CN103510677B - The construction method of architectural pottery thin plate heat preservation decoration integrative structure - Google Patents
The construction method of architectural pottery thin plate heat preservation decoration integrative structure Download PDFInfo
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- CN103510677B CN103510677B CN201310514352.4A CN201310514352A CN103510677B CN 103510677 B CN103510677 B CN 103510677B CN 201310514352 A CN201310514352 A CN 201310514352A CN 103510677 B CN103510677 B CN 103510677B
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Abstract
The present invention relates to building wall curtain field, particularly relate to the construction method of architectural pottery thin plate heat preservation decoration integrative structure, comprise ceramic thermal insulation core composite plate, cementing agent, holder suspension member and body of wall, utilize cementing agent to be fixed on body of wall by ceramic thermal insulation core composite plate together with holder suspension member, heat insulation core material is formed an independently enclosure space by fire prevention liner plate together with ceramic thin plate.The present invention, by above structure and method, integrates decoration, is incubated, high insulating effect, can meet the power conservation requirement in any region, and has good flameproof effect.
Description
Technical field
The present invention relates to building wall curtain field, particularly relate to architectural pottery thin plate heat preservation decoration integrative structure and construction method thereof.
Background technology
The architectural pottery industry of China is developed rapidly in the time of nearly more than ten years, by means of advantages for development and the opportunity of inside and outside, become the production and consumption big country of world architecture pottery, the more than half architectural pottery in the whole world originates from China, and China's architectural pottery occupies consequence on international arena as can be seen here.On vast territory, architectural pottery producing region covers most area, and many areas define the architectural pottery cluster shown unique characteristics.
Current, China's architectural energy consumption, the total energy consumption comprising heating, air-conditioning, ventilation, illumination, hot water, household electrical appliances etc. becomes one of maximum energy consumption.The ratio that energy for building accounts for China's energy consumption rises year by year, and building energy conservation has become one of energy-conservation major fields of the whole society, and wherein building external wall energy-saving insulation is one of emphasis of present building energy conservation consumption reduction.But there is the inflammable shortcoming of insulation packing material as widely used EPS/XPS heat-insulation system etc. in existing building space enclosing structure energy-conservation, particularly exterior wall external insulation system, makes whole outer heat preservation system have fire safety evaluating hidden danger.
Summary of the invention
The object of the invention is to propose architectural pottery thin plate heat preservation decoration integrative structure, there is good insulation and fireproof performance.
Another object of the present invention is to the construction method proposing to build ceramic thin plate heat preservation decoration integrative structure, the architectural pottery thin plate heat preservation decoration integrative structure utilizing the method to construct, integrate decoration, be incubated, high insulating effect, the power conservation requirement in any region can be met, and there is good flameproof effect.
For reaching this object, the present invention by the following technical solutions:
Architectural pottery thin plate heat preservation decoration integrative structure, comprises ceramic thermal insulation core composite plate, cementing agent, holder suspension member and body of wall;
Described ceramic thermal insulation core composite plate comprises ceramic thin plate, heat insulation core material, fire prevention liner plate and polymer mortar compound glass fibre web, described heat insulation core material and described ceramic thin plate are fixed together, described fire prevention liner plate is located at heat insulation core material external surface and in being wrapped in by heat insulation core material together with described ceramic thin plate, form an enclosure space, described polymer mortar compound glass fibre web is located at the described ceramic thermal insulation core composite plate back side, and is placed on fire prevention liner plate;
Described ceramic thermal insulation core composite plate uses described cementing agent to be fixed on described body of wall;
Described holder suspension member is located at the upper and lower both sides of described ceramic thermal insulation core composite plate, gap position between described ceramic thermal insulation core composite plate, described holder suspension member comprises installation portion and supporting part, described installation portion and described supporting part intersect vertically, the described holder suspension member being located at non-end is also respectively equipped with hangers in the both sides of described supporting part, described hangers is embedded in described ceramic thermal insulation core composite plate, described installation portion and described body of wall are fixed, in the gap of described supporting part between described ceramic thermal insulation core composite plate;
Gap between described ceramic thermal insulation core composite plate is provided with insulation packing material and encapsulant.
