CN207296050U - Complex heat-preservation plate module and composite insulation boards - Google Patents

Abstract

The utility model provides a kind of complex heat-preservation plate module and composite insulation boards, belongs to technical field of buildings.Complex heat-preservation plate module includes extruded sheet, the first binding sand pulp layer, the first glass fiber reticular cloth and the first anticracking grout layer, the side of extruded sheet is provided with multiple the first dovetail grooves being arranged side by side, first binding sand pulp layer is connected with extruded sheet, first glass fiber reticular cloth is connected with the first binding sand pulp layer, first anticracking grout layer is connected with the first glass fiber reticular cloth, and the side of the first anticracking grout layer is provided with multiple equally distributed first hemispherical protuberances.Complex heat-preservation plate module can realize the first binding sand pulp layer of increase and the contact area of extruded sheet by the first dovetail groove, play the role of anticreep, by the first hemispherical protuberances, in construction, such matte can be such that it is firmly combined with the mortar of screed-coat, solve the problems, such as to come off.Composite insulation boards include complex heat-preservation plate module, it has the repertoire of the complex heat-preservation plate module.

Description

Complex heat-preservation plate module and composite insulation boards

Technical field

Technical field of buildings is the utility model is related to, in particular to a kind of complex heat-preservation plate module and complex heat-preservation Plate.

Background technology

The implementation that existing insulation plate thin plastering system is newly advised due to fire prevention, is not approved gradually by market, mainly Construction quality is unable to control, and artificial supervision link is cumbersome, it is necessary to which more manually utilizes high-altitude nacelle construction, the multiple multilayer in scene Manual work, because thin-coat plaster surface layer is very thin, it is easy to which, because water suction causes coming off for thermal insulation material after cracking, worker is constructing Middle security risk is also very big.This process safety performance is poor, easily comes off, influences construction quality.

Although the technology of current some cast-in-situ thermal-insulated composite plates of the country, all in the starting stage, below easy appearance Problem：

Composite cover is easily peeled, loosened；

In composite plate plaster leveling, since surface layer processing is bad, it is easy to the phenomenon of screed-coat local shedding occur；

Present technique is all the direct combination bonding mortar directly on extruded sheet, and edge is not also handled, and extruded sheet state Family standard to length of material be more than 2 meters when requirement diagonal error rate be within 13 millimeters, this just makes composite plate due to material Diagonal error the spillage phenomenon of cast-in-place concrete occurs when constructing as exterior sheathing；

Since layer thickness will reach more than 3 centimeters outside the requirement composite plate newly advised of preventing fires, this just makes every square of plank Weight adds more than one times, reaches 60 kilograms or so, existing material water absorption rate is high, and weight is big, is had in service life Very big influence.

Inventor has found that traditional thermal insulation board at least has the following disadvantages under study for action：

It is easy to fall off；

There are larger security risk.

Utility model content

The purpose of this utility model is to provide a kind of complex heat-preservation plate module, improves the deficiencies in the prior art, its energy The first binding sand pulp layer of increase and the contact area of extruded sheet are enough realized by the first dovetail groove, plays the role of anticreep, passes through It is covered with the first hemispherical protuberances on the outside of complex heat-preservation plate module, in construction, such matte can make itself and screed-coat Mortar firmly combine, solve the problems, such as to come off, this is reasonable in design, and market application potential is huge.

The another object of the utility model is the provision of a kind of composite insulation boards, it includes complex heat-preservation mentioned above Plate module, it has the repertoire of the complex heat-preservation plate module.

What the embodiment of the utility model was realized in：

The embodiment of the utility model provides a kind of complex heat-preservation plate module, it includes：

Extruded sheet, the side of the extruded sheet are provided with multiple the first dovetail grooves being arranged side by side；

First binding sand pulp layer, the first binding sand pulp layer are connected with the extruded sheet and close positioned at the extruded sheet The side of first dovetail groove；

First glass fiber reticular cloth, first glass fiber reticular cloth are connected with the first binding sand pulp layer and positioned at described the One side of the binding sand pulp layer away from the extruded sheet；

First anticracking grout layer, first anticracking grout layer are connected with first glass fiber reticular cloth and positioned at described the Side of one glass fiber reticular cloth away from the first binding sand pulp layer, first anticracking grout layer is away from first glass fiber net The side of lattice cloth is provided with multiple equally distributed first hemispherical protuberances.

