CN102392514A - Heat bridge resistant complex radiation heat insulation film energy-saving decorative system and construction method thereof - Google Patents

Abstract

The invention relates to a heat bridge resistant complex radiation heat insulation film energy-saving decorative system and a construction method thereof, the decorative system comprises a counter radiation heat insulation layer which is adhered to a building wall body, the counter radiation heat insulation layer comprises radiation heat insulation films which are arranged piece by piece and aluminum foil adhesive tapes arranged at gaps between the adjacent two radiation heat insulation films, an adhesive layer is arranged on the outer side of the counter radiation heat insulation layer, the adhesive layer comprises a steel plate expansion net adhered to the outer side of the counter radiation heat insulation layer, a first layer of cohesive polymer mortar, which is cured with the steel plate expansion net and a second layer of the cohesive polymer mortar, which is adhered to the outer side of the first layer of the cohesive polymer mortar, and the steel plate expansion net and the radiation heat insulation films are fixed on the building wall body through heat bridge resistant heat insulation anchor bolts. The system can effectively block heat conduction, heat convection and heat radiation, reduce the impacts of an external heat environment of a building on an indoor heat environment of the building and reduce the energy consumption of the building; and the resistive heat bridge heat insulation anchor bolts can connect the system with the wall body without producing a heat bridge, and the anchoring connection is firmer.

Description

Resistance heat bridge compound radiation heat insulation film energy-saving decorative system and job practices thereof

Technical field

The present invention relates to a kind of energy-saving decorative system and job practices thereof of building.

Background technology

External environment to the influence of architecture indoor thermal environment mainly through heat radiation, thermal convection current and conduction of heat.Summer, outdoor thermal environment came from heat radiation to indoor influence about 93%, and about 7% comes from conduction of heat and thermal convection current.Winter indoor heat the wherein about 50%-75% of loss through heat radiation, 45% comes through thermal convection current, about 5% comes through conduction of heat.The external wall outer insulation that is adopted at present is primarily aimed at obstruct conduction of heat, and is not directed to the measure of blocking radiant heat.The energy-saving decorative system of traditional building comprises thermal insulation layer and architectural surface, and its defective is that combination between each layer and the fastness that combines with body of wall are poor, after freeze thawing, is prone to come off; Integral thickness is approximately the 80-150 millimeter, and it is bigger to take up room; The defective that has is also needing further exploratory development aspect the saving building energy consumption.

Summary of the invention

The purpose of this invention is to provide a kind of resistance heat bridge compound radiation heat insulation film energy-saving decorative system and job practices thereof, solve the technical problem that each layer combination of heat-insulating decorative system owed firmly, taken up room greatly, energy-saving efficiency is lower; And the heat bridge problem between solution heat-insulating decorative system and the construction wall.

For realizing above-mentioned purpose; The present invention adopts following technical scheme: a kind of resistance heat bridge compound radiation heat insulation film energy-saving decorative system; Comprise the antiradiation isolation layer that is attached on the construction wall; It is characterized in that: said antiradiation isolation layer is made up of piecemeal radiation heat insulation film and the aluminum foil and adhesive tape that is located between the adjacent two radiation heat insulation film slits, and said radiation heat insulation film two floorings are the aluminium film, and middle clamping is fixed with two-layer heat insulation bubble.The aluminium film plays the effect of reflective thermal radiation, and heat insulation bubble plays the effect that intercepts the thermally conductive heat convection current.

The outside of said antiradiation isolation layer is provided with adhesive linkage; First floor caking property polymer mortar that said adhesive linkage is solidified togather by the steel plate expansion web that is attached to the antiradiation isolation layer outside, with the steel plate expansion web and the second layer caking property polymer mortar that is attached to the first floor caking property polymer mortar outside are formed; Said steel plate expansion web is that steel plate forms through equipment punching press expansion; Has even spaced hexagon mesh on the steel plate expansion web; The hexagon mesh is oblique protrusion outside plate body; Mesh silk stalk undulate is concavo-convex in the plate body surface, and said first floor caking property polymer mortar is filled in the hexagon mesh of steel plate expansion web and the gap of filling up between radiation heat insulation film and the steel plate expansion web also covers the steel plate expansion web fully.

