CN203499038U

CN203499038U - Tying reinforced type cement-based composite warming plate

Info

Publication number: CN203499038U
Application number: CN201320575774.8U
Authority: CN
Inventors: 常青山; 逄鲁锋; 王振隆; 耿磊; 宋廷善; 郭庆亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-09-17
Filing date: 2013-09-17
Publication date: 2014-03-26
Anticipated expiration: 2023-09-17

Abstract

The utility model provides a tying reinforced type cement-based composite warming plate which is light in weight, high in strength, good in insulation effect, good in fireproofing effect, good in integrity, free of hollowing and cracking, reliable in connection of layers of the plate body, and firm in bonding with a building, and has the same service life to the building. The tying reinforced type cement-based composite warming plate includes an inner-side bonding reinforced layer, a high-efficiency insulating layer, an outer-side bonding reinforced layer, and an outer-side insulation transition layer which are successively composited from the inside to the outside, wherein the inner sides of the inner-side bonding reinforced layer, the outer-side bonding reinforced layer, and the outer-side insulation transition layer are provided with crack-resistant protective layers, the inner-side bonding reinforced layer, the high-efficiency insulating layer, the outer-side bonding reinforced layer, and the outer-side insulation transition layer are interconnected into an integral body through a plurality of tying reinforced members.

Description

The reinforced cement based composite insulation boards of drawknot

Technical field

The utility model relates to a kind of composite insulation boards, is specifically related to the reinforced cement based composite insulation boards of a kind of drawknot, belongs to External Thermal Insulation Technology for External field.

Background technology

Building energy consumption is about the 30-40% of a national total energy consumption, effectively reduces building energy consumption and more sees that at the energy be of great practical significance deficient today.Along with carrying out in a deep going way of China's Building Energy-saving Work, External Thermal Insulation Technology for External has obtained development fast.The stickup polyphenyl plate and the large die built-in polyphenyl board that generally adopt at present, the wall thermal insulating modes such as steel wire net rack polyphenyl plate and cast-in-situ concrete composite thermal-insulating exterior formwork, although solved wall thermal insulating heat-insulating problem, but exist complicated construction technique, fire safety hidden danger is large, insulation construction and building bonding are not firmly or insulation construction problems of crack very easily, also very easily there is the hollowing of sheet material own in the cast-in-situ concrete composite thermal-insulating exterior formwork of implementing especially in recent years, cracking, the bonding problem such as not firm of interior outer lateral layers, thereby can not realize sheet material and same life-span of building, can not realize real building energy conservation and structure-integrated.Therefore, design a kind of good heat insulating, quality is light, fireproof performance good, be easy to construction, safety durable and with building with the composite insulation boards in life-span, be necessary.

Utility model content

The utility model object is to provide the reinforced cement based composite insulation boards of a kind of drawknot, not only quality is light, intensity is high, heat insulation effect and flameproof effect good, and good integrity, hollowing does not ftracture, each layer of plate body connects reliable, also firm with building bonding, with the same life-span of building.

To achieve these goals, the utility model adopts following technical scheme to realize:

The reinforced cement based composite insulation boards of a kind of drawknot, it comprises the interior inner side bonding enhancement Layer being outwards composited successively, efficient insulation layer, outside bonding enhancement Layer and outside insulation transition zone, wherein inner side bonding enhancement Layer, outside bonding enhancement Layer and insulation transition zone inside, outside are provided with anti-cracking protective layer, between inner side bonding enhancement Layer, efficient insulation layer, outside bonding enhancement Layer and outside insulation transition zone, by a plurality of drawknot reinforcements, are interconnected to form integral body.

Preferably, described efficient insulation layer is one or more is composited of thermoplastic polyphenyl plate, extruded polystyrene board, hard-foam polyurethane plate, phenolic resins plate, rock cotton board, block of glass wool.

Preferably, described inner side bonding enhancement Layer and outside bonding enhancement Layer are cement-based mortar material and make; Outside insulation transition zone is that porous polymer mortar, lightweight aggregate mortar or foam cement mortar material are made.

Preferably, described anti-cracking protective layer is perforated non-woven fabric, alkali-proof glass fiber mesh or gauze wire cloth.

Preferably, described drawknot reinforcement be threaded or barb run through nail, run through nail one end and be arranged on outside insulation transition zone, the other end is arranged in the bonding enhancement Layer of inner side through outside bonding enhancement Layer, efficient insulation layer successively, and its length equates with the reinforced cement based composite insulation boards of drawknot gross thickness.

Preferably, described drawknot reinforcement is all-pass cement based drawknot post, and all-pass cement based drawknot post one end is connected with outside bonding enhancement Layer, and the other end runs through inner side bonding enhancement Layer and is connected with efficient insulation layer.