Specifically, complex heat-preservation plate module can realize the first binding sand pulp layer of increase and extruded sheet by the first dovetail groove Contact area, play the role of anticreep, by being covered with the first hemispherical protuberances on the outside of complex heat-preservation plate module, constructing When, such matte can be such that it is firmly combined with the mortar of screed-coat, solve the problems, such as to come off, which closes Reason, market application potential are huge.

Optionally, the opposite side of the extruded sheet is provided with multiple the second dovetail grooves being arranged side by side, the complex heat-preservation Plate module further includes：

Second binding sand pulp layer, the second binding sand pulp layer are connected with the extruded sheet and close positioned at the extruded sheet The side of second dovetail groove；

Second glass fiber reticular cloth, second glass fiber reticular cloth are connected with the second binding sand pulp layer and positioned at described the Two sides of the binding sand pulp layer away from the extruded sheet；

Second anticracking grout layer, second anticracking grout layer are connected with second glass fiber reticular cloth and positioned at described the Side of two glass fiber reticular cloths away from the second binding sand pulp layer, second anticracking grout layer is away from second glass fiber net The side of lattice cloth is provided with multiple equally distributed second hemispherical protuberances.

Optionally, the complex heat-preservation plate module further includes：

3rd glass fiber reticular cloth, the 3rd glass fiber reticular cloth are connected with the second binding sand pulp layer and positioned at described the Two sides of the binding sand pulp layer away from extruded sheet；

Insulating layer, the side of the insulating layer are connected with the 3rd glass fiber reticular cloth, the opposite side of the insulating layer with The second glass fiber reticular cloth connection.

Optionally, the spacing between adjacent two second dovetail grooves is 25cm-35cm.

Optionally, the size at bottom is 4cm-6cm on second dovetail groove, and the size of the second dovetail groove bottom is 7cm-9cm, the high size of second dovetail groove are 1cm-2cm, and the upper bottom of second dovetail groove is relative to the described second ladder The bottom of shape groove is close to the extruded sheet.

Optionally, a diameter of 0.4cm-0.6cm of second hemispherical protuberances.

Optionally, the spacing between adjacent two first dovetail grooves is 25cm-35cm, and described first is hemispherical convex The a diameter of 0.4cm-0.6cm risen.

Optionally, the size at bottom is 4cm-6cm on first dovetail groove, and the size of the first dovetail groove bottom is 7cm-9cm, the high size of first dovetail groove are 1cm-2cm, and the upper bottom of first dovetail groove is relative to the described first ladder The bottom of shape groove is close to the extruded sheet.

Optionally, it is provided with the first release groove and the second release groove on the outside of the complex heat-preservation plate module, described first Release groove cross direction profiles, the second release groove genesis analysis, the spacing between adjacent two first release grooves are 40cm-50cm, the spacing between adjacent two second release grooves are 40cm-50cm, first release groove and described Second release groove is rectangular, and the size of first release groove and the second release groove width is 2cm-3cm, first release The size of groove and the second release groove depth is 3cm-4cm.

The embodiment of the utility model additionally provides a kind of composite insulation boards, it includes multiple complex heat-preservations mentioned above Plate module, one end of the complex heat-preservation plate module are provided with limit protrusion, the side of the limit protrusion and the compound guarantor The side of warm plate module is coplanar, and the opposite side of the limit protrusion is parallel and described with the opposite side of the complex heat-preservation plate module Spacing between the opposite side of limit protrusion and the opposite side of the complex heat-preservation plate module is 1cm-1.5cm, the compound guarantor The other end of warm plate module is provided with limiting slot, and the limiting slot does not run through the complex heat-preservation plate module, the complex heat-preservation The thickness of the non-through part of plate module is 1cm-1.5cm, the limit protrusion of one of them complex heat-preservation plate module with it is another The limiting slot of a complex heat-preservation plate module coordinates.

