CN104341094A - Energy-saving sheet material and manufacturing method thereof - Google Patents

Abstract

The invention provides an energy-saving sheet material and a manufacturing method thereof. The energy-saving sheet material comprises at least one layer of upper sheet material, at least one layer of lower sheet material, at least one layer of inner sheet material and a plurality of support structures, wherein the upper edge of the upper sheet material and the lower edge of the lower sheet material are respectively straight lines; the inner sheet material is arranged between the upper sheet material and the lower sheet material, and the sheet materials in adjacent layers are separated by the support structures; an exhaust port is formed in the side of the inner sheet material, and is a through groove penetrating through the upper surface and the lower surface of the inner sheet material; the edges of the upper sheet material, the lower sheet material and the inner sheet material are sealed and closed by a sealing material, so that vacuum layers are formed among the sheet materials; an exhaust pipe is arranged in the exhaust port, the open end of the exhaust pipe is positioned on the inner side of the exhaust port, and the closed end of the exhaust pipe is positioned on the outer side of the exhaust port and exists in the space formed between the upper sheet material and the lower sheet material. The energy-saving sheet material is fully planar and is free of structure defect, so that the using strength of the energy-saving sheet material is enhanced.

Description

Energy-conserving plate material and manufacture method thereof

Technical field

The present invention relates to energy-conserving plate material technology, particularly relate to a kind of energy-conserving plate material and manufacture method thereof.

Background technology

Energy-conserving plate material product can be applicable to the fields such as building window, is excellent heat insulation, sound-proof material.Passing technology separates with suitable supporting structure by the middle of two panels sheet glass, peripheral region combines with tackiness agent, inner chamber then utilizes vacuum pump to be extracted out by gas molecule by glass exhaust tube, and places getter material in chamber, makes internal vacuum pressure scope about 10 ^-2~ 10 ^-7torr.Subsequently glass exhaust tube melting is blocked, to form airtight involution.

In existing technology, when glass exhaust tube is blocked airtight, be utilize the mode of local heating to make it melt.Temperature needed for melten glass is very high, and therefore the position of glass exhaust tube heat fused too close to sheet glass, can not burst because being heated inequality to avoid Yuanping City's sheet glass.So glass exhaust tube can remain a bit of length outside sheet glass after melting is blocked.In order to avoid above-mentioned defect, sheet glass is offered and holds breach to place vapor pipe.But the accommodation breach on sheet glass weakens the intensity of area vacuum glass, easily brings structural hidden danger.

Summary of the invention

The invention provides a kind of energy-conserving plate material and manufacture method thereof, to overcome the deficiencies in the prior art.

The invention provides a kind of energy-conserving plate material, comprising: at least one deck top plate material, at least one deck lower plywood material, at least one deck inner plating material and multiple supporting structure;

The lower rim of the upper limb of described upper strata sheet material, described lower floor sheet material all linearly;

Described internal layer sheet material is arranged between described upper strata sheet material and described lower floor sheet material, and is separated by described multiple supporting structure between the sheet material of adjacent layers;

Described internal layer sheet material side offers venting port, and described venting port is the groove of through described internal layer sheet material upper and lower surface;

The edge of described upper strata sheet material, lower floor's sheet material and internal layer sheet material is closed by the sealing-in of sealing-in material, makes to form vacuum layer between each laminate material;

Vapor pipe is provided with in described venting port, described venting port and described vapor pipe are sealed by described sealing-in material, the opening end of described vapor pipe is positioned at inside described venting port, and the closed end of described vapor pipe is in the outside of venting port and in the space formed between described upper strata sheet material and described lower floor sheet material.

The invention provides a kind of manufacture method of energy-conserving plate material, comprising:

Multiple supporting structure be arranged on lower floor's sheet material, and sealing-in material is arranged on the edge of described lower floor sheet material upper surface, the lower rim of described lower floor sheet material all linearly;

Internal layer sheet material side being offered venting port covers on described lower floor sheet material, forms the first cavity, and described venting port is the groove of through described internal layer sheet material upper and lower surface;

Vapor pipe is arranged in described venting port;

Described multiple supporting structure is arranged on described internal layer sheet material, is staggered with the supporting structure under internal layer sheet material; And described sealing-in material is arranged on the edge of described internal layer sheet material upper surface;

Upper strata sheet material is covered on described internal layer sheet material, forms the second cavity, the upper limb of described upper strata sheet material all linearly, in the space that the closed end of described venting port is formed between described upper strata sheet material and described lower floor sheet material;

By sealing-in material described in the high temperature melting that is less than or equal to 500 DEG C, seal airtight for the edge of described upper strata sheet material, lower floor's sheet material and internal layer sheet material;

Vacuumized between each laminate material by described vapor pipe, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa;

By heater coil wraps outside described vapor pipe, described in energising local heating while vapor pipe, with the root of vapor pipe described in the blast-cold of high pressure cold wind and described sheet material.

