CN107663905A

CN107663905A - Heat-barrier material for building

Info

Publication number: CN107663905A
Application number: CN201610607374.9A
Authority: CN
Inventors: 朴珉秀
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-07-28
Filing date: 2016-07-28
Publication date: 2018-02-06
Anticipated expiration: 2036-07-28
Also published as: CN107663905B

Abstract

The present invention provides a kind of heat-barrier material for building, 60~75wt% low density polyethylene (LDPE) (LDPE) resin will be mixed, 7~13wt% fire retardant, 14~17wt% foaming agent, 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, the synthetic resin foaming body (10) to be foamed after 0.8~1.2wt% surfactant is placed in center, bonding is clipped in fiberglass weaving piece (20) and additional insulation paper tinsel (40) between the heat-insulated paper tinsel in side (21) and the heat-insulated paper tinsel of opposite side (22), thus after the fire resistance of synthetic resin foams (10) and the fire resistance zoarium of fiberglass weaving piece (20), it can ensure that flame retardant effect is stronger, effect of heat insulation can also be made to perform to maximum.

Description

Heat-barrier material for building

Technical field

The present invention relates to a kind of heat-barrier material (INSULATOR FOR BUILDING) for building, more particularly to a kind of ECDC After the fire resistance of resin foams and the fire resistance zoarium of fiberglass weaving piece, it can ensure that flame retardant effect is stronger, also Effect of heat insulation can be made to perform to the heat-barrier material for building of maximum.

Background technology

Generally, heat-barrier material for building is used as interior exterior material for building, and it is bonded on building masonry wall, separates room Inside and outside hot gas, to keep indoor temperature.

Fig. 1 a are the reflections for possessing anti-flammability of prior art literature (Republic of Korea's registered patent publication the 1383043rd) The stereogram of type heat-barrier material, Fig. 1 b are the exploded perspectives of the reflection type thermal insulation material for possessing anti-flammability of prior art literature Figure, Fig. 1 c are the partial magnified sectional views of the reflection type thermal insulation material for possessing anti-flammability of prior art literature.

According to the reflection type thermal insulation material for possessing anti-flammability of prior art literature, as shown in Fig. 1 a to Fig. 1 c, it is by such as Lower part is formed：Anti-flammability insulation foam 210, it is by polypropylene (PP) resin, polyethylene (PE) resin, low density polyethylene (LDPE) (LDPE) a kind of fire retardant 58~62 in the weight % of a kind of resin 36~40 in resin, organic fire-retardant, inorganic combustion inhibitor The flame retardant resin mixture that the weight % and weight % of antioxidant 1~3 is formed forms holey, more abortive haul shapes Each hole 211 is surrounded by next door 212 and reflectance coating 220, so as to form the air layer with heat-blocking action, the thickness of holey The thickness ratio in next door 212 of the degree with forming hole 211 is 10：8；Aluminum reflectance coating 220, it is bonded in a manner of thermal welding fire-retardant The upper and lower surface of property insulation foam 210, and possess hot line reflecting properties；And anti-corrosion film coating 230, reflecting On the aerial surface of exposure of film 220, thickness is carried out up to 0.5 ± 0.1 μm of film coating with polyester (PET) resin.

But account for 58~62 weights according to fire retardant in the reflection type thermal insulation material for possessing anti-flammability of prior art literature % is measured, in this case, as by polypropylene (PP) resin, polyethylene (PE) resin or low density polyethylene (LDPE) (LDPE) resin To harden into image-stone block the same for the anti-flammability insulation foam 210 of the result thing formed of foaming, and finally will be unable to be used as building Heat-barrier material, especially, even if it is fit with aluminum reflectance coating 220, still suffer from the limitation that flame retardant effect can not be performed to maximum Property.

Prior art literature

Patent document

Republic of Korea's registered patent publication the 1383043rd (possesses reflection type thermal insulation material and its manufacturer of anti-flammability Method；2014.04.08 bulletin)

Republic of Korea registers utility model No. 0432661 (heat-barrier material for building of publication；2006.12.06 bulletin)

(the interior exterior heat-barrier material for building of Korean published Patent publication the 2009-0132093rd；2009.12.30 It is open)

(the radiation heat-reflecting heat-insulating material of Korean published Patent publication the 2011-0123830th；It is 2011.11.16 public Open)

Republic of Korea's registered patent publication No. 1196488 (heat-reflecting heat-insulating material and its manufacture method；2012.11.01 Bulletin)

The content of the invention

Technical problem

It is an object of the invention to provide a kind of heat-barrier material for building, fire resistance and glass through synthetic resin foams After the fire resistance zoarium of fiber weaving piece, it can be ensured that flame retardant effect is stronger, moreover it is possible to effect of heat insulation is performed to maximum.

