CN106760245A - A kind of anastrophe energy-saving roofing system and its construction method - Google Patents

Abstract

A kind of anastrophe energy-saving roofing system and its construction method, from bottom to top including concrete base layer, cement mortar screeding layer, waterproof bed course, insulation drainage blanket, horizontal tile hanging batten and roofing tile；Insulation drainage blanket includes insulation flaggy, cement mortar protective course, longitudinal direction batten and aluminum foil coiled material downstream from bottom to top；Batten is fixed on cement mortar protective course by anchoring piece downstream for longitudinal direction.Present system simple structure, easy construction；Using inverted structure, heat-insulation layer is laid on waterproof layer, cement mortar protective course covering is added on heat-insulation layer; it is protected heat-insulation layer and waterproof layer; it is prevented effectively from the destruction of thermal stress, ultraviolet and other factors, it is ensured that the heat retaining and insulated waterproof effect of roofing, reinforces roof structure；Bolster support is not used, it is to avoid anchoring piece hammers into cement mortar screeding layer and house concrete base layer, so as to ensure that the integrality of screed-coat and building structure layer so that better heat preservation, and reduce the possibility seeped water at nail.

Description

A kind of anastrophe energy-saving roofing system and its construction method

Technical field

The present invention relates to roof structure technical field, and in particular to a kind of anastrophe energy-saving roofing system and its construction party Method.

Background technology

Existing pitched roof mounting means mainly has traditional wet construction mode and dry construction mode.Conventional wet construction is deposited In following drawback：

1st, traditional sloping roof structure wet construction needs to lay concrete leveling layer on the heat-insulation layer of roofing, and construction is complicated, Influenceed larger by operative's level, it is not easy to realize that roofing is levelling, so as to influence the flatness of follow-up tiling.

2nd, laying concrete screed-coat can be significantly increased the load of roofing.

3rd, in conventional wet work progress, batten is pasted onto on concrete leveling layer the longitudinal direction in sloping roof structure downstream, But because concrete leveling layer alternately is influenceed to be susceptible to release with roof structure by cold and hot, it is thus possible to overall structure occur （The related counter battens of concrete structure）The possibility for coming off, produces potential safety hazard.

4th, using no ventilating layer in the middle of the sloping roof structure of wet construction, indoor and outdoor can occur heat and pass to, heat-insulated effect It is really poor, heat supply and the refrigeration efficiency in house are influenced whether, it is unfavorable for energy-conservation；And roof structure easily produces cold-heat bridge, room is influenceed Room service life.

Dry construction mode improves produced problem in many wet constructions as a kind of construction method of improvement, but Bolster support used in dry construction needs to use nail to be fixedly connected with cement mortar screeding layer, can also touch room The structure of surface concrete basic unit, such form of construction work can all cause more or less breaking to the heat-insulation layer in house and structure sheaf It is bad, if processing not in place at nail, there is infiltration hidden danger.

The content of the invention

The present invention be on the basis of original pitched roof dry construction, it is original retaining by Optimizing construction solution Dry construction cleanliness without any pollution, reduce roof load, simplify construction method, the advantages of insulated ventilation effect is good while, enter one Step improve the destruction heat-insulation layer that nailing and producing by bolster support and roofing in original pitched roof dry construction method and There is the problem of infiltration hidden danger at nail.

To realize above-mentioned technical purpose, the present invention uses following technical scheme：

A kind of anastrophe energy-saving roofing system, it is characterised in that：Concrete base layer including bottommost, it is laid on concrete base layer On cement mortar screeding layer, be laid on cement mortar screeding layer on waterproof bed course, be laid on waterproof bed course insulation row Water layer, the horizontal tile hanging batten being laid on insulation drainage blanket and the roofing tile being articulated on horizontal tile hanging batten；The guarantor Warm water discharge layer includes the seamless insulation flaggy being laid on waterproof bed course, the cement mortar protection being laid on insulation flaggy Layer, spaced and parallel one group on cement mortar protective course longitudinal direction batten and are laid on longitudinal direction downstream on batten downstream One layer of aluminum foil coiled material；Batten is fixed by anchoring piece with cement mortar protective course downstream for the longitudinal direction.

