CN205000498U - Cast in situ concrete wall body heat preservation enhancement mode template - Google Patents

Cast in situ concrete wall body heat preservation enhancement mode template Download PDF

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Publication number
CN205000498U
CN205000498U CN201520730976.4U CN201520730976U CN205000498U CN 205000498 U CN205000498 U CN 205000498U CN 201520730976 U CN201520730976 U CN 201520730976U CN 205000498 U CN205000498 U CN 205000498U
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China
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layer
heat preservation
situ concrete
heat insulating
insulation layer
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Expired - Fee Related
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CN201520730976.4U
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Chinese (zh)
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夏飞
夏大明
朱宝稳
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夏大明
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Priority to CN201520730976.4U priority Critical patent/CN205000498U/en
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Publication of CN205000498U publication Critical patent/CN205000498U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a collect concrete placement template and wall heated board function in the cast in situ concrete wall body heat preservation enhancement mode template of an organic whole. Including the heat preservation, the heat preservation both sides by interior and outward in proper order the symmetry bond and to have or not organizational security temperature buffer layer, enhancement layer and waterproof crack resistance layer, heat preservation and inorganic heat preservation buffer layer between have a boundary layer that is used for strengthening adhesion strength between heat preservation and the inorganic heat preservation buffer layer, the heat preservation is made by a material, or is formed by the concatenation of the material more than a kind, heat preservation both sides and boundary layer between respectively be equipped with reinforcing strip layer. The utility model discloses the cost is practiced thrift to the advantage of full play material more than two kinds or two kinds, improves the fireproof waterproof grade to satisfy energy -saving insulation's requirement.

