RU2253791C1 - Piping article - Google Patents

Abstract

FIELD: air conditioning and ventilation.

SUBSTANCE: piping article comprises core (1) made of a pipe section made of, e.g., a fiber porous polyethylene. Transverse recesses (2) and cuts (3) are staggered and directed oppositely with respect to each other. The width of each recess decreases in both directions from its middle part toward the ends of the cuts. Core (1) is provided with a three-layered flexible coating. The faces of the piping article are provided with joining members made of, e.g., branch pipes (7) and (8). When the piping article is bent, the core is stretched owing to the presence of cuts (3) and flexibility of the surface. The opposite side is compressed due to recesses (2) in the wall of core (1) and flexibility of the coating.

EFFECT: simplified structure.

50 cl, 3 dwg

Description

The invention relates primarily to techniques for ventilation and air conditioning and can be used as a silencer and / or element with thermal insulation properties for connecting sections of ducts.

A tubular product is known in the form of a noise muffler containing an inner pipe made of perforated material, forming a channel for air passage, equipped with an airtight outer casing installed with a gap filled with sound-absorbing material relative to its walls (Norway Patent No. 160027, IPC F 16 L 55 / 02). This silencer is characterized by simplicity of design and small dimensions, however, it does not provide effective damping of noise in a wide frequency range and its use is limited to straight sections of the air-water network due to the rigidity of the structure.

Closest to the claimed invention is a tubular product in the form of a flexible pipe with sound absorbing and / or heat-insulating properties, formed by two rectilinear sections located at an angle to each other, interconnected by a curved section containing an inner core formed by a longitudinal stiffener made of elastic material with transverse ribs and related many semicircular elements that give the core a tubular cylindrical shape, and this tubular product has a coating with elastic properties, containing at least one layer made of a material with sound absorbing and / or thermal insulation properties. The coating consists of three layers, the first inner layer of which is made of foamed polymeric material, for example polyurethane, the second is an intermediate layer made of waterproof polymeric material, and the third is a protective layer of sheet polymer material. In addition, the pipe is equipped with connecting elements in the form of flanges located on the side of its free ends (EP No. 0224824, IPC F 16 L 59/16). This device makes it possible to use it as a silencer and / or an element with thermal insulation properties for connecting sections of air ducts located at an angle to each other. At the same time, thanks to the flexibility of the pipe, the convenience of its installation is ensured. However, the design of this tubular product does not provide for the possibility of its installation between coaxially located sections of the ducts. In addition, the manufacture of the core from several interconnected elements leads to a complication of the design of the tubular product as a whole. It should also be noted that in the description of the present invention there is no data on the effectiveness of its use as a silencer with a low-frequency component.

The problem solved by the invention is to simplify the design of the tubular product, providing the possibility of its installation, both on straight-line and angled to each other parts of the ducts, and ensuring the effectiveness of using both high-frequency and low-frequency noise as a silencer.

The problem is solved in that in a tubular product in the form of a flexible pipe with sound-absorbing and / or heat-insulating properties, including an inner core made of an elastic material, provided with a coating with elastic properties, having at least one layer of material with sound-absorbing and / or heat-insulating properties, according to the invention, the core is made in the form of a pipe segment of a polymeric fibrous-porous material, and its wall is provided with oriented in opposite directions, of at least one cross-section and a cross-cut.

The problem is also solved by the fact that the pipe segment is made of fiber-porous polyethylene.

The task is also facilitated by the fact that the pipe segment is made of fibrous-porous polypropylene.

The problem is also solved by the fact that the cutout is made with decreasing width in both directions from its middle in the direction opposite to the ends of the said section.

The task is facilitated by the fact that the cutout has a plan view of a figure enclosed between two arcuate curves facing the concave sides inward of the figure, the ends of which adjoining each other form an acute angle between themselves.

The most optimal solution to the problem is facilitated by the fact that the cuts and cuts are staggered relative to each other and when the number of cuts is one more than the cuts.

The solution to this problem is also ensured by the fact that the said coating consists of three layers.

In this case, the first inner layer is made of elastic knitwear.

A special case of solving this problem is that the knitwear is made of fibers consisting of polyamide and lycra.

