RU92442U1 - SNOW-HOLDING DEVICE - Google Patents

Abstract

1. A snow-holding device installed on the sheet roof of the building and serving to keep snow layers formed on the roof from collapsing, which is a fence consisting of two pipes located one above the other and at least two supporting units, each of which contains a holder, fastening elements a holder on the roof of the building and gaskets, characterized in that the pipes are made of aluminum oval in cross section, each holder is made in the form of a plate with a flange, on which holes are placed I by fastening elements to the sheathing roof of a building, on which are secured roofing sheets, gaskets have a thickness between 4 and 26 mm, mounting elements are arranged at a distance L1 greater than the length L of the sheet roofing profile. ! 2. The device according to claim 1, characterized in that the pipes have plugs at the free ends and adapters installed at the joints of the pipes. ! 3. The device according to claim 1, characterized in that each adapter is made in the form of an insert having three sections, two of which are conical oval in cross section, having risks for more tight contact with the inner surface of the pipes, are installed inside each of the two connected pipes and their large bases are interconnected by a third section having protrusions. ! 4. The device according to claim 1, characterized in that the gaskets are made of material resistant to ultraviolet radiation.

Description

The utility model relates to the field of construction and relates to the design of a snow-holding device installed on the roof of the building and serving to keep snow layers formed on the roof from collapse.

It is known that a snow-holding device is installed on the sheet roof of a building, which is a fence fixed on the roof of the building parallel to its eaves edge and consisting of a long pipe and support nodes of the fence, each of which contains two clamping plates, in the middle of each of which is made open from the side the upper longitudinal edge of the plate socket for the passage of the fence pipe, formed by a recess in the shape of the outer surface of the pipe and parallel parallel inclined bevels and facing the upper longitudinal edge of the plate and in different directions in relation to the bevel of the other plate. In each clamping plate, on either side of the indicated socket, oval holes are made for an element of detachable connection, providing connection of the plates to each other and fixing them on the seam connection of adjacent roof sheets (DE 19540403 A1, 1997).

The known design provides the possibility of using only one long pipe of the fence, which does not allow to effectively keep the snow layers formed on the roof from collapse. In addition, the implementation of the support nodes in this design does not ensure the reliability of its fastening on the roof.

The closest analogue is a snow-holding device containing a fence made with the possibility of installation on the roof parallel to its cornice edge and consisting of two long pipes located one above the other and the supporting nodes of the fence. Each support node consists of a holder of complex configuration having upper and lower openings for the passage of the upper and lower long pipes, and a clamping bar mounted on one side of the bar and having a socket for the lower pipe. The fixing of the support unit is ensured by two detachable connections ("bolt-nut"), which simultaneously fasten the clamping plate with the holder plate (DE 3617225 A1, 1987).

The structural embodiment of the clamping plate used in the known device does not provide reliable fastening, and the implementation of the holder plate of complex curved shape complicates the manufacturing technology. The implementation of the upper and lower holes in the holder plate to the size of the outer diameter of long pipes greatly complicates the process of mounting the device on the roof, since it requires the most accurate installation of the support nodes relative to each other when they are mounted exactly at the junction of the roof sheets.

The inventive utility model is aimed at solving the problem of creating the design of a snow-holding device that provides reliable retention of snow layers formed on the roof from collapse by increasing the service life.

The technical result that can be achieved by implementing the proposed utility model is to increase the reliability of mounting a snow thrower on the roof of a building, to increase its service life, to simplify its installation on roof sheets and to simplify manufacturing technology.

To achieve the technical result, a snow-holding device installed on the sheet roof of the building and serving to keep the snow layers formed on the roof from collapsing is a fence consisting of two pipes located one above the other and at least two supporting units, each of which contains a holder , fastening elements of the holder on the roof of the building and gaskets, characterized in that the pipes are made of aluminum oval in cross section, each holder is made in the form of a pla flanged walls, on which holes for fastening elements to the roof lathing of the building are located, on which roof sheets are fixed, gaskets are made from 4 mm to 26 mm thick, fastening elements are placed at a distance "L1" greater than the length "L" of the roof sheet profile .

Other embodiments are possible, according to which it is necessary that:

- the pipes would have plugs at the free ends and adapters installed at the joints of the pipes;

- each adapter would be made in the form of an insert having three sections, two of which are conical oval in cross section, having risks for more tight contact with the inner surface of the pipes, are installed inside each of the two pipes to be connected and their large bases are interconnected by a third section having protrusions.

