CN104179261B - A kind of facade energy conserving system - Google Patents

Abstract

A kind of facade energy conserving system, comprise warming plate, outer coating and door window frame binding agent, wherein warming plate, outer coating and door window frame binding agent all employ animal fiber and stalk fibre, lime putty, the molecular structure of same raw material is identical, intermolecular attraction is greater than other raw material, therefore the conformability of warming plate and outer coating and door window frame binding agent is good, and thermal shock resistance is close, and life-time service can not occur crack each other. Native system weight is light, hardness height, good heat preservation performance, and resistance of rainwater washing against, resistance to direct sunlight, life-time service outside surface does not produce crackle.

Description

A kind of facade energy conserving system

Technical field

The present invention relates to energy-saving building technology field, especially relate to a kind of integral type facade heat preservation energy-saving system.

Background technology

Facade refers to that external wall, door and window etc. are positioned at the part of outer surface of building. Along with country is to improving constantly that index of construction energy conservation requires, the heat-insulating property of facade receives the concern of people day by day. The insulation measure of current external wall is generally first lay warming plate at the outside surface of body of wall, and then outside surface at warming plate brushes the paint or coating with insulation and decoration integrated performance again. This kind of method Problems existing is that the thermal shock resistance of paint or coating and warming plate is inconsistent, expanded by heating and by cold events time, warming plate is different with the dilatability of paint, cause between warming plate and paint, producing displacement dislocation and cracking, become the defect of thermal insulation layer, reduce heat insulation effect.

In addition, when the framework of door and window and wall connecting, building glue can be smeared at seam place so that seam is closed tight. Usually building glue used is water-repellancy, it is possible to resistance of rainwater washing against. But this kind of glue is same with the paint of the outside surface of body of wall exists the inconsistent problem of thermal shock resistance, produce crack between life-time service meeting and the paint of exterior surface of wall, affect heat retaining property.

Summary of the invention

For the problems referred to above that prior art exists, the applicant provides a kind of facade energy conserving system. Native system weight is light, hardness height, good heat preservation performance, and resistance of rainwater washing against, resistance to direct sunlight, life-time service outside surface does not produce crackle.

The technical scheme of the present invention is as follows:

A kind of facade energy conserving system, comprises warming plate, outer coating and door window frame binding agent, it is characterised in that:

(1) described warming plate is made up of the raw material of following weight part number:

Vibrin: 40～48 parts;

Pearlstone: 6～9 parts;

Oyster shell whiting: mean particle size≤10 μm, 10～15 parts;

Nutshell fine powder: mean particle size≤100 μm, 7～9 parts;

Animal fiber: mean length≤0.1mm, 12～15 parts;

Stalk fibre: mean length≤1mm, 12～15 parts;

Lime putty: 15～18 parts;

(2) described outer coating is made up of the raw material of following weight part number:

Animal fiber: mean length≤5 μm, 1～3 part;

Stalk fibre: mean length≤5 μm, 1～3 part;

Lime putty: 1～3 part;

Water: 280～300 parts;

Mierocrystalline cellulose: 1.5～3 parts;

AMP-95 multifunctional assistant: 1～2 part;

Organosilicon crylic acid latex: 300～450 parts;

TEXANOL film coalescence aid: 20～27 parts;

BIT sterilant: 4～5.5 parts;

(3) described binding agent is made up of the raw material of following weight part number:

Animal fiber: mean length≤1 μm, 1～2 part;

Stalk fibre: mean length≤5 μm, 1～2 part;

Lime putty: 3～5 parts;

Polyurethane sealant: 50～80 parts.

The preparation method of described warming plate is: after being mixed by its raw material, being heated to vibrin is molten state, raw material stirring is mixed in this case, pours die for molding into, cools.

The preparation method of described outer coating is: after being mixed by its raw material, be uniformly mixed.