As the preferred technical solution of the present invention, cornice block grate, the cornice gear are provided with the cornice position of roofing bottom The tail end for tilting of combing is anchored at cement mortar screeding layer near the side of cornice by anchoring piece.

It is further preferred that being provided with metal eaves gutter on the outside of the cornice block grate.

It is further preferred that the anchoring piece is steel nail, the bottom of the steel nail is without departing from cement mortar protective course.

It is further preferred that containing layer of glass net in the waterproof bed course.

It is further preferred that containing one layer of waterproof ventilated membrane in the waterproof bed course.

It is furthermore preferred that the thickness of cement mortar screeding layer is 25~35mm, played on the base layer structure of roofing by The leveling function that hollow is filled and led up；The cement mortar protective course is that the whole thick C20 microliths of 35~45mm that pour are mixed on insulation flaggy The cement sand bed that solidifying soil is formed, it is interior with Ф 50mm spacing 500mm two-way concrete slabs.The thickness of cement mortar protective course can typically be pressed 49~78kg/m²Control.

It is furthermore preferred that the warming plate of the insulation flaggy is XPS warming plates.

The present invention also provides a kind of construction method of above-mentioned anastrophe energy-saving roofing system, it is characterised in that including such as Lower step：

Step one, on house pitched roof lay concrete base layer；

Step 2, the laying cement mortar screeding layer on the concrete base layer of house pitched roof；

Step 3, cement mortar screeding layer on, the cornice block grate of metal material is fixed on the cornice of screed-coat with anchoring piece Side；

Step 4, set up defences water subfill on cement mortar screeding layer upper berth；

Step 5, full guarantee for a person given by a shopkeeper's temperature flaggy on waterproof bed course；

Step 6, set cement mortar protective course on insulation flaggy upper berth；

Step 7, the longitudinal batten downstream of laying on cement mortar protective course, batten is entered by anchoring piece with roofing downstream for longitudinal direction Row is fixed, and anchoring piece depth can reach cement mortar protective course, but will not depth and cement mortar screeding layer or concrete base layer；

Step 8, aluminum foil coiled material is laid on batten downstream in longitudinal direction, aluminum foil coiled material is by anchoring piece with longitudinally batten is fixed downstream Connection；

Step 9, the horizontal tile hanging batten of laying on aluminum foil coiled material, horizontal tile hanging batten is by anchoring piece and longitudinal batten downstream It is fixedly connected；

Step 10, the extension paving roofing tile on horizontal tile hanging batten；

Step 11, the installation metal eaves gutter at pitched roof cornice, so far anastrophe energy-saving roofing system construction are completed.

Wherein, in the step 4, the laying method of waterproof bed course is as follows：

Step a：Ground floor waterproof sizing material is laid on cement mortar screeding layer；

Step b：Laying layer of glass net；

Step c:Laying second layer waterproof sizing material；

Step d：One layer of waterproof ventilated membrane of laying；

Step e：Third layer waterproof sizing material is laid on waterproof ventilated membrane, the so far construction of waterproof bed course is completed.

Compared with prior art, it is of the invention it is a technical advantage that：

1st, the present invention uses inverted structure, i.e., heat-insulation layer is laid on waterproof layer, and cement mortar protective course is added on heat-insulation layer Covering；XPS insulation flaggies are laid on waterproof layer, from the hydrophobic material that hygroscopicity is low, against weather is strong as heat-insulation layer material Material, outstanding anti humility performance makes it have thermal and insulating performance and compression strength steady in a long-term, and waterproof layer heat can be greatly reduced Swollen shrinkage phenomenon, strengthens waterproof effect；Cement mortar protective course covering is added on heat-insulation layer, heat-insulation layer and waterproof layer can be made It is protected, is prevented effectively from the destruction of thermal stress, ultraviolet and other factors, it is ensured that the heat retaining and insulated waterproof effect of roofing, Roof structure is reinforced, it is durable in use；

2nd, system simple structure, easy construction is low to workmen's technical requirements, both solves conventional wet construction pitched roof construction It is complicated, levelling, load is big, fastness is poor, effect of heat insulation is poor is difficult compared with high, roofing to construction worker's technical requirements, to roofing knot The problems such as structure protection deficiency causes influence the house's vives；

3rd, do not use bolster support, it is to avoid in former dry construction method by bolster support nail hammer into cement mortar screeding layer and House concrete base layer, so as to ensure that the integrality of screed-coat and building structure layer so that better heat preservation, and reduces The possibility seeped water at nail.

