CN201660975U - Insulation system with built-in large mold - Google Patents
Insulation system with built-in large mold Download PDFInfo
- Publication number
- CN201660975U CN201660975U CN2010201091664U CN201020109166U CN201660975U CN 201660975 U CN201660975 U CN 201660975U CN 2010201091664 U CN2010201091664 U CN 2010201091664U CN 201020109166 U CN201020109166 U CN 201020109166U CN 201660975 U CN201660975 U CN 201660975U
- Authority
- CN
- China
- Prior art keywords
- heat insulation
- bolt
- crab
- polyphenyl
- insulation slab
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Building Environments (AREA)
Abstract
The utility model relates to an insulation system with a built-in large mold, comprising a polyphenyl insulation board, a glass-fiber mesh fabric and polymer mortar as well as gelatine powder polyphenyl particles and an anchor bolt, wherein the polyphenyl insulation board is fixed on a concrete wall; the gelatine powder polyphenyl particles are laid on the polyphenyl insulation board; the polymer mortar is laid on the gelatine powder polyphenyl particles and is internally sandwiched with the glass-fiber mesh fabric; and the anchor bolt penetrates through the polyphenyl insulation board and are anchored into the concrete wall to be anchored with reinforcing steel bars. By the anchor bolt anchored into a shear wall and dovetail grooves arranged at the inner side of the polyphenyl insulation board, the insulation system enhances the gripping force of the polyphenyl insulation board and the concrete and improves the insulation effect and safety of the polyphenyl insulation board.
Description
Technical field
The utility model relates to a kind of wall thermal insulating system, relates in particular to a kind of large die built-in heat insulation system.
Background technology
Construction wall insulation is the importance of building energy conservation, and insulation and adhesive type were incubated two kinds outward in heat-insulating method for wall commonly used now had.In in the interior heat preservation construction warming plate seam many, be heated easy to crackly, and easily produce the cold bridge effect, suffer artificial damage easily, be difficult for reparation.The shortcoming of insulation in though the outer insulation of adhesive type can be avoided, the warming plate and the body of wall of the outer insulation of adhesive type bond together, thus warming plate be connected with body of wall firm inadequately.
The utility model content
The purpose of this utility model provides a kind of large die built-in heat insulation system of simple in structure, high insulating effect.
The utility model purpose is achieved through the following technical solutions:
A kind of large die built-in heat insulation system, comprise polyphenylene heat insulation slab, glass fiber reticular cloth, polymer mortar, also comprise glue powder polyphenyl particle, crab-bolt, described polyphenylene heat insulation slab is fixed on the concrete wall, glue powder polyphenyl particle is layered on the polyphenylene heat insulation slab, polymer mortar is layered on the glue powder polyphenyl particle, accompanies glass fiber reticular cloth in the polymer mortar, described crab-bolt pass polyphenylene heat insulation slab and anchor into concrete within the walls with the reinforcing bar anchoring.
The side that described polyphenylene heat insulation slab is close to the concrete wall has dovetail groove.
Scribble water-repellent paint on the described polymer mortar.
Described crab-bolt is provided with 2 to 3 for every square metre, and the crab-bolt quantity on every polyphenylene heat insulation slab is no less than 5.
Described crab-bolt is the plum blossom shape and distributes.
The utility model is compared with interior insulation, and the utility model has increased usable floor area, has avoided interior warming plate seam many, and common quality defect easy to crack is heated; Reduce the cold bridge effect and be positioned at the indoor shortcoming that subjects to artificial damage, is difficult for reparation.The outer insulation of the utility model and adhesive type is compared, and the utility model has strengthened polyphenylene heat insulation slab and concrete bond stress by anchoring into the dovetail groove that crab-bolt in the shear wall and polyphenylene heat insulation slab inboard are offered, and has improved the heat insulation effect and the safety of polyphenylene heat insulation slab.
Description of drawings
Below in conjunction with the drawings and specific embodiments the utility model is described in further detail.Wherein:
Fig. 1 is a constructional drawing of the present utility model.
Fig. 2 is a crab-bolt distribution map of the present utility model.
Fig. 3 is crab-bolt installation procedure figure of the present utility model.