The preparation method of described binding agent is: after being mixed by its raw material, being heated to polyurethane sealant is molten state, raw material stirring is mixed in this case.

Described system in the constructional method of facade is: be first laid on external wall with building glue and rivet by fixing for described warming plate, after all completing, at outer coating described in warming plate outside surface brushing; When installing door window frame, the gap of door window frame and external wall seals with described binding agent.

The technique effect that the present invention is useful is:

1, pearlstone is heat preserving aggregate, and the hardness of oyster shell whiting and nutshell powder is very high, it is possible to improve the ultimate compression strength of product, and density is little; Animal fiber and stalk fibre light weight, threadiness can play 3-D solid structure by framework between raw material, it is possible to isolated heat transfer, makes the heat insulation effect of the present invention obtain large increase as insulation auxiliary material, and further mitigates the weight of product.

2, lime putty has disinfection, it is possible to make product cleaning nontoxic, be highly suitable for doing wall covering, it is to increase the security used.

3, the application adopts 4 grade particles levels of oyster shell whiting, nutshell powder, animal fiber and stalk fibre to join, impart this product oilness good when constructing, smear and viscosity, and intensity excellent after construction, resistance to sun exposure, resistance to rainwater brew, heat-shock resistance. Wherein stalk fibre serves skeleton function, sets up a framework for forming coating after coating application, and oyster shell whiting, nutshell powder are then filled in skeleton, become stationary nodes, for coating provides intensity; Animal fiber serves ligation between skeleton and node, between other, framework plays connection fine and closely woven as Spider Web further, greatly improve the toughness of product, even if making it be immersed in water also to bubble and ftracture, under cold and hot alternating action frequently, also can keep smooth surface flawless.

4, all employing animal fiber and stalk fibre, lime putty in the warming plate of the application, outer coating and door window frame binding agent, just the grain composition of animal fiber and stalk fibre is different. The molecular structure of same raw material is identical, and intermolecular attraction is greater than other raw material, and therefore the conformability of warming plate and outer coating and door window frame binding agent is good, and thermal shock resistance is close, and life-time service can not occur crack each other.

Native system has significant especially effect in facade crack resistence.

Embodiment

Embodiment 1

This facade energy conserving system is made up of three parts, first three parts is prepared respectively:

(1) warming plate: after being mixed by all raw materials, being heated to vibrin is molten state, raw material stirring is mixed in this case, pours die for molding into, cools.Described raw material and mass fraction thereof be:

Vibrin: 40 parts;

Pearlstone: 6 parts;

Oyster shell whiting: mean particle size≤10 μm, 10 parts;

Nutshell fine powder: mean particle size≤100 μm, 7 parts;

Animal fiber: mean length≤0.1mm, 12 parts;

Stalk fibre: mean length≤1mm, 12 parts;

Lime putty: 15 parts;

(2) outer coating: after all raw materials are mixed, be uniformly mixed. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤5 μm, 1 part;

Stalk fibre: mean length≤5 μm, 1 part;

Lime putty: 1 part;

Water: 280 parts;

Mierocrystalline cellulose: 1.5 parts;

AMP-95 multifunctional assistant: 1 part;

Organosilicon crylic acid latex: 300 parts;

TEXANOL film coalescence aid: 20 parts;

4 parts, BIT sterilant;

(3) binding agent: after being mixed by all raw materials, being heated to polyurethane sealant is molten state, raw material stirring is mixed in this case. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤1 μm, 1 part;

Stalk fibre: mean length≤5 μm, 1 part;

Lime putty: 3 parts;

Polyurethane sealant: 50 parts.

(4), after above-mentioned three portion of product being prepared, first it is laid on external wall with building glue and rivet by fixing for gained warming plate, after all completing, at the outer coating of warming plate outside surface brushing gained; When installing door window frame, the gap of door window frame and external wall seals with described binding agent.