Further, described heat insulation core material is extruded polystyrene board, and its thickness is equal to, or greater than 30mm, and the size of described ceramic thin plate is less than or equal to 1800mm*900mm*5.5mm, and described adhesive thickness is 10mm-15mm.
Further, the described installation portion of described holder suspension member uses anchoring piece to be fixed on described body of wall, described holder suspension member apart from described ceramic thermal insulation core composite plate both sides of the edge 200mm-250mm, each two up and down.
Further, described holder suspension member is the galvanized steel plain sheet that 2mm is thick, and and is provided with elastomeric pad between described anchoring piece.
Further, described insulation packing material is foam strip, and described encapsulant is fluid sealant or jointing putty.
Further, the gap width between described ceramic thermal insulation core composite plate is 9mm-11mm.
Realize the construction method of architectural pottery thin plate heat preservation decoration integrative structure described above, comprise the steps:
A, surface of wall spot are cleared up;
B, the design attitude by described ceramic thermal insulation core composite plate, cover side, thickness, carry out segmentation lattice bullet lattice unwrapping wire to described surface of wall, and identify the position of described holder suspension member installing hole;
C, with grey cutter by described cementing agent uniform application on the described ceramic thermal insulation core composite plate back side;
D, the described holder suspension member position of mounting hole hand electric boring machine drill hole identifying out, drilling depth is greater than more than the 10mm that described anchoring piece gos deep into wall part length, and is contained on described body of wall with described anchoring piece in advance by described holder suspension member;
E, described ceramic thermal insulation core composite plate is installed;
F, blind;
G, clean described ceramic thermal insulation core composite surface;
Further, the concrete grammar of step e is, according to the line lattice of described body of wall, described ceramic thermal insulation core composite plate is affixed on described body of wall, stablize described ceramic thermal insulation core composite plate must not move and loosen, the described hangers of described holder suspension member is embedded described body of wall simultaneously, then tighten described anchoring piece, described holder suspension member is completely fixed on described body of wall.
Further, the concrete grammar of step f is, first fill in gap with described insulation packing material, insert in gap with described encapsulant again, described encapsulant is fluid sealant or jointing putty, the thickness of described encapsulant is greater than 3mm, gap is hooked into full, closely knit, continuous, even, the bubble-free concave channels of seam.
Further, the concrete grammar of step g is, uses and dips in the cleaning that wet sponge or rag carry out residual described encapsulant, along the wiping gently of described ceramic thermal insulation core composite plate diagonal, unnecessary described encapsulant is wiped.
The present invention, by above structure and method, integrates decoration, is incubated, high insulating effect, can meet the power conservation requirement in any region, and has good flameproof effect.
Accompanying drawing explanation
Fig. 1 is the top view cross section structural representation of an embodiment of integral structure of the present invention.
Fig. 2 is the side cross-sectional structural representation of an embodiment of integral structure of the present invention.
Fig. 3 is the external corner side cross-sectional structural representation of an embodiment of integral structure of the present invention.
Fig. 4 is the inner corner trim side cross-sectional structural representation of an embodiment of integral structure of the present invention.
Fig. 5 is the cross section structure schematic diagram of an embodiment of ceramic thermal insulation core composite plate of the present invention.
Fig. 6 is the perspective view of an embodiment of suspension member of the present invention.
Wherein: 1, ceramic thermal insulation core composite plate; 11, ceramic thin plate; 12 heat insulation core materials; 13, fire prevention liner plate; 14 polymer mortar compound glass fibre webs; 2, cementing agent; 3, suspension member is held in the palm; 31 installation portions; 32, supporting part; 33, hangers; 4, body of wall; 5, packing material is incubated; 6, encapsulant.
Detailed description of the invention
Technical scheme of the present invention is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.
