CN106003437A - Natural ultra-thin stone heat-preserving composite plate and manufacturing method thereof - Google Patents

Abstract

The invention relates to the field of machining of natural ultra-thin stone composite plates, in particular to a natural ultra-thin stone heat-preserving composite plate. The plate comprises a natural stone layer in a plate shape, reinforcing layers and a heat-preserving material layer, wherein the thickness of the natural stone layer is smaller than or equal to 6 mm, the reinforcing layers are arranged on the two sides of the heat-preserving material layer, and the reinforcing layer on one side is fixedly connected with the natural stone layer. The natural ultra-thin stone heat-preserving composite plate is thinner in stone, lighter, simple in machining mode, low in machining cost and high in efficiency. A method for machining the heat-preserving composite plate includes the steps that firstly, two parallel surfaces are symmetrically arranged on the two sides of the plate-shaped to-be-machined stone, and the two surfaces are both fixedly connected with one layer of heat-preserving material; secondly, the heat-preserving materials located on the two sides of the two-be-machined stone are fixedly connected with fixing devices respectively; thirdly, a cutting tool is controlled to cut the to-be-machined stone from the middle of the two heat-preserving materials to form two heat-preserving composite plates.

Description

A kind of natural ultra-thin stone thermal insulating composite panel and preparation method thereof

Technical field

The present invention relates to the manufacture field of natural ultra-thin stone composite plate, particularly to a kind of natural ultra-thin stone thermal insulating composite panel, and the processing method disclosing this composite plate.

Background technology

Decorative panel (for composite plate) is the sheet material being used in furnishing fields, it is generally mounted on body of wall, nowadays, indoor heat insulation effect is required more and more higher by user, so, decorative panel now is generally composite construction, outermost one layer is stone material, to ensure the hardness needed for decorative panel routine use, preventing from colliding with and play the outward appearance effect etc. beautified the environment, nexine is then insulation construction；

And stone material itself weighs very much, decorative panel is owing to being auxiliary material, so it is the lightest more good, if using stone material less, the volume of insulation construction can also be increased in limited space, increase the heat-insulating property of decorative panel, so the stone material on present decorative panel is more Bao Yuehao, but, stone material is done thin mode by prior art, all it is positioned against stone material top layer to mill at leisure, layer by layer stone material is ground more and more thinner (because after stone-material thin, it is easy to broken, so being first stone material to be processed to be compounded on insulation material, the most in layer grind, or first cutting and processing stone material, it is compounded in again on insulation material, the most above-mentioned reason of the most this mode, do thin limitation), this mode efficiency is low and wastes material.

Summary of the invention

It is an object of the invention to overcome the above-mentioned deficiency in the presence of prior art, there is provided one stone part under equal processing cost thinner, overall lighter and processing mode is simple, the inefficient high natural ultra-thin stone thermal insulating composite panel of processing cost, and the method processing this composite plate.

In order to realize foregoing invention purpose, the invention provides techniques below scheme:

A kind of natural ultra-thin stone thermal insulating composite panel, comprising:

Natural stone sheet material layers (granite or marble), described natural stone sheet material layers is tabular, thickness≤6mm；

(, because material behavior reason, hardness will not be the highest, so needing to arrange enhancement Layer for adiabator layer for enhancement Layer, make natural stone sheet material layers more stable when cutting, simultaneously because natural stone sheet material layers is thinner, if being not provided with enhancement Layer, being connected directly between on adiabator layer and being easily broken off)；

Adiabator layer, described adiabator layer both sides are provided with enhancement Layer, wherein the enhancement Layer of side is fixing with described natural stone sheet material layers is connected, such frame mode, can make described natural stone sheet material layers cut in the middle part of stone material to be processed after being connected to symmetrically arranged two described adiabator layers by stone material to be processed and form (because having the reinforcing of enhancement Layer).

Compared to existing technology, this structure need not by the way of " milling " described in background technology, but it is cut directly into type finished product, under equal processing cost, stone part is thinner, overall lighter, and processing mode is simple, processing cost poor efficiency is high, the most more saves stone material (lithotome is non-renewable resources, and the meaning of this saving is the most great) simultaneously.