Said steel plate expansion web and radiation heat insulation film are fixed on the construction wall by resistance heat bridge insulation crab-bolt; Resistance heat bridge insulation crab-bolt comprises the system of moulding expand tube, metallic screw and moulds the heat insulation end cap of system; An end of wherein moulding the system expand tube passes steel plate expansion web and radiation heat insulation film and is inserted in the construction wall; The other end of moulding the system expand tube is provided with the system of the moulding anchor disc that can push down steel plate expansion web and radiation heat insulation film, and said metallic screw is inserted in the anchor hole of moulding the system expand tube, and said heat insulation end cap gets lodged on the anchor hole again.

The outside of said second layer caking property polymer mortar scribbles first floor interface curing agent; The outside of first floor interface curing agent is provided with crack-resistant layer; Said crack-resistant layer is formed by the alkaline-resisting self-adhesion fibrous mesh cloth that is attached to the curing agent outside, first floor interface with the crack resistance polymer mortar that alkaline-resisting self-adhesion fibrous mesh cloth is solidified togather; Said crack resistance polymer mortar is filled in the hole of alkaline-resisting self-adhesion fibrous mesh cloth and covers alkaline-resisting self-adhesion fibrous mesh cloth fully, and the outside of crack resistance polymer mortar scribbles second layer interface curing agent.

Architectural surface can be posted in the curing agent outside, said second layer interface.

Said architectural surface can be coating, wallpaper, ceramic tile, glass or stone material.

A kind of job practices that hinders the heat bridge compound radiation heat insulation film energy-saving decorative system is characterized in that step is following: step 1, one or more layers radiation heat insulation film is laid on the construction wall, and the slit is sealed with aluminum foil and adhesive tape.

Step 2, the laterally staggered steel plate expansion web of laying covers the radiation heat insulation film comprehensively, uses resistance heat bridge insulation crab-bolt that steel plate expansion web and radiation heat insulation film are fixed to construction wall.

Step 3 is whitewashed first floor caking property polymer mortar, and first floor caking property polymer mortar is pressed in the hexagon mesh of steel plate expansion web, fills up the gap between radiation heat insulation film and the steel plate expansion web, and covers the steel plate expansion web fully.

Step 4, the construction of first floor caking property polymer mortar was whitewashed second layer caking property polymer mortar after 24 hours.

Step 5, brushing first floor interface curing agent after the second layer caking property polymer mortar surface solidification.

Step 6 is covered with the shop to alkaline-resisting self-adhesion fiber mesh and sticks on the curing agent of first floor interface.

Step 7 is whitewashed the crack resistance polymer mortar, and the hole that the crack resistance polymer mortar is filled up alkaline-resisting self-adhesion fiber mesh is also floating.

Step 8, after the crack resistance polymer mortar surface solidification, brushing second layer interface curing agent.

After said step 8 finishes, but one week of maintenance carry out the architectural surface construction operation then, the installed load parts.

After said step 5 finishes, can slot and pipeline installation, use the caking property polymer mortar to repair tube seat after pipe installation is accomplished, carry out step 6 then.

Compared with prior art the present invention has following characteristics and beneficial effect: the present invention has insulation, heat insulation, sound insulation, shock insulation, cracking resistance, waterproof, moistureproof advantage.The antiradiation insulation layer of resistance heat bridge compound radiation heat insulation film energy-saving decorative system does not stress, and tack coat and crack-resistant layer constitute whole stress layer, firmly is connected with construction wall through resistance heat bridge insulation crab-bolt.Radiation heat insulation film and steel plate expansion web are flexible material, can be fixed on surfaces such as construction wall, floor, roof, beam, post, door and window hole, suit in the difformity of building and the top layer applying operation of position, constitute integral heat insulation and decorate basic unit.The present invention can not only effectively intercept conduction of heat, thermal convection current, can also reflective thermal radiation, reduce of the influence of building external thermal environment to the architecture indoor thermal environment, and reduce building energy consumption.

Traditional fixed form is the direct fixing warming plate of insulation crab-bolt; Perhaps use polymer bonding mortar paste heat-preserving plate; Fibrous mesh cloth is pasted in the warming plate outside, whitewashes polymer mortar again, and the adhesion stress between polymer mortar layer dependence and the warming plate is fixed; Because be to bond between the unlike material, be easy to generate problems such as thawing comes off.And characteristics of the present invention are to use resistance heat bridge insulation crab-bolt fixation steel plate expansion web and radiation heat insulation film; Two-layer adhesive mortar and steel plate expansion web, resistance heat bridge insulation crab-bolt are solidified into one; Adhesive mortar and anticracking grout also are the materials of character of the same race; Adhesion stress is strong, so tack coat, crack-resistant layer and resistance heat bridge insulation crab-bolt form the arrangement beaer, is fixed on the body of wall through resistance heat bridge insulation crab-bolt.Gravity that the present invention itself produces or the power that produces because of the suspension weight are passed to construction wall through resistance heat bridge insulation crab-bolt.Radiation heat insulation film and tack coat do not have force request, and be shown in figure 17.