The solution to this problem is also ensured by the fact that the second, intermediate coating layer is made of a material with sound-absorbing and / or thermal insulation properties.

In this case, the second layer can be made, for example, of mineral wool, the thickness of which is 20-100 mm.

The achievement of the task also contributes to the fact that the third layer is made in the form of a shell from a piece of flexible duct.

In this particular case of solving this problem is the implementation of the third layer, for example, from a piece of aluminum duct or piece of duct made of polyvinyl chloride.

The use for the manufacture of the core of a tubular product of a pipe segment of a polymeric fibrous-porous material, the wall of which is provided with at least one transverse section and one transverse section oriented in opposite directions, allows the core to be made in the form of one element and thereby simplify the design of the whole product. This ensures the convenience of mounting the tubular product when it is used as a noise muffler and / or connecting element with thermal insulation properties both when it is placed between coaxially located sections of the air ducts and when they are positioned at an angle relative to each other. This is due to the fact that the polymer fiber-porous material has sufficient flexibility and high sound absorbing and thermal insulation characteristics. Moreover, an important factor when using the above core material is its high absorption efficiency of low-frequency noise. The specified core design (straight pipe segment) at the initial position of the tubular product (without bending) allows it to be installed between coaxially located sections of the ducts. If necessary, due to the presence in its wall oriented in opposite directions of at least one cross section and one transverse cut, it is possible to bend the tubular product and install it between sections of air ducts when they are located at an angle relative to each other.

The implementation of the core in the form of pipe sections made of fiber-porous polyethylene or fiber-porous polypropylene are particular forms of implementation of the invention.

The execution in the wall of the core of the cut with decreasing width on both sides of its middle in the direction opposite to the ends of the cut provides, if necessary, the most smooth bending of the tubular product.

The shape of the cutout, in which it has a plan view of a figure enclosed between two arched curves facing the concave sides inward of the figure, the adjacent ends of which form an acute angle between each other, is most optimal for ensuring the most smooth bending of the tubular product.

The location of the cuts and cuts in the wall of the core in a checkerboard pattern relative to each other reduces the risk of rupture of the core during bending.

The implementation of the tubular product with cuts, the number of which is one more than the cuts, contributes to a more smooth bending of the tubular product, thereby reducing aerodynamic drag.

The optimal solution to the problem is achieved provided that the said coating is made of three layers.

Moreover, the implementation of the first inner layer of elastic knitwear, which can be made, for example, of fibers consisting of polyamide and lycra, provides the required bending and stretching of the tubular product during its installation due to the ability of the specified knitwear to stretch and restore its shape and, in addition to Moreover, it prevents the penetration of fibers, for example, mineral wool, of which the second layer is made, into the duct.

The implementation of the second, intermediate coating layer, of a material with sound-absorbing and / or heat-insulating properties, a particular form of implementation of which is mineral wool, the thickness of which is 20 ÷ 100 mm, increases the efficiency of both sound-absorbing and heat-insulating properties of the tubular product. At the same time, the combination of the above core material and the presence of mineral wool in the coating of the tubular product contribute to the effective absorption of both the low-frequency and high-frequency components of the noise.

The implementation of the third layer in the form of a shell from a segment of a flexible duct provides, if necessary, bending and stretching of the tubular product during its installation, and also is a protection against possible damage and moisture penetration. To achieve this result, particular forms of implementation are the use, for example, of a piece of aluminum duct or a piece of duct made of polyvinyl chloride.

The supply of the tubular product with connecting elements attached to it from the side of the ends, and their implementation, for example, in the form of nozzles provides ease of installation when embedding the tubular product in the air duct network.

The invention is illustrated by the drawings shown in figures 1-3, which show:

figure 1 is a longitudinal section of a tubular product in its original state;

figure 2 - view of the cutout in plan;

figure 3 is a longitudinal section of a tubular product in a curved state.