Preferred version as the present invention, described natural stone sheet material layers is cut in the middle part of stone material to be processed after being connected to symmetrically arranged two described adiabator layers by stone material to be processed and is formed, need not by the way of " milling " described in background technology, but it is cut directly into type finished product, under equal processing cost, stone part is thinner, overall lighter, and processing mode is simple, processing cost poor efficiency is high.

Preferred version as the present invention, its two enhancement Layers arranged by stone material connected symmetrical dendrimer to be processed, after connecting two described adiabator layers respectively by enhancement Layer again, in the middle part of stone material to be processed, cutting is formed, need not by the way of " milling " described in background technology, but it is cut directly into type finished product, under equal processing cost, stone part is thinner, overall lighter, and processing mode is simple, and processing cost poor efficiency is high.

As the preferred version of the present invention, described adiabator layer is made up of molded polystyrene foams plate.

As the preferred version of the present invention, described adiabator layer is made up of extruded polystyrene foam board.

As the preferred version of the present invention, described adiabator layer is made up of hard polyurethane foam plate.

As the preferred version of the present invention, described adiabator layer is made up of thermosetting resin MPS cystosepiment.

As the preferred version of the present invention, described adiabator layer is made up of rock cotton board.

As the preferred version of the present invention, described enhancement Layer is bonding with the mode that described natural stone sheet material layers connects, and compares mechanical connection, and mode is simpler, when cutting tool also can be made to cut stone material simultaneously, will not be formed with other structures and interfere, can cut thinner.

The invention also discloses a kind of method preparing described thermal insulating composite panel, the steps include:

A, two planes are set in the stone material lateral symmetry to be processed of tabular, the most bonding adiabator layer that described enhancement Layer has been set in the two plane；

B, it is respectively fixedly connected with described insulation material or the natural stone sheet material layers edge being positioned at stone material both sides to be processed by fixing device；

Described stone material to be processed is cut in the middle part of two described insulation materials by C, control cutting tool, forms two pieces of described thermal insulating composite panels.

Compared to existing technology, need not by the way of " milling " described in background technology, under equal processing cost, stone part is thinner, entirety is lighter, and processing mode is simple, only need to be according to the demand of concrete stone material thickness, select different-thickness stone material to be processed and the cutting tool of different-thickness, such as, the stone material to be processed selecting thickness to be 15mm, then selecting thickness is the cutting knife of 7mm, from the cutting of stone material center, the stone material being cut in half then is the thickness of 4mm, the thinnest, the most also different cut points can also be selected according to different demands, form the composite plate of two blocks of different-thickness stone materials, processing cost poor efficiency is high；

Simultaneously, for prior art, it is different in principle, by symmetrically arranged two composite plates, first stone material and insulation material are attached, complete to be combined, cut the most in this way, two required composite plate finished products are directly formed after completing, it is clear that, processing cost is low and efficiency is high.

As the preferred version of the present invention, in step C, cutting tool is disc cutter, and cutting effect is stable.

Compared with prior art, beneficial effects of the present invention:

Under equal processing cost, stone part is thinner, overall lighter, and processing mode is simple, and processing cost poor efficiency is high.

Accompanying drawing illustrates:

Fig. 1 is composite plate structure schematic diagram of the present invention；

Fig. 2 is preparation process schematic diagram 1 in the embodiment of the present invention 1；

Fig. 3 is preparation process schematic diagram 2 in the embodiment of the present invention 1；

Fig. 4 is schematic flow sheet in the embodiment of the present invention 1；

Labelling in figure: 1-natural stone sheet material layers, 2-adiabator layer, 3-stone material to be processed, 4-cutting tool.

Detailed description of the invention

Below in conjunction with embodiment and detailed description of the invention, the present invention is described in further detail.But this should not being interpreted as, the scope of the above-mentioned theme of the present invention is only limitted to below example, and all technology realized based on present invention belong to the scope of the present invention.

