CN206090968U - Building energy conservation and structure integration outer wall self preservation temperature template - Google Patents

Abstract

The utility model provides a building energy conservation and structure integration outer wall self preservation temperature template belongs to the insulation building material field. To down be first bonding mortar layer, heat preservation and second bonding mortar layer in proper order, the upper and lower two sides of heat preservation all is provided with the fluting on this kind of building energy conservation and structure integration outer wall self preservation temperature template follow, slots to serration groove or dovetail, and the fluting on two sides misplaces each other about and, first bonding mortar layer and the second bonding mortar layer assorted sand grip that all is equipped with and slots, sand grip and slot and adhere mutually. During the use, because the fluting has been seted up on the middle heat preservation two sides of building energy conservation and structure integration outer wall self preservation temperature template, just the fluting on two sides misplaces each other, has both guaranteed the tensile strength of heat preservation, having guaranteed again that the fluting plays the effect on two -layer bonding mortar layer from top to bottom of pinning. This kind of building energy conservation and structure integration outer wall self preservation temperature template simple structure, easily processing, and bulk strength is high.

Description

A kind of building energy conservation and structure-integrated outer wall self heat-preserving template

Technical field

The utility model is related to building heat preserving Material Field, in particular to a kind of building energy conservation and structural integrity Change outer wall self heat-preserving template.

Background technology

With economic and society development, energy saving and environmental protection have become everybody common recognition.For can be effective Energy saving, energy saving building becomes an important problem, improves the heat-insulating property of building, can effectively reduce air-conditioning and cause Energy consumption.Under the promotion energetically that national energy-saving reduces discharging policy, external wall Self-thermal-insulation System is used as building energy conservation and structure one Body technology is just rapidly developed.At present, existing external wall self-heat conserving template be mainly used in skyscraper beam, The outer enclosed structure insulation such as post, shear wall, it has maintenance and heat insulating functions, is widely answered in exterior wall furnishing fields With.But, the structure of existing outer wall self heat-preserving template is divided into three layers, and intermediate layer is heat-insulation layer, and upper and lower two-layer is thin bonding Mortar.There is the heat-insulation layer and bilevel sand of centre during use, often in such outer wall self heat-preserving template Space or hollowing are produced between slurry, once there is external force to occur, such as strong wind, middle heat-insulation layer is easy to and upper and lower mortar It is de-, the heat insulation effect of outer wall self heat-preserving template had both been lost, and pedestrian easily to walking under building and article cause damage, There is very big potential safety hazard.

Utility model content

The utility model provides a kind of building energy conservation and structure-integrated outer wall self heat-preserving template, it is intended to improve exterior wall certainly The heat-insulation layer and the segregative problem of bonding mortar layer of heat insulation formwork.

What the utility model was realized in：

A kind of building energy conservation and structure-integrated outer wall self heat-preserving template, including the first bonding mortar layer, heat-insulation layer and Two bonding mortar layers, heat-insulation layer has the first relative face of position and the second face, and the first face connects the first bonding mortar layer, and second Face connects the second bonding mortar layer, and the first face and the second face are provided with fluting, slots as serrated slot or dovetail groove, positioned at first The fluting in face and the fluting mutual dislocation positioned at the second face, the first bonding mortar layer and the second bonding mortar layer are equipped with and fluting The raised line for matching, raised line is bonding with fluting.

Further, in the utility model preferred embodiment, multiple flutings are opened up along the length direction of heat-insulation layer, many Width interval setting of the individual fluting along heat-insulation layer.

Further, in the utility model preferred embodiment, fluting is uniformly distributed, the spacing of two neighboring fluting Less than 200mm.

Further, in the utility model preferred embodiment, the first face and the second face are crude face or scribble The contact surface of interfacial agents, the first bonding mortar layer and heat-insulation layer is the contact surface of crude face, the second bonding mortar layer and heat-insulation layer For crude face.

Further, in the utility model preferred embodiment, in the first bonding mortar layer and the second bonding mortar layer Portion is equipped with enhancement layer.

Further, in the utility model preferred embodiment, the thickness of the first bonding mortar layer is less than or equal to the Two bonding mortar layers, the first bonding mortar layer is provided with least one of which enhancement layer, and the second bonding mortar layer is provided with least two-layer and strengthens Layer.