Description

In-situ concrete wall heat insulating reinforcing template
Technical field
The utility model relates to wall thermal insulation technology field for building, specifically a kind of in-situ concrete wall heat insulating reinforcing template integrating concrete-pouring template and metope warming plate function.
Background technology
Building Energy-saving Work is the Important Action implemented national recycling economy, advance low-carbon type social construction.Wall thermal insulation board used in current construction work mostly is concrete work completion stripping, after main body is completed, concrete base layer smears leveling mortar, paste heat-preserving sheet material again, although its thermal technology's property reaches building energy conservation heat insulation requirement, there is construction complicated, operation is many, long in time limit, engineering construction cost is high, adhesive material quality and construction quality be difficult to ensure, cracking, obscission often occur, and particularly poor durability, insulation layer repair difficulty after damaging.When engineering uses organic heat-insulating sheet material, there is serious disaster hidden-trouble.
Current construction work also has and adopts compound heat preservation die plate, its Problems existing is as follows:
One, heat insulating material selects the coefficient of thermal conductivity of cement fibrolite plate or Thistle board large, and thermal property is poor; Select the heat insulating materials such as rock cotton board only to do in two large faces, side and strengthen overcoat process, any waterproofing work is not done in other four side, and very easily imbibition, has a strong impact on thermal property, even because of expansion damage compound heat preservation die plate; It is weak that compound heat preservation die plate two side faces strengthens the strong one side of topping way one side, flexural strength is low, according to the use force analysis of template, compound heat preservation die plate is the stress of two-sided continuous straddle in use, all there is tension point inside and outside both sides, only outside compound heat preservation die plate, increase reinforcing rib, under cast-in-situ concrete horizontal force action, outside tension plays a role, and very easily destroys after the tension of inner side; Compound heat preservation die plate is only suitable for light weight concrete construction, applies restricted;
Two, in compound heat preservation die plate the waterproof of insulation layer or fireproof performance not good because while selection heat insulating material, this heat insulating material is difficult to reach waterproof or fireproof requirement simultaneously, usually can only reach good fireproof, or waterproof is good.Such as, heat insulating material XPS plate and rock cotton board, wherein XPS plate waterproof is good, but fireproof performance is poor, rock cotton board good fireproof, but water resistance is poor.
Summary of the invention
For solving the problems of the technologies described above, the utility model provides a kind of in-situ concrete wall heat insulating reinforcing template.
The utility model is achieved through the following technical solutions: a kind of in-situ concrete wall heat insulating reinforcing template, comprises insulation layer; In described insulation layer both sides, symmetry is bonded with inorganic heat preservation cushion coat, enhancement layer and water-proof crack-resistant layer successively from inside to outside; The boundary layer for strengthening adhesion strength between insulation layer and inorganic heat preservation cushion coat is had between described insulation layer and inorganic heat preservation cushion coat; Described insulation layer is made up of a kind of material, or is spliced by more than one material; Enhancement bar layer is respectively provided with between described insulation layer both sides and boundary layer.
It is further: described insulation layer is EPS plate, XPS plate, polyurethane foam board, rock cotton board, rock wool belt, phenolic resins plate or mineral wool board.
Described insulation layer is interlocked by two kinds and two or more materials and is spliced.
Described insulation layer is interlocked by XPS plate and rock cotton board and is spliced; Described XPS plate and the elongated plate of rock cotton board, up and down staggered splicing.
Described enhancement bar layer comprises the vertically arranged enhancement bar be evenly arranged of one deck and XPS plate or rock cotton board length direction.
Described enhancement bar layer comprises one deck and XPS plate or the vertical enhancement bar be evenly arranged of the rock cotton board length direction enhancement bar that be evenly arranged parallel with XPS plate or rock cotton board length direction with one deck.
Described in-situ concrete wall heat insulating reinforcing template four side is coated with waterproofing course.
Described enhancement layer is alkali-proof glass fiber mesh, non-woven fabrics, gauze wire cloth or plastic grid sheet.
When installing and using, in-situ concrete wall heat insulating reinforcing template beats installing hole, outside in-situ concrete wall heat insulating reinforcing template, insert anchoring piece; Anchoring piece is connected to securely in in-situ concrete wall heat insulating reinforcing template, then vertical in-situ concrete wall heat insulating reinforcing template, fluid concrete; After fluid concrete, anchoring piece will firmly bond in concrete, and so far in-situ concrete wall heat insulating reinforcing template and concrete are connected to one.
This in-situ concrete wall heat insulating reinforcing template peripheral hardware enhancement layer, inorganic heat preservation cushion coat and water-proof crack-resistant layer, waterproof, fireproof performance are strong, so insulation layer can process with heat insulating materials such as organic or inorganics.Between insulation layer and inorganic heat preservation cushion coat, establish boundary layer to increase the adhesion strength between insulation layer and inorganic heat preservation cushion coat.Adopt symmetric design, two-sided all have higher flexural strength, the more satisfied mechanical characteristic used as template; In-situ concrete wall heat insulating reinforcing template being reliably connected with cast-in-situ concrete by anchoring piece, using as exterior sheathing and while free removal, playing again the effect of fireproof heat insulating, is a kind of novel energy-saving environment-friendly product.Insulation layer is selected the heat insulating material of deflection fireproof heat insulating material and deflection waterproof to interlock and is spliced, give full play to the advantage of two or more material, cost-saving, improve fire-proof and water-proof grade, and meet the requirement of energy-saving heat preserving, the enhancement bar layer of insulation layer both sides increases the bulk strength of template further, reaches the requirement of construction intensity.
The utility model is as cast-in-situ concrete exterior sheathing use, and the direct warming plate use as metope again after having built, simplifies construction technology, improves efficiency of construction, shortens construction period; Two-sided all have higher flexural strength, the more satisfied mechanical characteristic used as template; Stage construction designs, and waterproofing work made by the cement paste being mixed with waterproof agent in the spraying of cast-in-situ concrete exterior sheathing four side, meets as waterproof during heat insulation formwork, fire prevention, heat preservation property; Give full play to the advantage of two or more material, cost-saving, improve fire-proof and water-proof grade, and meet the requirement of energy-saving heat preserving.
Accompanying drawing explanation
Fig. 1 is the utility model organigram;
Organigram when Fig. 2 is the utility model using state.
In figure: 1, water-proof crack-resistant layer; 2, enhancement layer; 3, inorganic heat preservation cushion coat; 4, boundary layer; 5, insulation layer; 6, concrete; 7, anchoring piece; 8, enhancement bar layer.
Detailed description of the invention
Be below a specific embodiment of the present utility model, now by reference to the accompanying drawings the utility model be described further.
As depicted in figs. 1 and 2, a kind of in-situ concrete wall heat insulating reinforcing template, comprises insulation layer 5; In insulation layer 5 both sides, symmetry is bonded with inorganic heat preservation cushion coat 3, enhancement layer 2 and water-proof crack-resistant layer 1 successively from inside to outside; The boundary layer 4 for strengthening adhesion strength between insulation layer 5 and inorganic heat preservation cushion coat 3 is had between insulation layer 5 and inorganic heat preservation cushion coat 3; Insulation layer 5 is made up of a kind of material, or is spliced by more than one material; Enhancement bar layer 8 is respectively provided with between insulation layer 5 both sides and boundary layer 4.Insulation layer 5 can select EPS plate, XPS plate, polyurethane foam board, rock cotton board, rock wool belt, phenolic resins plate or mineral wool board.In the present embodiment, insulation layer 5 is spliced by XPS plate and rock cotton board are staggered; XPS plate and the elongated plate of rock cotton board, up and down staggered splicing.Enhancement bar layer 8 comprises one deck and XPS plate or the vertical enhancement bar be evenly arranged of the rock cotton board length direction enhancement bar that be evenly arranged parallel with XPS plate or rock cotton board length direction with one deck.In-situ concrete wall heat insulating reinforcing template four side is coated with waterproofing course.Enhancement layer 2 is alkali-proof glass fiber mesh, non-woven fabrics, gauze wire cloth or plastic grid sheet.
In the present embodiment, XPS plate waterproof is good, but fireproof performance is poor, rock cotton board good fireproof, but water resistance is poor, by the staggered splicing of heat insulating material XPS plate and rock cotton board, when something unexpected happened, total energy ensures that in-situ concrete wall heat insulating reinforcing template can not overallly be destroyed, and can ensure that template is substantially complete.
As shown in Figure 2, when installing and using, in-situ concrete wall heat insulating reinforcing template beats installing hole, outside in-situ concrete wall heat insulating reinforcing template, insert anchoring piece 7; Anchoring piece 7 is connected to securely in in-situ concrete wall heat insulating reinforcing template, then vertical in-situ concrete wall heat insulating reinforcing template, fluid concrete 6; After fluid concrete 6, anchoring piece 7 will firmly bond in concrete 6, and so far in-situ concrete wall heat insulating reinforcing template and concrete 6 are connected to one.The utility model, using as exterior sheathing and while free removal, playing again the effect of fireproof heat insulating, is a kind of novel energy-saving environment-friendly product.

