CN203361529U - Transparent heat preservation stone material - Google Patents

Abstract

The utility model relates to a transparent heat preservation stone material which comprises a stone material body. The transparent heat preservation stone material is characterized in that the front face and the back face of the stone material body are provided with a first glass layer and a second glass layer respectively, the front face of the stone material body is connected with one surface of the first glass layer through a PVB adhesive film, the other surface of the first glass surface is connected with a third glass layer through a PVB adhesive film, the first glass layer and the second glass layer are connected through an edge structural adhesive, an aluminum partition strip is arranged between the first glass layer and the second glass layer, and the aluminum partition strip is filled with a molecular sieve. PVB adhesive film laminated glass is adopted in the transparent heat preservation stone material, the transparent heat preservation stone material has the good heat preservation performance, heat exchange between central heating in a room in winter and the external environment and the heat exchange between cold air in the room in summer and the external environment can be reduced, and therefore the energy-saving effect is achieved. In addition, the PVB adhesive films have good safety, and can also prevent the phenomena that the glass is broken due to external force, and fragments are splashed to hurt people, more importantly, the PVB adhesive film laminated glass is adopted to achieve the heat preservation, and meanwhile the decorative effect of the stone material is not affected.

Description

The transparent heat-insulation stone material

Technical field

The utility model relates to a kind of stone material, and especially a kind of transparent heat-insulation stone material, belong to building material technical field.

Background technology

In building and ornament materials, stone material is fashionable for a time as exterior wall and inner wall decoration, but there is certain shortcoming in common stone material: himself Heavy Weight has on the one hand increased the burden of building; Heat insulating effect is poor on the other hand, does not meet energy-saving and cost-reducing requirement.Existing heat preserving and insulating material meets energy-saving and cost-reducing requirement, but can not directly be used as ornament materials.Attractive in appearance in order both to accomplish, energy-conservation again, available technology adopting directly is used for decoration, the heat insulating work of exterior wall by stone material, compound insulating material by the method for pasting, but due to heat insulating material ubiquity poor rigidity, be difficult to bear the negative hormone of stone material and easily deform, causing the ornamental stone displacement, come off; Both affect decorative effect, had again serious potential safety hazard.

Chinese patent CN201339288Y discloses a kind of composite heat insulating stone slab, comprises stone material, aluminum honeycomb panel, warming plate and connector, and stone material and warming plate are bonded on positive and negative two faces of aluminum honeycomb panel through cementing agent respectively; On stone surface, aluminum honeycomb panel and warming plate, slot respectively; In the connector embedded groove and pass through rivet.This scheme has solved the deficiency of warming plate, but production technology is comparatively complicated, needs on stone material and warming plate, to slot respectively, has increased cost of production.

Chinese patent CN201835474U discloses a kind of heat-preserving stone composite board, the back side at the stone decoration surface layer arranges foam glass board, the built-in embedded nut of foam glass board, embedded nut one end and stone decoration surface layer medial surface are fixed, embedded nut other end installation connecting element, connector is fixedly connected with body of wall.This scheme can realize that insulation is with decoration integrated, but foam glass board has some limitations, and is discharged into airborne artificial fiber in the installation and removal process and can causes damage to tissue.

Chinese patent CN202945767U discloses a kind of heat preservation stone, comprises superthin stone layer, insulation layer, basic unit, and insulation layer is arranged between superthin stone layer and basic unit.The stone material layer thickness of this scheme is little, lightweight, but can not fundamentally solve by the thickness of attenuate stone material the hidden danger that insulation layer deforms.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of transparent heat-insulation stone material is provided, and realizes on the one hand the heat insulation effect of decorative stone, has improved on the other hand the ornamental of stone material.

The technical scheme provided according to the utility model, described transparent heat-insulation stone material, comprise stone material, it is characterized in that: the positive and negative at described stone material arranges respectively the first glassy layer and the second glassy layer, and the front of stone material is connected by the PVB glued membrane with the first glassy layer one surface.

In a specific embodiment, another surface of described the first glassy layer connects the 3rd glassy layer by the PVB glued membrane.

In a specific embodiment, the structure glue by edge between described the first glassy layer and the second glassy layer connects, and between the first glassy layer and the second glassy layer, the aluminium parting bead is set, and fills molecular sieve in the aluminium parting bead.

In a specific embodiment, described stone material with the second glassy layer one the surface by the PVB glued membrane, be connected.

In a specific embodiment, pass through structure glue connection the 3rd glassy layer at edge at another table of described the second glassy layer.

In a specific embodiment, between described the second glassy layer and the 3rd glassy layer, the aluminium parting bead is set, fill molecular sieve in the aluminium parting bead.

In a specific embodiment, described the first glassy layer and the second glassy layer adopt tempered glass or semi-tempered glass.

In a specific embodiment, described the 3rd glassy layer adopts tempered glass or semi-tempered glass.

The utility model adopts PVB glued membrane laminated glass to realize the insulation of stone material, and PVB glued membrane laminated glass has good heat-insulating property, can reduce the room in winter heating installation, summer room cold air and the interchange of heat of external environment, thereby reach energy-conservation effect.In addition, the PVB glued membrane has good safety, also can play and prevent that fragment splashes and hurts sb.'s feelings glass due to fragmentation under External Force Acting; The more important thing is, when adopting PVB glued membrane laminated glass to realize insulation, also can not affect the decorative effect of stone material.