Wherein: 1-polyphenylene heat insulation slab, 2-glass fiber reticular cloth, 3-polymer mortar, 4-glue powder polyphenyl particle, 5-crab-bolt, 6-concrete wall, 7-dovetail groove, 8-water-repellent paint, 9-reinforcing bar, 10-mortar cushion block, 11-steel wire, 12-wood a tree, used in making timber for boats
The specific embodiment
A kind of large die built-in heat insulation system, comprise polyphenylene heat insulation slab 1, glass fiber reticular cloth 2, polymer mortar 3, also comprise glue powder polyphenyl particle 4, crab-bolt 5, described polyphenylene heat insulation slab 1 is fixed on the concrete wall 6, glue powder polyphenyl particle 4 is layered on the polyphenylene heat insulation slab 1, and polymer mortar 3 is layered on the glue powder polyphenyl particle 4, accompanies glass fiber reticular cloth 2 in the polymer mortar 3, scribble water-repellent paint 8 on the glass fiber reticular cloth 2, described crab-bolt 5 is passed polyphenylene heat insulation slab 1 and is anchored in the concrete wall 6 and reinforcing bar 9 anchorings.
Large die built-in interts in building operations main structure construction process; it is a system engineering; from the colligation of reinforcing bar 9 to the installation of polyphenylene heat insulation slab 1 and the process of going into mould; each step operation all has its strict quality main points; need to adopt rational job practices and technical measures; realize the set goal; sequence of construction is: the wall base → sanction plate; snap the line → first floor ejects the position line of crab-bolt 5 → insert the polyphenylene heat insulation slab 1 → polyphenylene heat insulation slab 1 of crab-bolt 5 → fixedly by design attitude examinations → fixed form → through-wall bolt hole → matched moulds → use ∏ type fastener to be installed or to be propped up that top muscle fixed form is suitable for reading tentatively to be cleared up with door and window hole polyphenylene heat insulation slab 1 → concreting → form removal → polyphenylene heat insulation slab 1 surface layer with wooden a tree, used in making timber for boats levelling insulation layer bottom surface absolute altitude line → assembling reinforcement 9 → topping cushion block → installation polyphenylene heat insulation slab 1 → on polyphenylene heat insulation slab 1, and it is as follows specifically to construct:
(1) before polyphenylene heat insulation slab 1 is installed, should eject control line by the design thickness of wall body, accurate to guarantee wall thermal insulating thickness.At its arranged outside mortar cushion block 10, be no less than 6 in every block of plate behind the intact body of wall reinforcing bar of colligation.
(2) boundary mortar is sprayed on polyphenylene heat insulation slab 1 two sides in advance.
(3) crab-bolt 5 every square metre should establish 2~3, the quantity of crab-bolt 5 is no less than 5 on every polyphenylene heat insulation slab 1.By the design size snap the line, mark crab-bolt 5 positions on 1 of the good polyphenylene heat insulation slab of assembly unit, crab-bolt 5 spacings are 600mm, layout to be the plum blossom shape and to distribute, and anchoring into the body of wall degree of depth must not be less than 50mm.Crab-bolt 5 positions as shown in Figure 2
(4) before the installation crab-bolt 5, must be screwed into the metal bolts bar in the plastic sheath, with pricking silk crab-bolt 5 is fixed on the body of wall reinforcing bar 9 then.
(5) before concreting, should buckle the protection groove on polyphenylene heat insulation slab 1 top.The protection groove shape is " ∏ " type, and the protection groove adopts wooden form to make.
(6) polyphenylene heat insulation slab 1 surface should in time be cleared up if any cement mortar behind the stripping, and the through-wall bolt hole should stop up tightly.
(7) polishing polyphenylene heat insulation slab 1 surface makes surfacing not have dirt.