It is an object of the invention to provide a kind of heat-barrier material for building, the very thin thickness of fiberglass weaving piece, can but borrow Help it is woven intersection body between numerous stomata, play circulation air, condensation collect and dry etc. function, heat-insulated performance can be made To ultimate attainment, and it is simple to manufacture, can guarantee that productivity ratio.

It is an object of the invention to provide a kind of heat-barrier material for building, compared with general glass fibre, can be obviously reduced Its thickness, it is ensured that diminution occupy space, more can ensure that logistics movement and logistics keeping simplicity, significantly reduce cost of transportation and Keeping cost, and more can ensure that the simplicity operated during the inside and outside wall for being adhered to building.

It is an object of the invention to provide a kind of heat-barrier material for building, suppression smog occurs, non-toxic and innocuousness is prominent, It is safe, so as to realize environmental protection.

Technical scheme

To reach above-mentioned purpose, of the invention is essentially characterized in that, including：Synthetic resin foams, by 60~75wt% Low density polyethylene (LDPE) (LDPE) resin, 7~13wt% fire retardant, 14~17wt% foaming agent, 0.3~0.6wt% Stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~1.2wt% surfactant foam after mixing and formed；Glass fibre is knitted Piece is made, is clipped between the heat-insulated paper tinsel in side and the heat-insulated paper tinsel of opposite side, and is adhered on the one side of above-mentioned synthetic resin foams；With And additional insulation paper tinsel, it is adhered on the another side of above-mentioned synthetic resin foams.

Invention effect

Effect of the invention is that the fire resistance of fire resistance and fiberglass weaving piece through synthetic resin foams After zoarium, it can be ensured that flame retardant effect is stronger, moreover it is possible to effect of heat insulation is performed to maximum.

The effect of the present invention also resides in, the very thin thickness of fiberglass weaving piece, but can be by between woven intersection body Numerous stomata, play circulation air, the function such as condensation is collected and is dried, can make it is heat-insulated perform to ultimate attainment, and be simple to manufacture, It can guarantee that productivity ratio.

The effect of the present invention also resides in, and compared with general glass fibre, its thickness can be obviously reduced, it is ensured that diminution occupies Space, more can ensure that the simplicity of logistics movement and logistics keeping, reduce cost of transportation and keeping cost significantly, and more can be true Protect the simplicity for being adhered to and being operated during the inside and outside wall of building.

The effect of the present invention also resides in, and suppression smog occurs, non-toxic and innocuousness is prominent, safe, so as to realize Environmental protection.

Brief description of the drawings

Fig. 1 a are the stereograms of the reflection type thermal insulation material for possessing anti-flammability of prior art literature.

Fig. 1 b are the exploded perspective views of the reflection type thermal insulation material for possessing anti-flammability of prior art literature.

Fig. 1 c are the partial magnified sectional views of the reflection type thermal insulation material for possessing anti-flammability of prior art literature.

Fig. 2 a are the exploded perspective views of the heat-barrier material for building of the present invention.

Fig. 2 b are the profiles for including building inwall of heat-barrier material for building to illustrate the invention.

Fig. 2 c are to represent the fiberglass weaving piece and the heat-insulated paper tinsel in side suitable for the heat-barrier material for building of the present invention The concept map of laminated appearance.

Fig. 3 a to Fig. 3 c are the test report copies of the heat-barrier material for building of the present invention.

Description of reference numerals

10：Synthetic resin foaming body

20：Fiberglass weaving piece

21：The heat-insulated paper tinsel in side

22：The heat-insulated paper tinsel of opposite side

P：Polyurethanes welding film

40：Additional insulation paper tinsel

50：Additional synthetic resin foaming body

60：Other heat-insulated paper tinsels

G：Next door

A：Air chamber

Embodiment

Referring to the drawings, the preferred embodiment of the heat-barrier material for building of the present invention is illustrated, if the embodiment can have Dry, by these embodiments, it is better understood objects, features and advantages of the present invention.

