RU2444594C1 - Method to remove icicles along building roof perimetre - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: system of freely hanging down flexible ferromagnetic elements is fixed along the roof edge, and such elements perform functions of guides for water outflow during snow and ice melting, and functions of fittings for generation of icicles, and power impact is carried out towards the ferromagnetic elements by AC electromagnet field of the specified nature excited in the zone of generation with the special field generator.

EFFECT: invention makes it possible to automate the device working process.

10 cl, 2 dwg

Description

The invention relates to the maintenance of housing and communal services, and specifically to the removal of snow and ice from roofs of buildings.

A known method of collapsing icicles, providing for contact with icicles, their capture and removal using a telescopic pipe mounted with control units on the chassis of the car, at the upper end of which is mounted on a bearing support an electric motor, on the shaft of which a conical flap breaker is mounted, and inside the pipe is installed retracting cable for both retracting the pipe and transmitting power, connected to the control system and power supply / cm. RF patent for the invention No. 2187595, class. E01H 5/00, 2001 [1] /.

The disadvantages of this method are the extreme complexity, significant complexity and low efficiency of the process, the need to use sophisticated equipment and limited application possibilities.

There is also a method of removing icicles from the eaves of roofs of buildings, providing lateral movement along the edge of the eaves of the movable working body in the form of self-aligning shoulder grips bent under the eaves using a drive mechanism consisting of a lever with an upper loop, a supporting clamping shoulder, side balancing supports-runners and a safety rope / cm RF application for a patent for an invention No. 2002103177/03, cl. E04D 13/076,2002 [2] /.

The disadvantages of this method are the extreme complexity and danger of the process of its implementation due to the need to lift a person to the roof and move along the edge of the roof while controlling the working body, low efficiency, limited application possibilities.

The closest method of the same purpose to the claimed invention in terms of essential features is a method of removing icicles along the perimeter of the roof of a building, which consists in exerting a force on the icicles directly or on adjacent roof sections using a special mechanism in the form of a handle with a handle, tip and knife, in which the tip is equipped with a strut and an anchor, fixed by guy wires to the parapet fence, the knife is made with a console mounted on the tip, and the anchor is is a curved strip of water-resistant material disposed on the roof, wherein the tip and the cantilever brace interconnected with the possibility of changing position of the blade / cm. RF patent for the invention No. 2194137, cl. E04D 13/076, 2001 [3] /, adopted as a prototype.

The disadvantages of the prototype method are the extreme complexity and danger of the implementation process due to the need to lift a person to the roof, significant laboriousness and low efficiency, limiting the possibility of use.

The essence of the invention is to create an extremely simple and effective method of removing icicles, providing for the process of their preliminary formation on a special ferromagnetic armature and subsequent pulse or periodic excitation of this armature by the forces of its magnetic interaction with an externally applied alternating electromagnetic field.

The technical result is a simplification of the process of implementing the method, increasing its efficiency and expanding the possibilities of application.

The specified technical result in the implementation of the invention is achieved by the fact that in the known method of removing icicles along the perimeter of the roof of the building, including the implementation of force directly on the icicles or on adjacent sections of the roof, the feature is that they fix along the edge of the roof a system of flexible ferromagnetic freely hanging down elements that act as guides for draining water when snow and ice melt, and reinforcing bars to form icicles on them, and force carry out on the ferromagnetic elements an alternating electromagnetic field of a given nature, excited in the zone of formation of icicles by a special field generator; the system of ferromagnetic elements can be made either in the form of a set of leads from soft magnetic wire segments fixed on an elastic strip, or in the form of a comb made of soft magnetic rubber, or in the form of a comb made of highly coercive fabric on a metal base; either a sequence of electrical pulses of a given duty cycle or a periodic electrical signal is used as an acting alternating field; the field generator is either in the form of an excitation coil installed outside the building directly near the ferromagnetic elements and connected to an electric generator, or in the form of an open electromagnetic coil with time-varying excitation installed in the upper rooms of the building close to the inner surface of the wall adjacent to the ferromagnetic elements, or in the form of a permanent magnet installed in the upper rooms of the building close to the inner surface of the wall adjacent to the ferromagnetic ele ment, with the possibility of periodic movement relative to the latter, or in the form of a flexible electric wire attached parallel to the edge of the roof directly to the bases of the ferromagnetic elements and connected to an electric generator.

As an example, one of the possible variants of the device for implementing the proposed method is given, in which the system of ferromagnetic elements is made in the form of a comb of highly coercive fabric on a metal base, and the alternating electromagnetic field generator is in the form of an excitation winding installed outside the building on the roof cornice directly near the ferromagnetic elements. Moreover, figure 1 schematically shows the device in a side view of the building, figure 2 - the device in front view.