(8) glass fiber reticular cloth 2 is pressed the floor gap size and is cut out in advance, smearing anticracking grout finishes for twice general the branch, about 3~the 4mm of first pass thickness, vertical immediately paving glass fiber reticular cloth 2, with trowel glass fiber reticular cloth 2 is pressed into mortar, lap width should not be pressed into a side earlier less than 50mm, be pressed into opposite side again, forbid dried taking.Smooth corrugationless is wanted in glass fiber reticular cloth 2 pavings, and plumpness should reach 100%, smears the levelling anticracking grout immediately second time, screeding and compaction.The building first floor is answered the double-deck glass fiber reticular cloth 2 of paving, and first floor is answered the reinforced glass fiber reticular cloth 2 of paving, and first floor external thermal insulated wall external corner should add the special-purpose metal corner protector 2 of double-deck glass fiber reticular cloths, and the corner protector height is generally 2m.Add in first pass glass fiber reticular cloth 2 construction backs, all the other each layer inner corner trims, external corner, door and window bicker are used double-deck glass fiber reticular cloth 2 parcels and are strengthened, and cornerite glass fiber reticular cloth 2 monolateral length should be less than 15cm.
As shown in Figure 3, when on polyphenylene heat insulation slab 1, wearing crab-bolt 5, must there be a workman to cooperate on the opposite of polyphenylene heat insulation slab 1.At first adopt steel wire 11 to press close to mortar cushion block 10 positions in the inboard and wear the location in advance, the workman in the outside passes polyphenylene heat insulation slab 1 with crab-bolt 5 along the locating hole of steel wire 11 again, inboard workman holds out against site of perforation polyphenylene heat insulation slab 1 with wooden a tree, used in making timber for boats 12 simultaneously, when penetrating polyphenylene heat insulation slab 1, crab-bolt 5 wooden a tree, used in making timber for boats 11 is removed, inboard at polyphenylene heat insulation slab 1 when preventing to wear crab-bolt 5 forms tapered indentations, damages.Wear crab-bolt 5 in advance when running into body of wall reinforcing bar 9, position that can mobile a little crab-bolt 5, avoiding body of wall reinforcing bar 9, flow chart as shown in Figure 3: 1. → 2. → 3. → 4. → 5.
The intensity of polyphenylene heat insulation slab 1 is much smaller than steel form, for preventing that plastic cushion is pressed in the polyphenylene heat insulation slab 1 by concrete wall 6 lateral pressures, adopt cement mortar cushion block 10 in concrete wall 6 and warming plate contact surface one side, increased the contact area of mortar cushion block 10 like this, prevented that concrete wall 6 lateral pressures are pressed into plastic cushion polyphenylene heat insulation slab 1 and polyphenylene heat insulation slab 1 is damaged with polyphenylene heat insulation slab 1.
Concrete is built and is taked the layering blanking in the process, prevents that the concrete unified allocation of materials to lower units from giving the lateral pressure of polyphenylene heat insulation slab 1 excessive, and makes polyphenylene heat insulation slab 1 compressive deformation, cause vertical piece to stagger and spillage, has avoided therefore the influence to concrete wall 6 structures.
Claims (5)
1. large die built-in heat insulation system, comprise polyphenylene heat insulation slab (1), glass fiber reticular cloth (2), polymer mortar (3), it is characterized in that: also comprise glue powder polyphenyl particle (4), crab-bolt (5), described polyphenylene heat insulation slab (1) is fixed on the concrete wall (6), glue powder polyphenyl particle (4) is layered on the polyphenylene heat insulation slab (1), polymer mortar (3) is layered on the glue powder polyphenyl particle (4), accompany glass fiber reticular cloth (2) in the polymer mortar (3), described crab-bolt (5) is passed polyphenylene heat insulation slab (1) and is anchored in the concrete wall (6) and reinforcing bar (9) anchoring.
2. large die built-in heat insulation system according to claim 1 is characterized in that: the side that described polyphenylene heat insulation slab (1) is close to concrete wall (6) has dovetail groove (7).
3. large die built-in heat insulation system according to claim 1 is characterized in that: scribble water-repellent paint (8) on the described polymer mortar (3).
4. large die built-in heat insulation system according to claim 1 is characterized in that: described crab-bolt (5) is provided with 2 to 3 for every square metre, and the quantity of the crab-bolt (5) on the every polyphenylene heat insulation slab (1) is no less than 5.
