RU89146U1 - DEVICE FOR PREVENTING THE FORMATION OF LARGE ICONS ON THE EXISTING PARTS OF ROOFS AND FACADES OF BUILDINGS AND CONSTRUCTIONS AND FALLING FROM THESE PARTS OF FROZEN AND SNOW - Google Patents

Abstract

1. Device for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts, including a sheet-like body containing a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures in the direction from them edges and at least partially bonded to them, and the part of the sheet-like body protruding beyond the edge, while at least the part of the sheet-like body protruding beyond the edge is made of a material having about the property of flexibility and elasticity, at least at the temperatures of formation of ice and icicles, and, in addition, the leaf-shaped body is configured to retain ice and snow on its surface, characterized in that at least a part of the sheet-like body protruding edge, contains elastic elements. ! 2. The device according to claim 1, characterized in that each elastic element is an extended element, monolithic, at least in the part of the sheet-like body protruding beyond the edge, and located in the direction from the end of the specified part of the sheet-like body. ! 3. The device according to claim 2, characterized in that the extended element is a wire. ! 4. The device according to claim 3, characterized in that the wire is made of metal. ! 5. The device according to claim 3, characterized in that the wire is made of a polymeric material. ! 6. The device according to claim 2, characterized in that the extended element is a strip. ! 7. The device according to claim 6, characterized in that the strip is made of metal. ! 8. The device according to claim 6, characterized in that the strip is made of polymer material

Description

The utility model relates to the field of construction and operation of buildings and structures and can be used to prevent the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts.

The reason for the formation of ice and icicles on the roofs of buildings and structures, as well as on other protruding parts of their facades, is known and consists in the design features of the design of the lower edges of the roofs and other protruding parts. Let us explain this in more detail on the example of roofs. As you know, the bulk of the roof overlaps the attic. Due to heat leakage from the attic, the temperature of the roof surface is always slightly higher than the ambient temperature. The lower part of the roof, called the overhang, stands for the facade of the building or structure and for this reason is surrounded on all sides by outside air. As a result, the temperature of its surface is almost equal to the temperature of the surrounding air. With insignificant negative temperatures on the roof surface above the attic, the snow layer begins to melt. The resulting meltwater flows down and falls on the surface of the lower part of the roof. Since, as noted above, the temperature of its surface is almost equal to the temperature of the surrounding air, melt water freezes to it, forming ice, from which icicles form when the snow melts further.

This is a common cause of icicle formation. But there are many other factors that contribute to the formation of icicles on the roof. For example, there are “warm” roofs with insignificant thermal insulation, when the temperature in the attic under the roof is high, which due to heat transfer “passes” to the outer surface of the roof. As a result, it is -15 ° C outside, and water from the melting snow and ice flows on the roof and ice and icicles form. Even on the same roof, icicles can form in some places, but not in others. For example, in the attic there is a pipe of hot water that is not thermally insulated in one place. As a result, icicles form on the roof section above this place even at -20 ° С, and on the other section of the same roof there are no icicles even at 0 ° С.

As a result, the technical task is constantly preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts.

There are various devices for this, based on different technical principles.

A device for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall from these parts of ice and snow, including a sheet-like body containing a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades, in the direction from their edge, and at least partially bonded with them, and the part of the sheet-like body protruding beyond the edge (see the description of the invention to the patent of the Russian Federation No. 2244790, class E04D 13/076, priority date 03/05/2003).

The principle of operation of the known device is to significantly reduce the adhesion of ice and snow to the surface of the lower part of the roof, so that ice and snow cannot connect to the surface, but slide down immediately without the formation of icicles. To do this, a sheet-like body with a smooth even surface made of a hydrophobic (water-repellent) material, for example, fluoroplastic, polyethylene and other structural materials, is fixed along the lower edge of the roof. The sheet-like body is a rigid strip formed from shields stacked together, made of structural materials.

The work of a known device.

The water generated by the thaw flows down the roof surface and falls to the ground. When cooling, the water at the lower edge of the protruding roof part begins to freeze. As a result of the presence of a sheet-like body on it with a smooth surface of a hydrophobic material with reduced adhesion to snow and ice, the formed ice slides down and falls to the ground, which avoids the accumulation of ice, which, in turn, prevents the formation of large icicles.

However, as practice shows, reducing the adhesion of ice and snow to the surface of the lower part of the roof so that they roll down without the formation of icicles does not effectively prevent the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts .

A device for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts, including a sheet-like body containing a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures, in the direction from them edges, and at least partially bonded to them, and the part of the sheet-like body protruding beyond the edge, while at least the part of the sheet-like body protruding beyond the edge is made of material, o possessing the property of flexibility and elasticity, at least at temperatures of formation of ice and icicles, and, moreover, the leaf-shaped body is capable of retaining ice and snow on its surface (see the description of the utility model to the patent of the Russian Federation No. 85179, class E04D 13/076, priority date 03/26/2009).

This technical solution was made as a prototype of the claimed utility model, since it is closest to it in the aggregate of common essential features and the achieved technical result.

The operation of this device is as follows.

The water formed as a result of the thaw flows down the roof surface and falls to the ground from the protruding roof parts and facades of buildings and structures. When cooling, the water at the lower edge of the protruding parts of the roofs and buildings begins to freeze and ice forms. The leaf-shaped body retains ice and snow on its surface and interferes with their rolling.

This can be provided, for example, by the following technical means:

- the material of at least a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades is a hydrophilic substance;

- the material of at least a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades, has high adhesion to snow and / or ice;

- at least a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades is made with irregularities on the outer surface with the possibility of interaction with snow and / or ice, etc.

The ice that forms is thawing and the water begins to come into contact with the part of the sheet-like body protruding beyond the edge, which is made of a material having the property of flexibility and elasticity, at least at the temperature of formation of ice and icicles, usually this temperature is in the range from 0 ° C to -10 ° C °.

Getting on a flexible elastic base, the water freezes and the ice that forms is cracked. This prevents the formation of large icicles.

This is the main technical result of the claimed utility model.

The experiments showed that the diameter of the formed icicles does not exceed 0.8-1 cm, and their maximum length is 10-12 cm.The fall of such icicles does not pose a significant threat to the life and health of people passing under them.

Thus, the claimed device first provides a delay in the sliding of ice and snow, so that the beginning ("root") of the icicle on the part of the leaf-shaped body protruding beyond the edge, bends on an elastic and flexible base, cracked under its own weight and fall down by small icicles.

As a result, on the roof, as well as on other protruding parts of the roofs and facades of buildings and structures, covered at the edge with the declared sheet-like body, no ice and icicles of significant size are formed. This is the main technical result of the known utility model.

From the above it follows that this well-known leaf-shaped body (coating) consists of two parts, each of which performs a different function:

- the part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades is designed to detain ice and snow on its surface, preventing them from rolling;

- the part of the leaf-shaped body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures is designed to prevent the formation of large icicles, which pose a threat to human health.

Particular attention should be paid to the part of the sheet-like body protruding beyond the edge. It has special requirements. The material of this part should be not only elastic, but also flexible to such an extent that in the event of a situation of a gradual increase in the ice thickness, the protruding part of the sheet-like body protruding beyond the edge, the ice on it would crack and its small parts would fall down without the formation of large icicles . Obviously, the thickness of the sheet-like body should not be greater than that at which said flexibility is maintained.

The part of the sheet-like body protruding beyond the edge may be a rolled roofing material of various designs, a rubber sheet, other polymeric material, etc.

Its disadvantage is that over time, the material from which this part of the sheet-like body is made loses its elasticity and flexibility.

Note:

Elasticity is the property of bodies to regain their shape and volume (solids) or only volume (liquids and gases) after the termination of external forces on them (see The Big Explanatory Dictionary of the Russian Language, St. Petersburg, NORINT, 2002, p. 1394);

Elastic - taking on its original form after compression, bending, possessing elasticity (Great explanatory dictionary of the Russian language, St. Petersburg, NORINT, 2002, p. 1394);

Flexible - easily bendable, resilient (The Big Explanatory Dictionary of the Russian Language, St. Petersburg, NORINT, 2002, p. 201).

This process is especially intensified as a result of processes occurring in the material under the influence of various temperatures in winter and summer, precipitation, etc.

As a result, over time, the effectiveness of preventing the formation of large icicles by the claimed device decreases.

In addition, initially the material from which the part of the sheet-like body protruding beyond the edge is made may not have sufficient elasticity and flexibility, subject to all other requirements.

The technical task of the claimed utility model is to increase the service life of the sheet-like body and expand the range of materials that can be used as it.