Compared with prior art, the beneficial effect of the utility model embodiment is：

In conclusion complex heat-preservation plate module can realize the first binding sand pulp layer of increase and extrusion molding by the first dovetail groove The contact area of plate, plays the role of anticreep, by being covered with the first hemispherical protuberances on the outside of complex heat-preservation plate module, is applying Man-hour, such matte can be such that it is firmly combined with the mortar of screed-coat, solve the problems, such as to come off, the structure design Rationally, market application potential is huge.

Brief description of the drawings

, below will be to required use in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the structure diagram for the complex heat-preservation plate module that the utility model embodiment 1 provides；

Fig. 2 is the structure diagram under another visual angle of the complex heat-preservation plate module shown in Fig. 1；

Fig. 3 is the structure diagram for the complex heat-preservation plate module that the utility model embodiment 2 provides；

Fig. 4 is the structure diagram for the composite insulation boards that the utility model embodiment 3 provides；

Fig. 5 is the structure diagram under the first visual angle of complex heat-preservation plate module in Fig. 4；

Fig. 6 is the structure diagram under second of visual angle of complex heat-preservation plate module in Fig. 4.

Icon：100- composite insulation boards；10- complex heat-preservation plate modules；The first release grooves of 101-；The second release grooves of 102-； 103- limit protrusions；104- limiting slots；11- extruded sheets；The first dovetail grooves of 111-；The second dovetail grooves of 112-；The first binding sands of 12- Pulp layer；The first glass fiber reticular cloths of 13-；The first anticracking grout layers of 14-；The first hemispherical protuberances of 141-；The second adhesive mortars of 15- Layer；The second glass fiber reticular cloths of 16-；The second anticracking grout layers of 17-；The second hemispherical protuberances of 171-；The 3rd glass fiber reticular cloths of 18-； 19- insulating layers；20- fixes crab-bolt.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be arranged and designed with a variety of configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiment of the utility model provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, those of ordinary skill in the art's all other embodiments obtained without creative efforts, all Belong to the scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.

, it is necessary to explanation, term " on ", " under ", "left", "right", " interior ", " outer " etc. in the description of the utility model The orientation or position relationship of instruction be based on orientation shown in the drawings or position relationship, or the utility model product use when The orientation or position relationship usually put, are for only for ease of description the utility model and simplify description, rather than instruction or dark Show that the device of meaning or element there must be specific orientation, with specific azimuth configuration and operation, thus it is it is not intended that right The limitation of the utility model.

In addition, term " first ", " second ", " the 3rd " etc. are only used for distinguishing description, and it is not intended that instruction or hint Relative importance.

In the description of the utility model, it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " installation ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can mechanically connect or be electrically connected；It can be directly connected, can also be indirectly connected by intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Embodiment 1

Please refer to Fig.1, present embodiments provide a kind of complex heat-preservation plate module 10, it includes：

Extruded sheet 11, the side of extruded sheet 11 are provided with multiple the first dovetail grooves 111 being arranged side by side；

First binding sand pulp layer 12, the first binding sand pulp layer 12 are connected with extruded sheet 11 and positioned at extruded sheet 11 close to first The side of dovetail groove 111；

First glass fiber reticular cloth 13, the first glass fiber reticular cloth 13 are connected with the first binding sand pulp layer 12 and are bonded positioned at first Side of the screed 12 away from extruded sheet 11；

First anticracking grout layer 14, the first anticracking grout layer 14 are connected with the first glass fiber reticular cloth 13 and are located at the first glass Side of the grid cloth 13 away from the first binding sand pulp layer 12, side of first anticracking grout layer 14 away from the first glass fiber reticular cloth 13 It is provided with multiple equally distributed first hemispherical protuberances 141.

It is described with the relative position in Fig. 1, it is possible to understand that, based on extruded sheet 11, has been set gradually to the left One binding sand pulp layer 12, the first glass fiber reticular cloth 13 and the first anticracking grout layer 14.

Adhesive mortar is to be equipped with multiple additives by cement, quartz sand, polymer latex ramming material and uniformly formed through mechanical mixture A kind of mortar.

