CN104806037A - Intelligent integrally-spliced modular anti-seismic heat-preservation structural house - Google Patents

Abstract

The invention discloses an intelligent integrally-spliced modular anti-seismic heat-preservation structural house. A wall body comprises a plurality of round steel upright posts and horizontal cold-formed thin walls connected with the round steel upright posts in a sleeving manner, wherein the connected round steel upright posts and cold-formed thin walls form a wall body part support skeleton; composite heat-preservation wallboards are fixedly connected to the two sides of the cold-formed thin walls respectively; ring beam pressure plates fixed with the cold-formed thin walls and the composite heat-preservation wallboards are arranged at the upper end of the wall body; floor slabs are fixedly arranged on the ring beam pressure plates. The house further comprises interlayer connecting pipes penetrating through the floor slabs, wherein the upper and lower ends of the interlayer connecting pipes are positioned above and below the floor slabs respectively; the upper ends of the round steel upright posts of the wall body of the lower layer and the lower ends of the round steel upright posts of the wall body of the upper layer are connected with the interlayer connecting pipes in the sleeving manner respectively. The house is higher in construction efficiency and shorter in cycle, is poured into an integrated structure by concrete, has higher quality performance, and can be constructed more conveniently, and the service life of a heat-preservation layer is the as that of the wall body.

Description

Module intelligence anti-seismic heat-preservation one splicing structure house

Technical field

The present invention relates to a kind of splicing structure house.Be specifically related to a kind of module heat-insulating integral splicing structure house.

Background technology

The construction method in existing residential house, mainly comprises the construction method based on reinforced concrete structure and the construction method based on steel work.Based in the construction method of reinforced concrete structure, frame construction of generally first constructing after building foundation completes, then fills fragment of brick in the frame, and lateral surface is constructed one deck cement in brick wall.Its major defect is: the first, building operations program is complicated, and the amount of labour is large, long in time limit, produces a large amount of building waste, and is difficult to greatly realize strict quality control due to site operation amount.The second, the concrete of whole building body implements cast respectively in different construction part, and build rear mutual independence, be difficult to the bulk strength guaranteeing building, anti-seismic performance, sealing performance etc. can not be satisfactory.Three, need frequently, in enormous quantities to use template when constructing framework and coating cement, beam, post, plate need maintenance, add construction cost and have impact on construction efficiency.Four, need atrial septum from, decorating inner and external walls and isothermal holding after main body construction, the house building cycle is longer, and construction cost improves further.Five, need to carry out maintenance to cement, not only extend construction period, and the maintenance construction at scene is difficult to guarantee operation and quality requirement.Six, other isothermal holding is needed after wall construction, complex operation on the one hand, long construction period, key issue is: later stage insulation layer cannot lose efficacy prior to body of wall, insulation layer and house same life-span cannot be ensured, need in house use procedure often to repair insulation layer, to house, user makes troubles.

In addition, stalk board belongs to ecological, renewable resource.Utilize stalk resource in a large number at industrial circle, stalk can be avoided to burn pollution to atmospheric environment in a large number.In addition, stalk board has light and that cost is low feature, can reduce the weight of constructional materials on the whole, cost of transportation and construction cost are effectively controlled as building board.Stalk board is commercially applied as the material of main part of building board, belongs to prior art.But in order to the processability that improves straw board and connectivity energy, the existing straw board as building board needs higher density and intensity usually, therefore generally needing crushed stalk when making stalk board, then adding a large amount of adhesive compression molding.Its major defect is: the first, due to containing a large amount of chemical adhesive composition, understand the pernicious gases such as long-term release formaldehyde, it is healthy that infringement is lived; The second, because density is comparatively large, the light feature of stalk board cannot fully be represented.

Summary of the invention

Technical problem to be solved by this invention is, a kind of module intelligence anti-seismic heat-preservation one splicing structure house is provided, in order to overcome the existing defect based on structure of reinforced concrete house, technical problem to be solved is, building operations efficiency is higher, and the cycle is shorter, integralization structure after house concreting, there is better capability and performance, insulation layer and body of wall same life-span, and construction is more convenient.The ash wall body plate that the building board that adopted uses has glue-free without air pollution and low, the light feature of density, and has switching performance and enough intensity.