The technical problem is achieved in that in the device for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts, including a sheet-like body containing a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures, in the direction from their edge, and at least partially bonded to them, and a part of the sheet-like body protruding beyond the edge, while at least a part of the sheet-like body protruding beyond the chamomile is made of a material having the property of flexibility and elasticity, at least at the temperature of formation of ice and icicles, and, in addition, the leaf-shaped body is configured to retain ice and snow on its surface, according to a utility model, at least a portion the sheet-like body protruding beyond the edge contains elastic elements.

This set of common essential features is necessary and sufficient for any implementation of the utility model.

Thus, the essence of the utility model is that metal, polymer or other elastic elements are added to the sheet-like body to impart predetermined elasticity properties. As a result, the part of the sheet-like body protruding beyond the edge will not bend downward from time due to a decrease in the elasticity property and it will not be necessary to look for ways to return it to its place.

In addition, the applicant considers it necessary to highlight the following development and / or refinement of the set of common essential features of the claimed utility model related to particular cases of implementation or use.

They are caused by the fact that, generally speaking, it is possible to construct many different designs of the elastic elements of the claimed device, and in all cases the essence of the utility model will be preserved, which will increase the service life of the sheet-like body and expand the range of materials that can be used as it. The applicant himself has developed several of its modifications. For example, elastic elements can be made of various materials. They can be located both outside the sheet-like body and inside, and inside they can be monolithic, and can be placed in pre-formed cavities, and their ends are attached to the walls of the cavities.

Below are some of the best options.

It is desirable that each elastic element would be an extended element, for example, a wire or strip of metal or polymer material, monolithic in at least a part of the sheet-like body, protruding beyond the edge, and located in the direction from the end of the specified part of the sheet-like body.

It is also preferable to perform an extended element in the form of a spring made of metal or a polymeric material.

Due to the elastic elements, the elasticity and flexibility of the part of the sheet-like body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures on which the sheet-like body is fixed will be supported (or restored), and thereby increase the service life of the claimed device.

In addition, the expansion of the range of materials that can be used as a sheet-like body is provided.

Let us explain this with the following example.

As you know, the thinner both parts of a sheet-like body of flexible elastic material are and the more the sheet-like body protrudes beyond the edge, the more the latter will sag in the free state under the influence of its own weight, which is additionally increased due to the weight of ice, icicles and snow. For this reason, both parts of the leaf-shaped body can be located relative to each other at an angle much greater than 180 °, at which the device will not be able to fulfill its function of preventing the formation of large icicles. However, the introduction of elastic elements will allow you to (set) the location of these parts at the required angle relative to each other.

Another example.

It is obvious that the length of the part of the sheet-like body protruding beyond the edge for effective operation may be different depending, for example, on the elasticity and flexibility of the material, in particular, be in the range of 3-12 cm.

By changing the elasticity and flexibility of the sheet-like body with the help of elastic elements, it is possible to adjust the length of the part of the sheet-like body protruding beyond the edge to ensure efficient operation of the device.

Thanks to the elastic elements, various materials can be effectively used in the claimed device as a sheet-like body, in particular various rolled roofing materials, with the selection of appropriate properties for elasticity, flexibility, hydrophilicity, adhesion, roughness, etc.

Currently, many types of roll roofing materials are being produced that can be effectively used (see, for example, the Internet, the website of the TechnoNIKOL Corporation: http://www.tn.ru/about/).

They are intended for the installation and repair of roofing of residential and industrial buildings and structures operated in various climatic zones, as well as for waterproofing buildings and structures, pipelines, etc.

Rolled roofing material usually contains a fabric or nonwoven fabric base (for example, EKP roll roofing material has a polyester base, TKP brand has a fabric base, HKP brand has a glass-fiber base) and a layer made of bitumen-polymer located on one of its sides composition, and on the other side another layer, for example, representing a rubber composition or a thermoplastic or elastomeric composition, etc. In a single layer, for example, by melting it, the rolled roofing material can be glued to the overhang of the roof. Specified coarse-grained sprinkling, for example, coarse-grained slate or other coarse-grained material, may be on the opposite outer layer as a protective layer. The grains are strong and firmly connected to an elastic base. The sizes of coarse-grained sprinkles should be chosen so that they delay ice and snow as much as possible (so that they "do not move out"). Another purpose of coarse-grained topping is to protect the base from exposure to sunlight, which greatly lengthens its life. Typically, rolled roofing material retains its elasticity, elasticity and flexibility properties at the temperature of formation of icing and icicles (from 0 ° C to -10 ° C).

