RU186823U1 - NON-DUSTING HEAT AND NOISE-INSULATING MATERIAL - Google Patents

Abstract

Non-dusting heat and noise insulating material refers to the production of environmentally friendly materials from mineral or glass fibers used as heat, vibration and noise insulation in the field of civil and industrial construction, as well as in the reconstruction and repair of buildings and structures; the technical result of the proposed utility model is the creation of a material that provides maximum environmental protection from dust of glass or mineral fibers in order to prevent the concentration of such dust more than 4 g / m, with the possibility of manufacturing material of sufficient dimensions, with a width of 200 to 3000 mm; achieved by the implementation of a material containing a filler of glass fiber, enclosed in a sealed sheath of non-woven polypropylene; at the same time, the canvas and the cover are bonded to each other along the perimeter by laser or high-frequency welding or thermal bonding, and along the area by spot piercing.

Description

Non-dusting heat and noise insulating material refers to the production of environmentally friendly materials from mineral or glass fibers used as heat and sound insulation. The proposed utility model relates to the production of environmentally friendly materials from mineral or glass fibers used as heat, vibration and sound insulation in the field of civil and industrial construction, as well as in the reconstruction and repair of buildings and structures.

No examples are known from the prior art of materials containing a mineral or glass web enclosed in a dustproof cover of non-woven or woven material, in which the web and the boot are squarely bonded to each other by pin-piercing.

Known thermoacoustic and filtering material containing a fiberglass piercing fabric and a protective shell of a polymeric material, in which the shell is made of double-sided non-woven polypropylene; while the sheath and the web are fastened by longitudinal flashing with silk-reinforced cotton thread or kapron thread [RF patent No. 2077368].

The disadvantages of the material are:

 a large total length of the longitudinal joints, which leads to the formation of a large number of holes as a result of piercing the shell during piercing, as well as from the edges of the material around the perimeter, through which there is an intensive emission of dust of glass or mineral fiber into the environment;

winding fiber onto the drill during installation.

Known heat and sound insulation dustproof material containing a canvas of basalt or glass fiber, enclosed in a double-sided sheath of non-woven polypropylene; at the same time, the fabric and the casing are fastened together along the perimeter of the material with a weld seam, and along the area — longitudinal seams with a density of at least 16 stitches on a 200 mm seam section made of reinforced polyester, or viscose, or cotton, or kapron, or glass filaments, with a distance between them of 100-300 mm [RF patent No. 175133].

The disadvantages of the material are:

a large total length of the longitudinal joints, which leads to the formation of a large number of holes as a result of piercing the shell during piercing, through which there is an intensive emission of dust of glass or mineral fiber into the environment;

winding fiber onto the drill during installation.

The closest in technical essence of the known devices is a thermoacoustic tape containing a cloth of glass or basalt fiber, enclosed in a double-sided sheath of non-woven polypropylene; the edges of the upper and lower parts of the shell around the perimeter are welded together to form welds with a width of at least 5 mm [RF patent No. 178153].

This material is selected as a prototype due to the fact that, thanks to the welds, it provides 100 percent protection against the emission of glass or mineral fiber dust into the environment.

The main disadvantage of the prototype is the impossibility of manufacturing by this method materials with a width of more than 150-200 mm due to the fact that the canvas and shell are not actually bonded to each other. This leads to the inevitable loss of geometric dimensions by a material with a width of more than 200 mm during transportation and installation due to the movement of the canvas relative to the shell and knocking it into lumps.

The technical result of the proposed utility model is to create a material that provides maximum environmental protection from dust of glass or mineral fiber in order to prevent the concentration of such dust more than 4 g / m ³ , with the possibility of manufacturing material of sufficient dimensions, with a width of 200 to 3000 mm .

The technical result achieved is achieved by the implementation of non-dusting heat and noise insulating material containing a filler (hereinafter also referred to as the “web”) of any mineral or glass fiber enclosed in a dustproof enclosure (hereinafter also the “cover”) of a non-woven or woven material; at the same time, the canvas and the cover are bonded over the area with each other by the method of spot firmware, and around the perimeter - by laser, high-frequency welding or thermal bonding.

The specified material provides a number of useful properties; firstly, the maximum protection of the environment from the emission of dust of glass or mineral fiber in order to prevent the concentration of such dust more than 4 g / m ³ , as stipulated by SN 245-71 “Sanitary standards for designing industrial enterprises. Updated edition ”. This is achieved by placing the fabric of mineral and glass fiber in a sealed case, for example, but not limited to, of non-woven polypropylene, followed by connecting the fabric and the cover over the entire surface of the material by the method of spot piercing in increments of 100-400 mm, due to which the total length is sharply reduced seams and, consequently, the number of punctures, which allows to significantly reduce the emission of dust or glass fiber material into the environment compared to materials in which the sheath and a filler bonded to each other by longitudinal and / or transverse seams.

Secondly, the absence of fiber winding on the drill during installation is achieved.

In figures 1 and 2 are shown:

1 - canvas;

2 - places of point firmware;

3 - places of fastening of laser, high-frequency welding or thermal bonding;

4 - point firmware.

Point firmware in the proposed material can be performed in two ways:

1. Pick-up method, i.e. by connecting parts of woven and non-woven materials, between which there is a layer of any mineral or non-mineral, or glass fiber, based on the seamless connection of these parts using a special needle (spades), a vertical thread and pieces of dense material located below and above (hereinafter “picks” "," Pick ") round or rectangular, or arbitrary shape with an area of 4-25 cm ² , completely covering the puncture site.