5. large die built-in heat insulation system according to claim 1 is characterized in that: described crab-bolt (5) is the plum blossom shape and distributes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201091664U CN201660975U (en) | 2010-02-05 | 2010-02-05 | Insulation system with built-in large mold |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201091664U CN201660975U (en) | 2010-02-05 | 2010-02-05 | Insulation system with built-in large mold |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201660975U true CN201660975U (en) | 2010-12-01 |
Family
ID=43231392
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2010201091664U Expired - Lifetime CN201660975U (en) | 2010-02-05 | 2010-02-05 | Insulation system with built-in large mold |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201660975U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102605956A (en) * | 2011-01-21 | 2012-07-25 | 林淑芬 | Construction method of heat preservation walls and device thereof |
CN106193468A (en) * | 2016-09-13 | 2016-12-07 | 朱波 | Spliced thermal-insulating waterproof shoe plate, spliced thermal-insulating waterproof shoe plate combinative structure and construction method thereof |
CN107667722A (en) * | 2016-08-02 | 2018-02-09 | 长春市艺心农业科技有限公司 | Water accumulation of heat self-temperature-regulating warmhouse booth |
CN109763651A (en) * | 2019-01-18 | 2019-05-17 | 中建六局土木工程有限公司 | The construction method that heat insulation integrated template and concrete exterior wall use anchor bolt fixed |
-
2010
- 2010-02-05 CN CN2010201091664U patent/CN201660975U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102605956A (en) * | 2011-01-21 | 2012-07-25 | 林淑芬 | Construction method of heat preservation walls and device thereof |
CN107667722A (en) * | 2016-08-02 | 2018-02-09 | 长春市艺心农业科技有限公司 | Water accumulation of heat self-temperature-regulating warmhouse booth |
CN106193468A (en) * | 2016-09-13 | 2016-12-07 | 朱波 | Spliced thermal-insulating waterproof shoe plate, spliced thermal-insulating waterproof shoe plate combinative structure and construction method thereof |
CN109763651A (en) * | 2019-01-18 | 2019-05-17 | 中建六局土木工程有限公司 | The construction method that heat insulation integrated template and concrete exterior wall use anchor bolt fixed |
CN109763651B (en) * | 2019-01-18 | 2021-01-08 | 中建六局土木工程有限公司 | Construction method for fixing heat-preservation integrated template and concrete outer wall by anchor bolt |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207499403U (en) | A kind of FS composite thermal-insulating exterior formworks system | |
CN203795663U (en) | Composite shear wall with self-heat-preservation function | |
CN102852272B (en) | A kind of prefabricated composite external wall panel with decoration concrete surface layer and manufacture method | |
CN203429831U (en) | Split-free composite heat insulation template for pouring concrete | |
CN108222363A (en) | A kind of honeycomb core combined wall board and preparation method thereof | |
CN201660975U (en) | Insulation system with built-in large mold | |
CN204152000U (en) | A kind of inorganic compounding insulation construction for in-situ concrete wall | |
CN104947846B (en) | A kind of prefabricated integral frame light filling lining and preparation method thereof | |
CN103835505A (en) | Outer wall compound heat preservation board construction method | |
CN203430021U (en) | Split-free polyurethane composite heat insulation template for pouring concrete | |
CN103615076B (en) | The oblique roofing concrete construction method of a kind of heavy grade | |
CN104695662A (en) | Stone facing prefabricated external wall plate as well as production method and external wall system thereof | |
CN113386255A (en) | Construction and production process of building decoration heat preservation and sound insulation structure integrated plate | |
CN206956959U (en) | Light composite heat insulation outer wall plate | |
CN111206694A (en) | External wall heat insulation structure and construction process thereof | |
CN206957042U (en) | Light composite heat insulation outer wall plate and particular manufacturing craft | |
CN201031464Y (en) | Composite thermal insulating board | |
CN102277936A (en) | Grade A fireproof light thermal insulating decorative integrated plate and production process thereof | |
CN102251671B (en) | Exterior heat insulation on-site construction process of exterior wall based on foaming cement material | |
CN208329284U (en) | One kind exempting from demoulding external thermal insulation quake-proof integral shear wall | |
CN109838048A (en) | The high straight wear-resisting reinforced concrete roof construction of degree large area one-pass molding | |
CN202810066U (en) | Heat preservation decorating system integrative with structural construction | |
CN101509286B (en) | Producing and installing technique for integral cement composite heat preserving external wall and matched panel spreading and applying machine | |
CN204343494U (en) | A kind of sand aerating inner partition plate installation structure | |
CN201109944Y (en) | Polyurethane thermo-insulating board |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20101201 |