Energy-conserving plate material of the present invention and manufacture method thereof, by at least one deck top plate material, at least one deck lower plywood material and at least one deck inner plating material composition energy-conserving plate material, internal layer sheet material side is provided with venting port, this venting port is the groove of through internal layer sheet material upper and lower surface, namely forms one " recessed " word shape groove at internal layer sheet material side.Vapor pipe is set in venting port, the opening of vapor pipe is communicated with vacuum layer by groove, by vapor pipe, vacuum layer is vacuumized, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.By heater coil wraps outside vapor pipe, while energising local heating vapor pipe, with the root of high pressure cold wind blast-cold vapor pipe, vapor pipe is closed, make the closed mouth position of vapor pipe setting in the space formed between the upper strata sheet material of energy-conserving plate material and lower floor's sheet material.Like this; upper strata sheet material and lower floor's sheet material outer side edges are complete straight line; and the closed end of vapor pipe is positioned at the inside at energy-conserving plate material edge; hold breach hold vapor pipe without the need to increasing on upper strata sheet material and lower floor's sheet material; without the need to arranging metal protection cover plate to hide vapor pipe, also without the need to worrying the problem that vapor pipe breaks.In addition, achieve the whole plane of energy-conserving plate material, and there is no textural defect, enhance the working strength of energy-conserving plate material.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the front view of energy-conserving plate material embodiment one of the present invention;

Fig. 2 is the vertical view of energy-conserving plate material embodiment one of the present invention;

Fig. 3 is the structural representation of the embodiment one of the internal layer sheet material of energy-conserving plate material of the present invention;

Fig. 4 is the structural representation of energy-conserving plate material embodiment two of the present invention;

Fig. 5 is the structural representation of energy-conserving plate material embodiment three of the present invention;

Fig. 6 is the schema of energy-conserving plate material manufacture method embodiment one of the present invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 1 is the front view of energy-conserving plate material embodiment one of the present invention, and Fig. 2 is the vertical view of energy-conserving plate material embodiment one of the present invention.As shown in Figure 1 and Figure 2, the energy-conserving plate material 01 of the present embodiment can comprise: at least one deck top plate material 11, at least one deck lower plywood material 12, at least one deck inner plating material 13, multiple supporting structure 14.Wherein, the lower rim of the upper limb of upper strata sheet material 11, lower floor's sheet material 12 all linearly; Internal layer sheet material 13 is arranged between upper strata sheet material 11 and lower floor's sheet material 12, and is separated by multiple supporting structure 14 between the sheet material of adjacent layers; Internal layer sheet material 13 side offers venting port 16, and venting port 16 is the groove of through internal layer sheet material 13 upper and lower surface; The edge of upper strata sheet material 11, lower floor's sheet material 12 and internal layer sheet material 13 is closed by sealing-in material 15 sealing-in, makes to form vacuum layer between each laminate material; Vapor pipe 17 is provided with in venting port 16, venting port and vapor pipe are sealed by sealing-in material, the opening end of vapor pipe 17 is positioned at inside venting port 16, and the closed end of vapor pipe 17 is outside venting port and be present in the space that formed between upper strata sheet material 11 and lower floor's sheet material 12.

In addition, in venting port 16, getter 18 is also filled.