Fig. 2 a be the present invention heat-barrier material for building exploded perspective view, Fig. 2 b be to illustrate the invention it is for building every The profile for including building inwall of hot material.

As shown in Figure 2 a and 2 b, heat-barrier material for building of the invention includes：Synthetic resin foams 10；Glass fibre Woven sheet 20, it is clipped between the heat-insulated paper tinsel 21 in side and the heat-insulated paper tinsel 22 of opposite side, is adhered on the one side of synthetic resin 10；And Additional insulation paper tinsel 40, it is adhered on the another side of synthetic resin foams 10.

At this moment, synthetic resin foams 10 are by 60~75wt% low density polyethylene (LDPE) (LDPE) resin, 7~13wt% Fire retardant, 14~17wt% foaming agent, 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~ After 1.2wt% surfactant mixing, formation of foaming.

Low density polyethylene (LDPE) (LDPE；Low Density PolyEthylene) it is the synthetic resin made of ethene, its Water resistance, chemical resistance and electrical insulating property with brilliance, are often used as packaging material, sound-absorbing material, cable insulation etc., In the present invention, it is used as the main material of heat-barrier material for building, is 60~75wt%, to ensure fire-retardant effect, fire retardant is extremely 14wt% should be maintained less, and is hard such as stone when avoiding foaming, it is ensured that soft buffering and the performance bent, should be at most limited in 17wt%, in addition, in order that stable mixing together when fire retardant and the mutual mixing and foaming of low density polyethylene (LDPE), should match somebody with somebody Close 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~1.2wt% surfactant.

Will be provided with above-mentioned weight than synthetic resin foams 10, be clipped in the heat-insulated paper tinsel 21 in side and the heat-insulated paper tinsel 22 of opposite side it Between fiberglass weaving piece 20 and additional insulation paper tinsel 40 clip together, make synthetic resin foams 10 fire resistance and The anti-flammability of fiberglass weaving piece 20 is fit, it is ensured that flame retardant effect is stronger, and effect of heat insulation is performed to maximum.

It is preferred that synthetic resin foams 10 possess air chamber A, the air chamber A is surrounded by next door G, and full of interior can be blocked The air of outer hot gas.

Because being had differences between temperature caused by the temperature transmitted from building masonry wall and interior, so as to inside and outside generating chamber Temperature difference, in the present invention, by the fiberglass weaving piece 20 being clipped between the heat-insulated paper tinsel 21 in side and the heat-insulated paper tinsel 22 of opposite side With additional insulation paper tinsel 40, air chamber A is full of air, significantly reduces heat transfer, so further enhancing effect of heat insulation.

Especially, air chamber A is full of air, compared to pyroconductivity be 0.036W/m.K synthetic resin foams 10, with Relatively low pyroconductivity 0.02W/m.K air layer, further doubles effect of heat insulation.

Fig. 2 c are represented suitable for heat-barrier material for building of the invention in the heat-insulated paper tinsel 21 in side and the heat-insulated paper tinsel of opposite side The concept map of the outward appearance of glass fibre manufacture piece 20 is clamped between 22.

When clamping glass fibre manufacture piece 20 between the heat-insulated paper tinsel 21 in side and the heat-insulated paper tinsel 22 of opposite side, as shown in Figure 2 c, Characterized in that, polyurethanes welding film P is placed in into centre, simple realization eutectic connects lamination, and at this moment eutectic connects laminating temperature and is 90~120 DEG C.

Fiberglass weaving piece 20 is that glass fibre intersected into (Cross) woven thin slice, and its thickness is 0.1~2mm, pole It is thin, there is pliability as the heat-insulated paper tinsel 22 of paper tinsel 21 and opposite side heat-insulated with side, so being capable of volume to volume rand supply side progress Mutual lamination, the very thin thickness of this fiberglass weaving piece 20 but can be by numerous between woven intersection body Stomata, play circulation air, the function such as condensation is collected and is dried, make it is heat-insulated perform to ultimate attainment, and be simple to manufacture, can guarantee that life Yield.

Especially, compared with general glass fibre, its thickness can be obviously reduced, it is ensured that diminution occupies space, more can ensure that Logistics movement and the simplicity of logistics keeping, reduce cost of transportation and keeping cost, more can ensure that and be adhered to building significantly The simplicity operated during the inside and outside wall of thing.

