RU109767U1 - VOLUME ECOLOGICAL HEAT AND SOUND INSULATION HEATER - Google Patents

Abstract

 1. Volumetric eco-friendly heat and sound insulation insulation made of a fibrous mixture containing natural plant fibers and polyester fibers, characterized in that the low-melting bicomponent polyester fiber is used as polyester fibers, and volume eco-friendly heat and sound insulation insulation contains 70-90% of natural plant fibers and 10- 30% low-melting bicomponent polyester fiber bonded with a fused low-melting bicomponent polyester fiber located in minute contact fusible bicomponent polyester fibers together with other fibers and fiber mixture. ! 2. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that the insulation is made of modified fire-biofilted natural plant fiber. ! 3. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that the insulation is treated with a fire-retardant preparation. ! 4. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that flax fibers are used as natural plant fibers. ! 5. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that jute fibers are used as natural plant fibers. ! 6. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that hemp fibers are used as natural plant fibers.

Description

The utility model relates to volumetric heat and sound insulation materials and can be used in the construction of low-rise buildings for industrial and agricultural purposes, residential buildings, as well as in the manufacture of interior and interroom partitions.

Known non-woven bulk heat-insulating material (patent No. 34549, class D04H 1/42) of a fibrous mixture containing natural wool and low-melting synthetic fibers, bonded with a partially melted polymer of the latter, located mainly at the contact points of the low-melting synthetic fibers with each other and with the other fibers mixture, while the fibrous mixture additionally contains polyester fibers, and the wool has an average fineness of 18.1 to 34.0 microns and a quality of 48-60.

The disadvantage of this product is - increased density of the material - wool, which reduces its heat-insulating properties.

Known multilayer heat-insulating material selected for the prototype, containing at least one layer of non-woven material connected to at least one layer of the film, while the non-woven material consists of a mixture of hollow polyester fibers and flax fibers, in their mass ratio, lying in the range from 3: 7 to 7: 3, respectively, and the film is made of polypropylene and is located between the layers and / or outside the nonwoven material and is connected to the last needle-piercing method (patent No. 2409529 С04В 28/14, С04В 18 / 24Ю, С04В 24 /thirty).

The disadvantage of the nonwoven layer, which is the increased density of the material due to the bonding of the nonwoven material and the layers of the polypropylene film by the needling method, which reduces its heat-insulating properties.

The objective of the utility model is to increase the heat and sound insulating properties of insulation and the manufacture of environmentally friendly building material.

To solve this problem, a volumetric eco-friendly heat and sound insulation insulation is made of a fibrous mixture containing natural plant fibers and polyester fibers, the low-melting bicomponent polyester fiber being used as polyester fibers, and a volume heat and sound insulation insulation contains 70-90% of natural plant fibers and 10-30% fusible bicomponent polyester fiber bonded with a fusible fusible bicomponent polyester fiber located in contact of low-melting bicomponent polyester fibers with each other and with other fibers of the fibrous mixture.

As natural plant fibers, modified flame-retardant fibers are used.

As natural plant fibers used flax fiber.

Jute fibers are used as natural plant fibers.

Cannabis fibers are used as natural plant fibers.

The formed insulation is made fireproof.

The technical result achieved in solving this problem is to increase the insulating properties by reducing the density of the inventive insulating insulation, since in the manufacture of the inventive insulation, natural plant material is used - flax fiber (jute fiber or hemp fiber), and fusible as a bonding element bicomponent polyester fiber consisting of a core and a sheath. The capillary structure of flax fiber provides heat-insulating properties of the material, which are enhanced by air cushions, which are formed during random stacking of the canvas and are preserved by bonding the fusible bicomponent polyester fibers located at the contact points with each other and with the other fibers of the fibrous mixture. The structure of the fusible bicomponent polyester fiber allows, when processed at a temperature not exceeding + 160 ° C, to fasten, for example, linen fibers during melting of the shell and preserve the elastic properties of the fusible bicomponent fiber by preserving the core.

