WO2010082866A1

WO2010082866A1 - Icicle-smashing device

Info

Publication number: WO2010082866A1
Application number: PCT/RU2009/000729
Authority: WO
Inventors: Юрий Алексеевич ПАК
Original assignee: Pak Yury Alekseevich
Priority date: 2009-01-13
Filing date: 2009-12-28
Publication date: 2010-07-22
Also published as: EA018878B1; EA201100939A1

Abstract

An icicle-smashing device relates to the building maintenance field and comprises a flexible element in the form of a rigid profile secured by one wing to the roof of a building, and a mechanical pulse source interacting with the flexible element. Guides for moving the mechanical pulse source are mounted on the cantilever wing of the profile. It is also essential that the wing of the profile secured on the roof can organize a flow of melted snow water along the surface of the profile. Furthermore, the mechanical pulse source can be moved back along the guides.

Description

Icicle Hacking Device

The utility model relates to the field of construction and can be used in the operation of roofs of buildings and structures.

A device for removing ice from the eaves of roofs of buildings is known, including a source of mechanical impulses mounted on rails with a return drive and an elastic element interacting with it in the form of a waveguide of metal profiles that are mounted on the building structures (US Pat. RF Ш 2 169 245 мпк E 04 D 13/00).

The known device operates as follows. The waveguide is mechanically decoupled from the eaves of the roof. When icing the roof eaves, the source of mechanical impulses in the form of an exciting vibrator is driven through a rod mounted on the guides, forced vibrations in the elastic element, which lead to cracking of icicles, both on the waveguide and on the roof eaves.

However, the known device has significant disadvantages. During the operation of buildings, due to the natural movements of the rafter structures or after repairing the roof, the lines of its cornice undergo deformation from the initial position, both in terms of placement height and depth not more than ₇ years old, since the position of the waveguide remains more stable The indicated non-synchronous changes can lead to icicles on the roof sprouting a micromic of the waveguide body on a diSi Yantsimkh iFbkyshtQiTsih value of Si ¹ O amplitude of the unit _^ i j-3 & why the device doesn’t fulfill its function nktsii. In addition, the increased demands on the linearity of the eaves of the roof, due to the use of hard metal profiles, raise the price of roofing vo.ztieden ^~ nya.

This drawback is overcome by the fact that in the known device, which includes installing JS “sources of mechanical impulses and interacting with them elastic elements, in the form of profile waveguides made of rigid material, the profiles are fixed on one side on the edge of the building, and the other side of the profiles contains interacting with them sources of mechanical impulses mounted on the rails, moreover, the rails are placed along the length of the waveguides, and the sources of mechanical pulses themselves are made with the possibility of return movement along the guides.

In addition, the fixed sides of the waveguides are arranged to organize melt water drain through them, for example, by means of sealing mastic placed between the roof and the waveguides

The use of a mobile source of mechanical impulses will increase the reliable icicle breaking process, since it is possible to process any part of the waveguide with the maximum allowable pulse, and it is also necessary to re-process pulses of sections of the waveguide im, i de ero

In addition, fixing profiles on the roof iτ by organizing runoff of melt water along them will allow avoiding the process of formation of icicles outside the body of the waveguides, since the placement of the latter on the cornice ensures their synchronous settlement.

The figure shows the roof 1, the waveguide 2, the guides 3, the source of mechanical pulses in the form of a vibrator 4 with an eccentric 5, power bus 6, mastic 7, detachable fasteners 8.

The proposed utility model works as follows. When icicles appear on the body of the waveguide 2, the vibrator 4 is driven, for example, made in the form of an electric motor, which is mounted on the shaft of the snake βm rik. 5, it strikes the body of the console of the waveguide 2, which is how the icicles are hacked. After this operation, the vibrator 4 moves to another section of the waveguide forward or backward. In this case, the recurrence of the guarantee of the vibrators will determine the following pattern - hsv. the greater the frequency of movement of the vibrator 4. the smaller the thickness of the freezing layer of ice, and hence the memory power requirement. A small toliq of a hacked icicle will also lead to a greater level of security for residents.

Ekstsent ^p hic 5 nA ⁿ poison ^v with ^v dsonym action, oc ^v schectvdyaet vibrator 4 as moving on rails 3 by using impactor friction cam 5 on the guide board 3, formed for example in the form of a pocket at the end of the waveguide 2 console.

On the bus 6 can be supplied with power to the vibrator 4. Mastic 7 allows for organic discharge of melt water through the surface of the waveguide 2. When performing the last of the metal profiles, either the thickness of the mastic 7 is increased, or it is made in the form of a sealing strip of elastic soundproofing material.

The vibrator 4 can also use sources of pulses made in the form of electromagnets, magnetic pulse systems, pneumatic drives, etc.

Using detachable fasteners 8 will facilitate the repair and prevention of the proposed device.

The waveguides 2 are made of metal or plastic profiles, the rigidity and resistance of which can withstand the vibration load while maintaining the original shape under the influence of prolonged atmospheric conditions and solar radiation. Waveguides 2 from corner profiles are used for roofs with overhangs. On roofs with protruding rafter legs or over vertical gutters, waveguides 2 from a sheet profile are used.

Using the proposed model will make it easier to install the device for breaking icicles, increase the efficiency of devices using the method of breaking icicles by means of vibrating waveguides.

Claims

Utility Model Formula

L A device for cracking icicles comprising installed on the guiding sources of mechanical pulses and interacting with them elastic elements, in the form of profile waveguides made of hard material, characterized in that the elastic elements are connected on one side on the edge of the roof of the building, and the other sides of the profiles contain interacting with waveguides sources of mechanical pulses mounted on guides, moreover, the guides are placed along the length of the waveguides, and the sources of mechanical pulses are made with possible spine of return movement along guides.

2. The device according to claim 1, characterized in that the fixing of the waveguide profiles is made with the possibility of organizing them, melt water flow, by means of, for example, sealing mastic placed between the roof and waveguides.