The present embodiment provides a kind of energy-conserving plate material, comprise at least one deck top plate material, at least one deck lower plywood material, at least one deck inner plating material, separated by multiple upholder between adjacent sheet material, energy-conserving plate material periphery is closed by the sealing-in of sealing-in material, makes to be vacuum layer between sheet material.Wherein, internal layer sheet material side has venting port, and this venting port is the groove of through internal layer sheet material upper and lower surface, namely forms one " recessed " word shape groove at internal layer sheet material side, overcomes problem that is difficult at first slot machining of sheet material, that easily burst.In addition, vapor pipe is set in venting port, the opening of vapor pipe is communicated with vacuum layer by groove, by vapor pipe, vacuum layer is vacuumized, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.By heater coil wraps outside vapor pipe, while energising local heating vapor pipe, with the root of high pressure cold wind blast-cold vapor pipe, vapor pipe is closed, make the closed mouth position of vapor pipe setting in the space formed between the upper strata sheet material of energy-conserving plate material and lower floor's sheet material.Like this; upper strata sheet material and lower floor's sheet material outer side edges are complete straight line; and the closed end of vapor pipe is positioned at the inside at energy-conserving plate material edge; hold breach hold vapor pipe without the need to increasing on upper strata sheet material and lower floor's sheet material; without the need to arranging metal protection cover plate to hide vapor pipe, also without the need to worrying the problem that vapor pipe breaks.In addition, achieve the whole plane of energy-conserving plate material, and there is no textural defect, enhance the working strength of energy-conserving plate material.

Further, upper strata sheet material 11 and lower floor's sheet material 12 are complete unfairness rigidity sheet material, and internal layer sheet material 13 is unfairness flexible sheet, and their planeness is all greater than 10nm/m.

Fig. 3 is the structural representation of the embodiment one of the internal layer sheet material of energy-conserving plate material of the present invention, and as shown in Figure 3, internal layer sheet material 13 can also be made up of framework 131 and edge grain 132 split, and framework 131 is around in edge grain 132 around.The distortion of such internal layer sheet material 13 is freer.

Internal layer sheet material 13 is under static loads effect, the ability of resistance to deformation is less than upper strata sheet material 11 and lower floor's sheet material 12, deflection after internal layer sheet material 13 is stressed is less than the height of supporting structure 14, is greater than the irregularity degree of upper strata sheet material 11 in plane within the scope of neighbouring support structure and lower floor's sheet material 12.In addition, use planeness to be greater than the sheet material of 10nm/m, expand the material source of energy-conserving plate material, be convenient to tissue and produce.Because internal layer sheet material 13 uses unfairness flexible sheet, under inner vacuum environment, internal layer sheet material 13 surface can not suffer erosion, even if there is tiny crack on internal layer sheet material 13 surface, also be difficult to expansion, the performance of flexible sheet given full play to, ensure that the intensity of energy-conserving plate material.

Multiple supporting structure 14 is arranged perpendicular to adjacent layers sheet material, and the multiple supporting structures 14 between upper strata sheet material 11 and internal layer sheet material 13 and the multiple supporting structures 14 between internal layer sheet material 13 and lower floor's sheet material 12 are all staggered not on same vertical line.

Like this be arranged so that the upper and lower both sides of each supporting point position of internal layer sheet material 13 only have a supporting structure 14, when power is delivered to internal layer sheet material 13 by supporting structure 14 with lower floor's sheet material 12 by upper strata sheet material 11 under normal atmosphere and External Force Acting, while there is recoverable deformation in internal layer sheet material 13, power is shared to adjacent four supporting structures 14 recently in internal layer sheet material opposite, these five supporting structures 14 are extruded tighter.By that analogy, each supporting structure 14 is adjacent between sheet material due to the recoverable deformation of internal layer sheet material 13, solves the problem that outside upper strata sheet material 11 and the support structure height that lower floor sheet material 12 causes because of superposing of irregularity degree are less than gap between adjacent sheet metal.In addition, due to supporting structure 14 between sheet material not at same vertical line alternate, carry out heat conducting distance by supporting structure 14 between sheet material and greatly extend, further increase the energy-saving effect of sheet material.Solve the problem that in energy-conserving plate material 01 use procedure, support structure position surface easily condenses.

Upper strata sheet material 11, the material of lower floor's sheet material 12 and internal layer sheet material 13 can be non-toughened glass, or toughened glass, or semi-tempered glass, or low emissivity glass, or chemically reinforced glass, or heat-reflecting glass, or wire glass, or figured glass, or hot melt glass, or coated glass, or colored glazed glass, or mat glass, or etched glass, or chemical corrosion glass, or solar energy glass, or flame resistant glass, or soda-lime glass, or borosilicate glass, or alumina silicate glass, or silica glass, or devitrified glass, or porcelain glass, or synthetic glass, or porcelain plate, or metal sheet, or solar panel, or plastic plate, or resin plate, or PE plate, or PC plate, or PMMA plate, or PET plate, or polyimide plate, or the sheet material such as composition board, or arbitrarily at least two or more combination in above-mentioned various material.

