CN213952544U - Efficient heat insulation material capable of being applied to thermal bridge part - Google Patents

Abstract

The utility model relates to a can be applied to high-efficient insulation material at heat bridge position, last extexine below bonding have an upper resistance layer, go up the extexine and make by plastic film, the outer anti-rust oxide coating that loses of coating, go up resistance layer and make by rock wool or organic glass cotton, it has the upper strata to bond to go up resistance layer below, make by polystyrene foam, it has the middle level to bond to go up the below, the middle level is made by cement and buggy parcel wire netting, there are two symmetrical screw thread buckles through the welding in wire netting minor face one side, the middle level below bonds has the lower floor, the lower floor is made by polystyrene foam, lower floor below bonds has a resistance layer, lower organic glass resistance layer is made by rock wool or cotton, it has lower extexine to bond to resist the below, lower extexine is made by plastic film, the outer anti-rust oxide coating that loses outward, the material just directly docks when installing, the middle level is made by cement and buggy, thereby playing the effect of moisture resistance and preventing the problems of expansion, falling and deformation of large-area walls.

Description

Efficient heat insulation material capable of being applied to thermal bridge part

Technical Field

The utility model relates to a can be applied to high-efficient insulation material at heat bridge position.

Background

The hot bridge is also called as cold bridge in the past, and is now collectively named as hot bridge. The thermal bridge refers to reinforced concrete or metal beams, columns, ribs and other parts in the envelope structures such as the outer wall, the roof and the like. These areas are called thermal bridges because of their high heat transfer capacity, dense heat flow and low internal surface temperature. Common thermal bridges include reinforced concrete anti-seismic columns, ring beams, door and window lintels, reinforced concrete or steel frame beams and columns, edge ribs or small ribs in reinforced concrete or metal roof panels, and metal frames and frame materials in metal glass window curtain walls and metal windows, etc., which are located at the periphery of the outer walls.

The thermal bridge effect is a physical effect of heat conduction, namely, the floor and the corner are provided with a concrete ring beam and a constructional column, and the concrete material has better heat conductivity (the heat conductivity of the concrete material is 2 to 4 times of that of a common brick) than a wall building material, and meanwhile, the indoor ventilation is unsmooth, the temperature difference between the indoor and the outdoor is large at the end of autumn and at the beginning of winter, cold and hot air frequently contacts, the heat conduction of a wall insulation layer is uneven, the thermal bridge effect is generated, and the dewing, the mildewing and even the dripping of water on the inner wall of the house are caused. In summary, the thermal bridge effect is due to the lack of handling good heat conduction (keep warm). The heat bridge effect is more in the building with the brick-concrete structure, and due to the influence of various factors such as temperature, humidity, heat and the like, "the same building can be generated, some households are seriously mildewed, and some households are not in trouble".

The solution is complicated due to the many factors that cause the thermal bridge effect. After the wall surface of the part with long mold is removed, the wall surface of the joint of the inner wall and the outer wall is widened outwards along the joint of the floor and the wall surface, so that the purposes of improving the heat preservation and the moisture preservation of the wall body are achieved, the heat transfer is reduced, the heat bridge effect can be effectively solved, and the method has the defect of high manufacturing cost. In addition, the inner wall is pasted with ceramic tiles and is wiped regularly, although the heat bridge effect cannot be solved completely, the influence of the mildew phenomenon heat bridge on the building can be relieved, the most direct performance is that the heat preservation effect in winter and the heat insulation effect in summer can be influenced, in the actual construction process, the construction process for reducing the influence of the heat bridge is that an outer wall heat preservation (generally, polyphenyl particle heat preservation mortar or heat preservation boards), hollow glass and heat insulation broken bridge (or plastic steel) doors and windows are adopted to cover the whole heating space, namely, the whole room or the whole building is wrapped by heat preservation materials, the ice stick is wrapped by a cotton quilt in summer, the heat insulation and the heat preservation are realized, and the influence of the heat bridge can be reduced well. The most direct effect of the use of the external wall heat insulation technology is that the energy consumption of the air conditioner can be reduced, and a heat insulation layer is arranged to separate the air conditioner from the outside no matter heating or refrigeration.

Because the temperature of the inner surface of the heat bridge part is low, when the temperature is lower than the dew point temperature in the winter, water vapor is condensed on the surface of the heat bridge part to form dew condensation, and then dust in the air is easy to be attached to the surface of the heat bridge part and gradually turns black, so that bacteria and mildew grow. The parts with serious heat bridges can even drip water in cold winter, thus having great influence on life and health.