As shown in Figures 1 to 5, architectural pottery thin plate heat preservation decoration integrative structure, comprises ceramic thermal insulation core composite plate 1, cementing agent 2, holder suspension member 3 and body of wall 4;
As shown in Fig. 5 is, described ceramic thermal insulation core composite plate 1 comprises ceramic thin plate 11, heat insulation core material 12, fire prevention liner plate 13 and polymer mortar compound glass fibre web 14, described heat insulation core material 12 is fixed together with described ceramic thin plate 11, described fire prevention liner plate 13 is located at heat insulation core material 12 external surface and in being wrapped in by heat insulation core material 12 together with described ceramic thin plate 11, form an enclosure space, described polymer mortar compound glass fibre web 14 is located at described ceramic thermal insulation core composite plate 1 back side, and be placed on fire prevention liner plate 13, described fire prevention liner plate 13 forms an independently enclosure space with described ceramic thin plate 11, come isolated for described heat insulation core material 12, increase the fireproof performance of ceramic thermal insulation core composite plate 1,
Described ceramic thermal insulation core composite plate 1 uses described cementing agent 2 to be fixed on described body of wall 4;
Described holder suspension member 3 is located at described ceramic thermal insulation core composite plate about 1 both sides, gap position between described ceramic thermal insulation core composite plate 1, described holder suspension member 3 comprises installation portion 31 and supporting part 32 as shown in Figure 6, described installation portion 31 and described supporting part 32 intersect vertically, the described holder suspension member 3 being located at non-end is also respectively equipped with hangers 33 in the both sides of described supporting part 32, described hangers 33 is embedded in described ceramic thermal insulation core composite plate 1, described installation portion 31 is fixed with described body of wall 4, in the gap of described supporting part 32 between described ceramic thermal insulation core composite plate 1, described holder suspension member 3 plays except the effect of described picking-up ceramic thermal insulation core composite plate 1 except using described supporting part 32, also utilize described hangers 33 to be fixed on described body of wall 4 by described ceramic thermal insulation core composite plate 1 simultaneously, a part is used to realize two functions,
Gap between described ceramic thermal insulation core composite plate 1 is provided with insulation packing material 5 and encapsulant 6, increases the heat-insulating property of total further.
Further, described heat insulation core material 12 is extruded polystyrene board, and its thickness is equal to, or greater than 30mm, and the size of described ceramic thin plate 11 is less than or equal to 1800mm*900mm*5.5mm, and described cementing agent 2 thickness is 10mm-15mm.
Further, the described installation portion 31 of described holder suspension member 3 uses anchoring piece to be fixed on described body of wall 4, described holder suspension member 3 apart from described ceramic thermal insulation core composite plate 1 both sides of the edge 200mm-250mm, each two up and down.
Further, described holder suspension member 3 is the galvanized steel plain sheet that 2mm is thick, and and is provided with elastomeric pad between described anchoring piece.
Further, described insulation packing material 5 is foam strip, and described encapsulant 6 is fluid sealant or jointing putty.
Further, the gap width between described ceramic thermal insulation core composite plate 1 is 9mm-11mm.
As shown in Figure 3, be illustrated as an embodiment of integral structure external corner junction of the present invention, adjacent ceramic heat insulation core material composite plate 1 contact site is the hypotenuse cooperatively interacted, and uses encapsulant 6 to fill between ceramic thermal insulation core composite plate 1.
As shown in Figure 4, be illustrated as an embodiment of integral structure inner corner trim junction of the present invention, adjacent ceramic heat insulation core material composite plate 1, wherein a ceramic thermal insulation core composite plate 1 is with its end vertical and another ceramic thermal insulation core composite plate 1 marginal surface, uses insulation packing material 5 and encapsulant to fill 6 between ceramic thermal insulation core composite plate 1.
Realize the construction method of architectural pottery thin plate heat preservation decoration integrative structure described above, comprise the steps:
A, body of wall 4 surface blot are cleared up;
B, the design attitude by described ceramic thermal insulation core composite plate 1, cover side, thickness, carry out segmentation lattice bullet lattice unwrapping wire to described body of wall 4 surface, and identify the position of described holder suspension member 3 installing hole;
C, with grey cutter by described cementing agent 2 uniform application on described ceramic thermal insulation core composite plate 1 back side;
D, the described holder suspension member 3 position of mounting hole hand electric boring machine drill hole identifying out, and with described anchoring piece, described holder suspension member 3 is contained on described body of wall 4 in advance;
E, described ceramic thermal insulation core composite plate 1 is installed;
F, blind;
G, clean described ceramic thermal insulation core composite plate 1 surface;
Further, the concrete grammar of step e is, according to the line lattice of described body of wall 4, described ceramic thermal insulation core composite plate 1 is affixed on described body of wall 4, stablize described ceramic thermal insulation core composite plate 1 must not move and loosen, the described hangers 33 of described holder suspension member 3 is embedded described body of wall 4 simultaneously, then tighten described anchoring piece, described holder suspension member 3 is completely fixed on described body of wall 4.