- gaskets are made of material resistant to ultraviolet radiation.

These signs are essential and interconnected causal relationship with the formation of a set of essential features sufficient to achieve a technical result.

The essence of the claimed utility model is illustrated by drawings, where

- figure 1 shows a General view of the structure;

- figure 2 is a holder, side view;

- figure 3 is a section aa of figure 2;

- figure 4 - gasket, bottom view;

- figure 5 - connection of two pipes with an adapter in section.

The proposed snow retention device is a fence installed on the sheet roof of the building and serving to keep the snow layers formed on the roof from collapsing, which is a fence made with the possibility of installation on the roof along its eaves edge. The device (Fig. 1) consists of two long pipes 1 and 2 located one above the other, and at least two support nodes 3 in which pipes 1 and 2 are installed. The pipes 1 and 2 are made of oval aluminum in cross section, which makes the design lighter and strong enough. The number of support nodes is selected depending on the inclination of the roof, because the size of the snow cover depends on this, to ensure the strength of the fastening of the device. Each support node 3 (figure 2, 3) contains a holder 4, gaskets 5 and fastening elements 6 (screws, nails, etc.) of the holder 4 on the roof of the building. Each holder 4 is made in the form of a plate 7 with a flange 8, on which holes 9 are made under the fastening elements 6 of the roof sheets 10 to the roof lathing 11 of the building, on which the mentioned roof sheets 10 are fixed. This mounting design allows you to simplify the structural implementation of both the holder 4 and the fastening elements 6, which in turn simplifies the installation and dismantling of the device on the roof of the building. Gaskets 5 (figure 4) are made, for example, of EPDM material resistant to ultraviolet radiation and weathering, from 4 mm to 26 mm thick, which will increase their service life. They may also have at least one recess 12 in the lower end part. The use of gaskets allows for a durable and tight connection of the device with the roof of the building. For a more reliable fastening and increase the service life, it is advisable that the fastening elements 6 would be placed at a distance "L1" greater than the length "L" of the profile of the roof sheet.

Pipes 1 and 2 have plugs 13 at their free ends and adapters installed at the joints of the pipes. Each adapter is made in the form of an insert having three sections 14, 15 and 16. The two extreme sections 14 and 15 are made conical oval in cross section for interaction with the inner surface of each pipe, for example, pipe 1, and are placed inside each of the two pipes to be connected. The large bases of sections 14 and 15 are interconnected by a third section 16, which has protrusions extending beyond the outer surface of the connected pipes. The two extreme sections 14 and 15 may have risks 17 for more tight contact with the inner surface of each pipe. Plugs 13 and adapters ensure the tightness of the pipes, which increases their service life and provides a good appearance, due to the elimination of rust.

A new set of features of the proposed technical solution is essential, they are all necessary and sufficient to obtain a new technical result. The signs mentioned above are significant for the reason that there is a causal relationship between the signs and the resulting technical result.

The proposed technical solution is industrially applicable, because it can be used in construction, industry, agriculture and other sectors of the economy where snow-holding devices for roofs are used.

Claims (4)

1. A snow-holding device installed on the sheet roof of the building and serving to keep snow layers formed on the roof from collapsing, which is a fence consisting of two pipes located one above the other and at least two supporting units, each of which contains a holder, fastening elements a holder on the roof of the building and gaskets, characterized in that the pipes are made of aluminum oval in cross section, each holder is made in the form of a plate with a flange, on which holes are placed I by fastening elements to the sheathing roof of a building, on which are secured roofing sheets, gaskets have a thickness between 4 and 26 mm, mounting elements are arranged at a distance L1 greater than the length L of the sheet roofing profile. 2. The device according to claim 1, characterized in that the pipes have plugs at the free ends and adapters installed at the joints of the pipes. 3. The device according to claim 1, characterized in that each adapter is made in the form of an insert having three sections, two of which are conical oval in cross section, having risks for more tight contact with the inner surface of the pipes, are installed inside each of the two connected pipes and their large bases are interconnected by a third section having protrusions. 4. The device according to claim 1, characterized in that the gaskets are made of material resistant to ultraviolet radiation.