Glass fiber reticular cloth, with middle alkali or alkali-free glass fiber dimension yarn manufacture, the glass fiber reticular cloth coated through alkaline-resisting macromolecule emulsion Series of products.

Anticracking grout, antimitotic agent, cement and sand add water to stir by a certain percentage made of polymer emulsion and additive It is manufactured to meet certain deformation and keep indehiscent mortar.

By opening up the first dovetail groove 111 in the side of extruded sheet 11, in compound first binding sand pulp layer 12, Ke Yizeng Both big contacts area, increase caking property, are advantageously implemented both close connections, are taken off so as to efficiently solve composite cover The problem of skin loosens.

After first anticracking grout layer 14 is compound, the first hemispherical protuberances 141 are opened up on the outside of it, can make its outer surface into For matte, be conducive to the connection with screed-coat.

Generally, can realize that its outside is covered with hemispherical protuberances particle by strangling tooth machine, and in construction, these raised Grain can be preferably Nian Jie with mortar realization, solves the problems, such as that screed-coat comes off.

Complex heat-preservation plate module 10 in the present embodiment is produced by factory prefabricating, then is cut by parallel bilateral saw Cut, be readily transported, install, the parallel finishing of bilateral carry out of complex heat-preservation plate module 10, worker need not carry out anti-in construction The multiple labor intensity pondered splicing, greatly reduce worker, improves work efficiency.

Specifically, complex heat-preservation plate module 10 can realize the first binding sand pulp layer 12 of increase by the first dovetail groove 111 With the contact area of extruded sheet 11, play the role of anticreep, by being covered with the first hemisphere in the outside of complex heat-preservation plate module 10 Shape protrusion 141, in construction, such matte can be such that it is firmly combined with the mortar of screed-coat, efficiently solve what is come off Problem, this is reasonable in design, and market application potential is huge.

Optionally, the opposite side of extruded sheet 11 is provided with multiple the second dovetail grooves 112 being arranged side by side, complex heat-preservation template die Block 10 further includes：

Second binding sand pulp layer 15, the second binding sand pulp layer 15 are connected with extruded sheet 11 and positioned at extruded sheet 11 close to second The side of dovetail groove 112；

Second glass fiber reticular cloth 16, the second glass fiber reticular cloth 16 are connected with the second binding sand pulp layer 15 and are bonded positioned at second Side of the screed 15 away from extruded sheet 11；

Second anticracking grout layer 17, the second anticracking grout layer 17 are connected with the second glass fiber reticular cloth 16 and are located at the second glass Side of the grid cloth 16 away from the second binding sand pulp layer 15, side of second anticracking grout layer 17 away from the second glass fiber reticular cloth 16 It is provided with multiple equally distributed second hemispherical protuberances 171.

Complex heat-preservation plate module 10 is designed using symmetrical structure, can equally realize identical technique effect, installation makes Used time, its both sides can be replaced.

Optionally, complex heat-preservation plate module 10 further includes：

3rd glass fiber reticular cloth 18, the 3rd glass fiber reticular cloth 18 are connected with the second binding sand pulp layer 15 and are bonded positioned at second Side of the screed 15 away from extruded sheet 11；

Insulating layer 19, the side of insulating layer 19 are connected with the 3rd glass fiber reticular cloth 18, the opposite side of insulating layer 19 and second Glass fiber reticular cloth 16 connects.

In the present embodiment, it is described with the relative position in Fig. 1, based on extruded sheet 11, is set gradually to the right Second binding sand pulp layer 15, the 3rd glass fiber reticular cloth 18, insulating layer 19, the second glass fiber reticular cloth 16, the second anticracking grout layer 17.

Insulating layer 19 can select block of glass wool, rock cotton board or graphite extruded sheet 11.

Optionally, the spacing between two adjacent the second dovetail grooves 112 is 25cm-35cm.

When it is implemented, its spacing can select 25cm, 30cm, 35cm etc..Preferably, it is 30cm.

Optionally, the size at bottom is 4cm-6cm on the second dovetail groove 112, and the size of the second dovetail groove 112 bottom is 7cm- 9cm, the high size of the second dovetail groove 112 are 1cm-2cm, and the upper bottom of the second dovetail groove 112 is relative under the second dovetail groove 112 Bottom is close to extruded sheet 11.