The present invention does not adopt nailing or bar for line to add the fixed form of steel band net yet; Come directly fixedly radiation heat insulation film and steel plate expansion web but adopted special having to mould the heat insulation end cap of system with the resistance heat bridge insulation crab-bolt of moulding the system anchor disc; The feasible connection with body of wall can produce heat bridge, and anchor connection is more firm.And owing to no longer adopt the steel band net, so that job practices becomes is simpler, construction operation speed is faster.

Because adopted the steel plate expansion web and special the having that have the hexagon mesh to mould heat insulation end cap of system and the resistance heat bridge insulation crab-bolt of moulding the system anchor disc, and cancelled the steel band net, the surface is more smooth; So the gross thickness of tack coat has obtained effective minimizing; Among the present invention, tack coat and crack-resistant layer gross thickness can be merely about 8mm, the thinner material of more saving; When reducing building energy consumption, the indoor space that utilizes that also can obtain more to strengthen.

Steel plate expansion web surface ratio among the present invention is more smooth, helps whitewashing of caking property polymer mortar, helps controlling the consumption of caking property polymer mortar.Mesh on the steel plate expansion web is the hexagon mesh, and it is more firm to guarantee that steel plate expansion web and radiation heat insulation film, steel plate expansion web are connected with first floor caking property polymer mortar.

The present invention combines with body of wall firmly, and structural strength is high, cracking resistance is good, is applicable to the inside and outside insulation of building, especially interior insulation.When the building exterior wall heat preserving, can effectively avoid the skin insulation layer freeze thawing, problem comes off.During as the interior insulation of building, can directly hang loading parts such as decoration element, cabinet, curtain rod, light fixture in the architectural surface vertical surface.

The present invention firmly is connected with body of wall, can bear a heavy burden in the surface, is fit to brushing various ornament materials such as coating, wallpaper, ceramic tile, stone material are installed, and can carry the installed load parts.

The present invention can construct in positions such as construction wall, floor, roof, beam, post, door and window hole and difform surface.

Description of drawings

Below in conjunction with accompanying drawing the present invention is done further detailed explanation.

Fig. 1 is a structural representation of the present invention.

Fig. 2 is a vertical section of the present invention sketch map.

Fig. 3 is the organigram of radiation heat insulation film.

Fig. 4 is the operating principle sketch map of radiation heat insulation film.

Fig. 5 is the sketch map of steel plate expansion web.

Fig. 6 is the local enlarged diagram of steel plate expansion web.

Fig. 7 is the sketch map of insulation crab-bolt.

Fig. 8 is the sketch map of metallic screw.

Fig. 9 is the sketch map of heat insulation end cap.

Figure 10 is the sketch map of construction sequence one of the present invention.

Figure 11 is the sketch map of construction sequence two of the present invention.

Figure 12 is the sketch map of construction sequence three of the present invention.

Figure 13 is construction sequence four of the present invention and five a sketch map.

Figure 14 is the construct sketch map of pipeline installation of the present invention.

Figure 15 is the sketch map of construction sequence six of the present invention.

Figure 16 is the sketch map of construction sequence seven of the present invention.

Figure 17 is a stress characteristic sketch map of the present invention.

Description of drawings: 1-construction wall; 2-radiation heat insulation film; 2.1-aluminium film; 2.2-heat insulation bubble; The 3-aluminum foil and adhesive tape; 4-steel plate expansion web; 4.1-steel plate expansion mesh; 4.2-mesh arris; 5-resistance heat bridge insulation crab-bolt; 5.1-mould the system expand tube; 5.2-metallic screw; 5.3-mould the heat insulation end cap of system; 5.4-anchor hole; 5.5-mould the system anchor disc; 6-first floor caking property polymer mortar; 7-second layer caking property polymer mortar; 8-first floor interface curing agent; The alkaline-resisting self-adhesion fibrous mesh cloth of 9-; 10-crack resistance polymer mortar; 11-second layer interface curing agent; The 12-pipeline; 13-antiradiation isolation layer; The 14-tack coat; The 15-crack-resistant layer.