Brief description of the drawings

By the detailed description made in conjunction with the following drawings, of the invention above-mentioned and/or other aspects and advantage will become Become apparent from and be easier to understand, these accompanying drawings are schematical, are not intended to limit the present invention, wherein：

Fig. 1 be the present invention relates to the step of one Construction State schematic diagram；

Fig. 2 is the Construction State schematic diagram of step 2 of the present invention；

Fig. 3 is the Construction State schematic diagram of step 3 of the present invention；

Fig. 4 is the Construction State schematic diagram of step 4 of the present invention；

Fig. 5 is the Construction State schematic diagram of step 5 of the present invention；

Fig. 6 is the Construction State schematic diagram of step 6 of the present invention；

Fig. 7 is the Construction State schematic diagram of step 7 of the present invention；

Fig. 8 is the Construction State schematic diagram of step 8 of the present invention；

Fig. 9 is the Construction State schematic diagram of step 9 of the present invention；

Figure 10 is the Construction State schematic diagram of step 10 of the present invention；

Figure 11 is the Construction State schematic diagram of step 11 of the present invention.

Reference：1- concrete base layers, 2- cement mortar screedings layer, 3- waterproofs bed course, 4- insulation flaggy, 5- cement The longitudinal batten downstream of mortar cover, 6-, 7- aluminum foil coiled materials, 8- transverse direction tile hanging batten, 9- roofing tiles, 10- cornices block grate, 11- Metal eaves gutter.

Specific embodiment

Hereinafter, a kind of reality of anastrophe energy-saving roofing system of the invention and preparation method thereof is described with reference to the accompanying drawings Apply example.

The embodiment recorded herein is specific specific embodiment of the invention, for illustrating design of the invention, It is explanatory and exemplary, should not be construed as the limitation to embodiment of the present invention and the scope of the invention.Except what is recorded herein Implement exception, those skilled in the art can also be based on the application claims and specification disclosure of that using aobvious Other technical schemes being clear to, these technical schemes include any obvious using making for the embodiment to recording herein The technical scheme of substitutions and modifications.

The accompanying drawing of this specification is schematic diagram, aids in illustrating design of the invention, it is schematically indicated the shape of each several part And its correlation.Note that for the ease of clearly showing the structure of each part of the embodiment of the present invention, between each accompanying drawing Do not drawn according to identical ratio.Identical reference marker is used to represent identical part.Below in conjunction with accompanying drawing to the present invention Principle and feature be described, example be served only for explain the present invention, be not intended to limit the scope of the present invention.

As schemed, a kind of anastrophe energy-saving roofing system, it is characterised in that：Concrete base layer 1 including bottommost, it is laid on On concrete base layer 1 cement mortar screeding layer 2, be laid on cement mortar screeding layer 2 on waterproof bed course 3, be laid on waterproof Insulation drainage blanket on bed course 3, the horizontal tile hanging batten 8 being laid on insulation drainage blanket and it is articulated in horizontal tile hanging batten 8 On roofing tile 9；The insulation drainage blanket includes the seamless insulation flaggy 4 being laid on waterproof bed course 3, is laid on warming plate Cement mortar protective course 5, spaced and parallel one group on cement mortar protective course 5 longitudinal direction on layer 4 downstream batten 6 with And it is laid on one layer of aluminum foil coiled material 7 on longitudinal batten 6 downstream；Batten 6 passes through anchoring piece and cement bonded sand downstream for the longitudinal direction Slurry protective layer 5 is fixed.The anchoring piece is steel nail, and the bottom of the steel nail is without departing from cement mortar protective course 5.It is preferred that , layer of glass net is contained in the waterproof bed course 3；Contain one layer of waterproof ventilated membrane in the waterproof bed course 3.The water The thickness of cement mortar screed-coat is 25~35mm, and the leveling function for filling and leading up hollow is played on the base layer structure of roofing；It is described Cement mortar protective course is the whole cement sand bed for pouring the thick C20 pea gravel concretens formation of 40mm on insulation flaggy, interior with Ф 50mm spacing 500mm two-way concrete slabs, protective layer thickness typically can be by 49 ~ 78kg/m²Control.

