic plates connected to a power source, the feature is that the bimetallic plates are mounted cantilever on the wall of the building at a distance from each other along the cornice and directly below it with the protrusion of the free ends beyond the edge of the cornice so that the active layers of the plates are turned in one direction, while the plates are connected between in a system of thin steel cable stretched in parallel to one another and eaves edge along the entire length of plates through a predetermined pitch distance.

The essence of the utility model is illustrated by drawings, where schematically in figure 1 shows the proposed device in a plan view; figure 2 is the same device in side view.

A device for removing icicles 1 from the eaves 2 of the roof 3 of the building contains two bimetallic plates 4, 5 connected to a power source / not shown /. In this case, the bimetallic plates 4, 5 are mounted cantilever on the wall 6 of the building perpendicular to the wall with the help of special brackets 7 at a distance from each other along the ledge 2 and directly below it with the free ends of the plates 4, 5 protruding beyond the edge of the ledge 2 so that the active layers 8 , 9 bimetallic plates 4, 5 are turned in one direction / in Fig. 1, the active layers of the plates 4, 5 are shown by a solid background and turned to the right when looking at the building from the front /. Bimetallic plates 4, 5 are interconnected by a system of thin steel cables 10, 11 ..., stretched parallel to each other and the edge of the cornice 2 along the entire length of the bimetallic plates 4, 5 through a given step distance. The ends of the cables 10, 11 ... are inserted into the through holes 12 in the plates 4, 5 and are rigidly fixed on both sides of the plate by forming a solder assembly. In this case, the icicles 1, hanging from the outer edge and the lower surface of the cornice 2, are placed in the spaces between the cables 10, 11 .... The plates 4, 5 are connected to the power source using flexible conductors 13, soldered to the ends of the plates 4, 5 and laid in longitudinal recesses at the lower ends of the plates / not shown in the figures /. Only two bimetallic plates 4, 5 are described in the device, in reality, such pairs of plates, the optimal distance between which is chosen on the order of 2-3 m, can be installed next to each other either along the entire perimeter of the roof 3 of the building, or only on dangerous sections of the roofs : over sidewalks, crowded places, over the roadway, etc.

In this case, all plates 4, 5 are connected to one power source through a special remote control, which allows independently connecting any plate 4, 5 located in the dangerous area of formation of icicles 1, or all plates simultaneously to one power source. In the proposed device, the scheme of such a remote control is not shown, since such schemes are elementary, well-known and described in detail in the literature. Active layers 8, 9 of bimetallic plates 4, 5 are made of low-magnetic steel with a coefficient of linear expansion α ₁ = (18 ÷ 20) · 10 ^-6 I / C, passive layers of Invar EN36 α ₂ = 1 · 10 ^-6 I / C .

The work of the proposed device is as follows.

When you turn on the power source and subsequent heating, the bimetallic plates 4, 5 are bent to the positions shown in the dotted line, due to lengthening the body of its active layers 8, 9 and, accordingly, shortening the relative passive layers. With this bending of the plates 4, 5, each of the steel cables 10, 11 ... makes a classic translational movement parallel to itself to the positions also shown by dashed lines / the cable extreme in Fig. 1 - to the position shown by the extreme dashed line, the second from the edge cable II - to the position shown by the second with a dashed line, etc. /. The step distance between the cables 10, 11 ... etc. in the initial position for a given angle of temperature bending of the bimetallic plates 4, 5 is selected, as can be seen from the figure, so that, for example, the cable 10 from the initial state would shift in the transverse direction when the plates 4, 5 are deformed further than the initial position located next to it wire rope 11 etc. Naturally, in this case, all icicles 1 of any thickness located in the area of the plates 4, 5 between the cables 10, 11 will be cut off by the cables 10, 11 ... upon thermal deformation of the plates 4, 5 .... Obviously, the efforts required for such a cut of icicles 1 by their lateral fracture are minimal, and accordingly, the energy consumption of the device is minimal. Moreover, due to the simplicity of the implementation of such an icicle removal process 1, there is no need to wait for a critical hazardous situation when the icicles reach significant transverse dimensions, but it is possible to carry out the removal process prophylactically often, avoiding significant icule formation.

The proposed device has an extremely simple design, characterized by high efficiency, ease of operation, wide functionality and minimal power consumption. The device eliminates the need for lifting a person to the roof of the building, the use of special complex transport and electromechanical devices, etc.

Claims (1)

A device for removing icicles from the eaves of the roof of the building, containing two bimetallic plates connected to a power source, characterized in that the bimetallic plates are mounted cantilever on the wall of the building at a distance from each other along the ledge and directly below it with the protruding free ends beyond the edge of the eaves so that the active layers of the plates are turned in one direction, while the plates are interconnected by a system of thin steel cables stretched parallel to each other and to the edge of the cornice along the entire length of the plates Erez predetermined pitch distance.