Further, in the utility model preferred embodiment, the second bonding mortar layer is divided into three layers, is followed successively by bonding Screed, heat-insulation mortar bed and bonding mortar layer.

Further, in the utility model preferred embodiment, building energy conservation and structure-integrated outer wall self heat-preserving mould Plate is additionally provided with anchoring piece.

Further, in the utility model preferred embodiment, the first face or/and the second face do not open up the part of fluting At least one groove is provided with, the first bonding mortar layer or/and the second bonding mortar layer are equipped with the projection with groove match, convex Block and fluting are bonding；Groove is projected as circle, triangle or polygon in the first face.

Further, in the utility model preferred embodiment, fluting has first side, second side and bottom surface, First side and/or second side offer stopper slot.

The beneficial effects of the utility model are：Building energy conservation and structural integrity that the utility model is obtained by above-mentioned design Change outer wall self heat-preserving template, heat-insulation layer and two-layer screed bonding, realize that insulation is integrated with structure so as to collect building heat preservation , with body of wall Support Function in one, body of wall meets Current Building ' energy conservation standard by need not separately taking measures will for heat insulating function Ask.When using, because the heat-insulation layer two sides in the middle of building energy conservation and structure-integrated outer wall self heat-preserving template offers fluting, and The fluting mutual dislocation on two sides, both ensure that the tensile property of heat-insulation layer, in turn ensure that fluting plays pinning two-layer bonded up and down The effect of screed so that outer wall self heat-preserving template is not susceptible to the phenomenons such as hollowing, it is to avoid because bonding mortar layer and heat-insulation layer take off Fall the potential safety hazard of initiation.This building energy conservation is simple with structure-integrated outer wall self heat-preserving formwork structure, it is easy to process, and whole Body intensity is high.

Description of the drawings

In order to be illustrated more clearly that the technical scheme of the utility model embodiment, below will be to wanting needed for embodiment The accompanying drawing for using is briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore not The restriction to scope is should be considered as, for those of ordinary skill in the art, on the premise of not paying creative work, Can be obtaining other related accompanying drawings according to these accompanying drawings.

Fig. 1 is the section of the building energy conservation with structure-integrated outer wall self heat-preserving template of the utility model embodiment offer Figure；

Fig. 2 is the schematic diagram of heat-insulation layer in Fig. 1；

Fig. 3 is the heat-insulation layer with serrated slot in the utility model embodiment；

Fig. 4 is that have reeded heat-insulation layer in the utility model embodiment；

Fig. 5 is the heat-insulation layer with stopper slot in the utility model embodiment；

Fig. 6 is the heat-insulation layer with "T"-shaped groove in the utility model embodiment；

Fig. 7 is the heat-insulation layer with " W " shape groove in the utility model embodiment.

Figure acceptance of the bid note is respectively：Building energy conservation and structure-integrated outer wall self heat-preserving template 100；First bonding mortar layer 110；Raised line 111；Heat-insulation layer 120；First face 121；Second face 122；Fluting 123；First side 124；Second side 125；Bottom Face 126；Groove 127；Stopper slot 128；Second bonding mortar layer 130.

Specific embodiment

To make purpose, technical scheme and the advantage of the utility model embodiment clearer, below in conjunction with this practicality Accompanying drawing in new embodiment, is clearly and completely described to the technical scheme in the utility model embodiment, shows So, described embodiment is a part of embodiment of the utility model, rather than the embodiment of whole.Based on this practicality Embodiment in new, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of the utility model protection.Therefore, enforcement of the present utility model below to providing in the accompanying drawings The detailed description of mode is not intended to limit claimed scope of the present utility model, but is merely representative of of the present utility model Selected embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative labor The every other embodiment obtained under the premise of dynamic, belongs to the scope of the utility model protection.