Embodiment 2

This facade energy conserving system is made up of three parts, first three parts is prepared respectively:

(1) warming plate: after being mixed by all raw materials, being heated to vibrin is molten state, raw material stirring is mixed in this case, pours die for molding into, cools. Described raw material and mass fraction thereof be:

Vibrin: 48 parts;

Pearlstone: 9 parts;

Oyster shell whiting: mean particle size≤10 μm, 15 parts;

Nutshell fine powder: mean particle size≤100 μm, 9 parts;

Animal fiber: mean length≤0.1mm, 15 parts;

Stalk fibre: mean length≤1mm, 15 parts;

Lime putty: 18 parts;

(2) outer coating: after all raw materials are mixed, be uniformly mixed. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤5 μm, 3 parts;

Stalk fibre: mean length≤5 μm, 3 parts;

Lime putty: 3 parts;

Water: 300 parts;

Mierocrystalline cellulose: 3 parts;

AMP-95 multifunctional assistant: 2 parts;

Organosilicon crylic acid latex: 450 parts;

TEXANOL film coalescence aid: 27 parts;

BIT sterilant: 5.5 parts;

(3) binding agent: after being mixed by all raw materials, being heated to polyurethane sealant is molten state, raw material stirring is mixed in this case. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤1 μm, 2 parts;

Stalk fibre: mean length≤5 μm, 2 parts;

Lime putty: 5 parts;

Polyurethane sealant: 80 parts.

(4), after above-mentioned three portion of product being prepared, first it is laid on external wall with building glue and rivet by fixing for gained warming plate, after all completing, at the outer coating of warming plate outside surface brushing gained; When installing door window frame, the gap of door window frame and external wall seals with described binding agent.

Embodiment 3

This facade energy conserving system is made up of three parts, first three parts is prepared respectively:

(1) warming plate: after being mixed by all raw materials, being heated to vibrin is molten state, raw material stirring is mixed in this case, pours die for molding into, cools.Described raw material and mass fraction thereof be:

Vibrin: 45 parts;

Pearlstone: 7 parts;

Oyster shell whiting: mean particle size≤10 μm, 12 parts;

Nutshell fine powder: mean particle size≤100 μm, 8 parts;

Animal fiber: mean length≤0.1mm, 14 parts;

Stalk fibre: mean length≤1mm, 14 parts;

Lime putty: 15～18 parts;

(2) outer coating: after all raw materials are mixed, be uniformly mixed. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤5 μm, 2 parts;

Stalk fibre: mean length≤5 μm, 2 parts;

Lime putty: 2 parts;

Water: 290 parts;

Mierocrystalline cellulose: 2 parts;

AMP-95 multifunctional assistant: 1 part;

Organosilicon crylic acid latex: 400 parts;

TEXANOL film coalescence aid: 25 parts;

BIT sterilant: 5 parts;

(3) binding agent: after being mixed by all raw materials, being heated to polyurethane sealant is molten state, raw material stirring is mixed in this case. Described raw material and mass fraction thereof be:

Animal fiber: mean length≤1 μm: 1.5 parts;

Stalk fibre: mean length≤5 μm: 1.5 parts;

Lime putty: 4 parts;

Polyurethane sealant: 60 parts.

(4), after above-mentioned three portion of product being prepared, first it is laid on external wall with building glue and rivet by fixing for gained warming plate, after all completing, at the outer coating of warming plate outside surface brushing gained; When installing door window frame, the gap of door window frame and external wall seals with described binding agent.

Test example 1: the Performance Detection of warming plate

Warming plate embodiment 1～3 prepared carries out Performance Detection, and concrete test result is as shown in table 1.

Table 1

Wherein the examination criteria of test item 1～3 is: Soviet Union JG/T045-2011; The examination criteria of test item 4～15 is: GB8624-2006.

Test example 2: the Performance Detection of coating

Coating embodiment 1～3 prepared carries out Performance Detection, and the standard of test item foundation is: GB/T9755-2001. Concrete test result is as shown in table 2.