The specific embodiment

Embodiment is referring to Fig. 1, shown in Figure 2; This resistance heat bridge compound radiation heat insulation film energy-saving decorative system is interior insulation; Comprise the antiradiation isolation layer 13 that is attached on the construction wall 1, said antiradiation isolation layer is made up of piecemeal radiation heat insulation film 2 and the aluminum foil and adhesive tape 3 that is located between the adjacent two radiation heat insulation film slits.

The outside of said antiradiation isolation layer 13 is provided with adhesive linkage 14; First floor caking property polymer mortar 6 that said adhesive linkage is solidified togather by the steel plate expansion web 4 that is attached to the antiradiation isolation layer outside, with the steel plate expansion web and the second layer caking property polymer mortar 7 that is attached to first floor caking property polymer mortar 6 outsides are formed, and the gross thickness of said first floor caking property polymer mortar 6 and second layer caking property polymer mortar 7 is about 6mm.

The outside of said second layer caking property polymer mortar 7 scribbles first floor interface curing agent 8; The outside of first floor interface curing agent 8 is provided with crack-resistant layer 15; Said crack-resistant layer is formed by the alkaline-resisting self-adhesion fibrous mesh cloth 9 that is attached to curing agent 8 outsides, first floor interface with the crack resistance polymer mortar 10 that alkaline-resisting self-adhesion fibrous mesh cloth 9 is solidified togather; Said crack resistance polymer mortar 10 is filled in the hole of alkaline-resisting self-adhesion fibrous mesh cloth 9 and covers alkaline-resisting self-adhesion fibrous mesh cloth 9 fully; The thickness that alkaline-resisting self-adhesion fibrous mesh cloth 9 adds crack resistance polymer mortar 10 is about 2mm; The outside of crack resistance polymer mortar 10 scribbles second layer interface curing agent 11, and architectural surface is posted in curing agent 11 outsides, second layer interface, and architectural surface can be coating, wallpaper, ceramic tile, glass or stone material.

Referring to Fig. 5, Fig. 6; Said steel plate expansion web 4 is that steel plate forms through equipment punching press expansion; Has even spaced hexagon mesh 4.1 on the steel plate expansion web 4; Hexagon mesh 4.1 is oblique protrusion outside plate body, and it is concavo-convex in plate body surface that the mesh silk obstructs 4.2 undulates, and said first floor caking property polymer mortar 6 is filled in the hexagon mesh 4.1 of steel plate expansion web 4 and the gap of filling up between radiation heat insulation film 2 and the steel plate expansion web 4 also covers steel plate expansion web 4 fully.In the present embodiment, steel plate adopts slim galvanized steel, forms steel plate expansion web 4 through equipment punching press expansion; This steel plate expansion web 4 is different from traditional rhombus net, and the hexagon mesh meropodium distance of steel plate expansion web 4 is vertically regularly arranged; Mesh silk stalk is edge-on, and the hexagon stereochemical structure has the rigidity strength of calligraphic strokes preferably; Steel plate expansion web contactless and whole solid firm, steel plate expansion web resistance to compression tension non-deformability is strong, and is strong with mortar bonding power.

Referring to Fig. 2, Fig. 7-9; Said steel plate expansion web 4 is fixed on the construction wall 1 by resistance heat bridge insulation crab-bolt 5 with radiation heat insulation film 2; Resistance heat bridge insulation crab-bolt 5 comprises the system of moulding expand tube 5.1, metallic screw 5.2 and moulds the heat insulation end cap 5.3 of system; An end of wherein moulding system expand tube 5.1 passes steel plate expansion web 4 with radiation heat insulation film 2 and be inserted in the construction wall 1; The other end of moulding system expand tube 5.1 is provided with the system of the moulding anchor disc 5.5 that can push down steel plate expansion web 4 and radiation heat insulation film 2, and said metallic screw 5.2 is inserted in the anchor hole 5.4 of moulding system expand tube 5.1, and said heat insulation end cap 5.3 gets lodged in again on the anchor hole 5.4; In the present embodiment, mould system expand tube 5.1, mould system anchor disc 5.5 and the pure nylon material of heat insulation end cap 5.3 employings of the system of moulding, have stable high-bearing performance.After metallic screw is screwed into anchor hole, cover heat insulation end cap, can form the closed air post, the blocking-up heat bridge.