The heat insulation materials on the market generally have the hidden danger of cracking and falling off, so in the construction process, the defects in the aspect are made up by anti-cracking mortar grid cloth, and the effect of acting on the wall body for heat insulation is achieved. After the raw materials act on the wall, the processes of crack-resistant mortar, gridding cloth and bonding mortar are needed to make a coating facing and a surface brick facing on the outside. Inorganic series products such as stepless plates, vitrified micro bubbles, polyphenyl granules and the like can achieve a-grade fire prevention in fire prevention grade, but the construction is more complicated, the performance of a heat insulation system has a plurality of defects, and hollowness and cracking are potential hidden dangers.

Wall body insulation material is a common construction material in the building field, current common current moisturizing material has polystyrene moisturizing material at present, but current polystyrene insulation material is complicated with the connected system of wall body, the construction is loaded down with trivial details, concatenation between general moisturizing material piece and the piece all adopts inflation screw fixed connection, construction connected mode is wasted time and energy traditionally like this, and it is great to adopt inflation screw fixed connection wall body gap, the moisturizing effect is poor, the inflation can appear in the seam crossing of wall body, the deformation phenomenon that drops, the fireproof effect is poor, and simultaneously, current insulation material compressive shock resistance is lower, no decorative effect again, the outward appearance is also not pleasing to the eye enough.

Disclosure of Invention

An object of the utility model is to provide a can be applied to high-efficient insulation material at heat bridge position adopts new technology to make compound wall body moisturizing material through the environmental protection adhesive, during the screw thread buckle of directly packing into through rings during the installation, laborsaving saving time, it is effectual to keep warm, and its whole hardness and intensity surpass current various insulation material, bear the resistance to shock and can prevent fires, and the outward appearance is pleasing to the eye moreover.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a can be applied to high-efficient insulation material at heat bridge position which characterized in that: an upper resistance layer 2 is adhered below the upper outer surface layer 1 through an environment-friendly adhesive, the upper outer surface layer 1 is made of a plastic film, anti-corrosion oxidation coating with the thickness of 0.5mm is coated outside the upper resistance layer 2, the upper resistance layer 2 is made of rock wool or organic glass wool, an upper layer 3 is adhered below the upper resistance layer 2 through the environment-friendly adhesive and made of polystyrene foam material, a middle layer 4 is adhered below the upper layer 3 through the environment-friendly adhesive, the middle layer 4 is made of cement and coal dust wrapping wire netting, two short edges of the wire netting are provided with two symmetrical threaded buckles 8 on one side through welding, a lower layer 5 is adhered below the middle layer 4 through the environment-friendly adhesive, the lower layer 5 is made of polystyrene foam material, a lower resistance layer 6 is adhered below the lower layer 5 through the environment-friendly adhesive, the lower resistance layer 6 is made of rock wool or organic glass wool, a lower outer surface layer 7 is adhered below the lower resistance layer 6 through the environment-friendly adhesive, the lower outer surface layer 7 is made of a plastic film, and is coated with an anti-corrosion oxidation coating with the thickness of 0.5 mm.

The middle layer 4 has two long sides, one side is provided with a bulge, and the other side is provided with an inner recess which can accommodate the bulge.

The thickness of the upper resistance layer 2 is 5 mm.

The thickness of the upper layer 3 is 5 mm.

The thickness of the middle layer 4 is 15 mm.

The thickness of the lower layer 5 is 5 mm.

The thickness of the lower resistance layer 6 is 5 mm.

The invention has the beneficial effects that:

the efficient heat-insulating material applied to the thermal bridge part is characterized in that an upper stress resisting layer 2 is adhered below an upper outer surface layer 1 through an environment-friendly adhesive, the upper outer surface layer 1 is made of a plastic film, an anti-corrosion oxidation coating is coated outside the upper stress resisting layer, the upper stress resisting layer 2 can be coated into various required colors according to application occasions, the upper stress resisting layer 2 is made of rock wool or organic glass wool, bears impact resistance and can prevent fire, an upper layer 3 is adhered below the upper stress resisting layer 2 through the environment-friendly adhesive and is made of polystyrene foam materials, the weight of the whole material is reduced, a middle layer 4 is adhered below the upper layer 3 through the environment-friendly adhesive, the middle layer 4 is made of cement and coal powder wrapped with a wire mesh, the hardness and the strength of the material are increased, two symmetrical threaded buckles 8 are welded on one side of a short edge of the wire mesh, once the whole weight of the plate material is increased, the material is convenient to hoist, a lower layer 5 is adhered below the middle layer 4 through the environment-friendly adhesive, the lower layer 5 is made of polystyrene foam materials, a lower resistance layer 6 is bonded below the lower layer 5 through an environment-friendly adhesive, the lower resistance layer 6 is made of rock wool or organic glass wool, a lower outer surface layer 7 is bonded below the lower resistance layer 6 through the environment-friendly adhesive, the lower outer surface layer 7 is made of a plastic film, anti-corrosion oxidation coating is coated outside, two long edge sides of the middle layer 4 are provided with outwards-protruding arc shapes, the other side of the middle layer is designed to be inwards-concave shapes, the arc shapes can be accommodated in the inwards-concave shapes, butt joint between the plates is facilitated during installation of materials, the middle layer 4 is made of cement and coal powder, certain moisture can be fully absorbed, the moisture-proof effect is achieved, the overall hardness and strength of the materials are increased through a wire mesh, the phenomena of expansion and falling deformation of a large-area wall body can be prevented, the middle layer 4 is made of cement and coal powder, and spreading of fire can be prevented.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a front view of the threaded clasp 8 of fig. 1.