Upper strata sheet material 11, lower floor's sheet material 12 surface can to cover in various metal simple-substance film or various non-metal simple-substance film or various oxide film or various nitride film or above-mentioned various film arbitrarily at least two or more combination.

Fig. 4 is the structural representation of energy-conserving plate material embodiment two of the present invention.As shown in Figure 4, as a kind of feasible configurations embodiment illustrated in fig. 1, energy-conserving plate material 04 in the present embodiment is made up of three ply board material, wherein, lattice method sheet glass 41, two frame method sheet glass 41 outer side edges that outermost layer upper strata sheet material and outermost layer lower floor sheet material are 6mm thick is complete straight line.Internal layer sheet material is the expansion alloy plate 43 that 2mm is thick.

Multiple supporting structure 44 is placed on the thick lattice method sheet glass 41 of outermost layer lower floor 6mm and the thick expansion alloy plate 43 of internal layer 2mm successively, wherein, between the expansion alloy plate 41 that multiple supporting structure 44 is vertically set between the thick lattice method sheet glass 41 of outermost layer lower floor 6mm and the thick expansion alloy plate 43 of internal layer 2mm and internal layer 2mm is thick and the thick lattice method sheet glass 43 of outermost layer upper strata 6mm and perpendicular on the direction of sheet material not at same straight line alternate.Wherein, the side of the expansion alloy plate 43 that internal layer 2mm is thick offers venting port 46, and venting port 46 is the groove of expansion alloy plate 43 upper and lower surface that through internal layer 2mm is thick.Be arranged on by vapor pipe 47 in venting port 46, getter 48 is filled in venting port 46.Such vapor pipe 47 and getter 48 can and sheet material between space UNICOM.

Sealing-in material 45 is successively set on the edge part of the thick lattice method sheet glass of outermost layer lower floor 6mm 41 expansion alloy plate 43 upper surface thick with internal layer 2mm.Cover the lattice method sheet glass 41 that outermost layer upper strata 6mm is thick, sealed airtight for three ply board material by the high temperature melting sealing-in material 45 being less than or equal to 500 DEG C.Vacuumized between sheet material by vapor pipe 47, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.By heater coil wraps outside vapor pipe 47, while energising local heating vapor pipe 47, with the root of high pressure cold wind blast-cold vapor pipe 47 and sheet material, after vapor pipe 47 is closed, vapor pipe 47 and vacuum system are disconnected, in the space that the closed mouth position of vapor pipe 47 is formed setting in the lattice method sheet glass 41 that the thick lattice method sheet glass of outermost layer lower floor 6mm 41 is thick with outermost layer upper strata 6mm, formation energy-conserving plate material 04.

Fig. 5 is the structural representation of energy-conserving plate material embodiment three of the present invention.As shown in Figure 5, as a kind of feasible configurations embodiment illustrated in fig. 1, energy-conserving plate material 05 in the present embodiment is also made up of three ply board material, wherein, outermost layer upper strata sheet material and outermost layer lower floor sheet material are the thick air strengthened glass sheet material 51 of Lip river glass 6mm, and two panels air strengthened glass sheet material 51 outer side edges is complete straight line.Internal layer sheet material is the gorilla glass board material 53 that the 2mm of Corning Incorporated is thick.Wherein, the inner side edge of the air strengthened glass sheet material 53 that the air strengthened glass sheet material 51 that outermost layer lower floor Lip river glass 6mm is thick is thick with outermost layer upper strata Luo Bo 6mm is carved with groove 511 near vapor pipe 57 place.Internal layer sheet material 53 is carved or is printed with pattern.

