CN101736820B - Heat insulating member with flexible positioning member - Google Patents
Heat insulating member with flexible positioning member Download PDFInfo
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- CN101736820B CN101736820B CN200910186888A CN200910186888A CN101736820B CN 101736820 B CN101736820 B CN 101736820B CN 200910186888 A CN200910186888 A CN 200910186888A CN 200910186888 A CN200910186888 A CN 200910186888A CN 101736820 B CN101736820 B CN 101736820B
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- warming plate
- flexible
- heat insulating
- topping
- flexible fiber
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Abstract
The invention belongs to the technical field of building materials, relating to a heat insulating member with a flexible positioning member. The heat insulating member with the flexible positioning member is characterized in that one side face or two side faces of a heat insulating plate are dipped with waterproofing layers, a protecting layer is arranged outside the other side face of the heat insulating plate or the waterproofing layers of the two side faces, and flexible fibers outwards extending out of the protecting layer or the heat insulating plate are arranged in the protecting layer or the heat insulating plate. The connecting member of the heat insulating member with the flexible positioning member is characterized in that the cross section of a positioning member made of fiber reinforced plastics is in a straight line structure with an anchoring hole or a U-shaped structure or a positioning edge outwards extends at the end of the side edge of a U-shaped opening, and the positioning member and a flexible heat insulting material forms the connecting member capable of filling in a gas between the adjacent two heat insulating plates. The heat insulating member has the advantages of light weight, high strength, good heat insulating effect, firm positioning and strong wave adsorbing and shielding capacity.
Description
Technical field
The invention belongs to building materials technology field, refer in particular to a kind of heat preservation structural component and connector thereof with flexible positioning.
Background technology
Existing heat insulating material has the polyphenyl thermal insulation mortar, materials such as inorganic heat insulation mortar and foamed plastics, and polyphenyl thermal insulation mortar and inorganic heat insulation mortar have water absorption and swelling; Shortcomings such as intensity and heat-insulating property are inversely proportional to, and construction is complicated, and application life is short; Various foamed plastics fireproof performances are poor, and intensity is low, and permeability is bad; Construction is complicated, and application life is short;
Mostly its insulation layer of existing insulation and decoration integrated plate is organic foam plastic, and its moisture-vapor transmission is low, and indoor moisture can't be discharged, and moisture condenses in exterior surface of wall easy generation condensation reaction and freeze thawing circulation major structure of construction is damaged; And directly influence the steadiness and the application life of heat-insulation system, though insulation and decoration integrated plate has satisfied the insulation requirement, its cost is high; Construction cost is big, long construction period, and heat-insulation system is short application life; Gas permeability is poor, causes shortcomings such as the muddy uncomfortable pleasant inhabitation of room air, and mostly its outside finish is the calcium silicate board class; The fiber cement board class, the metal sheet class, compound resin plate class is formed; And how its outside finish is connected with insulation layer through sticking mode, and overall performance is bad, and existing practical applications insulation and decoration integrated plate system is mainly used from outer beautiful decoration consideration.
Because existing building creeps at build, internal stress, leeway, surface temperature difference and heat insulation system self adapt under the influence of factors such as strain capacity difference; All there is the crack occurrence phenomenon in the heat insulation system of above-mentioned heat insulating material and formation thereof, influences heat insulation effect and insulation life.The existing used keeper of heat insulation system all is good thermal conductors, is prone to form cold bridge, causes stress raisers; And cause the part to ftracture; And existing keeper is crept difference down what building body and insulation layer expanded with heat and contract with cold for a long time, and the surface layer of heat insulation system is produced stretching and extruding force, causes the surface layer of heat insulation system raised or sunken; Promptly influence the safe permanence of heat insulation system, again the whole decorative effect of influence.
Summary of the invention
The purpose of this invention is to provide a kind of heat preservation structural component with flexible positioning.
The objective of the invention is to realize like this:
A kind of heat preservation structural component with flexible positioning; On the face of the one or both sides of warming plate, be impregnated with one deck waterproofing course; Be outside equipped with topping in the another side of warming plate or the waterproofing course of two sides, be extended down to the flexible fiber outside the topping or outside the warming plate outside in topping or warming plate, being provided with.
Above-mentioned flexible fiber is: flexible fiber bundle bar or flexible fibrous web or flexible fiber rib or flexible fiber band.