In description of the present utility model, it is to be understood that term " horizontal ", " length ", " width ", " thickness ", " on ", D score, " bottom ", the orientation of the instruction such as " interior " or position relationship be, based on orientation shown in the drawings or position relationship, to be only For the ease of describe the utility model and simplify description, rather than indicate or imply indication equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it D score can include the first and second feature directly contacts, it is also possible to not be directly contact including the first and second features but logical The other characterisation contact crossed between them.And, fisrt feature second feature " on ", " top " and " above " include the One feature is directly over second feature and oblique upper, or is merely representative of fisrt feature level height higher than second feature.First is special Levy second feature " under ", " lower section " and " below " include fisrt feature immediately below second feature and obliquely downward, or only Represent that fisrt feature level height is less than second feature.

With reference to shown in Fig. 1, the present embodiment provides a kind of building energy conservation and structure-integrated outer wall self heat-preserving template 100, bag Include the first bonding mortar layer 110, the bonding mortar layer 130 of heat-insulation layer 120 and second.Heat-insulation layer 120 has relative first in position The face 122 of face 121 and second, the first bonding mortar layer 110 is located at the first face 121 of heat-insulation layer 120, the second bonding mortar layer 130 Positioned at the second face 122 of heat-insulation layer 120.First face 121 and the second face 122 of heat-insulation layer 120 is provided with fluting 123, plays The mortar for pinning heat-insulation layer 120 two sides does not ftracture the effect for coming off, and does not result in cracking, forms one, is really achieved building and saves Can and it is structure-integrated.This building energy conservation goes along with sb. to guard him knot with the structure-integrated insulation material of outer wall self heat-preserving template 100 and main body Structure body of wall combines together, insulated fire function admirable, quality safety reliability.

In process, when the first bonding mortar layer 110 and the second bonding mortar layer 130 are molded, mortar can be filled up In entering the fluting 123 that heat-insulation layer 120 is opened up, the raised line 111 in embedded fluting 123 is formed after curing molding, meanwhile, it is solidified into Fluting 123 and raised line 111 are bonding during type, and the setting of fluting 123 and raised line 111 increases the first bonding mortar layer 110 and second contact area between bonding mortar layer 130 and heat-insulation layer 120, the first bonding mortar layer 110 can be strengthened whereby With the adhesion of the second 130 pairs of heat-insulation layer 120 of bonding mortar layer so as to more firm than the heat insulation formwork of common plane bonding It is many, effectively avoid the bonding mortar layer 110 of heat-insulation layer 120 and first, the separation of the second bonding mortar layer 130.

In the present embodiment, the fluting 123 positioned at the face 121 of heat-insulation layer 120 first and the fluting 123 positioned at the second face 122 Mutual dislocation, i.e., not exclusively weigh positioned at the first face 121 and projection of the fluting 123 in same level positioned at the second face 122 Close.Fluting 123 the first face 121 and the second face 122 dislocation open up, make the two sides of heat-insulation layer 120 stress do not concentrate on it is same Place, strengthens the pull resistance of heat-insulation layer 120.

Refering to shown in Fig. 2, in the present embodiment, fluting 123 is vertically arranged straight trough, i.e., fluting 123 is along heat-insulation layer 120 Length direction is opened up, and multiple flutings 123 are along the width interval setting of heat-insulation layer 120.Further, fluting 123 is parallel In the long side of heat-insulation layer 120, multiple flutings 123 are evenly distributed on first face 121 and the second face 122 of heat-insulation layer 120, and first The fluting 123 on the face 122 of fluting 123 and second on face 121 is in staggered distribution completely so that the pull resistance of heat-insulation layer 120 is higher, And production and processing of being more convenient for.

It should be noted that in other embodiment of the present utility model, fluting 123 can also be transverse groove, that is, slot 123 open up along the width of heat-insulation layer 120.And fluting 123 can be uniformly distributed on the two sides of heat-insulation layer, it is also possible to random point Cloth.