Multiple supporting structure 54 is placed in successively on the thick gorilla glass board material 53 of the 2mm of the thick air strengthened glass sheet material 51 of outermost layer lower floor Lip river glass 6mm and Corning Incorporated, wherein, between the gorilla glass board material 53 that multiple supporting structure 54 is vertically set between the thick air strengthened glass sheet material 51 of outermost layer lower floor Lip river glass 6mm and the thick gorilla glass board material 53 of internal layer 2mm and internal layer 2mm is thick and the thick air strengthened glass sheet material 51 of outermost layer upper strata Luo Bo 6mm and perpendicular on the direction of sheet material not at same straight line alternate.Wherein, the side of the gorilla glass board material 53 that internal layer 2mm is thick offers venting port 56, and venting port 56 is the groove of gorilla glass board material 53 upper and lower surface that through internal layer 2mm is thick.Wherein, the inner side of the gorilla glass board material 53 that venting port 56 inner layer 2mm is thick recessed curved 561.Vapor pipe 57 is placed in venting port 56, such vapor pipe 57 can and sheet material between space UNICOM.

Sealing-in material 55 is successively set on the edge part of the thick air strengthened glass sheet material of outermost layer lower floor Lip river glass 6mm 51 gorilla glass board material 53 upper surface thick with internal layer 2mm.Cover the air strengthened glass sheet material 51 that outermost layer upper strata Luo Bo 6mm is thick, sealed airtight for three ply board material by the high temperature melting sealing-in material 55 being less than or equal to 500 DEG C.Vacuumized between sheet material by vapor pipe 57, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.By heater coil wraps outside vapor pipe 57, energising local heating vapor pipe 57 simultaneously, with the root of high pressure cold wind blast-cold vapor pipe 57 and sheet material, after vapor pipe 57 is closed, vapor pipe 57 and vacuum system are disconnected, in the space that the closed mouth position of vapor pipe 57 is formed setting in the air strengthened glass sheet material 51 that the thick air strengthened glass sheet material of outermost layer lower floor Lip river glass 6mm 51 is thick with outermost layer upper strata Luo Bo 6mm, formation energy-conserving plate material 05.

Fig. 6 is the schema of energy-conserving plate material manufacture method embodiment one of the present invention, and as described in Figure 6, the energy-conserving plate material manufacture method of the present embodiment can comprise:

Step 601, multiple supporting structure to be arranged on lower floor's sheet material, and sealing-in material is arranged on the edge of described lower floor sheet material upper surface, the lower rim of described lower floor sheet material all linearly.

Step 602, internal layer sheet material side being offered venting port cover on described lower floor sheet material, and form the first cavity, described venting port is the groove of through described internal layer sheet material upper and lower surface.

Step 603, vapor pipe to be arranged in described venting port.

Step 604, described multiple supporting structure is arranged on described internal layer sheet material, is staggered with the described multiple supporting structure under described internal layer sheet material, and described sealing-in material is arranged on the edge of described internal layer sheet material upper surface.

Step 605, upper strata sheet material to be covered on described internal layer sheet material, forms the second cavity, the upper limb of described upper strata sheet material all linearly, in the space that the closed end of described venting port is formed between described upper strata sheet material and described lower floor sheet material.

Step 606, by sealing-in material described in the high temperature melting that is less than or equal to 500 DEG C, to seal airtight for the edge of described upper strata sheet material, lower floor's sheet material and internal layer sheet material.

Step 607, to be vacuumized between each laminate material by described vapor pipe, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.

Step 608, by heater coil wraps outside described vapor pipe, described in energising local heating while vapor pipe, with the root of vapor pipe described in the blast-cold of high pressure cold wind and described sheet material.

Here it should be noted that, only manufacture energy-conserving plate material with three ply board material in the present embodiment to illustrate, but the present invention is not limited only to three ply board material, it can be the sheet material manufacture energy-conserving plate material of more than three layers or three layers, because manufacturing theory is identical with the method steps in the present embodiment, not in this to go forth.

The manufacture method of the energy-conserving plate material of the embodiment of the present invention, by being provided with venting port on internal layer sheet material side, this venting port is the groove of through internal layer sheet material upper and lower surface, namely form one " recessed " word shape groove at internal layer sheet material side, overcome problem that is difficult at first slot machining of sheet material, that easily burst.In addition, vapor pipe is set in venting port, the opening of vapor pipe is communicated with vacuum layer by groove, by vapor pipe, vacuum layer is vacuumized, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa.By heater coil wraps outside vapor pipe, while energising local heating vapor pipe, with the root of high pressure cold wind blast-cold vapor pipe, vapor pipe is closed, makes the closed mouth position of vapor pipe setting in outside venting port and in the space formed between the upper strata sheet material and lower floor's sheet material of energy-conserving plate material.Like this; upper strata sheet material and lower floor's sheet material outer side edges are complete straight line; and the closed end of vapor pipe is positioned at the inside at energy-conserving plate material edge; hold breach hold vapor pipe without the need to increasing on upper strata sheet material and lower floor's sheet material; without the need to arranging metal protection cover plate to hide vapor pipe, also without the need to worrying the problem that vapor pipe breaks.In addition, achieve the whole plane of energy-conserving plate material, and there is no textural defect, enhance the working strength of energy-conserving plate material.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. an energy-conserving plate material, is characterized in that, comprising: at least one deck top plate material, at least one deck lower plywood material, at least one deck inner plating material and multiple supporting structure;