Preferably, described drawknot reinforcement is a plurality of half-pass cement based drawknot posts, some are connected described half-pass cement based drawknot post and go deep into efficient insulation layer and do not run through efficient insulation layer with inner side bonding enhancement Layer, remaining other are connected and go deep into efficient insulation layer and do not run through efficient insulation layer with outside bonding enhancement Layer, and the half-pass cement based drawknot post being connected with inner side bonding enhancement Layer is in staggered distribution mutually with the half-pass cement based drawknot post being connected with outside bonding enhancement Layer.

Preferably, it also includes corner cutting ferrule, and corner cutting ferrule is i beam, and i beam two side plate inner surface distances equate with composite insulation boards gross thickness.

Preferably, on a side plate of corner cutting ferrule, there are a plurality of connection anchoring elements.

The utility model beneficial effect:

The utility model comprises inner side bonding enhancement Layer, efficient insulation layer, outside bonding enhancement Layer and outside insulation transition zone, quality is light, intensity is high, heat insulation effect and flameproof effect good; Inner side bonding enhancement Layer, outside bonding enhancement Layer and insulation transition zone inside, outside are provided with anti-cracking protective layer, not hollowing cracking; Each layer is interconnected to form integral body by a plurality of drawknot reinforcements, warming plate good integrity, and outer lateral layers connects reliably in plate body itself, and warming plate and building bonding are firmly, and build the same life-span.

Accompanying drawing explanation

Fig. 1 is the organigram (drawknot reinforcement is for running through nail) of embodiment 1;

Fig. 2 is the organigram (drawknot structure is all-pass cement based drawknot post) of embodiment 2;

Fig. 3 is the organigram (drawknot structure is half-pass cement based drawknot post) of embodiment 3;

Fig. 4 runs through nail distribution top view;

Fig. 5 is all-pass cement based drawknot post distribution top view;

Fig. 6 is half-pass cement based drawknot post distribution top view;

Fig. 7 is corner ferrule structure schematic diagram.

In figure: 1, inner side bonding enhancement Layer, 2, efficient insulation layer, 3, outside bonding enhancement Layer, 4, outside insulation transition zone, 5-1, run through nail, 5-2, all-pass cement based drawknot post, 5-3, half-pass cement based drawknot post, 6, anti-cracking protective layer, 7, corner cutting ferrule, 8, connection anchoring element.

embodiment

For the ease of those skilled in the art, better understand the utility model, below in conjunction with the drawings and specific embodiments, the utility model is described in further details, following is only the exemplary protection domain of the present utility model that do not limit.

embodiment 1:

With reference to accompanying drawing 1,4, select thermoplastic polyphenyl plate as efficient insulation layer 2, at its arranged outside cement-based mortar, as outside bonding enhancement Layer 3, outside bonding enhancement Layer 3 arranged outside porous polymer mortars are as insulation transition zone 4; Efficient insulation layer 2 inner sides arrange cement-based mortar as inner side bonding enhancement Layer 1; Wherein inner side bonding enhancement Layer 1, outside bonding enhancement Layer 3 and insulation transition zone 4 inside arrange alkali-proof glass fiber mesh as anti-cracking protective layer 6; The structure more than forming arranges follows closely 5-1 as drawknot reinforcement running through of plastic material, running through nail 5-1 is threaded or barb, run through nail 5-1 one end and be arranged on outside insulation transition zone 4, the other end is arranged in the bonding enhancement Layer 1 of inner side through outside bonding enhancement Layer 3, efficient insulation layer 2 successively, and its length equates with the reinforced cement based composite insulation boards of drawknot gross thickness.

embodiment 2:

With reference to accompanying drawing 2,5, select extruded polystyrene board as efficient insulation layer 2, at its arranged outside cement-based mortar, as outside bonding enhancement Layer 3, outside bonding enhancement Layer 3 arranged outside lightweight aggregate mortars are as insulation transition zone 4; Efficient insulation layer 2 inner sides arrange cement-based mortar as inner side bonding enhancement Layer 1; Wherein inner side bonding enhancement Layer 1, outside bonding enhancement Layer 3 and insulation transition zone 4 inside arrange gauze wire cloth as anti-cracking protective layer 6; The structure more than forming arranges all-pass cement based drawknot post 5-2 as drawknot reinforcement.All-pass cement based drawknot post 5-2 one end is connected with outside bonding enhancement Layer 3, and the other end runs through inner side bonding enhancement Layer 1 and is connected with efficient insulation layer 2.

embodiment 3:

With reference to accompanying

drawing

3,6, select hard-foam polyurethane as efficient insulation layer 2, at its arranged outside cement-based mortar, as outside bonding enhancement Layer 3, outside bonding enhancement Layer 3 arranged outside foam cement mortars are as insulation transition zone 4; Efficient insulation layer 2 inner sides arrange cement-based mortar as inner side bonding enhancement Layer 1; Wherein inner side bonding enhancement Layer 1, outside bonding enhancement Layer 3 and insulation transition zone 4 inside arrange perforated non-woven fabric as anti-cracking protective layer 6; The structure more than forming arranges half-pass cement based drawknot post 5-3 as drawknot reinforcement.Some are connected described half-pass cement based drawknot post 5-3 and go deep into efficient insulation layer 2 and do not run through efficient insulation layer 2 with inner side bonding enhancement Layer 1, remaining other are connected and go deep into efficient insulation layer 2 and do not run through efficient insulation layer 2 with outside bonding enhancement Layer 3, and the half-pass cement based drawknot post 5-3 being connected with inner side bonding enhancement Layer 1 is in staggered distribution mutually with the half-pass cement based drawknot post 5-3 being connected with outside bonding enhancement Layer 3.