The tubular product contains a core 1, made in the form of a pipe segment, for example, of fiber-porous polyethylene, the diameter of which is, for example, 160 mm The core length is, for example, 1200 mm. In its wall there are made staggered in opposite directions relative to each other, for example, six transverse cuts 2 and seven transverse cuts 3, each cut made with decreasing width in both directions from its middle in the direction opposite to the ends of the cuts. The width of the cutout in its middle is, for example, 30 mm. Cutouts 2 have a plan view of a figure enclosed between two arcuate curves facing the concave sides inward, the ends of which adjoining each other form an acute angle α between themselves, for example, of 15 °. The core 1 is provided with a three-layer coating with elastic properties. The first 4 layer of the coating is made, for example, of elastic knitwear consisting of polyamide and lycra fibers, made in the form of a sleeve stretched directly on the core 1. The second 5 layer is an intermediate one, made of a material with sound-absorbing and heat-insulating properties, for example, mineral wool with a thickness for example, 50 mm, which is wrapped around the core over said first 4 layers. The third 6 layer is a segment of a flexible duct and is a protective shell in which a structure consisting of a core 1 and the aforementioned first 4 and second 5 layers is placed. In this case, segments can be used, for example, of an aluminum duct of the ALUDEC brand, made by laminating five layers of aluminum foil and polyester with a steel coil between the layers, or of a duct made of PVC-White grade polyvinyl chloride supplied by DEC (Netherlands). On the ends of the tubular product are attached connecting elements made, for example, in the form of pipes 7 and 8, which are made, for example, of galvanized steel. The nozzles 7 and 8 are equipped with flat flanged rings mounted and fixed on their lateral surface, which serve as covers that hermetically close the annular ends of the tubular product.

The work of the tubular product is as follows. If necessary, the tubular product is used as a silencer of noise and / or an element with thermal insulation properties using pipes 7 and 8 connected to sections of the duct located on opposite sides (not shown in the drawing). Installation of a tubular product between coaxially located sections of the ducts is carried out at the initial position of the tubular product (without bending). If necessary, install it between sections of air ducts when they are located at an angle relative to each other, the tubular product is bent to the desired position. In this case, bending is carried out easily due to the above-mentioned core structure 1 and a three-layer coating with elastic properties. When the tubular product is bent on one side of its lateral surface, the core is stretched due to the presence of cuts 3 in it, the sides of which are moved apart, and the elasticity and flexibility of the coating, which is stretched together with the core to the desired position. At the same time, the tubular product is compressed on the opposite side of the side surface due to the presence of cutouts 2 of the above shape in the wall of the core 1 and also the elasticity of the coating, which is compressed together with the core to the desired position. Moreover, the use of a tubular product as a noise suppressor due to the manufacture of the core from a polymeric fibrous-porous material, such as, for example, fiber-porous polyethylene or fiber-porous polypropylene, provides high absorption efficiency of low-frequency noise. The combination of the above core material and the presence in the coating of the tubular product of mineral wool contributes to the effective absorption of both the low-frequency and high-frequency component of the noise.

Claims (51)