Referring to Fig. 3, Fig. 4, radiation heat insulation film two floorings are aluminium film 2.1, and middle clamping is fixed with two-layer heat insulation bubble 2.2, and the radiation heat insulation film plays the heat conducting effect that intercepts.The aluminium film is the heat radiation reflecting layer, can reflect 100% heat radiation; Heat insulation bubble 2.2 is an isolation layer, plays the heat conducting effect that intercepts.

Referring to shown in Figure 17, the antiradiation isolation layer 13 of resistance heat bridge compound radiation heat insulation film energy-saving decorative system does not stress, and tack coat, crack-resistant layer and resistance heat bridge insulation crab-bolt constitute whole stress layer, firmly is connected with construction wall 1 through resistance heat bridge insulation crab-bolt 5.R representes the pulling force of construction wall to whole stress layer among the figure, and N representes the external force (both the present invention's gravity, and the gravity that is installed in the more lip-deep members of the present invention itself) that whole stress layer receives.

The job practices of this resistance heat bridge compound radiation heat insulation film energy-saving decorative system; Its step is (following content is the construction sequence signal for being example with the plane body of wall) as follows: referring to Figure 10; Step 1; One or more layers radiation heat insulation film 2 is laid on the construction wall 1, and the slit is with aluminum foil and adhesive tape 3 sealings.

Referring to Figure 11, step 2, the laterally staggered steel plate expansion web 4 of laying about lap width 50mm, covers radiation heat insulation film 2 comprehensively, uses resistance heat bridge insulation crab-bolt 5 that steel plate expansion web 4 and radiation heat insulation film 2 are fixed to construction wall 1.

Referring to Figure 12; Step 3 is whitewashed first floor caking property polymer mortar 6, and first floor caking property polymer mortar 6 is pressed in the hexagon mesh 4.1 of steel plate expansion web 4; Fill up the gap between radiation heat insulation film 2 and the steel plate expansion web 4, and cover steel plate expansion web 4 fully.

Referring to Figure 13, step 4,6 constructions of first floor caking property polymer mortar were whitewashed second layer caking property polymer mortar 7 after 24 hours, and the gross thickness of two-layer caking property polymer mortar is about 6mm.Step 5, brushing first floor interface curing agent 8 after second layer caking property polymer mortar 7 surface solidification.

Referring to Figure 14, preheating embedding line 12 if desired, and then after said step 5 finished, fluting and pipeline installation 12 used the caking property polymer mortar to repair tube seat after pipeline 12 is laid and accomplished, and then carry out step 6.

Referring to Figure 15, step 6 sticks on alkaline-resisting self-adhesion fibrous mesh cloth 9 full shops on the first floor interface curing agent 8;

Referring to Figure 16, step 7 is whitewashed crack resistance polymer mortar 10, and crack resistance polymer mortar 10 is filled up the hole of alkaline-resisting self-adhesion fibrous mesh cloth 9 and floating, makes THICKNESS CONTROL that alkaline-resisting self-adhesion fibrous mesh cloth 9 adds crack resistance polymer mortar 10 about 2mm.

Step 8, after crack resistance polymer mortar 10 surface solidification, brushing second layer interface curing agent 11.

After said step 8 finishes, in one week of maintenance, can also carry out architectural surface (coating, wallpaper, ceramic tile, stone material etc.) construction operation, installed load parts in curing agent 11 outsides at second layer interface then.

Claims (6)

1. one kind is hindered the heat bridge compound radiation heat insulation film energy-saving decorative system; Comprise the antiradiation isolation layer (13) that is attached on the construction wall (1); It is characterized in that: said antiradiation isolation layer is made up of piecemeal radiation heat insulation film (2) and the aluminum foil and adhesive tape (3) that is located between the adjacent two radiation heat insulation film slits; Said radiation heat insulation film two floorings are aluminium film (2.1), and middle clamping is fixed with two-layer heat insulation bubble (2.2);

The outside of said antiradiation isolation layer (13) is provided with adhesive linkage (14); First floor caking property polymer mortar (6) that said adhesive linkage is solidified togather by the steel plate expansion web (4) that is attached to the antiradiation isolation layer outside, with the steel plate expansion web and the second layer caking property polymer mortar (7) that is attached to first floor caking property polymer mortar (6) outside are formed; Said steel plate expansion web (4) is that steel plate forms through equipment punching press expansion; Has even spaced hexagon mesh (4.1) on the steel plate expansion web (4); Hexagon mesh (4.1) oblique protrusion outside plate body; Mesh silk stalk (4.2) undulate is concavo-convex in the plate body surface, and said first floor caking property polymer mortar (6) is filled in the hexagon mesh (4.1) of steel plate expansion web (4) and the gap of filling up between radiation heat insulation film (2) and the steel plate expansion web (4) also covers steel plate expansion web (4) fully;