Heat-insulation layer 120 caves inward to form first side 124, second side 125 and bottom surface 126, first side 124, Two side faces 125 and bottom surface 126 constitute fluting 123.Fluting 123 is dovetail groove, i.e. the angle α of first side 124 and bottom surface 126 is little In 90 °, and the angle β of second side 125 and bottom surface is less than 90 °.Dovetail groove has a clear superiority in contrast to common serrated slot, The angle of bonding mortar embedded first side 124, second side 125 and bottom surface 126 can be made, heat-insulation layer 120 is had more Adhesive property well and tensile strength.Particularly when the thickness of heat-insulation layer 120 is more than 60mm, the shape of dovetail groove more can guarantee that The bonding mortar layer 110 of heat-insulation layer 120 and first, the second bonding mortar layer 130 is stable bonds together.Further, dovetail The interior angle spur of groove easily causes stress concentration, makes building energy conservation with structure-integrated outer wall self heat-preserving template 100 and body of wall Sticking strength is reduced, and easily causes coming off for heat-insulation layer.The two of dovetail groove bottom interior angles can be designed as excessive circular structure, Stress concentration is eliminated, self-strength is improved, it is ensured that do not fall off.

It should be noted that in other embodiment of the present utility model, as shown in figure 3, fluting 123 is serrated slot, i.e., The angle α of first side 124 and bottom surface 126 is more than or equal to 90 °, and the angle β of second side 125 and bottom surface is more than or equal to 90°.Preferably, when the thickness of heat-insulation layer 120 is less than or equal to 60mm, fluting 123 is serrated slot.The thickness of heat-insulation layer 120 When less, open up serrated slot and be more beneficial for ensureing the heat-insulating property of heat-insulation layer 120.

As shown in figure 1, the distance of two neighboring fluting 123 is S, S is less than or equal to 200mm.S is bigger, the number of fluting 123 Amount is fewer, conversely, S is less, the quantity of fluting 123 is more.S can ensure that enough flutings 123 less than or equal to 200mm, Ensure that heat-insulation layer 120 does not fall off easily.Further, S is preferably 50mm to 150mm, both ensured will not thing fluting it is excessive The heat-insulating property for causing heat-insulation layer 120 declines, and the bonding mortar layer 110, second of heat-insulation layer 120 and first is effectively guaranteed again and is glued Connect the bonding dynamics of screed 130.Simultaneously, it is to avoid because fluting 123 excessively causes the thickness of screed too big, cause entirely to build Build energy-conservation excessive with the weight of structure-integrated outer wall self heat-preserving template 100, it is not readily transportable and use.

It is understood that the spacing of two neighboring fluting 123 can be with identical, it is also possible to different.For raising performance and just In processing, the spacing of preferably fluting 123 is consistent.

Fig. 4 is referred to, further, first face 121 or/and the second face 122 of heat-insulation layer 120 are provided with groove 127, groove 127 position does not overlap with the position of fluting 123.The groove 127 of setting can be such that bonding mortar fills up in groove 127, produce The effect of similar bolt is given birth to, has increased the contact of the first bonding mortar layer 110 or/and the second bonding mortar layer 130 with heat-insulation layer Area, makes to bond even closer between building energy conservation and each layer of structure-integrated outer wall self heat-preserving template 100.Groove 127 exists First face 121 is projected as circle, triangle or polygon.

It is understood that in other embodiment of the present utility model, the shape of groove 127 can also be irregular Shape.And the number of groove 127 does not do specific restriction.

Fig. 5 is referred to, 123 first side 124 of slotting and/or second side 125 offer stopper slot 128.Limit is set Position groove 128 can be such that mortar flows in stopper slot 128, make raised line 111 form limited block (figure in the relative position of stopper slot 128 Do not show), the bonding dynamics between heat-insulation layer 120 and other layers is further enhanced, lift building energy conservation outside the pale of civilization with structural integrity The steadiness of the entirety of wall self-heat conserving template 100.

It should be noted that in other embodiment of the present utility model, the shape of fluting 123 can be done and further change Enter, for example, do "T"-shaped, " W " shape etc., as shown in Figure 6 and Figure 7.It is further possible to the bottom land in fluting 123 is further Offer fluting.

Further, in the present embodiment, the width of building energy conservation and structure-integrated outer wall self heat-preserving template 100 600mm-1200mm, length is 1200mm-2800mm, and such as building energy conservation is wide with structure-integrated outer wall self heat-preserving template 100 Degree is that for 600mm, length is 2400mm.