Volumetric heat and sound insulation insulation is environmentally friendly due to the use of safe fibers and preparations in the composition of the product when processing fibers and the whole product, which is confirmed by relevant documents and certificates.

The low-melting bicomponent polyester fiber belongs to hazard class 4 (substances are slightly hazardous).

An additional technical result is to increase the soundproofing properties of the claimed material, due to the created air cushions, since porous materials absorb sound, and since they partially reduce the sound energy, they also reduce the energy of the wave passing through them.

An additional technical result is the creation of a heater that meets the fire safety requirements of the NG group (the substance is not combustible), for which the volumetric heat and sound insulation is made of modified fire-retardant, for example, flax fiber treated with Tezagran, which is produced according to TU 2484-002-37022343-02, having the Sanitary and Epidemiological Conclusion No. 37 IC02.248.P000333.09 dated 02.06.2009 and relating to hazard class 4 (substances are slightly hazardous).

An additional technical result is the creation of a fire-resistant insulation, which corresponds to the fire safety classes G1-G3 (substances are low-combustible, moderately combustible, normally combustible), for which the finished product of the insulation is treated with the Tezagran flame retardant, which is produced according to TU 2484-002-37022343-02 having the Sanitary-epidemiological conclusion No. 37 ИЦ02.248.П000333.09 dated 06/02/2009 and relating to hazard class 4 (substances are slightly hazardous).

The claimed technical solution is new, because similar solutions known from the prior art do not have an identical set of features.

The claimed technical solution is industrially applicable, since it can be used in the design and construction of multi-story buildings and structures.

Figure 1 presents a diagram of the technological process of release of the claimed insulation.

Volumetric eco-friendly heat and sound insulation is made as follows.

The technological process begins with the preparation of raw materials. The natural fiber undergoes preliminary grinding, and the low-melting bicomponent polyester fiber is passed through a pinch-sizing machine 1, for additional loosening of the pressed fiber.

The prepared fibers for mixing are laid out in even layers on a special platform. After laying, the mixture is fed in equal portions into a pinch-sizing machine 1 then into a mechanized storage shed 2, where the mixture is aged and then further loosened and mixed when fed to the HFU-1 brand-forming machine 3. A fiber blend is formed into a canvas. The formed canvas then enters the thermal installation 4, in which the fusible fiber is melted and the fusible bicomponent polyester fibers located at the points of contact between them and with the other fibers of the fiber mixture are glued together and the bulk material is formed and bulk material is formed.

Then there is the formation of plates of the required size in the cutting unit 5.

In the manufacture of volumetric heat and sound insulation insulation of fire safety class G1-G3, the finished products are transported for processing, which occurs by spraying a solution with Tezagran from all sides on the treatment unit 6 of the drug. Next is the packaging of 7 finished products and its transfer to the warehouse.

In the manufacture of volumetric eco-friendly heat and sound insulation insulation corresponding to fire safety of the NG group (the substance is not combustible), modified fire-retardant, for example, flax fiber treated with Tezagran, is used as natural plant fiber.

Volumetric insulating material has a certificate of conformity No. 0071973 and can be manufactured industrially.

Claims (6)

1. Volumetric eco-friendly heat and sound insulation insulation made of a fibrous mixture containing natural plant fibers and polyester fibers, characterized in that the low-melting bicomponent polyester fiber is used as polyester fibers, and volume eco-friendly heat and sound insulation insulation contains 70-90% of natural plant fibers and 10- 30% low-melting bicomponent polyester fiber bonded with a fused low-melting bicomponent polyester fiber located in minute contact fusible bicomponent polyester fibers together with other fibers and fiber mixture. 2. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that the insulation is made of modified fire-biofilted natural plant fiber. 3. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that the insulation is treated with a fire-retardant preparation. 4. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that flax fibers are used as natural plant fibers. 5. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that jute fibers are used as natural plant fibers. 6. Volumetric eco-friendly heat and sound insulation insulation according to claim 1, characterized in that hemp fibers are used as natural plant fibers.