Second dovetail groove, 112 trapezoidal shape, its size include upper bottom, bottom and height.Upper bottom can be understood as shorter one Bar base, bottom can be understood as a longer base, and height can be understood as the depth of opposing recesses.

When it is implemented, the size at upper bottom can select 4cm, 5cm, 6cm etc., preferential, it is 5cm.

The size of bottom can select 7cm, 8cm, 9cm etc., it is preferred that be 8cm.

High size can select 1cm, 1.5cm, 2cm etc., it is preferred that be 1.5cm.

Such size design, in the case where not influencing 11 normal use of extruded sheet, can be effectively increased the first bonding The contact area of screed 12.

Optionally, a diameter of 0.4cm-0.6cm of the second hemispherical protuberances 171.

When it is implemented, the diameter can select 0.4cm, 0.5cm, 0.6cm etc., it is preferred that be 0.5cm.

Optionally, the spacing between two adjacent the first dovetail grooves 111 is 25cm-35cm, the first hemispherical protuberances 141 A diameter of 0.4cm-0.6cm.

Optionally, the size at bottom is 4cm-6cm on the first dovetail groove 111, and the size of the first dovetail groove 111 bottom is 7cm- 9cm, the high size of the first dovetail groove 111 are 1cm-2cm, and the upper bottom of the first dovetail groove 111 is relative under the first dovetail groove 111 Bottom is close to extruded sheet 11.

The structure of first dovetail groove 111 and the second dovetail groove 112 is same or similar, the first hemispherical protuberances 141 and second The structure of hemispherical protuberances 171 is same or similar.

The structure of first dovetail groove 111 and the first hemispherical protuberances 141, effect, effect, relative dimensions etc. may be referred to Second dovetail groove 112 and the second hemispherical protuberances 171.

Please refer to Fig.2, generally, after installation, fixed crab-bolt 20 can also be set to further enhance the effect of its combination, Reduce the incidence of obscission.

A kind of complex heat-preservation plate module 10 provided according to the utility model embodiment, the work of complex heat-preservation plate module 10 Principle is：

By the first dovetail groove 111 and the second dovetail groove 112, its contact area with adhesive mortar can be effectively increased, Its cementability is greatly improved, two outermosts of complex heat-preservation plate module 10 offer hemispherical protuberances particle, its side shape Into matte can increase contact with mortar, can occur to avoid the phenomenon to come off, the complex heat-preservation plate module 10 produced Cut by parallel bilateral saw, can effectively prevent spillage, when it is implemented, flame retardant type granular polystyrene can be replaced existing Some perlites can reduce the weight of composite plate, and can play good waterproof effect as aggregate.

Embodiment 2

Please refer to Fig.3, the present embodiment also provides a kind of complex heat-preservation plate module 10, the technical solution that embodiment 1 describes The present embodiment is equally applicable to, 1 published technical solution of embodiment is not repeated to describe.

Specifically, the present embodiment is with embodiment 1, difference lies in the outside of complex heat-preservation plate module 10 is provided with first and releases Put 101 and second release groove 102 of groove, 101 cross direction profiles of the first release groove, 102 genesis analysis of the second release groove, adjacent two Spacing between first release groove 101 is 40cm-50cm, and the spacing between adjacent two the second release grooves 102 is 40cm- 50cm, the first release groove 101 and the second release groove 102 are rectangular, the first release groove 101 and the wide size of the second release groove 102 For 2cm-3cm, the size of the first release groove 101 and the depth of the second release groove 102 is 3cm-4cm.

By the first release groove 101 and the second release groove 102 being distributed in length and breadth, when being subject to exterior unstability factor to cause During complex heat-preservation 10 expansion or shrinkage of plate module, the first release groove 101 and the second release groove 102 can effectively solve internal appearance Stress problem, avoid since expansion or shrinkage causes it to come off.