Further, the concrete grammar of step f is, first fill in gap with described insulation packing material 5, insert in gap with described encapsulant 6 again, described encapsulant 6 is fluid sealant or jointing putty, the thickness of described encapsulant 6 is greater than 3mm, gap is hooked into full, closely knit, continuous, even, the bubble-free concave channels of seam.
Further, the concrete grammar of step g is, uses and dips in the cleaning that wet sponge or rag carry out residual described encapsulant 6, along the wiping gently of described ceramic thermal insulation core composite plate 1 diagonal, unnecessary described encapsulant 6 is wiped.
The architectural pottery thin plate heat preservation decoration integrative structure that the present invention constructs by utilizing above method, utilizes cementing agent 2 ceramic thermal insulation core composite plate 1 to be fixed on body of wall 4 together with holder suspension member 3.Heat insulation core material 12 is formed an independently enclosure space by fire prevention liner plate 13 together with ceramic thin plate 11, improves the fireproof performance of total, has stopped heat insulation core material 12 and has met fiery hidden danger of namely firing; Utilize the independent version block structure of ceramic thermal insulation core composite plate 1 itself, avoid heat insulation core material 12 and burn in flakes and spread the difficult problem with stress release fast.Architectural pottery thin plate heat preservation decoration integrative structure and construction method thereof integrate decoration, are incubated, high insulating effect, the power conservation requirement in any region can be met, can stop to come off risk because of ceramic thermal insulation core composite plate 1 that construction quality causes, and there is extremely excellent weather resistance and chemical property.
Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present invention, and these modes all will fall within protection scope of the present invention.
Claims (9)
1. the construction method of architectural pottery thin plate heat preservation decoration integrative structure, comprises ceramic thermal insulation core composite plate, cementing agent, holder suspension member and body of wall;
Described ceramic thermal insulation core composite plate comprises ceramic thin plate, heat insulation core material, fire prevention liner plate and polymer mortar compound glass fibre web, described heat insulation core material and described ceramic thin plate are fixed together, described fire prevention liner plate is located at heat insulation core material external surface and in being wrapped in by heat insulation core material together with described ceramic thin plate, form an enclosure space, described polymer mortar compound glass fibre web is located at the described ceramic thermal insulation core composite plate back side, and is placed on fire prevention liner plate;
Described ceramic thermal insulation core composite plate uses described cementing agent to be fixed on described body of wall;
Described holder suspension member is located at the upper and lower both sides of described ceramic thermal insulation core composite plate, gap position between described ceramic thermal insulation core composite plate, described holder suspension member comprises installation portion and supporting part, described installation portion and described supporting part intersect vertically, the described holder suspension member being located at non-end is also respectively equipped with hangers in the both sides of described supporting part, described hangers is embedded in described ceramic thermal insulation core composite plate, described installation portion and described body of wall are fixed, in the gap of described supporting part between described ceramic thermal insulation core composite plate;
Gap between described ceramic thermal insulation core composite plate is provided with insulation packing material and encapsulant;
It is characterized in that comprising the steps:
A, surface of wall spot are cleared up;
B, the design attitude by described ceramic thermal insulation core composite plate, cover side, thickness, carry out segmentation lattice bullet lattice unwrapping wire to described surface of wall, and identify the position of described holder suspension member installing hole;
C, with grey cutter by described cementing agent uniform application on the described ceramic thermal insulation core composite plate back side;
D, the described holder suspension member position of mounting hole hand electric boring machine drill hole identifying out, drilling depth is greater than more than the 10mm that anchoring piece gos deep into wall part length, and is contained on described body of wall with described anchoring piece in advance by described holder suspension member;
E, described ceramic thermal insulation core composite plate is installed;
F, blind;
G, clean described ceramic thermal insulation core composite surface.
2. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, it is characterized in that: described heat insulation core material is extruded polystyrene board, its thickness is equal to, or greater than 30mm, the size of described ceramic thin plate is less than or equal to 1800mm*900mm*5.5mm, and described adhesive thickness is 10mm-15mm.
3. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, it is characterized in that: the described installation portion of described holder suspension member uses anchoring piece to be fixed on described body of wall, described holder suspension member apart from described ceramic thermal insulation core composite plate both sides of the edge 200mm-250mm, each two up and down.
4. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 3, is characterized in that: described holder suspension member is the galvanized steel plain sheet that 2mm is thick, and and is provided with elastomeric pad between described anchoring piece.
5. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, is characterized in that: described insulation packing material is foam strip, and described encapsulant is fluid sealant or jointing putty.
6. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, is characterized in that: the gap width between described ceramic thermal insulation core composite plate is 9mm-11mm.
7. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, it is characterized in that: the concrete grammar of step e is, according to the line lattice of described body of wall, described ceramic thermal insulation core composite plate is affixed on described body of wall, stablize described ceramic thermal insulation core composite plate must not move and loosen, the described installation portion of described holder suspension member is mounted on described body of wall simultaneously, then tighten described anchoring piece, described holder suspension member is completely fixed on described body of wall.
8. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, it is characterized in that: the concrete grammar of step f is, first fill in gap with described insulation packing material, insert in gap with described encapsulant again, described encapsulant is fluid sealant or jointing putty, the thickness of described encapsulant is greater than 3mm, gap is hooked into full, closely knit, continuous, even, the bubble-free concave channels of seam.
9. the construction method of architectural pottery thin plate heat preservation decoration integrative structure according to claim 1, it is characterized in that: the concrete grammar of step g is, use and dip in the cleaning that wet sponge or rag carry out residual described encapsulant, along the wiping gently of described ceramic thermal insulation core composite plate diagonal, unnecessary described encapsulant is wiped.
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DE10138507A1 (en) * | 2001-02-09 | 2002-08-29 | Peter Kellner | Building facade of natural stone is composed of groups of thin stone plates, assembled in groups at a carrier layer, without gaps between them within groups but leaving open diffusion gaps at the joints between groups |
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CN201245944Y (en) * | 2008-08-21 | 2009-05-27 | 钟德清 | Stone material decorative board capable of dried hanging and wet pasting with cellular |
CN201539058U (en) * | 2009-05-14 | 2010-08-04 | 浙江中久节能科技有限公司 | Housing-type insulated decorative plate |
CN202925798U (en) * | 2012-05-28 | 2013-05-08 | 冯刚克 | Wall vacuum fireproof and heat-preserving decorative integral plate |
CN203514700U (en) * | 2013-10-24 | 2014-04-02 | 广东蒙娜丽莎新型材料集团有限公司 | Building ceramic sheet heat insulation and decoration integrated structure |
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2013
- 2013-10-24 CN CN201310514352.4A patent/CN103510677B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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DE10138507A1 (en) * | 2001-02-09 | 2002-08-29 | Peter Kellner | Building facade of natural stone is composed of groups of thin stone plates, assembled in groups at a carrier layer, without gaps between them within groups but leaving open diffusion gaps at the joints between groups |
CN2895573Y (en) * | 2006-09-29 | 2007-05-02 | 上海晓宝轻质建材有限公司 | Aluminium-plastic heat-insulation sandwiched curtain wall board |
CN201245944Y (en) * | 2008-08-21 | 2009-05-27 | 钟德清 | Stone material decorative board capable of dried hanging and wet pasting with cellular |
CN201539058U (en) * | 2009-05-14 | 2010-08-04 | 浙江中久节能科技有限公司 | Housing-type insulated decorative plate |
CN202925798U (en) * | 2012-05-28 | 2013-05-08 | 冯刚克 | Wall vacuum fireproof and heat-preserving decorative integral plate |
CN203514700U (en) * | 2013-10-24 | 2014-04-02 | 广东蒙娜丽莎新型材料集团有限公司 | Building ceramic sheet heat insulation and decoration integrated structure |
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