Fig. 4 is a left side view of the threaded buckle 8 in fig. 1.

Fig. 5 is a schematic view of the installation position of the threaded buckle 8.

In the figure, an upper outer surface layer 1, an upper resistance layer 2, an upper layer 3, a middle layer 4, a lower layer 5, a lower resistance layer 6, a lower outer surface layer 7 and a threaded buckle 8.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings:

a high-efficiency heat-insulating material capable of being applied to a thermal bridge part is shown in attached figures 1-5, an upper stress layer 2 is bonded below an upper outer surface layer 1 through an environment-friendly adhesive, the upper outer surface layer 1 is made of a plastic film, anti-corrosion oxidation coating is coated on the outer surface of the upper stress layer 1 and is 0.5mm thick, the upper stress layer 2 is made of rock wool or organic glass wool and is 5mm thick, an upper layer 3 is bonded below the upper stress layer 2 through the environment-friendly adhesive and is 5mm thick, a middle layer 4 is bonded below the upper layer 3 through the environment-friendly adhesive, the middle layer 4 is made of iron wire mesh wrapped cement and pulverized coal and is 15mm thick, two symmetrical threaded buckles 8 are welded on one side of a short edge of the iron wire mesh as shown in attached figures 2-5, a lower layer 5 is bonded below the middle layer 4 through the environment-friendly adhesive, the lower layer 5 is made of polystyrene foam and is 5mm thick, lower 5 below of lower floor has lower resistance layer 6 through the bonding of environmental protection adhesive, and lower resistance layer 6 is made by rock wool or organic glass cotton, and lower resistance layer 6 below has lower extexine 7 through the bonding of environmental protection adhesive, and lower extexine 7 is made 5mm by plastic film thickness, and outer coating rust-resistant oxidation coating 0.5mm is thick, as shown in figure 2 and figure 5, 4 long limits in middle level, one side is equipped with the arch, and the opposite side then is equipped with the indent, and the indent can hold the arch, and straight fishplate bar and board butt joint are pieced together during the installation, and in order to prevent that the too big fracture that leads to of panel area, the panel specification is: 1000x2400mm, 1200x2400mm, 1500x2400mm, 1800x2400 mm.

Claims (6)

1. The utility model provides a can be applied to high-efficient insulation material at heat bridge position which characterized in that: an upper stress resisting layer (2) is bonded below the upper outer surface layer (1), the upper outer surface layer (1) is made of a plastic film, an anti-corrosion oxidation coating is coated outside the upper stress resisting layer (2) with the thickness of 0.5mm, the upper stress resisting layer (2) is made of rock wool or organic glass wool, an upper layer (3) is bonded below the upper stress resisting layer (2), the upper stress resisting layer is made of polystyrene foam materials, a middle layer (4) is bonded below the upper layer (3), the middle layer (4) is made of cement and coal powder wrapping wire nets, two symmetrical threaded buckles (8) are arranged on one side of each short edge of each wire net through welding, a lower layer (5) is bonded below the middle layer (4), the lower layer (5) is made of polystyrene foam materials, a lower stress resisting layer (6) is bonded below the lower layer (6), a lower outer surface layer (7) is bonded below the lower stress resisting layer (6), and the lower outer surface layer (7) is made of the plastic film, the outer layer is coated with an anti-corrosion oxidation coating with the thickness of 0.5 mm.

2. The high-efficiency thermal insulation material applicable to the thermal bridge part according to claim 1, characterized in that: one side of the two long sides of the middle layer (4) is provided with a bulge, and the other side of the middle layer is provided with an inner recess which can accommodate the bulge.

3. The high-efficiency thermal insulation material applicable to the thermal bridge part according to claim 1, characterized in that: the thickness of the upper stress resisting layer (2) is 5 mm.

4. The high-efficiency thermal insulation material applicable to the thermal bridge part according to claim 1, characterized in that: the thickness of the upper layer (3) is 5 mm.

5. The high-efficiency thermal insulation material applicable to the thermal bridge part according to claim 1, characterized in that: the thickness of the lower layer (5) is 5 mm.

6. The high-efficiency thermal insulation material applicable to the thermal bridge part according to claim 1, characterized in that: the thickness of the lower resistance layer (6) is 5 mm.

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