Meanwhile foundation embodiments of the invention, additional synthetic resin foaming body 50 can be also bonded on additional insulation paper tinsel 40, The additional synthetic resin foaming body 50 be by 60~75wt% low density polyethylene (LDPE) (LDPE) resin, 7~13wt% it is fire-retardant Agent, 14~17wt% foaming agent, 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~1.2wt% Surfactant mixing after, formation of foaming, other heat-insulated paper tinsels 60 can be also bonded on this synthetic resin foaming body 50, when So it can also expand multiple layers again.

In addition, additional synthetic resin foaming body 50 also possesses air chamber A certainly, the air chamber A is surrounded by next door G, and is full of The air of indoor and outdoor hot gas can be blocked.

In addition, fire retardant is one kind in magnesium hydroxide, aluminium hydroxide and boron compound, foaming agent is ammonium class or phosphoamide Class, stabilizer are silicone oil, and crosslinking agent is hydrogen peroxide, and surfactant is alkylbenzenesulfonate (alkylbenzene sulfonate)。

The problem of existing fire retardant, is, when manufacturing heat-barrier material for building and when producing flame, can produce a large amount of Poisonous and pernicious gas, especially, toxicity can be carried when conventional halogen compounds and antimony oxide use parallel, can be produced during burning Raw substantial amounts of halogen gas, so with harmful to human, cause the problems such as equipment corrosion, and magnesium hydroxide, aluminium hydroxide Be the fire retardant that can solve this shortcoming with boron compound, and there is no pernicious gas, be suppress caused by smog, it is non-toxic and Environment friendly flame retardant that innocuousness protrudes, safe, can be efficiently applied to the present invention.

Foaming agent can enumerate the ammonium carbonate of ammonium class and the azodicarbonamide (Azodicarbonamide) of carbonyl amines, this Kind foaming agent makes low density polyethylene (LDPE) together with stabilizer silicone oil, crosslinking agent hydrogen peroxide, surfactant alkylbenzenesulfonate After being steeped with fire retardant hybrid concurrency, gas can be leaked and reduce to minimum, and promote its mixing together, it is ensured that the conjunction as its result thing The anti-flammability and thermal insulation of resin foaming body 10, while can also to greatest extent reduce and nuisance caused by fire occurs Matter.

Embodiment

For the heat-barrier material for building according to the present invention, Institute for Research and Technology of South Korea is according to territory ocean portion's bulletin the No. 2012-624 implements performance test, and its test report is as shown in Fig. 3 a to 3c.

【Table 1】

As shown in Fig. 3 a and table 1, it is ready to after the heat-barrier material sample for building 1,2,3 according to the present invention, implements fire The result of calamity experiment, the standard of total rate of heat release is 8MJ/m², and according to the present invention heat-barrier material sample 1 for building, 2,3 points Wei not 0.8MJ/m², 0.3MJ/m², 0.8MJ/m², therefore it is suitable, rate of heat release continues to exceed 200kw/m²Time (s) mark Standard is below 10s, and according to the heat-barrier material sample 1 for building of the present invention, 2,3 be respectively 0s, 0s, 0s, therefore suitable, is occurred The crack of all meltings, the insertion of heartwood and cavity etc. are unchanged during fire, therefore suitably, being averaged for mouse stops the time The standard of (min, s) is 9min, and the heat-barrier material for building according to the present invention is 14m 12s, 13m 48s, therefore suitably.

【Chart 1】

As shown in Fig. 3 b and chart 1, the heat-barrier material for building of the foundation present invention of preparation is the sample for possessing altogether 3-tier architecture This, wherein, the black in chart 1 represents No. 1 sample, and red represents No. 2 samples, and blueness represents No. 3 samples, and can confirm right side Total rate of heat release in 0.8MJ/m²Below.

【Table 2】

As shown in Fig. 3 c and upper table 2, the heat-barrier material for building of the foundation present invention of preparation is the sample for possessing altogether 3-tier architecture Sheet 1 and 2, for sample 1 in 23.1mm, 29.9g, the time that stops of 8 mouse is 14min 31s, standard deviation 00min 19s, it is 14min 12s averagely to stop the time, because its standard is in more than 9min, therefore judges that it is suitable, sample 2 in 23.1mm, During 31.7g, the time that stops of 8 mouse is 14min 25s, and standard deviation is 00min 37s, and it is 13min averagely to stop the time 48s, because its standard is in more than 9min, therefore judge that its is suitable.