Embodiment 1

Such as Fig. 1, a kind of natural ultra-thin stone thermal insulating composite panel, comprising:

Natural stone sheet material layers 1, described natural stone sheet material layers 1 is tabular, thickness≤6mm, in the present embodiment, described natural stone sheet material layers 1 is granite or marble, and its thickness X meets: natural stone sheet material layers 1 described in 1mm≤X≤6mm(is constituted if granite, then its thickness Y meets: 2mm≤X≤6mm)；

Enhancement Layer；

nullAdiabator layer described in adiabator layer 2(can be molded polystyrene foams plate、Extruded polystyrene foam board、Hard polyurethane foam plate、Thermosetting resin MPS cystosepiment or rock cotton board)，Described adiabator layer 2 both sides are provided with enhancement Layer，Wherein the enhancement Layer of side is bonding with described natural stone sheet material layers 1，Described natural stone sheet material layers 1 is cut in the middle part of stone material 3 to be processed after being connected to symmetrically arranged two described adiabator layers by stone material 3 to be processed and is formed (because enhancement Layer is the thinnest，So Fig. 1-3 does not draw，Adiabator layer both side surface is provided with enhancement Layer，And add man-hour be adiabator layer both sides arrange glass fiber reticular cloth，Slurry is set again，Final curing forms enhancement Layer，That is enhancement Layer is made up of glass fiber reticular cloth and slurry)，Described adiabator layer 2 both side surface is provided with some grooves (the some little rectangular block as in Fig. 2)，Described glass fiber reticular cloth and filled therewith are in described groove，Plane is formed with adiabator layer 2 after filling，One layer of enhancement Layer it is also provided with in this plane，Last the most on-demand at a side bonds lithotome layer 1，Do so can increase the intensity of adiabator layer 2，Prevent its deformation from making stone material rupture.

Such as Fig. 2,3,4, the present embodiment also discloses a kind of method preparing described thermal insulating composite panel, the steps include:

A, the stone material to be processed 3 of preparation tabular, stone material to be processed 3 lateral symmetry in tabular arranges two planes being parallel to each other, some grooves are set in plane, the most bonding one layer of insulation material 2 layers that described enhancement Layer has been set (wherein the enhancement Layer of side is for bonding with described natural stone sheet material layers 1) in the two plane, enhancement Layer fills full described groove, as Fig. 2,3；

B, it is respectively fixedly connected with described insulation material 2 or the natural stone sheet material layers edge being positioned at stone material 3 both sides to be processed by fixing device；

C, control cutting tool 4(cutting tool 4 are disc cutter) in the middle part of two described insulation materials, described stone material 3 to be processed is cut (being cut multiple natural stone sheet material layers by multiple disc cutters) simultaneously, form two pieces of described thermal insulating composite panels, as Fig. 2,3.

Claims (12)

1. a natural ultra-thin stone thermal insulating composite panel, comprising:

Natural stone sheet material layers, thickness≤6mm；

Enhancement Layer；

Adiabator layer, described adiabator layer both sides are provided with enhancement Layer, and wherein the enhancement Layer of side is fixing with described natural stone sheet material layers is connected.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described natural stone sheet material layers is cut in the middle part of stone material to be processed after being connected to symmetrically arranged two described adiabator layers by stone material to be processed and formed.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterized in that, its two enhancement Layers arranged by stone material connected symmetrical dendrimer to be processed, then pass through to cut in the middle part of stone material to be processed after enhancement Layer connects two described adiabator layers respectively to be formed.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described adiabator layer is made up of molded polystyrene foams plate.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described adiabator layer is made up of extruded polystyrene foam board.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described adiabator layer is made up of hard polyurethane foam plate.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described adiabator layer is made up of thermosetting resin MPS cystosepiment.

A kind of natural ultra-thin stone thermal insulating composite panel the most according to claim 1, it is characterised in that described adiabator layer is made up of rock cotton board.

9. according to a kind of natural ultra-thin stone thermal insulating composite panel described in claim 1-8 any one, it is characterised in that described enhancement Layer is bonding with the mode that described natural stone sheet material layers connects.

10. prepare a method for thermal insulating composite panel as described in claim 1-9 any one, the steps include:

Stone material lateral symmetry to be processed in tabular arranges two planes, the most bonding adiabator layer having arranged described enhancement Layer in the two plane；

Described insulation material or the natural stone sheet material layers edge being positioned at stone material both sides to be processed it is respectively fixedly connected with by fixing device；

Control cutting tool in the middle part of two described insulation materials, described stone material to be processed to be cut, form two pieces of described thermal insulating composite panels.

11. preparation methoies according to claim 10, it is characterised in that in step C, are controlled described cutting tool and treat processing stone material when cutting, cut multiple natural stone sheet material layers by multiple cutting tools simultaneously.

12. preparation methoies according to claim 11, it is characterised in that in step C, described cutting tool is disc cutter.