Further, in the present embodiment, heat-insulation layer 120 selects extruded sheet, hard-foam polyurethane plate or styrofoam, using upper Heat-insulation layer 120 made by material is stated with good insulation, sound insulation and the performance such as fire-retardant, but is not limited to this.Further, it is excellent Graphite extruded sheet is selected as heat insulation core material, has the advantages that high thermal resistance, low thermal expansion, good stability of the dimension, heat-insulating property are strong, its Compression strength can reach 350KPa-600KPa, and thermal conductivity factor is 0.022-0.024W/m.K, while meeting country's A level fire proofing woods Material standard.

Further, in the present embodiment, during using extruded sheet or hard-foam polyurethane etc. as heat insulation core material, to insulation First face 121 and the second face 122 of layer 120 carries out plucking or embossing is processed, and is the first face 121 and the second face 122 crude Face, it is ensured that the bonding mortar layer 110 of heat-insulation layer 120 and first, the adhesive effect of the second bonding mortar layer 130.Made using styrofoam For heat insulation core material when, the first face 121 of heat-insulation layer 120 and the second face 122 coating interfacial agents.Interfacial agents are a kind of adhesive, With strong bonding force, excellent resistance to water and resistance to ageing, adhesion strength of the bonding mortar to heat-insulation layer can be improved, can be had Effect avoid hollowing, come off, shrinkage cracking the problems such as.Similarly, the contact surface in the first bonding mortar layer 110 and the first face 121 is The contact surface in crude face, the second bonding mortar layer 130 and the second face 122 is crude face.Building energy conservation and structure-integrated exterior wall Contact surface between each layer of self-heat conserving template 100 is crude face, or scribbles interfacial agents, solves these water absorbent surfaces by force or light Cunning causes interface to be difficult bonding, causes heat-insulation layer 120 to produce the phenomenons such as hollowing, cracking, peeling.

Further, in the present embodiment, it is equipped with inside the first bonding mortar layer 110 and the second bonding mortar layer 130 Enhancement layer (not shown).Arranging enhancement layer can carry out intensity to building energy conservation with structure-integrated outer wall self heat-preserving template 100 Strengthen and outer layer protection, it is ensured that connection is reliable, prevent because it is secondary be incubated the permeable, hollowing for causing, come off, ftracture and body of wall with The quality problems that the secondary insulation life-span is not waited, the reduction of erection time, reduce integrated cost.

In general, it is the durability of guarantee external wall, the thickness of outside screed can be more than the thickness of inner side screed Degree.Meanwhile, it is the adhesion and durability of reinforcing outside screed, outside reinforcing mat adopts double-deck alkaline-resisting grid cloth, to prop up Hold outside screed.In the present embodiment, the first bonding mortar layer 110 for external wall inner side screed, the second bonding sand Pulp layer 130 is the outside screed of external wall, and the thickness of the first bonding mortar layer 110 is less than or equal to the second bonding mortar layer 130, the first bonding mortar layer 110 is provided with least one of which enhancement layer, and the second bonding mortar layer 130 is provided with least two-layer enhancement layer.

It should be noted that the thickness of the first bonding mortar layer 110 mentioned in embodiment and the second bonding mortar layer 130 Not including the thickness of raised line 111.

In the present embodiment, enhancement layer can be that one layer of the first bonding mortar layer 110 and the press-in of the second bonding mortar layer 130 are resistance to Alkali grid cloth, galvanizing electrowelding net, ripple fibre grid cloth, latticed steel wire or steel mesh piece, but it is not limited to this.Such as the first bonding The thickness of screed 110 is 3-10mm, and centre is pressed into one layer of alkaline-resisting grid cloth, and the thickness of the second bonding mortar layer 130 is 10- 35mm, the alkaline-resisting grid cloth of centre press-in layer 2-3.Bonding mortar is separated between multilayer enhancement layer.Further, the second bonding mortar When the thickness of layer 130 is less than or equal to 20mm, the alkaline-resisting grid cloth of two-layer is pressed into therebetween；The thickness of the second bonding mortar layer 130 When degree is more than 20mm, at least three layers alkaline-resisting grid cloth are pressed into therebetween, or make the second bonding mortar layer 130 near heat-insulation layer The enhancement layer of 120 positions is galvanizing electrowelding net.