Said steel plate expansion web (4) and radiation heat insulation film (2) are fixed on the construction wall (1) by resistance heat bridge insulation crab-bolt (5); Resistance heat bridge insulation crab-bolt (5) comprises the system of moulding expand tube (5.1), metallic screw (5.2) and moulds system heat insulation end cap (5.3); An end of wherein moulding system expand tube (5.1) passes steel plate expansion web (4) and radiation heat insulation film (2) and is inserted in the construction wall (1); The other end of moulding system expand tube (5.1) is provided with the system of the moulding anchor disc (5.5) that can push down steel plate expansion web (4) and radiation heat insulation film (2); Said metallic screw (5.2) is inserted in the anchor hole (5.4) of moulding system expand tube (5.1), and said heat insulation end cap (5.3) gets lodged in again on the anchor hole (5.4);

The outside of said second layer caking property polymer mortar (7) scribbles first floor interface curing agent (8); The outside of first floor interface curing agent (8) is provided with crack-resistant layer (15); Said crack-resistant layer is formed by the alkaline-resisting self-adhesion fibrous mesh cloth (9) that is attached to first floor interface curing agent (8) outside with the crack resistance polymer mortar (10) that alkaline-resisting self-adhesion fibrous mesh cloth (9) is solidified togather; Said crack resistance polymer mortar (10) is filled in the hole of alkaline-resisting self-adhesion fibrous mesh cloth (9) and covers alkaline-resisting self-adhesion fibrous mesh cloth (9) fully, and the outside of crack resistance polymer mortar (10) scribbles second layer interface curing agent (11).

2. resistance heat bridge compound radiation heat insulation film energy-saving decorative system according to claim 1 is characterized in that: architectural surface is posted in said second layer interface curing agent (11) outside.

3. resistance heat bridge compound radiation heat insulation film energy-saving decorative system according to claim 1 is characterized in that: said architectural surface is coating, wallpaper, ceramic tile, glass or stone material.

4. job practices that hinders the heat bridge compound radiation heat insulation film energy-saving decorative system is characterized in that step is following:

Step 1 is laid on one or more layers radiation heat insulation film (2) on the construction wall (1), and the slit is sealed with aluminum foil and adhesive tape (3);

Step 2, the laterally staggered steel plate expansion web (4) of laying covers radiation heat insulation film (2) comprehensively, uses resistance heat bridge insulation crab-bolt (5) that steel plate expansion web (4) and radiation heat insulation film (2) are fixed to construction wall (1);

Step 3; Whitewash first floor caking property polymer mortar (6); First floor caking property polymer mortar (6) is pressed in the hexagon mesh (4.1) of steel plate expansion web (4); Fill up the gap between radiation heat insulation film (2) and the steel plate expansion web (4), and cover steel plate expansion web (4) fully;

Step 4, first floor caking property polymer mortar (6) construction was whitewashed second layer caking property polymer mortar (7) after 24 hours;

Step 5, brushing first floor interface curing agent (8) after second layer caking property polymer mortar (7) surface solidification;

Step 6 sticks on the full shop of alkaline-resisting self-adhesion fibrous mesh cloth (9) on the first floor interface curing agent (8);

Step 7 is whitewashed crack resistance polymer mortar (10), and the hole that crack resistance polymer mortar (10) is filled up alkaline-resisting self-adhesion fibrous mesh cloth (9) is also floating;

Step 8, after crack resistance polymer mortar (10) surface solidification, brushing second layer interface curing agent (11).

5. the job practices of resistance heat bridge compound radiation heat insulation film energy-saving decorative system according to claim 4 is characterized in that: said step 8 in one week of maintenance, is carried out the architectural surface construction operation, the installed load parts after finishing then.

6. the job practices of resistance heat bridge compound radiation heat insulation film energy-saving decorative system according to claim 4; It is characterized in that: after said step 5 finishes; Use the caking property polymer mortar to repair tube seat after fluting and pipeline installation (12), pipeline (12) are laid and accomplished, carry out step 6 then.

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