CN211399021U - Portable insulation block capable of being freely spliced - Google Patents

Abstract

The utility model discloses a portable freely-spliced heat-insulating block, which relates to the technical field of heat-insulating refractory materials, and comprises a square body with a plurality of cavities, wherein the body comprises a nanometer aerogel layer and a mineral wool layer which are connected with each other from outside to inside, and the cavities are arranged on the mineral wool layer; the edge the outer frame cover of body is equipped with square metal crate, metal crate's every edge all is seted up the connecting hole that can supply the metal strip to run through. The heat-insulating block is simple in structure, good in fireproof heat-insulating effect, convenient to carry, capable of being set to different specifications, and free and convenient to connect with each other.

Description

Portable insulation block capable of being freely spliced

Technical Field

The utility model belongs to the technical field of the refractory material technique that keeps warm and specifically relates to a portable insulating block that can freely splice.

Background

At present, the heat-insulating material can well block internal and external heat and block noise, so that a comfortable living environment and working environment are provided for people. In particular, for various cabins of ships, such as spaces of a cab, a bedroom, a workshop and the like, or outdoor temporary houses, a good heat insulation effect can be achieved by installing the cover material outdoors. The existing heat insulation materials are more in variety, but most of the heat insulation materials are used for heat insulation in a thermal pipeline, such as pipeline heat insulation sleeves and the like, most of the adopted heat insulation materials are conventional, such as glass fibers, ceramic wool and the like, and the conventional heat insulation materials generally have the problems of high density of the insulation materials, trouble in installation and the like. Therefore, a solution to the above problems is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a portable freely-spliced heat preservation block aiming at the defects of the prior art, the heat preservation block comprises a nanometer aerogel layer and a mineral wool layer which are mutually wrapped, can be used for fire prevention and heat insulation and have the heat preservation function, and a cavity which is favorable for air circulation and is uniformly heated by mineral wool is arranged in the mineral wool layer; the outside cover of body is equipped with the thin layer metal frame of interconnect of being convenient for, not only can play fine body guard action, makes the connection of a plurality of this heat preservation pieces more free moreover. The heat-insulating block is simple in structure, good in fireproof heat-insulating effect, convenient to carry, capable of being set to different specifications, and free and convenient to connect with each other.

In order to realize the purpose of the utility model, the utility model provides a following technical scheme:

a portable freely-spliced heat insulation block comprises a square body 1 with a plurality of cavities 2, wherein the body 1 comprises a nanometer aerogel layer 3 and a mineral wool layer 4 which are connected with each other from outside to inside, and the cavities 2 are arranged on the mineral wool layer 4; the edge the outer frame cover of body 1 is equipped with square metal crate 5, connecting hole 7 that can supply metal strip 8 to run through has all been seted up on every edge of metal crate 5.

Preferably, there are 5 cavities 2, and the cavities are symmetrically arranged at the axial center of the mineral wool layer 4.

Preferably, a layer of reinforced steel wire mesh 6 is arranged in the mineral wool layer 4 corresponding to the outer side of the cavity 2.

Preferably, the mineral wool layer 4 and the nano aerogel layer 3, and the metal frame 5 and the nano aerogel layer 3 are respectively bonded through inorganic high-temperature-resistant glue.

Preferably, a finishing layer is further arranged along the outer side of the whole body formed by the body 1 and the metal frame 5, and the finishing layer is bonded through inorganic high-temperature-resistant glue.

Preferably, the facing layer is glass fiber cloth.

Preferably, the thickness of the nano aerogel layer 3 is 0.2 cm-1 cm; the thickness of the mineral cotton layer 4 is 5 cm-15 cm; the height of the cavity 2 is 1/3 the thickness of the mineral wool layer 4.

Advantageous effects

The utility model provides a portable freely-spliced heat preservation block, which comprises a nanometer aerogel layer and a mineral wool layer which are mutually wrapped and can be used for fire prevention, heat insulation and heat preservation, wherein a cavity which is favorable for air circulation and is used for uniformly heating the mineral wool is arranged in the mineral wool layer; the outside cover of body is equipped with the thin layer metal frame of interconnect of being convenient for, not only can play fine body guard action, makes the connection of a plurality of this heat preservation pieces more free moreover. The heat-insulating block is simple in structure, good in fireproof heat-insulating effect, convenient to carry, capable of being set to different specifications, and free and convenient to connect with each other.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of a portable freely-spliced heat-insulating block of the present invention;

FIG. 2 is a schematic cross-sectional structure view of the portable freely-spliced heat-insulating block of the present invention;

FIG. 3 is a top view of the portable freely-spliced heat-insulating block of the present invention;

FIG. 4 is a schematic view of a first connection mode of the portable freely-spliced heat-insulating block of the present invention;

fig. 5 is a schematic diagram of a second connection mode of the portable freely-spliced heat-insulating block.

Graphic notation:

1-body, 2-cavity, 3-nano aerogel layer, 4-mineral cotton layer, 5-metal frame, 6-reinforced steel wire mesh, 7-connecting hole and 8-metal strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, a portable freely-spliced heat-insulating block comprises a square body 1 with a plurality of cavities 2, wherein the body 1 comprises an outside-in nano aerogel layer 3 and a mineral wool layer 4 which are connected with each other, and the cavities 2 are arranged on the mineral wool layer 4; the edge the outer frame cover of body 1 is equipped with square metal crate 5, connecting hole 7 that can supply metal strip 8 to run through has all been seted up on every edge of metal crate 5.