With reference to figure 7, the utility model can arrange corner cutting ferrule 7, and corner cutting ferrule 7 is i beam, and i beam two side plate inner surface distances equate with composite insulation boards gross thickness, a plurality of connection anchoring elements 8 on a side plate of corner cutting ferrule 7.In the time of construction, can make to be reliably connected with reinforcing bar before composite insulation boards concreting, after concreting, reach prescribed strength and remove inner side template and supporting and protection structure, finally do interior and exterior finishes.

Efficient insulation layer 2 can also be one or more is composited of phenolic resins plate, rock cotton board, block of glass wool.

Below only described basic principle of the present utility model and preferred embodiment, those skilled in the art can make many changes and improvements according to foregoing description, and these changes and improvements should belong to protection domain of the present utility model.

Claims

1. the reinforced cement based composite insulation boards of drawknot, it is characterized in that: it comprises the interior inner side bonding enhancement Layer (1) being outwards composited successively, efficient insulation layer (2), outside bonding enhancement Layer (3) and outside insulation transition zone (4), bonding enhancement Layer (1) wherein, outside bonding enhancement Layer (3) and insulation transition zone (4) inside, outside are provided with anti-cracking protective layer (6), inner side bonding enhancement Layer (1), efficient insulation layer (2), between outside bonding enhancement Layer (3) and outside insulation transition zone (4), by a plurality of drawknot reinforcements, be interconnected to form integral body.

2. the reinforced cement based composite insulation boards of drawknot according to claim 1, is characterized in that: being composited of one or more that described efficient insulation layer (2) is thermoplastic polyphenyl plate, extruded polystyrene board, hard-foam polyurethane plate, phenolic resins plate, rock cotton board, block of glass wool.

3. the reinforced cement based composite insulation boards of drawknot according to claim 1, is characterized in that: described inner side bonding enhancement Layer (1) and the outside enhancement Layer (3) that bonds is cement-based mortar material and makes; Outside insulation transition zone (4) is that porous polymer mortar, lightweight aggregate mortar or foam cement mortar material are made.

4. the reinforced cement based composite insulation boards of drawknot according to claim 1, is characterized in that: described anti-cracking protective layer (6) is perforated non-woven fabric, alkali-proof glass fiber mesh or gauze wire cloth.

5. the reinforced cement based composite insulation boards of drawknot according to claim 1, it is characterized in that: described drawknot reinforcement be threaded or barb run through nail (5-1), run through nail (5-1) one end and be arranged on outside insulation transition zone (4), the other end is arranged in inner side bonding enhancement Layer (1) through outside bonding enhancement Layer (3), efficient insulation layer (2) successively, and its length equates with the reinforced cement based composite insulation boards of drawknot gross thickness.

6. the reinforced cement based composite insulation boards of drawknot according to claim 1, it is characterized in that: described drawknot reinforcement is all-pass cement based drawknot post (5-2), all-pass cement based drawknot post (5-2) one end is connected with outside bonding enhancement Layer (3), and the other end runs through inner side bonding enhancement Layer (1) and is connected with efficient insulation layer (2).

7. the reinforced cement based composite insulation boards of drawknot according to claim 1, it is characterized in that: described drawknot reinforcement is a plurality of half-pass cement based drawknot posts (5-3), some are connected described half-pass cement based drawknot post (5-3) and go deep into efficient insulation layer (2) and do not run through efficient insulation layer (2) with inner side bonding enhancement Layer (1), remaining other are connected and go deep into efficient insulation layer (2) and do not run through efficient insulation layer (2) with outside bonding enhancement Layer (3), the half-pass cement based drawknot post (5-3) being connected with inner side bonding enhancement Layer (1) is in staggered distribution mutually with the half-pass cement based drawknot post (5-3) being connected with outside bonding enhancement Layer (3).

8. according to the reinforced cement based composite insulation boards of drawknot described in claim 1 to 7 any one, it is characterized in that: it also includes corner cutting ferrule (7), corner cutting ferrule (7) is i beam, and i beam two side plate inner surface distances equate with composite insulation boards gross thickness.

9. the reinforced cement based composite insulation boards of drawknot according to claim 8, is characterized in that: on a side plate of corner cutting ferrule (7), have a plurality of connection anchoring elements (8).