Further, in embodiment, the second 130 points of bonding mortar layer is three layers, is followed successively by bonding mortar layer, insulation sand Pulp layer and bonding mortar layer (not shown).Heat-insulation mortar bed selection thermal insulation mortar, it is with various light materials as aggregate, with water Mud is gelling agent, admixes some property-modifying additives, a kind of premixing dry powder and mortar made by the certain operations of Jing, for constructing building table A kind of construction material of face heat-insulation layer.Preferably, when the thickness of the second bonding mortar layer 130 is more than or equal to 30mm, insulation The main component of mortar is glue powder polyphenyl particle slurry or glass bead slurry.Second bonding mortar layer 130 adopts three-decker, Thermal insulation mortar is added so that building energy conservation becomes apparent from the heat insulation effect of structure-integrated outer wall self heat-preserving template 100, has reduced Energy consumption, has saved production cost, improves the competitiveness of production efficiency and product.

Further, in the present embodiment, building energy conservation is worn with structure-integrated outer wall self heat-preserving template 100 in construction Multiple anchoring piece (not shown) are installed thoroughly, for strengthening body of wall.Anchoring piece is preferably engineering plastics bolt, and anchoring piece can be selected The high-strength engineering plastics such as nylon, polyphenyl alkene, polyethylene are processed, but are not limited to this.Further, it is to strengthen ensureing building The steadiness of energy-conservation and structure-integrated outer wall self heat-preserving template 100, the preferably final quotaion of anchoring piece with diameter greater than equal to 50mm, The tensile bearing capacity standard value of single anchoring piece is not less than 0.5KN, per m²Building energy conservation and structure-integrated outer wall self heat-preserving mould Plate 100 should be configured no less than 6 anchoring pieces, and anchoring piece is thick with structure-integrated outer wall self heat-preserving template 100 beyond building energy conservation Degree more than 50mm.

Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for For those skilled in the art, the utility model can have various modifications and variations.It is all in spirit of the present utility model and former Within then, any modification, equivalent substitution and improvements made etc. should be included within protection domain of the present utility model.

Claims (10)

1. a kind of building energy conservation and structure-integrated outer wall self heat-preserving template, it is characterised in that including the first bonding mortar layer, protect Warm layer and the second bonding mortar layer, the heat-insulation layer has the first relative face of position and the second face, and first face connects institute The first bonding mortar layer is stated, second face connects the second bonding mortar layer, and first face and second face are all provided with Fluting is equipped with, the fluting is serrated slot or dovetail groove, positioned at the fluting in first face and positioned at second face The fluting mutual dislocation, the first bonding mortar layer and the second bonding mortar layer are equipped with and match with the fluting Raised line, the raised line and the fluting it is bonding.

2. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described to open Groove is opened up along the length direction of the heat-insulation layer, width interval setting of multiple flutings along the heat-insulation layer.

3. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that Duo Gesuo State fluting to be uniformly distributed, the spacing of the two neighboring fluting is less than 200mm.

4. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described Simultaneously it is crude face with second face or scribbles interfacial agents, the first bonding mortar layer contact with the heat-insulation layer Face is crude face, and the second bonding mortar layer is crude face with the contact surface of the heat-insulation layer.

5. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described Enhancement layer is equipped with inside one bonding mortar layer and the second bonding mortar layer.

6. building energy conservation according to claim 5 and structure-integrated outer wall self heat-preserving template, it is characterised in that described The thickness of one bonding mortar layer is less than or equal to the second bonding mortar layer, and the first bonding mortar layer is provided with least one of which The enhancement layer, the second bonding mortar layer is provided with enhancement layer described at least two-layer.

7. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described Two bonding mortar layers are divided into three layers, are followed successively by bonding mortar layer, heat-insulation mortar bed and bonding mortar layer.

8. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described to build Build energy-conservation and be additionally provided with anchoring piece with structure-integrated outer wall self heat-preserving template.

9. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described Simultaneously or/and second face part that do not open up the fluting is provided with least one groove, the first bonding mortar layer or/ The projection with the groove match is equipped with the second bonding mortar layer, the projection and the fluting are bonding；Institute State groove and be projected as circle, triangle or polygon in first face.

10. building energy conservation according to claim 1 and structure-integrated outer wall self heat-preserving template, it is characterised in that described Fluting has first side, second side and bottom surface, and the first side and/or the second side offer stopper slot.