Specifically, the heat preservation block comprises a nanometer aerogel layer and a mineral wool layer which are mutually wrapped and can be used for fire prevention, heat insulation and heat preservation, wherein cavities which are beneficial to air circulation and are uniformly heated by mineral wool are formed in the mineral wool layer, 5 cavities are formed in the mineral wool layer, and the cavities are symmetrically arranged at the axis position of the mineral wool layer 4; the outside cover of body is equipped with the thin layer metal frame of interconnect of being convenient for, not only can play fine body guard action, makes the connection of a plurality of this heat preservation pieces more free moreover. The nano-porous aerogel is selected because the nano-porous aerogel is nano-porous silica aerogel, and the porosity of the silica aerogel is as high as 80-99.8% due to a nano-porous network structure, so far, the nano-porous aerogel is a material with the best heat insulation performance; the mineral wool is selected because the mineral wool is fluffy short and fine fiber made of mineral raw materials, has the performances of non-combustion, no mildew, no moth and the like, can be made into felts, blankets, mats, ropes, plates and the like, and is an ideal material for sound absorption, shock absorption and heat insulation.

In this embodiment, follow the cavity 2 outside corresponds be provided with the one deck in the mineral wool layer 4 and strengthen wire net 6, add the one deck and strengthen wire net 8, can make this device more firm, can effectively resist outside disintegrating slag striking or wind and blow.

In order to firmly connect the structures, the mineral wool layer 4 and the nano aerogel layer 3 and the metal frame 5 and the nano aerogel layer 3 are respectively bonded through inorganic high-temperature-resistant glue. The inorganic high-temperature adhesive has the advantages of strong adhesive force, fire resistance, high temperature resistance, good impact resistance, no toxicity, no volatilization of any substance and no influence on the use effect of the heat-insulating block in a high-temperature environment.

As an optimization of this embodiment, a facing layer (not labeled in the figure) is further disposed along the outer side of the whole body formed by the body 1 and the metal frame 5, and the facing layer is bonded by an inorganic high-temperature-resistant adhesive. The facing layer is glass fiber cloth, and the effect of fibre cloth is firstly in order to prevent that the material from splashing when the product is manufactured and is processed, secondly can play the effect of protection to interior material in the construction. The glass fiber cloth is selected mainly because the glass fiber cloth can be used at the low temperature of-196 ℃ and the high temperature of 300 ℃, has weather resistance, high insulativity, strong chemical corrosion resistance and high strength.

As a further optimization of the embodiment, the thickness of the nano aerogel layer 3 is 0.2cm to 1 cm; the thickness of the mineral cotton layer 4 is 5 cm-15 cm; the height of the cavity 2 is 1/3 the thickness of the mineral wool layer 4. This optimization can make this insulating block more firm, and the fire prevention heat preservation effect is more obvious.

As an assembly form of this embodiment, as shown in fig. 4, two insulation blocks with the same specification are close to each other, and then penetrate through the connection hole 7 along one side by using the metal strip 8 and penetrate through the other side of the other insulation block, thereby achieving the purpose of connecting the two insulation blocks.

As another assembly form of this embodiment, as shown in fig. 5, the insulation blocks of the same specification are connected in the X-axis direction and the Y-axis direction, because 4 sides of the metal frame 5 are all provided with connecting holes for the metal strips 8 to penetrate through, only the insulation blocks of unit area number need to be spliced in advance, and then the purpose of connecting in the X-direction is achieved by mutually penetrating the metal strips 8 in the X-direction; the purpose of Y-direction connection is achieved by mutually penetrating the metal strips 8 along the Y direction, and finally the purpose of connecting and fixing all the heat preservation blocks is achieved.

In order to make the connected heat preservation blocks not easy to loosen or fall off, two ends of each metal strip 8 participating in connection can be folded by 90 degrees, so that the purpose of limiting and fixing is achieved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a portable insulating block that can freely splice which characterized in that: the air-permeable nano aerogel comprises a square body (1) with a plurality of cavities (2), wherein the body (1) comprises a nano aerogel layer (3) and a mineral wool layer (4) which are connected with each other from outside to inside, and the cavities (2) are arranged on the mineral wool layer (4); the edge the outline cover of body (1) is equipped with square metal crate (5), connecting hole (7) that can supply metal strip (8) to run through are all seted up on every edge of metal crate (5).

2. The portable freely-spliced heat-insulating block as claimed in claim 1, wherein: the number of the cavities (2) is 5, and the cavities are symmetrically arranged at the axle center position of the mineral wool layer (4).

3. The portable freely-spliced heat-insulating block as claimed in claim 2, wherein: and a layer of reinforced steel wire mesh (6) is arranged in the mineral wool layer (4) corresponding to the outer side of the cavity (2).

4. The portable freely-spliced heat-insulating block as claimed in claim 1, wherein: the mineral wool layer (4) and the nano aerogel layer (3) and the metal frame (5) and the nano aerogel layer (3) are respectively bonded through inorganic high-temperature-resistant glue.

5. The portable freely-spliced heat-insulating block as claimed in claim 1, wherein: and a finishing coat is also arranged along the outer side of the whole body formed by the body (1) and the metal frame (5), and the finishing coat is adhered by inorganic high-temperature-resistant glue.

6. The portable freely-spliced heat-insulating block as claimed in claim 5, wherein: the decorative layer is glass fiber cloth.

7. The portable freely-spliced heat-insulating block as claimed in claim 1, wherein: the thickness of the nano aerogel layer (3) is 0.2 cm-1 cm; the thickness of the mineral cotton layer (4) is 5 cm-15 cm; the height of the cavity (2) is 1/3 of the thickness of the mineral wool layer (4).

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