Spacing between two adjacent the first release grooves 101 can select 40cm, 45cm, 50cm etc., it is preferred that be 45cm。

Spacing between two adjacent the second release grooves 102 can select 40cm, 45cm, 50cm etc., it is preferred that be 45cm。

First release groove 101 is identical with the length of complex heat-preservation plate module 10 with the length of the second release groove 102.Its width 2cm, 2.5cm, 3cm etc. can be selected, it is preferred that be 2.5cm.Its depth can be understood as the distance of opposing recesses, its size 3cm, 3.5cm, 4cm can be selected, it is preferred that be 3.5cm.

Embodiment 3

- Fig. 6 is please referred to Fig.4, the present embodiment also provides a kind of composite insulation boards 100, it includes multiple mentioned above Complex heat-preservation plate module 10, one end of complex heat-preservation plate module 10 are provided with limit protrusion 103, the side of limit protrusion 103 with The side of complex heat-preservation plate module 10 is coplanar, and the opposite side of limit protrusion 103 is parallel with the opposite side of complex heat-preservation plate module 10 And the spacing between the opposite side of limit protrusion 103 and the opposite side of complex heat-preservation plate module 10 is 1cm-1.5cm, complex heat-preservation The other end of plate module 10 is provided with limiting slot 104, and limiting slot 104 does not run through complex heat-preservation plate module 10, complex heat-preservation template die The thickness of 10 non-through part of block is 1cm-1.5cm, the limit protrusion 103 of one of complex heat-preservation plate module 10 and another The limiting slot 104 of complex heat-preservation plate module 10 coordinates.

The structure of complex heat-preservation plate module 10 may be referred to embodiment 1 or 2, which has complex heat-preservation The all functions of plate module 10.

Generally, complex heat-preservation plate module 10 is in rectangular-shape, in the present embodiment, each complex heat-preservation plate module 10 is along width The both ends in degree direction are provided with two limit protrusions 103 and limiting slot 104, and both ends along its length have been correspondingly arranged one Limit protrusion 103 and limiting slot 104.

When it is implemented, the quantity and relative position of limit protrusion 103 and limiting slot 104 do not limit.

With reference to Fig. 4, it is possible to understand that, under installment state, it is described with the relative position in Fig. 4, the complex heat-preservation in left side Region on the limit protrusion 103 of plate module 10 is bonded with the not perforative part of the complex heat-preservation plate module 10 on right side, installation After fixation, if the complex heat-preservation plate module 10 in left side generates the trend to come off, in limit protrusion 103 and the work of limiting slot 104 Under, it is spacing by the complex heat-preservation plate module 10 on right side, forms stuck state.

Two complex heat-preservation plate modules 10 are show only in Fig. 4, generally, having several complex heat-preservation template dies during installation Block 10, therefore, the adjacent complex heat-preservation plate module 10 of any two are respectively provided with the effect mutually restricted, reduce the generation to come off Rate.

The size of the spacing and thickness, can select 1cm, 1.25cm, 1.5cm etc., preferably 1cm.Generally, both Size selection it is identical or be not much different, after can so installing, the same side of composite insulation boards 100 is smooth.

In conclusion the utility model provides a kind of complex heat-preservation plate module 10, complex heat-preservation plate module 10 can lead to Cross the first dovetail groove 111 and realize the first binding sand pulp layer of increase 12 and the contact area of extruded sheet 11, play the role of anticreep, lead to Cross and be covered with the first hemispherical protuberances 141 in the outside of complex heat-preservation plate module 10, construction when, such matte can make its with The mortar of screed-coat firmly combines, and solve thes problems, such as to come off, this is reasonable in design, and market application potential is huge.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the present invention, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on, should be included within the scope of protection of this utility model.

Claims (10)

1. A kind of 1. complex heat-preservation plate module, it is characterised in that including：

   Extruded sheet, the side of the extruded sheet are provided with multiple the first dovetail grooves being arranged side by side；

   First binding sand pulp layer, the first binding sand pulp layer are connected with the extruded sheet and positioned at the extruded sheet close to described The side of first dovetail groove；

   First glass fiber reticular cloth, first glass fiber reticular cloth are connected with the first binding sand pulp layer and are glued positioned at described first Tie side of the screed away from the extruded sheet；