As an example of a rolled roofing material, one can cite: technoelast, isoelast grade EKP 5.5, etc. (see, for example, the Internet, the website of the TechnoNIKOL Corporation: http://www.tn.ru/about/).

As a material of a sheet-like body, any commercially available roofing materials that satisfy the condition of flexibility, elasticity and roughness, for example, manufactured by the IZOFLEX plant, are suitable.

During the installation of the claimed device, rolled rolled roofing material is fixed on the roof surface, as noted earlier, for example, by melting it, followed by pressing the layer softened from the back side to the surface of the eaves overhang from above, with an edge on the edge. Fastening can be done in the upper part of the sheet-like body, that is, in the upper part of the rolled roofing material (by melting) or by existing materials with an adhesive layer that does not require melting (the so-called "self-adhesive materials").

Note: “overhang” is the outer lower slope of the roof protruding beyond the outer contour of the wall or the eaves of the building (eaves overhang, window sill, etc.).

Reliability of the connection is also facilitated by the fact that the overhang itself is made of roofing steel and has good adhesion to bitumen-polymer materials.

In addition to a rolled roofing material, a sheet of rubber or thermoplastic materials with various physicomechanical properties, etc., that is, any material that retains elasticity and flexibility at the temperature of formation of icing (ice) and icicles (hanging) can be used as a sheet-like body. icicle).

For bonding with the overhang, in addition to melting, the sheet-like body can be connected to the overhang by gluing, as well as using mechanical fastening means, for example, screws (in particular, a type called self-tapping screws) or rivets.

It should be noted that the part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures, and the part of the sheet-like body protruding beyond the edge can be made entirely of one material.

The utility model is illustrated in the drawing.

Figure 1 schematically shows the proposed device.

Figure 2 is the same, section aa of figure 1;

Figure 3 is the same, section B-B of figure 2 (an option in which the elastic elements are located only inside the part of the sheet-like body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures, and these elastic elements are shown to be linear)

Figure 4 shows another variant of the cross-section B-B of figure 2 (a variant in which the elastic elements are located inside along the length of the entire sheet-like body, and these elastic elements are shown rectilinear).

The device 1 for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts includes a sheet-like body 2. It contains two parts: part 3 of a sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures, and part 4 of the sheet-like body, protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures.

Part 3 of the sheet-like body lies on the surface 5 of the protruding part (overhang) 6 of the roof 7 of the building 8 in the direction from the edge 9 of this protruding part (overhang). It is partially bonded to the roof with 7 screws 10.

Another part 4 of the sheet-like body 2 protrudes beyond the edge 9 of the protruding part (overhang) 6.

At least part 4 of the sheet-like body 2 protruding beyond the edge 9 is made of a material having the property of flexibility and elasticity, at least at the temperatures of formation of ice and icicles (from about 0 ° C to -10 ° C. For this reason part 4 of the leaf-shaped body has the ability to change shape under the influence of ice, icicles and / or snow upon them.When the application of these external forces ceases, it restores its shape and volume.

Moreover, the part 3 of the sheet-like body lying on the surface 5 of the protruding part 6, is made with the possibility of delaying ice and snow on its surface, for example, by the following technical means (individually or in combination of several means at the same time):

the material of at least a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades is a hydrophilic substance;

the material of at least a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades has high adhesion to snow and / or ice;

at least a part of the leaf-like body lying on the surface of the protruding parts of the roofs and facades is made with irregularities on the outer surface, for example, in the form of a coarse powder with the possibility of interaction with snow and / or ice.

The device operates as follows.

The water formed as a result of the thaw flows down along the surface of the roof 7 and falls on the surface of the part 3 of the sheet-like body lying on the surface 5 of the protruding part 6 of the roofs 7. In this case, the water moves, for example, between the grains of a coarse powder on the surface of the part 3 of the sheet-like body (in the figure coarse-grained topping is not shown), and then falls to the ground. During cooling, the water at the edge 9 of the protruding part (overhang) 6 of the roof begins to freeze and ice forms on part 3 of the sheet-like body, which is facilitated by the technical means used to detain ice and snow on its surface, partially listed above.

The resulting water moves along the surface of part 3 of the leaf-shaped body and falls on part 4 of the leaf-shaped body, where it freezes and the formation of an icicle begins. Part 4 of the sheet-like body protruding beyond the edge 9 is made of a material having the property of flexibility and elasticity, at least at the temperatures of formation of ice and icicles, this is usually a temperature in the range from 0 ° C to -10 ° C. From contact with the flexible and elastic part 4 of the sheet-like body, the ice is cracked and its parts fall down. This prevents the formation of large icicles.