Wherein, the cornice position in roofing bottom is provided with cornice block grate 10, and the tail end that the cornice block grate 10 is tilted passes through Anchoring piece is anchored at cement mortar screeding layer 2 near a side of cornice.Metal eaves gutter is installed in the outside of cornice block grate 10 11。

The warming plate of the insulation flaggy is preferably XPS warming plates, and XPS warming plates scientific name is thermal insulation extruded polystyrene second Alkene foamed plastics（Abbreviation XPS), with perfect closed honeycomb structure, this structure allows the XPS plate to have extremely low water imbibition, moistureproof Effect is good, low thermal conductivity coefficient, and insulation ability is good, high pressure resistance and extremely strong ageing resistance, and stability and anti-corrosive properties are good, and Quality is light, convenient use in construction.

The present invention also provides a kind of construction method of above-mentioned anastrophe energy-saving roofing system, it is characterised in that including such as Lower step：

Step one, such as Fig. 1, lay concrete base layer 1 on house pitched roof；

Step 2, such as Fig. 2, lay cement mortar screeding layer 2 on the concrete base layer 1 of house pitched roof；

, on cement mortar screeding layer 2, be fixed on for the cornice block grate 10 of metal material with anchoring piece levelling by step 3, such as Fig. 3 The cornice side of layer；

Step 4, such as Fig. 4, set up defences water subfill 3 on 2 upper berth of cement mortar screeding layer；

Step 5, such as Fig. 5, full guarantee for a person given by a shopkeeper's temperature flaggy 4 on waterproof bed course 3；

Step 6, such as Fig. 6, cement mortar protective course 5 is laid on insulation flaggy 4；

Step 7, such as Fig. 7, lay longitudinal direction batten 6 downstream on cement mortar protective course 5, and batten 6 passes through anchoring piece downstream for longitudinal direction It is fixed with roofing, anchoring piece depth can reach cement mortar protective course 5, but will not depth and cement mortar screeding layer 2 and mixed Solidifying soil matrix layer 1；

Step 8, such as Fig. 8, lay aluminum foil coiled material 7 on longitudinal direction downstream batten 6, and aluminum foil coiled material 7 passes through anchoring piece with longitudinal direction downstream Batten 6 is fixedly connected；

Step 9, such as Fig. 9, lay horizontal tile hanging batten 8 on aluminum foil coiled material 7, and horizontal tile hanging batten 8 passes through anchoring piece and longitudinal direction Batten 6 is fixedly connected downstream；

Step 10, such as Figure 10, hang paving roofing tile 9 on horizontal tile hanging batten 8；

Step 11, such as Figure 11, install metal eaves gutter 11, the so far construction of anastrophe energy-saving roofing system at pitched roof cornice Complete.

Wherein, in the step 4, the laying method of waterproof bed course 3 is as follows：

Step a：Ground floor waterproof sizing material is laid on cement mortar screeding layer 2, the species of waterproof sizing material is not limited, existing routine is prevented Glue material can be used, and here is omitted；

Step b：Laying layer of glass net；

Step c:Laying second layer waterproof sizing material；

Step d：One layer of waterproof ventilated membrane of laying；

Step e：Third layer waterproof sizing material is laid on waterproof ventilated membrane, the so far construction of waterproof bed course 3 is completed.

The foregoing is only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all it is of the invention spirit and Within principle, any modification, equivalent substitution and improvements made etc. should be included within the scope of the present invention.