【Chart 2】

As shown in Fig. 3 c, table 2 and chart 2, the heat-barrier material for building of the foundation present invention of preparation is that possess 3-tier architecture altogether Sample 1, for sample 1 in 23.1mm, 29.9g, 8 mouse (M1, M2, M3, M4, M5, M6, M7, M8) stop time difference For 14min 36s, 14min33s, 13min 48s, 14min 45s, 15min 00s, 14min 35s, 14min 28s, 14min 26s, standard deviation are 00min 19s, and it is 14min 12s averagely to stop the time, because its standard is in more than 9min, therefore judge that it is suitable Preferably.

【Chart 3】

As shown in Fig. 3 c, table 2 and chart 3, the heat-barrier material for building of the foundation present invention of preparation is that possess 3-tier architecture altogether Sample 2, for sample 2 in 23.1mm, 31.7g, 8 mouse (M1, M2, M3, M4, M5, M6, M7, M8) stop time difference For 15min 00s, 14min56s, 13min 47s, 14min 10s, 13min 10s, 14min 50s, 14min 57s, 14min 33s, standard deviation are 00min 37s, and it is 13min 48s averagely to stop the time, because its standard is in more than 9min, therefore judge that it is suitable Preferably.

As the content confirmed in the embodiment above, according to heat-barrier material for building of the invention through judging, It is by the anti-flammability of synthetic resin foaming body 10, and fiberglass weaving piece 20, air chamber A, the heat-insulated paper tinsel 21 in side, opposite side Heat-insulated paper tinsel 22, additional insulation paper tinsel 40, additional synthetic resin foaming body 50, other heat-insulated paper tinsels 60, when fire occurs, total heat release The continuous overtime 200kw/m of rate, rate of heat release²Time (s), heartwood all meltings, insertion crack and cavity etc. change, Being averaged for mouse stops the time (min, s) and is judged as suitably, with low weight, low occupying, it can be ensured that it is efficient fire-retardant and Effect of heat insulation.

Industrial applicability

Present invention can apply to the related industrial fields of building heat insulating decoration material.

Claims

A kind of 1. heat-barrier material for building, it is characterised in that including：

Synthetic resin foams (10), by 60~75wt% ldpe resin, 7~13wt% fire retardant, 14~ 17wt% foaming agent, 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~1.2wt% surface are lived Property agent mixing after foam and form；

Fiberglass weaving piece (20), it is clipped between the heat-insulated paper tinsel in side (21) and the heat-insulated paper tinsel of opposite side (22), and is adhered to described On the one side of synthetic resin foams (10)；And

Additional insulation paper tinsel (40), it is adhered on the another side of the synthetic resin foams (10).
2. heat-barrier material for building according to claim 1, it is characterised in that the synthetic resin foaming body (10) possesses Air chamber (A), the air chamber (A) are surrounded by next door (G) and full of the air for blocking indoor and outdoor hot gas.
3. heat-barrier material for building according to claim 1, it is characterised in that be clipped in the heat-insulated paper tinsel in the side (21) and another Glass fibre manufacture piece (20) between the heat-insulated paper tinsel in side (22) is that polyurethanes welding film (P) is placed in into middle eutectic to connect lamination Form.
4. heat-barrier material for building according to claim 3, it is characterised in that the eutectic connect laminating temperature for 90~ 120℃。
5. heat-barrier material for building according to claim 1, it is characterised in that also include：

Additional synthetic resin foaming body (50), by 60~75wt% ldpe resin, 7~13wt% fire retardant, 14~17wt% foaming agent, 0.3~0.6wt% stabilizer, 0.6~1.0wt% crosslinking agent, 0.8~1.2wt% table Foam and form after the activating agent mixing of face, and be bonded on the additional insulation paper tinsel (40)；

Other heat-insulated paper tinsels (60), are bonded on the synthetic resin foaming body (50).
6. heat-barrier material for building according to claim 5, it is characterised in that the additional synthetic resin foaming body (50) Possesses air chamber (A), the air chamber (A) is surrounded by next door (G) and full of the air for blocking indoor and outdoor hot gas.
7. heat-barrier material for building according to any one of claim 1 to 6, it is characterised in that the fire retardant is hydrogen One kind in magnesia, aluminium hydroxide and boron compound, the foaming agent are ammonium class or carbonyl amines, and the stabilizer is silicon Oil, the crosslinking agent are hydrogen peroxide, and the surfactant is alkylbenzenesulfonate.