Ice on an elastic flexible base, which is part 4 of the sheet-like body, is cracked, preventing the formation of large icicles.

As noted earlier, part 3 of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures, and part 4 of the sheet-like body protruding beyond the edge can be located differently relative to each other. If both of these parts of the sheet-like body have a sufficient thickness, for example, from 0.5 cm to 2 cm, and the part of the sheet-like body protruding beyond the edge has a small length, for example, from 3 cm to 8 cm, then both surfaces will located almost in the same plane.

However, the thinner both parts of the sheet-like body of flexible elastic material are and the more the sheet-like body protrudes beyond the edge, the more the latter will sag in the free state under the influence of its own weight, which is additionally increased due to the weight of the ice, icicles and snow. For this reason, both parts of the leaf-shaped body can be located relative to each other at an angle of not less than 180 °. This angle is shown in the figure and indicated by 11.

Part 4 of the sheet-like body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures, contains elastic elements 12 located parallel to each other (figure 2 and figure 3). Moreover, each elastic element 12 is an extended element monolithic in this part of the sheet-like body and located in the direction from the end 13 of the specified part of the sheet-like body. The extended element is made in the form of a strip 14 made of metal, for example, steel. However, the strip may be made of another material with suitable properties, for example, a polymeric material.

Due to the elastic elements in the form of a strip, the elasticity and flexibility of the part of the sheet-like body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures, on which the sheet-like body is fixed, will be supported, and thereby increase the service life of the claimed device.

In addition, the expansion of the range of materials that can be used as a sheet-like body is provided. As a result of the selection of the material from which the strip is made, its dimensions, it is possible to obtain the required characteristics of elasticity and flexibility of the part of the sheet-like body protruding beyond the edge of the protruding parts of the roofs and facades of buildings and structures. This also takes into account, in particular, the material and the thickness of this part of the sheet-like body, its length beyond the edge.

The strip can be not only straightforward, as shown in FIG. 3 and FIG. 4, but, for example, bent downward in advance. In terms of it, it can be not only straightforward, but also have a different shape, for example, a zigzag shape.

Instead of strips, wire or springs of suitable materials, such as metals (steel), polymeric materials, etc., can be used.

The utility model can be used not only on the protruding parts of the roofs, but also for other details of the facades of buildings and structures.

In general, the utility model allows to increase the service life of the sheet-like body and expand the range of materials that can be used as it.

In addition to the given variants of the utility model, numerous other modifications are possible, which are covered by the formula of the utility model given below.

Sources of information taken into account:

1. Patent of the Russian Federation for the invention No. 2244790, cl. E04D 13/076, priority date 03/05/2003;

2. Patent of the Russian Federation for utility model No. 85179, cl. E04D 13/076, priority date 03/26/2009 (prototype).

Claims (11)

1. Device for preventing the formation of large icicles on the protruding parts of the roofs and facades of buildings and structures and the fall of ice and snow from these parts, including a sheet-like body containing a part of the sheet-like body lying on the surface of the protruding parts of the roofs and facades of buildings and structures in the direction from them edges and at least partially bonded to them, and the part of the sheet-like body protruding beyond the edge, while at least the part of the sheet-like body protruding beyond the edge is made of a material having about the property of flexibility and elasticity, at least at the temperatures of formation of ice and icicles, and, in addition, the leaf-shaped body is configured to retain ice and snow on its surface, characterized in that at least a part of the sheet-like body protruding edge, contains elastic elements. 2. The device according to claim 1, characterized in that each elastic element is an extended element, monolithic, at least in the part of the sheet-like body protruding beyond the edge, and located in the direction from the end of the specified part of the sheet-like body. 3. The device according to claim 2, characterized in that the extended element is a wire. 4. The device according to claim 3, characterized in that the wire is made of metal. 5. The device according to claim 3, characterized in that the wire is made of a polymeric material. 6. The device according to claim 2, characterized in that the extended element is a strip. 7. The device according to claim 6, characterized in that the strip is made of metal. 8. The device according to claim 6, characterized in that the strip is made of a polymeric material. 9. The device according to claim 2, characterized in that the extended element is a spring. 10. The device according to claim 9, characterized in that the spring is made of metal. 11. The device according to claim 9, characterized in that the spring is made of a polymeric material.