1. A tubular product in the form of a flexible pipe with sound-absorbing and / or heat-insulating properties, including an inner core made of an elastic material, provided with a coating with elastic properties, having at least one layer of material with sound-absorbing and / or heat-insulating properties, characterized the fact that the core is made in the form of a pipe segment of a polymeric fibrous-porous material, and its wall is provided with at least one transverse discharge oriented in opposite directions Zoom and one transverse cut. 2. The product according to claim 1, characterized in that the pipe segment is made of fiber-porous polyethylene. 3. The product according to claim 1, characterized in that the pipe segment is made of fibrous-porous polypropylene. 4. The product according to any one of claims 1 to 3, characterized in that the cut is made with decreasing width in both directions from its middle in the direction opposite to the ends of the said section. 5. The product according to claim 4, characterized in that the cut-out has a plan view of a symmetrical figure enclosed between two arched curves facing the concave sides inward of the figure, the ends of which adjoining each other form an acute angle between each other. 6. The product according to any one of claims 1 to 3.5, characterized in that the cuts and cuts are staggered relative to each other. 7. The product according to claim 4, characterized in that the cuts and cuts are staggered relative to each other. 8. The product according to claim 6, characterized in that the cuts are made one more than the cuts. 9. The product according to claim 7, characterized in that the cuts are made one more than the cuts. 10. The product according to any one of claims 1 to 3, 5, 7-9, characterized in that the coating consists of three layers. 11. The product according to claim 4, characterized in that the coating consists of three layers. 12. The product according to claim 6, characterized in that the coating consists of three layers. 13. The product according to any one of paragraphs.1-3,5,7-9,11,12, characterized in that the first inner layer is made of elastic knitwear. 14. The product according to claim 4, characterized in that the first inner layer is made of elastic knitwear. 15. The product according to claim 6, characterized in that the first inner layer is made of elastic knitwear. 16. The product of claim 10, characterized in that the first inner layer is made of elastic knitwear. 17. The product according to item 13, wherein the knitwear is made of fibers consisting of polyamide and lycra. 18. The product according to any one of paragraphs.14-16, characterized in that the knitwear is made of fibers consisting of polyamide and lycra. 19. The product according to any one of paragraphs.1-3,5,7-9,11,12,14-17, characterized in that the second intermediate coating layer is made of a material with sound-absorbing and / or heat-insulating properties. 20. The product according to claim 4, characterized in that the second intermediate coating layer is made of a material with sound-absorbing and / or thermal insulation properties. 21. The product according to claim 6, characterized in that the second intermediate coating layer is made of a material with sound absorbing and / or thermal insulation properties. 22. The product according to claim 10, characterized in that the second intermediate coating layer is made of a material with sound-absorbing and / or thermal insulation properties. 23. The product according to item 13, wherein the second intermediate coating layer is made of material with sound absorbing and / or thermal insulation properties. 24. The product according to p. 18, characterized in that the second intermediate coating layer is made of material with sound-absorbing and / or thermal insulation properties. 25. The product according to claim 19, characterized in that the second layer is made of mineral wool, the thickness of which is 20-100 mm 26. The product according to any one of paragraphs.20-24, characterized in that the second layer is made of mineral wool, the thickness of which is 20-100 mm 27. The product according to any one of paragraphs.1-3.5,7-9,11,12,14-17,20-25, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 28. The product according to claim 4, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 29. The product according to claim 6, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 30. The product according to claim 10, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 31. The product according to item 13, wherein the third layer is made in the form of a shell from a piece of flexible duct. 32. The product according to p. 18, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 33. The product according to claim 19, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 34. The product according to p. 26, characterized in that the third layer is made in the form of a shell from a piece of flexible duct. 35. The product according to item 27, wherein the third layer is made of a piece of aluminum duct. 36. The product according to any one of paragraphs.28-34, characterized in that the third layer is made of a piece of aluminum duct. 37. The product according to item 27, wherein the third layer is made of a segment of the duct made of polyvinyl chloride. 38. The product according to any one of paragraphs.28-34, characterized in that the third layer is made of a piece of duct made of polyvinyl chloride. 39. The product according to any one of paragraphs.1-3.5,7-9,11,12,14-17,20-25,28-35,37, characterized in that it is equipped with connecting elements attached to it from the ends . 40. The product according to claim 4, characterized in that it is equipped with connecting elements attached to it from the side of the ends. 41. The product according to claim 6, characterized in that it is equipped with connecting elements attached to it from the side of the ends. 42. The product according to claim 10, characterized in that it is equipped with connecting elements attached to it from the side of the ends. 43. The product according to item 13, characterized in that it is equipped with connecting elements attached to it from the ends. 44. The product according to p. 18, characterized in that it is equipped with connecting elements attached to it from the ends. 45. The product according to claim 19, characterized in that it is equipped with connecting elements attached to it from the ends. 46. The product according to p. 26, characterized in that it is equipped with connecting elements attached to it from the ends. 47. The product according to p. 27, characterized in that it is equipped with connecting elements attached to it from the ends. 48. The product according to p. 36, characterized in that it is equipped with connecting elements attached to it from the ends. 49. The product according to § 38, characterized in that it is equipped with connecting elements attached to it from the ends. 50. The product according to § 39, characterized in that the connecting elements are made in the form of nozzles. 51. The product according to any one of paragraphs.40-49, characterized in that the connecting elements are made in the form of nozzles.

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