Above-mentioned flexible fiber has one or a face at least in topping or warming plate, have at least the topping of a side to stretch out outside the warming plate, and flexible fiber is at the warming plate Outboard Sections, but the coated with resins topping.
Be dispersed with fine titanium white powder of rutile-type and chopped strand in the above-mentioned warming plate; The fineness of the fine titanium white powder of described rutile-type is nanoscale or micron order, and one of them or two or more combinations replace being no more than the titanium white powder of 50% weight to also available other absorbing material like: carbonyl iron dust, metal or alloy powder, acetylene carbon black.
Above-mentioned warming plate is to process with the inorganic material of the organic material of porous or porous or its mixture, and described waterproofing course forms on one of warming plate or two sides, flooding silane respectively.
Above-mentioned topping is screed or resin bed or its mixture that contains fiber, and resin bed or screed or its mixture are to be bonded on the warming plate after prefabricated, and prefabricated topping and the bonding plane that is bonded on the warming plate can not be provided with waterproofing course; Or mortar or the resin or its mixture that contain fiber directly spread upon and form topping on the warming plate, and the external surface of described topping can be manufactured with decorative layer simultaneously, when warming plate is the organic material of porous, waterproofing course can be set.
Above-mentioned flexible fiber and chopped strand are basalt fibres.
Above-mentioned chopped strand contains≤20% carbon fiber.
A kind of connector of the heat preservation structural component with flexible positioning; The cross section that uses the keeper that fibre reinforced plastics process has yi word pattern structure or
font structure of anchor hole or is outward extended with gulde edge in the end of the open side edges of
font as the middle part; Keeper and gentle elastic heat preserving material form the connector that can fill up gap between adjacent two warming plates; Gentle elastic heat preserving material can be that inorganic material or its mixture of organic material or the porous of prefabricated porous process, and also can be the flexible heat-insulating slurry of filling titanium white powder and chopped strand and smears and form.
Above-mentioned fibre reinforced plastics are basalt fibre or aramid fiber or its mixture, and keeper can be: haplotype or packaging or size adjustable type.
The present invention compares the outstanding advantage of prior art:
The keeper (coefficient of thermal conductivity of basalt fibre is about 0.03W/m.k) that 1, low heat conductivity is arranged in the warming plate of the present invention (heat preservation structural component); Be connected fixing between the flexible positioning of warming plate self and the keeper; Warming plate is fixed on the building substrate through bonding adhesive, forms the dual fail-safe of being fixed in building substrate.
2, flexible positioning of the present invention can absorb internal stress and the applied force that discharges various complicacies; And; Even under the seismic force effects of complicacy, also can consume energy damping; Even the resistance to overturning of maintaining whole heat insulation system through spontaneous strain with stop cracking; Gentle elastic heat preserving material in the validity that keeps the heat insulation system heat-insulating property, warming plate is through being out of shape the volumetric change that also can adapt to heat insulation system, and above-mentioned measure assurance heat insulation system can not ftracture under the effect of various internal force external force or break away from building substrate.
3, be dispersed with fine titanium white powder (also can add other absorbing material of being no more than 50% titanium white powder weight as: carbonyl iron dust, metal or alloy powder, acetylene carbon black) and a spot of chopped strand in the warming plate of the present invention, strengthened the intensity of warming plate on the one hand, make warming plate have good absorbing property on the other hand again; Because titanium white powder has good heat radiation screening performance;, thereby have good suction ripple screening ability, through the addition content of adjustment titanium white powder and carbon fiber; Can effectively reduce or eliminate the harmful effect of electromagnetic radiation to human body or equipment; And the small amount of carbon fiber that scatters is a good conductor of electricity, makes warming plate both have the magnetic loss performance of titanium white powder, has the conductive network of dispersed carbon fiber again; Loose structure that warming plate has in addition; Coordinated the impedance matching of warming plate, thereby made warming plate have remarkable wave-sucking performance, avoided the potential safety hazard of divulging a secret because of device signal; Product is had widely to be used; As: R&D institution, military system, power system, communication system, aerospace system, residential quarter etc., fibroreticulate composition in the adjustment topping and density and the content that increases titanium white powder in the warming plate can make warming plate have the suction ripple screening ability more than 90%.