The lower rim of the upper limb of described upper strata sheet material, described lower floor sheet material all linearly;

Described internal layer sheet material is arranged between described upper strata sheet material and described lower floor sheet material, and is separated by described multiple supporting structure between the sheet material of adjacent layers;

Described internal layer sheet material side offers venting port, and described venting port is the groove of through described internal layer sheet material upper and lower surface;

The edge of described upper strata sheet material, lower floor's sheet material and internal layer sheet material is closed by the sealing-in of sealing-in material, makes to form vacuum layer between each laminate material;

Vapor pipe is provided with in described venting port, described venting port and described vapor pipe are sealed by described sealing-in material, the opening end of described vapor pipe is positioned at inside described venting port, and the closed end of described vapor pipe is outside venting port and be present in the space that formed between described upper strata sheet material and described lower floor sheet material.

2. energy-conserving plate material according to claim 1, is characterized in that, described upper strata sheet material and described lower floor sheet material are complete unfairness rigidity sheet material;

Described internal layer sheet material is unfairness flexible sheet.

3. energy-conserving plate material according to claim 1, is characterized in that, the planeness of described upper strata sheet material, lower floor's sheet material, internal layer sheet material is all greater than 10nm/m.

4. energy-conserving plate material according to claim 1, is characterized in that, described internal layer sheet material is made up of framework and edge grain split, and described framework is around in around described edge grain.

5. according to the arbitrary described energy-conserving plate material of claim 1-4, it is characterized in that, described multiple supporting structure is arranged perpendicular to adjacent layers sheet material, and the described multiple supporting structure between described upper strata sheet material and described internal layer sheet material and the described multiple supporting structure between described internal layer sheet material and described lower floor sheet material are all staggered not on same vertical line.

6., according to the arbitrary described energy-conserving plate material of claim 1-4, it is characterized in that, described venting port is recessed curved to the inner side of described internal layer sheet material.

7., according to the arbitrary described energy-conserving plate material of claim 1-4, it is characterized in that, the inner side of described upper strata sheet material and/or described lower floor sheet material is carved with groove or pattern.

8., according to the arbitrary described energy-conserving plate material of claim 1-4, it is characterized in that, described internal layer sheet material is carved or is printed with pattern.

9., according to the arbitrary described energy-conserving plate material of claim 1-4, it is characterized in that, in described venting port, also fill getter.

10. a manufacture method for energy-conserving plate material, is characterized in that, described method comprises:

Multiple supporting structure be arranged on lower floor's sheet material, and sealing-in material is arranged on the edge of described lower floor sheet material upper surface, the lower rim of described lower floor sheet material all linearly;

Internal layer sheet material side being offered venting port covers on described lower floor sheet material, forms the first cavity, and described venting port is the groove of through described internal layer sheet material upper and lower surface;

Vapor pipe is arranged in described venting port;

Described multiple supporting structure is arranged on described internal layer sheet material, is staggered with the described multiple supporting structure under described internal layer sheet material, and described sealing-in material is arranged on the edge of described internal layer sheet material upper surface;

Upper strata sheet material is covered on described internal layer sheet material, forms the second cavity, the upper limb of described upper strata sheet material all linearly, in the space that the closed end of described venting port is formed between described upper strata sheet material and described lower floor sheet material;

By sealing-in material described in the high temperature melting that is less than or equal to 500 DEG C, seal airtight for the edge of described upper strata sheet material, lower floor's sheet material and internal layer sheet material;

Vacuumized between each laminate material by described vapor pipe, make vacuum tightness be positioned at 10 ~ 10 ^-6between Pa;

By heater coil wraps outside described vapor pipe, described in energising local heating while vapor pipe, with the root of vapor pipe described in the blast-cold of high pressure cold wind and described sheet material.