The device comprises a strip 5 of a highly coercive metal-based fabric 5 attached to the top of the cornice 1 of the roof 2 of the building 3 along its edge in areas with an increased risk of icicles 4, the outer edge 6 of the strip 5 protruding beyond the edge of the cornice 1 and hanging down freely, cut into transverse ribbons 7, forming an elastic comb with a base 6 and teeth 7. To the lower surface 8 of the cornice 1 also near its edge with pins 9 and with a gap with the surface 8 of the cornice 1 is attached an insulating plate 10 made of special cial plastic, the plane of which is located as close as possible to the belt 7. At the same time on the plate 10, tightly wound coil 11 of flexible insulated wire, the ends 12 of which are derived on the lower surface 8 of the cornice 1 and connected to a universal electric generator / not shown /. The latter can produce both a periodic electrical signal of adjustable amplitude and frequency, and a sequence of electrical pulses with a given amplitude and duty cycle. The generator can be installed in any place that is easily accessible to humans, for example, on the technical floor of a building, in the attic, in the basement. In addition, the ends of the wire 12 can be connected to special electrical terminals in the lower part of the wall of the building near the ground, and the generator can be used in the singular for a significant number of buildings and mounted on a mobile vehicle. The manufacturing process of elastic fabrics based on, for example, metal soft magnetic highly coercive filaments, powder and fibrous material is sufficiently developed and widely used.

The work of the proposed method using the above device is as follows.

Flexible elastic ribbons 7 combs are guides for draining water from the roof 2 when snow and ice melt, and, of course, simultaneously with reinforcement or the basis for the formation of icicles on them 4. With the right choice of step between the ribbons 7, icicles 4 are formed only on them in isolation without mutual combining with each other. Also, with the right choice of lengths of segments of tapes 7, icicles 4 on the one hand in a static state linger on the tapes 7 / comb teeth /, and on the other hand, under dynamic disturbances with relatively small forces of electromagnetic interaction, they are easily shaken off the tapes 7. When feeding into the winding 11 s an electric signal generator in the form of a sequence of pulses or of a periodic nature, a magnetic force interacts with an alternating electromagnetic field of a given nature of the winding 11 with ferromagnetic tapes 7, n eating icicles 4. In this case, single or serial intense collisions of the ribbons 7 with the icicles 4 with each other, with the cornice 1 arise, which will naturally lead to the effective removal of the icicles 4, their removal from the ribbons 7. In accordance with claim 3 of the claims, comb 6 , 7 can be made of flexible soft magnetic rubber, the manufacturing process of which has been worked out for many years / for example, for the manufacture of conveyor belts /, according to claim 2, the movable teeth 7 of the comb are made in the form of pieces of soft magnetic wire, fixed on the elastic strip 5, 6 with the possibility of elastic displacements relative to the strip. The alternating electromagnetic field generator acting on the ferromagnetic elements 7 can be made in the form of a conventional electromagnet with time-varying excitation pressed by the end part, where the magnetic field has a maximum field line density, to the inner wall surface adjacent to the 7 / cm ferromagnetic elements. Claim 6. Also, an alternating magnetic field acting on movable ferromagnetic elements 7 can be created using a permanent magnet, which is displaced according to a given law near the inner surface of the wall adjacent to the ferromagnetic elements 7. Such movement can be provided either by a vibration device or by a special kinematic mechanism / cm . claim 9 claims. And finally, an alternating electromagnetic field can be created by a linear flexible electric wire placed directly on the elastic base 6 of the comb / uncut hanging part of the strip 5 / connected to a source of an electric signal that is changed according to a given law / cm. claim 10 claims.

The proposed method is universal, can be implemented for almost any construction of buildings and roofs, for various sources of excitation and their location, with the different nature of the electromagnetic elements carrying icicles, it is extremely simple to implement, efficient and requires minimal energy consumption.

Claims (10)

1. The method of removing icicles along the perimeter of the roof of knowledge, including the implementation of a force action directly on the icicles, or on adjacent sections of the roof, characterized in that they fix along the edge of the roof a system of flexible ferromagnetic elements hanging freely downward, which serve as guides for draining water when melting snow and ice, as well as reinforcement for the formation of icicles on them, and the force is exerted on the ferromagnetic elements by an alternating electromagnetic field of a given nature, exciting aemym in the zone of formation of icicles special field generator. 2. The method according to claim 1, characterized in that the system of ferromagnetic elements is made in the form of a set of leads from pieces of soft magnetic wire fixed to an elastic strip. 3. The method according to claim 1, characterized in that the system of ferromagnetic elements is made in the form of a comb of soft rubber. 4. The method according to claim 1, characterized in that the system of ferromagnetic elements is made in the form of a comb of highly coercive fabric on a metal base. 5. The method according to claim 1, characterized in that a sequence of electric pulses of a given duty cycle is used as the acting alternating field. 6. The method according to claim 1, characterized in that a periodic electrical signal is used as the acting alternating field. 7. The method according to claim 1, characterized in that the field generator is in the form of an excitation winding, which is installed outside the building directly near the ferromagnetic elements and connected to an electric generator. 8. The method according to claim 1, characterized in that the field generator is in the form of an open electromagnetic coil with a time-variable excitation, which is installed in the upper rooms of the building close to the inner surface of the wall adjacent to the ferromagnetic elements. 9. The method according to claim 1, characterized in that the field generator is in the form of a permanent magnet, which is installed in the upper rooms of the building close to the inner surface of the wall adjacent to the ferromagnetic elements, with the possibility of periodic movement relative to the latter. 10. The method according to claim 1, characterized in that the field generator is made in the form of a flexible electric wire, which is attached parallel to the edge of the roof directly to the bases of the ferromagnetic elements and connected to an electric generator.

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