Description of drawings
Fig. 1 is the sectional view of one of structure of heat preservation structural component of the present invention;
Fig. 2 is two a sectional view of the structure of heat preservation structural component of the present invention;
Fig. 3 is two a sectional view of the structure of keeper of the present invention;
Fig. 4 is two a sectional view of the structure of keeper of the present invention;
Fig. 5 is the schematic cross-sectional view of the present invention and building substrate;
Fig. 6 is the A place enlarged drawing of this Fig. 5;
Fig. 7 be topping of the present invention in the relative both sides of heat preservation structural component the schematic perspective view when overhanging;
The schematic perspective view of Fig. 8 when to be topping of the present invention around heat preservation structural component overhanging;
Fig. 9 is the schematic perspective view that extension goes out the flexible fiber band in topping of the present invention;
Figure 10 is the schematic perspective view that extension goes out flexible fibrous web in topping of the present invention;
Figure 11 be in topping of the present invention extension go out the flexible fiber band and topping and flexible fiber band the outer termination synapsis set up the schematic perspective view of reinforcing band, reinforcing band is identical with the material of flexible fiber band.
The specific embodiment
With specific embodiment the present invention is further described below, referring to Fig. 1-11:
A kind of heat preservation structural component 1 with flexible positioning; On the face of the both sides of warming plate 11 (or a side), be impregnated with one deck waterproofing course 12; Waterproofing course 11 in the another side (or two sides) of warming plate 11 is outside equipped with topping 13, is extended down to the flexible fiber 14 of (or outside warming plate 11) outside the topping 13 outside in topping 13 (or warming plate 11), being provided with.
Above-mentioned flexible fiber 14 is: flexible fiber bundle bar or flexible fibrous web 142 or flexible fiber rib or flexible fiber band 141.
Above-mentioned flexible fiber 14 has two flexible fiber bands 141 or one deck flexible fibrous web 142 of intersection at topping (or in warming plate); Have at least the topping 13 of two sides to stretch out warming plate 11 outer (Fig. 7); Or the topping 13 that four sides are arranged stretches out warming plate 11 outer (Fig. 8); Flexible fiber 14 is coated with resin protective layer at the Outboard Sections of warming plate 11.
Be dispersed with fine titanium white powder of rutile-type and chopped strand in the above-mentioned warming plate 11; The fineness of the fine titanium white powder of described rutile-type is nanoscale or micron order, and one of them or two or more combinations replace being no more than the titanium white powder of 50% weight to also available other absorbing material like: carbonyl iron dust, metal or alloy powder, acetylene carbon black.
Above-mentioned warming plate 11 is to process with the inorganic material of the organic material of porous or porous or its mixture, and described waterproofing course 12 forms (Fig. 1, Fig. 2) on one of warming plate 11 or two sides, flooding silane respectively.
Above-mentioned topping 13 is screed or resin bed or its mixtures that contain fiber; Described resin bed or screed or its mixture are to be bonded on the warming plate 11 after prefabricated; One adhesive linkage 16 is arranged when being bonded on the warming plate behind the prefabricated topping 13; When adhesive linkage 16 is arranged, on the bonding plane of warming plate waterproofing course 12 can be set; Or mortar or the resin or its mixture that contain fiber directly spread upon and form topping 13 on the warming plate 11, and the external surface of described topping can be manufactured with decorative layer 15 simultaneously, when warming plate 11 is the organic material of porous, waterproofing course 12 can be set.
Above-mentioned flexible fiber 14 and chopped strand are basalt fibres.
Above-mentioned chopped strand contains≤20% carbon fiber.
A kind of connector of the heat preservation structural component 1 with flexible positioning; The cross section that uses the keeper that fibre reinforced plastics process has yi word pattern structure or
font structure (Fig. 4) of anchor hole 23 or is outward extended with gulde edge 22 (Fig. 3) in the end of the open side edges of
font as middle part 21; Keeper 2 and gentle elastic heat preserving material 3 form the connector that can fill up gap between adjacent two warming plates; Gentle elastic heat preserving material 3 can be that inorganic material or its mixture of organic material or the porous of prefabricated porous process, and also can be the flexible heat-insulating slurry of filling titanium white powder and chopped strand and smears and form.
Above-mentioned fibre reinforced plastics are basalt fibre or aramid fiber or its mixture, and keeper 2 can be: haplotype or packaging or size adjustable type.
During use, two adjacent heat preservation structural components 1 can connect through connector 2, and are fixed on the building substrate 25 through anchor hole on the connector 2 23 and cement nail 24.