The accompanying drawing explanation

The structural representation that Fig. 1 is the utility model embodiment mono-.

The structural representation that Fig. 2 is the utility model embodiment bis-.

The structural representation that Fig. 3 is the utility model embodiment tri-.

The specific embodiment

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

Embodiment mono-:

As shown in Figure 1, described transparent heat-insulation stone material comprises stone material 1-3, positive and negative at stone material 1-3 arranges respectively the first glassy layer 1-1 and the second glassy layer 1-6, the front of stone material 1-3 is connected by a PVB glued membrane 1-2 with the first glassy layer 1-1 mono-surface, structure glue 1-4 by edge between the first glassy layer 1-1 and the second glassy layer 1-6 connects, and between the first glassy layer 1-1 and the second glassy layer 1-6, aluminium parting bead 1-5 is set, the inner molecular sieve of filling of aluminium parting bead 1-5; Described the first glassy layer 1-1 and the second glassy layer 1-6 adopt tempered glass or semi-tempered glass.

Embodiment bis-:

As shown in Figure 2, described transparent heat-insulation stone material comprises stone material 2-5, positive and negative at stone material 2-5 arranges respectively the first glassy layer 2-3 and the second glassy layer 2-8, the surface of the front of stone material 2-5 and the first glassy layer 2-3 is connected by a PVB glued membrane 2-4, on another surface of the first glassy layer 2-3, by the 2nd PVB glued membrane 2-2, connects the 3rd glassy layer 2-1; Structure glue 2-6 by edge between described the first glassy layer 2-3 and the second glassy layer 2-8 connects, and between the first glassy layer 2-3 and the second glassy layer 2-8, aluminium parting bead 2-7 is set, the inner molecular sieve of filling of aluminium parting bead 2-7; Described the first glassy layer 2-3, the second glassy layer 2-8 and the 3rd glassy layer 2-1 adopt tempered glass or semi-tempered glass.

Embodiment tri-:

As shown in Figure 3, described transparent heat-insulation stone material comprises stone material 3-3, positive and negative at stone material 3-3 arranges respectively the first glassy layer 3-1 and the second glassy layer 3-5, the surface of the front of stone material 3-3 and the first glassy layer 3-1 is connected by a PVB glued membrane 3-2, and the surface of the reverse side of stone material 3-3 and the second glassy layer 3-5 is connected by the 2nd PVB glued membrane 3-4; The structure glue 3-6 that passes through edge on another surface of described the second glassy layer 3-5 connects the 3rd glassy layer 3-8, and between the second glassy layer 3-5 and the 3rd glassy layer 3-8, aluminium parting bead 3-7 is set, at the inner molecular sieve of filling of aluminium parting bead 3-7; Described the first glassy layer 3-1, the second glassy layer 3-5 and the 3rd glassy layer 3-8 adopt tempered glass or semi-tempered glass.

The utility model adopts PVB glued membrane laminated glass to realize the insulation of stone material, and PVB glued membrane laminated glass has good heat-insulating property, can reduce the room in winter heating installation, summer room cold air and the interchange of heat of external environment, thereby reach energy-conservation effect.In addition, the PVB glued membrane has good safety, also can play and prevent that fragment splashes and hurts sb.'s feelings glass due to fragmentation under External Force Acting; The more important thing is, when adopting PVB glued membrane laminated glass to realize insulation, also can not affect the decorative effect of stone material.

Claims (8)

1. a transparent heat-insulation stone material, comprise stone material, it is characterized in that: the positive and negative at described stone material arranges respectively the first glassy layer and the second glassy layer, and the front of stone material is connected by the PVB glued membrane with the first glassy layer one surface.

2. transparent heat-insulation stone material as claimed in claim 1, is characterized in that: surperficial PVB glued membrane connection the 3rd glassy layer that passes through of another of described the first glassy layer.

3. transparent heat-insulation stone material as claimed in claim 1 or 2, is characterized in that: pass through the structure glue connection at edge between described the first glassy layer and the second glassy layer, and between the first glassy layer and the second glassy layer, the aluminium parting bead is set, fill molecular sieve in the aluminium parting bead.

4. transparent heat-insulation stone material as claimed in claim 1 is characterized in that: described stone material with a surface the second glassy layer, by the PVB glued membrane, be connected.

5. transparent heat-insulation stone material as claimed in claim 4, is characterized in that: structure glue connection the 3rd glassy layer that passes through edge at another table of described the second glassy layer.

6. transparent heat-insulation stone material as claimed in claim 5, is characterized in that: between described the second glassy layer and the 3rd glassy layer, the aluminium parting bead is set, fills molecular sieve in the aluminium parting bead.

7. transparent heat-insulation stone material as claimed in claim 1, is characterized in that: described the first glassy layer and the second glassy layer employing tempered glass or semi-tempered glass.

8. transparent heat-insulation stone material as claimed in claim 5, is characterized in that: described the 3rd glassy layer employing tempered glass or semi-tempered glass.

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