   First anticracking grout layer, first anticracking grout layer are connected with first glass fiber reticular cloth and are located at first glass Side of the fine grid cloth away from the first binding sand pulp layer, first anticracking grout layer is away from first glass fiber reticular cloth Side be provided with multiple equally distributed first hemispherical protuberances.
2. 2. complex heat-preservation plate module according to claim 1, it is characterised in that the opposite side of the extruded sheet is provided with more A the second dovetail groove being arranged side by side, the complex heat-preservation plate module further include：

   Second binding sand pulp layer, the second binding sand pulp layer are connected with the extruded sheet and positioned at the extruded sheet close to described The side of second dovetail groove；

   Second glass fiber reticular cloth, second glass fiber reticular cloth are connected with the second binding sand pulp layer and are glued positioned at described second Tie side of the screed away from the extruded sheet；

   Second anticracking grout layer, second anticracking grout layer are connected with second glass fiber reticular cloth and are located at second glass Side of the fine grid cloth away from the second binding sand pulp layer, second anticracking grout layer is away from second glass fiber reticular cloth Side be provided with multiple equally distributed second hemispherical protuberances.
3. 3. complex heat-preservation plate module according to claim 2, it is characterised in that the complex heat-preservation plate module further includes：

   3rd glass fiber reticular cloth, the 3rd glass fiber reticular cloth are connected with the second binding sand pulp layer and are glued positioned at described second Tie side of the screed away from extruded sheet；

   Insulating layer, the side of the insulating layer are connected with the 3rd glass fiber reticular cloth, the opposite side of the insulating layer with it is described Second glass fiber reticular cloth connects.
4. 4. complex heat-preservation plate module according to claim 2, it is characterised in that two adjacent second dovetail grooves it Between spacing be 25cm-35cm.
5. 5. complex heat-preservation plate module according to claim 2, it is characterised in that the size at bottom is on second dovetail groove 4cm-6cm, the size of second dovetail groove bottom are 7cm-9cm, and the high size of second dovetail groove is 1cm-2cm, institute The upper bottom of the second dovetail groove is stated relative to the bottom of second dovetail groove close to the extruded sheet.
6. 6. complex heat-preservation plate module according to claim 2, it is characterised in that second hemispherical protuberances it is a diameter of 0.4cm-0.6cm。
7. 7. according to claim 1-6 any one of them complex heat-preservation plate modules, it is characterised in that adjacent two described first Spacing between dovetail groove is 25cm-35cm, a diameter of 0.4cm-0.6cm of first hemispherical protuberances.
8. 8. according to claim 1-6 any one of them complex heat-preservation plate modules, it is characterised in that bottom on first dovetail groove Size be 4cm-6cm, the size of first dovetail groove bottom is 7cm-9cm, and the high size of first dovetail groove is 1cm-2cm, the upper bottom of first dovetail groove is relative to the bottom of first dovetail groove close to the extruded sheet.
9. 9. according to claim 1-6 any one of them complex heat-preservation plate modules, it is characterised in that the complex heat-preservation plate module Outside be provided with the first release groove and the second release groove, the first release groove cross direction profiles, the second release groove longitudinal direction Distribution, the spacing between adjacent two first release grooves are 40cm-50cm, adjacent two second release grooves it Between spacing be 40cm-50cm, first release groove and second release groove are rectangular, first release groove and described The size of second release groove width is 2cm-3cm, and first release groove and the described second size for discharging groove depth are 3cm-4cm.
10. 10. a kind of composite insulation boards, it is characterised in that including multiple such as claim 1-9 any one of them composite insulation boards Module, one end of the complex heat-preservation plate module are provided with limit protrusion, the side of the limit protrusion and the complex heat-preservation The side of plate module is coplanar, and the opposite side of the limit protrusion is parallel with the opposite side of the complex heat-preservation plate module and the limit Spacing between the raised opposite side in position and the opposite side of the complex heat-preservation plate module is 1cm-1.5cm, the complex heat-preservation The other end of plate module is provided with limiting slot, and the limiting slot does not run through the complex heat-preservation plate module, the composite insulation boards The thickness of the non-through part of module is 1cm-1.5cm, the limit protrusion of one of them complex heat-preservation plate module and another The limiting slot of the complex heat-preservation plate module coordinates.