The foregoing description is merely one of preferred embodiment of the present invention, is not to limit protection scope of the present invention according to this, so: all equivalences of doing according to structure of the present invention, shape, principle change, and all should be covered by within protection scope of the present invention.
Claims (5)
1. heat preservation structural component with flexible positioning; It is characterized in that: on the two sides of warming plate, be impregnated with one deck waterproofing course; Waterproofing course in the two sides of warming plate is outside equipped with topping; Be extended down to the flexible fiber outside the topping or outside the warming plate outside in topping or warming plate, being provided with, described flexible fiber is: flexible fiber bundle bar or flexible fiber rib or flexible fiber band, described flexible fiber have one at least in topping or warming plate; Have at least the topping of a side to stretch out outside the warming plate, flexible fiber is coated with resin protective layer at the Outboard Sections of warming plate.
2. a kind of heat preservation structural component according to claim 1 with flexible positioning; It is characterized in that: be dispersed with fine titanium white powder of rutile-type and chopped strand in the described warming plate; The fineness of the fine titanium white powder of described rutile-type is nanoscale or micron order, perhaps replaces being no more than the said titanium white powder of 50% weight with carbonyl iron dust, alloy powder, acetylene carbon black one of them or two or more combinations.
3. a kind of heat preservation structural component according to claim 1 with flexible positioning; It is characterized in that: described warming plate is to process with the inorganic material of the organic material of porous or porous or its mixture, and described waterproofing course forms on the two sides of warming plate, flooding silane respectively.
4. a kind of heat preservation structural component with flexible positioning according to claim 2, it is characterized in that: described flexible fiber and chopped strand are basalt fibres.
5. a kind of heat preservation structural component with flexible positioning according to claim 4 is characterized in that: described chopped strand contains≤and 20% carbon fiber.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN200910186888A CN101736820B (en) | 2009-12-31 | 2009-12-31 | Heat insulating member with flexible positioning member |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN200910186888A CN101736820B (en) | 2009-12-31 | 2009-12-31 | Heat insulating member with flexible positioning member |
Publications (2)
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CN101736820A CN101736820A (en) | 2010-06-16 |
CN101736820B true CN101736820B (en) | 2012-09-19 |
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CN200910186888A Expired - Fee Related CN101736820B (en) | 2009-12-31 | 2009-12-31 | Heat insulating member with flexible positioning member |
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Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101845855A (en) * | 2010-06-28 | 2010-09-29 | 四川正升声学科技有限公司 | Combined type electromagnetic shielding and sound absorbing module |
DE102016001563A1 (en) * | 2016-02-12 | 2017-08-17 | Saint-Gobain Weber Gmbh | Recoverable composite thermal insulation system and method for its production and removal |
CN114482392A (en) * | 2022-02-25 | 2022-05-13 | 三一筑工科技股份有限公司 | Wallboard and manufacturing method thereof |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2222193Y (en) * | 1995-01-20 | 1996-03-13 | 李圣勇 | Inner thermal-insulating partition wall |
CN101042945A (en) * | 2006-07-20 | 2007-09-26 | 永州市健民射线防护设备有限公司 | Environment-friendly type radiation protection composite board |
CN101492938A (en) * | 2009-02-23 | 2009-07-29 | 宫海西 | Construction body with thermal insulation and construction method |
CN101497254A (en) * | 2009-02-19 | 2009-08-05 | 佟培杰 | Insulation plate as well as method for producing and installing the same |
-
2009
- 2009-12-31 CN CN200910186888A patent/CN101736820B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2222193Y (en) * | 1995-01-20 | 1996-03-13 | 李圣勇 | Inner thermal-insulating partition wall |
CN101042945A (en) * | 2006-07-20 | 2007-09-26 | 永州市健民射线防护设备有限公司 | Environment-friendly type radiation protection composite board |
CN101497254A (en) * | 2009-02-19 | 2009-08-05 | 佟培杰 | Insulation plate as well as method for producing and installing the same |
CN101492938A (en) * | 2009-02-23 | 2009-07-29 | 宫海西 | Construction body with thermal insulation and construction method |
Non-Patent Citations (1)
Title |
---|
JP特开2004-204606A 2004.07.22 |
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CN101736820A (en) | 2010-06-16 |
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Granted publication date: 20120919 Termination date: 20131231 |