Claims (8)

1. an in-situ concrete wall heat insulating reinforcing template, comprises insulation layer (5); In described insulation layer (5) both sides, symmetry is bonded with inorganic heat preservation cushion coat (3), enhancement layer (2) and water-proof crack-resistant layer (1) successively from inside to outside; The boundary layer (4) for strengthening adhesion strength between insulation layer (5) and inorganic heat preservation cushion coat (3) is had between described insulation layer (5) and inorganic heat preservation cushion coat (3); It is characterized in that: described insulation layer (5) is made up of a kind of material, or is spliced by more than one material; Enhancement bar layer (8) is respectively provided with between described insulation layer (5) both sides and boundary layer (4).
2. in-situ concrete wall heat insulating reinforcing template according to claim 1, is characterized in that: described insulation layer (5) is EPS plate, XPS plate, polyurethane foam board, rock cotton board, rock wool belt, phenolic resins plate or mineral wool board.
3. in-situ concrete wall heat insulating reinforcing template according to claim 1 and 2, is characterized in that: described insulation layer (5) is interlocked by two kinds and two or more materials and is spliced.
4. in-situ concrete wall heat insulating reinforcing template according to claim 3, is characterized in that: described insulation layer (5) is interlocked by XPS plate and rock cotton board and is spliced; Described XPS plate and the elongated plate of rock cotton board, up and down staggered splicing.
5. in-situ concrete wall heat insulating reinforcing template according to claim 4, is characterized in that: described enhancement bar layer (8) comprises the vertically arranged enhancement bar be evenly arranged of one deck and XPS plate or rock cotton board length direction.
6. in-situ concrete wall heat insulating reinforcing template according to claim 4, is characterized in that: described enhancement bar layer (8) comprises one deck and XPS plate or the vertical enhancement bar be evenly arranged of the rock cotton board length direction enhancement bar that be evenly arranged parallel with XPS plate or rock cotton board length direction with one deck.
7. in-situ concrete wall heat insulating reinforcing template according to claim 5, is characterized in that: described in-situ concrete wall heat insulating reinforcing template four side is coated with waterproofing course.
8. in-situ concrete wall heat insulating reinforcing template according to claim 5, is characterized in that: described enhancement layer (2) is alkali-proof glass fiber mesh, non-woven fabrics, gauze wire cloth or plastic grid sheet.
CN201520730976.4U 2015-09-21 2015-09-21 Cast in situ concrete wall body heat preservation enhancement mode template Expired - Fee Related CN205000498U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520730976.4U CN205000498U (en) 2015-09-21 2015-09-21 Cast in situ concrete wall body heat preservation enhancement mode template

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520730976.4U CN205000498U (en) 2015-09-21 2015-09-21 Cast in situ concrete wall body heat preservation enhancement mode template

Publications (1)

Publication Number Publication Date
CN205000498U true CN205000498U (en) 2016-01-27

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109707058A (en) * 2017-10-25 2019-05-03 天津市贝乐建筑材料有限公司 A kind of cast-in-place concrete fireproof heat insulating compound external mold plate and its application method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109707058A (en) * 2017-10-25 2019-05-03 天津市贝乐建筑材料有限公司 A kind of cast-in-place concrete fireproof heat insulating compound external mold plate and its application method

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160127

Termination date: 20180921

CF01 Termination of patent right due to non-payment of annual fee