Claims (10)

1. a kind of anastrophe energy-saving roofing system, it is characterised in that：

Concrete base layer including bottommost（1）, be laid on concrete base layer（1）On cement mortar screeding layer（2）, be laid on Cement mortar screeding layer（2）On waterproof bed course（3）, be laid on waterproof bed course（3）On insulation drainage blanket, be laid on insulation row Horizontal tile hanging batten on water layer（8）And it is articulated in horizontal tile hanging batten（8）On roofing tile（9）；

The insulation drainage blanket is laid on waterproof bed course including seamless（3）On insulation flaggy（4）, be laid on insulation flaggy （4）On cement mortar protective course（5）, it is spaced and parallel located at cement mortar protective course（5）On one group longitudinal direction downstream wood Bar（6）And it is laid on longitudinal direction batten downstream（6）On one layer of aluminum foil coiled material（7）；

Longitudinal direction batten downstream（6）Cement mortar protective course is fixed on by anchoring piece（5）On.

2. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：Also include being located at roofing bottom The cornice block grate of cornice position（10）, the cornice block grate（10）The tail end of tilting is anchored at cement mortar screeding by anchoring piece Layer（2）Near the side of cornice.

3. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The cornice block grate（10）'s Outside is provided with metal eaves gutter（11）.

4. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The anchoring piece is steel nail, The bottom of the steel nail is without departing from cement mortar protective course（5）.

5. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The waterproof bed course（3）In It is embedded with layer of glass net.

6. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The waterproof bed course（3）In It is additionally provided with one layer of waterproof ventilated membrane.

7. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The cement mortar screeding layer （2）Thickness be 25~35mm；The cement mortar protective course（5）It is that the whole C20 for pouring 35~45mm thickness is thin on insulation flaggy The cement sand bed that stone concrete is formed, it is interior with Ф 50mm spacing 500mm two-way concrete slabs.

8. a kind of anastrophe energy-saving roofing system according to claim 1, it is characterised in that：The insulation flaggy（4）'s Warming plate is XPS warming plates.

9. a kind of construction method of the anastrophe energy-saving roofing system according to claim 1-8 any one, its feature exists In comprising the following steps：

Step one, on house pitched roof lay concrete base layer（1）；

Step 2, the concrete base layer in house pitched roof（1）Upper laying cement mortar screeding layer（2）；

Step 3, cement mortar screeding layer（2）On, with anchoring piece by cornice block grate（10）Screed-coat is fixed near cornice Side；

Step 4, cement mortar screeding layer（2）Upper berth is set up defences water subfill（3）；

Step 5, in waterproof bed course（3）Upper completely guarantee for a person given by a shopkeeper's temperature flaggy（4）；

Step 6, insulation flaggy（4）Upper laying cement mortar protective course（5）；

Step 7, in cement mortar protective course（5）The upper longitudinal batten downstream of laying（6）, longitudinal batten downstream（6）By anchoring piece It is fixed with roofing, anchoring piece depth can reach cement mortar protective course（5）, but will not depth and cement mortar screeding layer（2） Or concrete base layer（1）；

Step 8, in longitudinal direction batten downstream（6）Upper laying aluminum foil coiled material（7）, aluminum foil coiled material（7）By anchoring piece with longitudinal direction downstream Batten（6）It is fixedly connected；

Step 9, in aluminum foil coiled material（7）The upper horizontal tile hanging batten of laying（8）, horizontal tile hanging batten（8）By anchoring piece and longitudinal direction Batten downstream（6）It is fixedly connected；

Step 10, in horizontal tile hanging batten（8）It is upper to hang paving roofing tile（9）；

Step 11, the installation metal eaves gutter at pitched roof cornice（11）, so far anastrophe energy-saving roofing system construction completion.

10. the construction method of a kind of anastrophe energy-saving roofing system according to claim 9, it is characterised in that：The step In rapid four, waterproof bed course（3）Laying method it is as follows：

Step a：In cement mortar screeding layer（2）Upper laying ground floor waterproof sizing material；

Step b：Laying layer of glass net；

Step c:Laying second layer waterproof sizing material；

Step d：One layer of waterproof ventilated membrane of laying；

Step e：Third layer waterproof sizing material is laid on waterproof ventilated membrane, so far waterproof bed course（3）Construction complete.