RU2532126C2 - Apparatus for removing icicles and ice build-up - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, in particular to the apparatuses for removing icicles and ice build-up from roofs. The apparatus comprises a housing on which a hollow spring-loaded sectoral retainer is fixed, with an opportunity of angular rotation under the influence of ice load, leading to a change in the resistance of the capacitive sensor and, as a consequence, automatic triggering of the audio signal, warning about the danger of fall of icicles and ice build-up from the roof.

EFFECT: increased operational reliability of the roof.

2 dwg

Description

The invention relates to the field of construction, in particular to devices where it is necessary to ensure the safety of people passing through the streets to remove ice and icicles from the roofs of buildings.

The objectives of the invention are automatic warning (warning) about the danger of coming off the ice roof, as well as the automated removal of ice and icicles from the roofs of buildings, reducing costs and operating costs. These goals are achieved by the fact that flexible closed shells, for example bellows, located in depth to the roof surface or on its drains, are mounted along the edge of the roof. The in-depth arrangement of the bellows provokes the formation of ice on them. The supply of coolant bellows inside, and then pressure, leads to the destruction and fall of ice from the roof of the building (see application No. 20111174747 published on 05.20.2012. Bull. No. 14). To prevent the formation of ice on the roofs, you can constantly use the thermal effect, for which the edges of the roof must have channels for circulation of the coolant. To prevent freezing of the coolant in winter, liquids are used, for example, antifreeze, a mixture of alcohol with water, brine and others, the freezing temperature of which should be lower than the lowest winter temperature in the area.

Figure 1 and figure 2 (view of the roof from above) shows a device for removing icicles and ice from the roofs of buildings with a preliminary alarm, notifying of the danger of ice falling to the ground, followed by its automatic removal by removing mechanical bonds between the ice and the device using them melting by the heated heat carrier. It contains a housing 4, fixed to the roof 1 and wall 2, the upper plane of which is installed at the level of the roof and serves as its continuation. On the outside, from below, to the roof, a flexible shell 13 is fixed, which is a hose, the cross section of which has a wavy shape. In order to prevent the formation of icicles on the hose during their formation, a coolant with a positive temperature must constantly flow. Further, the housing 4 has a rectangular channel, where a hollow sector-shaped stop 3 is placed, which is able, under the influence of the load of angular rotation, and is rigidly connected with the shaft 10. The upper stop plane is inclined towards the roof plane and contains sharp spikes 14 directed in the opposite direction of the ice , i.e. preventing the movement of ice down the plane of the roof. Under the action of an emphasis of a certain force (load), it has the ability to turn back (thanks to the springs 9) return (when removing the load). Thus, the emphasis has the ability to reciprocate with respect to the shaft 10 as a result of the load. The stop cavity is divided by a partition 8 into two equal volumes through which a coolant flows, the input of which is a nipple 11, and the output is a nipple 12, which are connected via flexible hoses to a hydraulic pressure source. When the stop is rotated, the movable copolymer plate 6 attached to it moves between two metal insulated copolymer 5 plates 7, which are capacitor plates.

The device operates as follows. The formation of icicles and frost occurs gradually over a long time, during which their mass increases, so the emphasis freezes into this mass without changing its position, since the insignificant forces acting on it cannot exceed the force of the springs. When positive street temperatures are reached, surface ice melts, which leads to the formation of a thin water layer between the ice, the device and the roof slope, which leads to ice sticking from the device, the roof and a sharp decrease in their friction coefficient. Therefore, ice begins to move along the roof, turning the emphasis to a predetermined angle. When the stop stops, the movement of ice stops due to mechanical bonds between the ice and the spikes associated with the stop. Changing the stop position causes a multi-thousandth change in the capacitance of the capacitor. Upon reaching the capacitive threshold of operation, the automatic system turns on a sound signal warning of danger. Thanks to the angular inclination of the stop and the spikes, the de-icing of the roof stops. After carrying out measures for the safety of people, icicles and ice are removed, destroying the mechanical bonds between the ice and the spikes by passing the heated coolant through the stop and the hose. Thus, de-icing is carried out from the roof, and excess pressure is supplied to the hose, which leads to the destruction of icicles.

This device is reliable in operation, easy to manufacture, and allows passers-by to be warned of the danger of icicles and ice from falling from the roofs of buildings.

Claims (1)

A device for removing icicles and ice, comprising a housing, the upper plane of which is installed at and parallel to the roof plane, characterized in that the housing contains a hollow spring-loaded stop with the possibility of leakage in the coolant cavity, while the stop has the possibility under the influence of the load of the right, left rotation, the upper plane of the stop is tilted towards the plane of the roof and has spikes directed in the opposite direction of the icing, and the lower part of the stop contains a copolymer plate passing between the two mja copolymer insulated metal plates, fixed to the apparatus body, which constitute the capacitor, which buzzer sounds when changing the container.

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