Connection by this method can be carried out either manually or using a special dive machine, for example, using the domestic dive machine DMN-68.

The pick pitch is selected empirically, depending on the thickness and density of the fibrous layer. Preferably, a pitch in the range of 100-400 mm is selected.

In this case, picks located on the front side of the material, for aesthetic reasons, can be made self-adhesive.

2 By the method of circular spot firmware, i.e. the connection of parts from woven and non-woven materials, between which is a layer of any mineral or non-mineral, or glass fiber, based on the connection of these parts using seams in the form of small circles (hereinafter “dot circular seams”) preferably with a diameter of 10-50 mm and with 100-400 mm pitch.

In this case, the point circular seams can be made of reinforced polyester, or viscose, or cotton, or kapron, or glass thread.

Connection by this method is carried out exclusively using special machines and / or automatic lines.

The use of the material created with the help of spot piercing makes it possible to reduce by almost 100% the dust emission of glass or mineral fiber into the environment from the entire area of the material compared to materials in which the shell and filler are bonded longitudinally and / or transverse to each other stitches.

In this case, the tightness of the cover is ensured by performing a tight connection of the edges of the upper and lower shells around the perimeter by laser or high-frequency, or ultrasonic welding, or by gluing, or heat bonding.

It is also important that when drilling such material during installation inside the point circular seams, there is no winding of fiber on the drill. This is because the circular seam cuts the fiber. Therefore, inside the circle, the fiber becomes short and does not wrap around the drill.

Non-dusting heat and noise insulating material can be made with a length of 500-15000 mm, a width of 200-3000 mm, a thickness of 5-100 mm and a surface density of 100-3000 g / m ² ; it contains a filler of glass or any mineral fiber, enclosed in a sealed cover of non-woven or woven material with a surface density of 30-500 g / m ² (hereinafter also referred to as the “cover”). At the same time, the canvas and the cover over the entire area of the material are fastened together by the method of spot piercing with a pitch of 100-400 mm, made of reinforced polyester, or viscose, or cotton, or kapron, or glass thread.

The edges of non-dusting heat and noise insulating material are connected around the perimeter by laser or high-frequency, or ultrasonic welding, or by gluing, or heat bonding.

In order to increase the heat-insulating, noise-insulating, vibration-insulating characteristics, damping properties, fire resistance and reduce the negative impact of the alkaline environment, the fabric can be made of mineral, silica, glass, basalt fibers, as well as polyester and other synthetic fibers, and the cover is made of non-woven polypropylene, as well as glass, silica, basalt, cotton, synthetic fabrics or foil materials.

Production example.

=1, 2…n слоев и помещают его в герметичный чехол из нетканого полипропилена "Спанбонд" с поверхностной плотностью 70 г/м², изготовленный любым из известных способов (сшивание, склеивание, термоскрепление, лазерная или ультразвуковая сварка, и т.п.). После этого заготовку подают на машину или линию для точечной прошивки и соединяют полотно и чехол либо круговыми точечными швами диаметром 10-50 мм, либо пиковками с шагом 100-400 мм, например, но, не ограничиваясь, армированными полиэфирными нитями. При этом линейные размеры изделия варьируют в соответствии с Техническими условиями предприятия-изготовителя, предпочтительно по длине в пределах от 500-15000 мм, по ширине от 200 до 3000 мм, по толщине от 5 до 100 мм. Полученные изделия свертывают в рулоны и упаковывают в полиэтиленовые рукава.Needle-punched fiberglass cloth, for example, grade IPS-T-1000 TU 6-48-135-97 is folded into

= 1, 2 ... n layers and place it in a sealed case of non-woven polypropylene "Spanbond" with a surface density of 70 g / m ² made by any of the known methods (stitching, gluing, thermal bonding, laser or ultrasonic welding, etc. ) After this, the preform is fed to a machine or line for pin-point firmware and the web and cover are connected either with circular spot seams with a diameter of 10-50 mm, or picks with a pitch of 100-400 mm, for example, but not limited to, reinforced with polyester threads. Moreover, the linear dimensions of the product vary in accordance with the Technical conditions of the manufacturer, preferably in length ranging from 500-15000 mm, in width from 200 to 3000 mm, in thickness from 5 to 100 mm. The resulting products are rolled up and packaged in plastic sleeves.

Claims (7)

1. Non-dusting heat and sound insulating material containing a filler of glass fiber enclosed in a sealed sheath of non-woven polypropylene; at the same time, the canvas and the cover are fastened together along the perimeter by laser or high-frequency welding, characterized in that the area is dot-wired with a diameter of 10-50 mm in increments of 100 to 400 mm. 2. Non-dusting heat and sound insulating material according to claim 1, characterized in that the point firmware is made in the form of circular point seams. 3. Non-dusting heat and noise insulating material according to claim 1, characterized in that the point-wise firmware is made by picks. 4. Non-dusting heat and sound insulating material according to claim 1, characterized in that the density of the glass fiber is from 25 to 200 kg / m ³ . 5. Non-dusting heat and sound insulating material according to claim 1, characterized in that the density of the non-woven polypropylene is from 30 to 200 g / m ² . 6. Non-dusting heat and sound insulating material according to claim 3, characterized in that the picks located on the front side of the material are self-adhesive. 7. Non-dusting heat and sound insulating material according to claim 1, characterized in that it has a length of 500-15000 mm, a width of 100-3000 mm, a thickness of 5-100 mm and a surface density of 300-3000 g / m ² .

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