Table 2

Test example 3: the performance test of facade integral system

By preparation-obtained for embodiment 1～3 facade integral system, the standard of test item foundation is: Soviet Union JG/T045-2011. Concrete test result is as shown in table 3.

Table 3

From the data of table 1～table 3 it can be seen that this facade integral system whether its certain independent part or overall system, all there are excellent performance index.

Test example 4: animal fiber, stalk fibre, lime putty are on the impact of system matching property.

In order to investigate the impact adding the performance interworking on warming plate, outer coating and binding agent of animal fiber, stalk fibre, lime putty, with reference to GB/T23450-2009 (building partition thermal insulation strip plate), adopt the composition of raw materials in embodiment 1, first warming plate is made the lath of 2500*600*90 (mm), then the door window frame binding agent that brush one layer of 1mm is thick thereon, the outer coating that then brush one layer of 3mm is thick on adhesive layer.

As a comparison case, adopt the composition of raw materials in embodiment 1, just the formula of warming plate, outer coating and binding agent all leaves out animal fiber, stalk fibre and lime putty, only retain other raw materials and part number, make the batten of same volume and layering. Selecting the parameter relevant with material-mix from GB/T23450-2009 to detect, result is as shown in table 4.

Table 4

Can see from the data of table 4, after having added animal fiber, stalk fibre and lime putty, the matching property of warming plate, outer coating and binding agent makes its insulation lath being formed by stacking have the mechanical properties such as excellent resistance to compression bending resistance, and the performance such as dry shrinkage, freezing distortion has had and increases substantially.

Claims (5)

1. a facade energy conserving system, it is characterised in that comprise warming plate, outer coating and door window frame binding agent, it is characterised in that:

(1) described warming plate is made up of the raw material of following weight part number:

Vibrin: 40～48 parts;

Pearlstone: 6～9 parts;

Oyster shell whiting: mean particle size≤10 μm, 10～15 parts;

Nutshell fine powder: mean particle size≤100 μm, 7～9 parts;

Animal fiber: mean length≤0.1mm, 12～15 parts;

Stalk fibre: mean length≤1mm, 12～15 parts;

Lime putty: 15～18 parts;

(2) described outer coating is made up of the raw material of following weight part number:

Animal fiber: mean length≤5 μm, 1～3 part;

Stalk fibre: mean length≤5 μm, 1～3 part;

Lime putty: 1～3 part;

Water: 280～300 parts;

Mierocrystalline cellulose: 1.5～3 parts;

AMP-95 multifunctional assistant: 1～2 part;

Organosilicon crylic acid latex: 300～450 parts;

TEXANOL film coalescence aid: 20～27 parts;

BIT sterilant: 4～5.5 parts;

(3) described binding agent is made up of the raw material of following weight part number:

Animal fiber: mean length≤1 μm, 1～2 part;

Stalk fibre: mean length≤5 μm, 1～2 part;

Lime putty: 3～5 parts;

Polyurethane sealant: 50～80 parts.

2. facade energy conserving system according to claim 1, it is characterized in that the preparation method of described warming plate is: after being mixed by its raw material, being heated to vibrin is molten state, raw material stirring is mixed in this case, pour die for molding into, cool.

3. facade energy conserving system according to claim 1, it is characterised in that the preparation method of described outer coating is: after its raw material is mixed, be uniformly mixed.

4. facade energy conserving system according to claim 1, it is characterised in that the preparation method of described binding agent is: after being mixed by its raw material, being heated to polyurethane sealant is molten state, raw material stirring is mixed in this case.

5. facade energy conserving system according to claim 1, it is characterized in that the constructional method of described facade energy conserving system is: be first laid on external wall with building glue and rivet by fixing for described warming plate, after all completing, at outer coating described in warming plate outside surface brushing; When installing door window frame, the gap of door window frame and external wall seals with described binding agent.