RU94255U1 - 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, including a destructive unit connected to a power source, characterized in that an elastic metal strip protruding outward from the roof eaves above and below is lapped parallel to its edge, and the destructive unit is mounted on the bottom the surface of the strip is a vibro-shock mechanism made in the form of a cantilever attached to the strip using a leaf spring of a striker-core of ferromagnetic steel, one side of which vedena into elastic contact with the strip and the opposite side is placed on an adjustable distance directly above the axial hole of an electromagnetic coil is also mounted on the strip with the help of a special bracket, providing possibility of axial displacement of the coil.

Description

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

A de-icing device for roofs is known, comprising a heating tubular element with exhaust openings fixed at the contact with the edge of the roof and located on its section or around the perimeter to form a closed loop, connected to transport ducts, air intakes, the ends of which are connected and placed in the building’s ventilation ducts below the exhaust holes / 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.

Also known is the 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 for installing the cable inside the pipe 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, strut and console are interconnected with the possibility of changing the position of the knife / see RF patent for the invention No. 2194137, cl. E04D 13/076, 2001 [3] /.

The disadvantages of this device are the complexity of the design, the complexity of operation, low efficiency, limited functionality, due to the manual nature of the process, the need to lift a person to the roof and his movement in the process 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 destructive block made in the form of bimetallic plates in an elastic shell, connected by ends to a power supply / 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 its high energy consumption due to the need to create significant power loads on bimetallic plates when used to break 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 is to create an extremely simple and economical device for removing icicles from the eaves of a building roof, which ensures by the creation of a surface fundamentally different from the known dynamic vibro-shock regime of impact on the icicle-bearing surface, significant icicle collapse efficiency under low static impacts and minimal energy 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 the building, including the destructive unit connected to the power source, the feature is that to the roof eaves above or below the lap is parallel to its edge and protruding behind it, an elastic metal strip is outward, and the destructive block is a vibro-shock mechanism mounted on the lower surface of the strip, made in the form of a cantilever attachment to the strip using a leaf spring of a ferro-steel striker core, one side of which is brought into elastic contact with the strip, and the opposite side is placed at an adjustable distance directly above the axial hole of the electromagnetic coil, also mounted on the strip using a special bracket that allows axial displacement coils.

The essence of the utility model is illustrated by the drawing, where the proposed device is schematically shown in side view with a longitudinal section.

A device for removing icicles 1 from the eaves 2 of the roof 3 of building 4 includes a destructive unit connected to a power source / not shown /. At the same time, to the eaves 2 of the roof 3 above or below / in this embodiment, an upper / overlap is attached parallel to its edge and an elastic metal strip 5 protruding beyond it, capable of withstanding the layer of wet snow lying on top / if it is necessary to increase the bending stiffness, the strip 5 can be supported by a special slope. The place of fastening of the strip 5 / above or below the cornice 2 / is determined by the type of roof 3, the presence of free space under the cornice 2, edge rails on the roof 3, etc. In roofs 3 without a cornice 2, strip 5 is fastened directly above the edge of roof 3. In some roof structures 3, an elastic cornice 2 is already made, then there is no need for an additional strip 5 and the entire vibration-shock mechanism described below is installed directly on the cornice 2. The destructive block is installed on the lower surface of the strip 5, a vibro-shock mechanism made in the form of a cantilever attached to the strip 5 by means of a leaf spring 6 of the striker-core 7 of ferromagnetic steel, one side of which o / the upper one in the figure / is brought into elastic contact with the strip 5 / in the figure, this initial position of the striker-core 7 on the spring 6 is shown by the dotted line / before connecting the power source, and the opposite side is placed at an adjustable vertical distance directly above the axial hole 8 of the electromagnetic coil 9, also mounted on the strip 5 with a special bracket, providing the ability to adjust the vertical displacement of the coil 5 along its axis. The bracket is made in the form of a bolt 10, fixed on the strip 5 by the nut 11, and adjusting nuts 12. In this case, the electromagnetic coil 9, connected to the power supply, is freely put on by the holes 13, made in the protrusions 14 of its housing 15, onto the bolt 10 and fixed by nuts 12 so that its upper end is in the initial position / shown in dotted line / at a given axial distance from the bottom surface of the core-core 7 / / naturally, we are talking about the initial position of the core-core 7 mounted on the spring 6 /.

The work of the proposed device is as follows.

When the power source is turned on, the free end of the plate spring 6 with the striking core 7 made of ferromagnetic steel is abruptly attracted to the axial hole 8, i.e., to the upper end of the current-fed electromagnetic coil 9 / the drawn position of the spring 6 with the striking core is shown by solid lines in the figure /. When the power source is turned off, the spring 6 is released, and the upper surface of the striker-core 7 strikes the strip 5, knocking the icicles 1 due to the impact of elastic vibrations of the strip 5. The power supply is switched on in a periodic pulsed mode, so when it is turned on, periodic striking of the striker core 7 with a strip 5. The initial adjustment of the height of installation of the coil 9 when it is fixed on the strip 5 using the bracket 10, 11, 12, that is, the magnitude of the axial clearance between the upper end of the coil 9 and the striker At the core 7, as well as the amplitude and frequency of the current pulses from the power source, the intensity and frequency of impacts that are optimal for the process of knocking down icicles 1 is selected. At the same time, the operation of the device in dynamic mode with the message of shock pulses to the base / band 5 /, which carries icicles 1, ensures the maximum intensity of the collapse of icicles 1 and the minimum energy consumption. Moreover, this is characteristic in comparison with the prototype device, which produces the destruction of ice in the power mode of static separation. The figure shows one strip 5 with a percussion device, the optimal length of the strip along the edge of the cornice 2 is of the order of 2-3 m, with a longer length the removal efficiency of icicles decreases. Such strips 5, each with its own drummer, can be installed end to end next to each other along the perimeter of the roof, while all coils 9 are connected to the same power source. Moreover, the latter is equipped with a remote control that allows you to specifically turn on the coil 9 on a given strip 5 with icicles 1 on it. In practice, it is advisable to install such strips 5 not around the entire perimeter of roof 3, but only in hazardous areas / above sidewalks, exits from entrances, above congestion of cars, people, etc. /

The proposed device is extremely simple, high efficiency, wide functionality, low power consumption. Due to its simplicity, the absence of the need to raise a person to the roof during the process of removing icicles, as well as the use of complex mechanisms and devices / vehicles, lifts, etc. /, the proposed device can be used not in critical cases, but periodically for the purpose of prevention, thereby preventing the process of nucleation of icicles. The device can be used in almost any roof construction: flat, sloping, with any coating, in the presence and absence of cornices, in houses of any number of storeys.

Claims (1)

A device for removing icicles from the eaves of the roof of the building, including a destructive unit connected to a power source, characterized in that an elastic metal strip protruding outwardly to the roof eaves is lapped parallel to its edge and protruding outside it, and the destructive unit is mounted on the bottom the surface of the strip is a vibro-shock mechanism made in the form of a cantilever attached to the strip using a leaf spring of a striker-core of ferromagnetic steel, one side of which vedena into elastic contact with the strip and the opposite side is placed on an adjustable distance directly above the axial hole of an electromagnetic coil is also mounted on the strip with the help of a special bracket, which provides the possibility of axial displacement of the coil.