In order to solve the problems of the technologies described above, the present invention takes following technical scheme:

A kind of module intelligence anti-seismic heat-preservation one splicing structure house, comprises concrete foundation, is embedded with the pre-buried tube connector exposed from concrete foundation in concrete foundation; It is characterized in that: the body of wall in described house comprises some round steel columns and level trend and the cold bending thin wall socket-connected with round steel column, the round steel column be connected to each other and cold bending thin wall composition body of wall position support frame; The both sides of cold bending thin wall are fixedly connected with composite thermo-insulating wall board respectively; Described round steel column lower end and the bared end of pre-buried tube connector socket-connect; The upper end of body of wall is provided with the collar tie beam pressing plate fixed with cold bending thin wall and composite thermo-insulating wall board, and floor is fixed on collar tie beam pressing plate; Also comprise through floor and up and down two ends lay respectively at the interlayer tube connector of floor upper and lower, the lower end of the upper end of the round steel column of lower floor's body of wall and the round steel column of upper strata body of wall socket-connects with interlayer tube connector respectively; The intermediate plate of described cold bending thin wall punches and is enclosed within round steel column, and left and right sides wallboard round steel column is used for being connected with composite thermo-insulating wall board.

The roof in described house comprises roof truss and is arranged on the roof panel on roof truss; The collar tie beam pressing plate of roof truss and the superiors' body of wall upper end fixes; Collar tie beam pressing plate between adjacent roof truss is provided with triangle body abaculus, and triangle body abaculus downside contacts with collar tie beam pressing plate upper surface, and inclined-plane and the roof panel of triangle body abaculus fix.

Described floor is formed by several complex heat-preservation floor modules grafting; Described complex heat-preservation floor modules comprises glue-free stalk board, and the surrounding of glue-free stalk board is respectively equipped with hard frame; Four peripheries of glue-free stalk board directly contact with hard frame or glue-free stalk board four peripheries in two and hard frame between with polyurethane foaming layer; Positive and negative two sides of glue-free stalk board are respectively equipped with panel, in described positive and negative two sides between at least one side and panel of this side with polyurethane foaming layer.

Described composite thermo-insulating wall board comprises glue-free stalk board, and the surrounding of glue-free stalk board is respectively equipped with hard frame; Four peripheries of glue-free stalk board directly contact with hard frame or glue-free stalk board four peripheries in two and hard frame between with polyurethane foaming layer; Positive and negative two sides of glue-free stalk board are respectively equipped with panel, in described positive and negative two sides between at least one side and panel of this side with polyurethane foaming layer.

The preparation method of described complex heat-preservation floor modules and described composite thermo-insulating wall board is as follows: the first step, equipment utilizes block stamp by moisture content 15% ~ 20% whole thing straw punching of taking root in be formed into density 200 ~ 350 kg/m ³, and in extrusion forming process, 180 ~ 200 DEG C of high-temperature process are carried out to straw; Then on equipment, stamping forming stalk air-permeable paper or breathable cloth are wrapped up; Glue-free stalk board is obtained by design size cutting;

Make and be used for the hard frame of accommodating stalk board: require that the height of hard frame when horizontal positioned is greater than glue-free stalk board thickness, inside hard frame two long limits and leave gap respectively between glue-free stalk board;

Second step, among the hard frame glue-free stalk board being placed in horizontal positioned, make the two bottom surface concordant, enter polyurethane foaming equipment, in glue-free stalk board depressed area and described gap, implement polyurethane coating, layer of polyurethane is concordant with hard frame upper surface;

Then in the front plate of upper surface compound as panel;

3rd step, at the backplate of glue-free stalk board back side compound as face after upset 180o, or makes polyurethane in sheet material become to be integrated at spraying side, glue-free stalk board back side layer of polyurethane, then composite back panel.

Air-permeable paper used or breathable cloth be one-way ventilating paper or one-way ventilating cloth preferably.

Described hard frame comprises wooden a tree, used in making timber for boats, rigid macromolecule material frame, frame moulded by wood and frame moulded by steel.

Beneficial effect of the present invention:

The first, present invention employs heat insulation integrated wall body module and heat insulation integrated floor panels, these unit adopt batch production manufacture, in-site installation, not only have quick for installation, the outstanding feature of saving of work and time, can factorial construction be realized, do not produce building waste, and quality control of being more convenient for.The suitability for industrialized production in house more than 70% can be completed by workshop form of construction work.In whole building, body of wall load-bearing.The house classification of waterproof utilizing the present invention to build reaches one-level, fire-protection rating one-level, and antidetonation reaches 9 grades of earthquake intensitys.And have obviously be better than existing building house insulation, wind resistance, protection against the tide, sound insulation, longer service life.Body of wall and floor self, with insulation layer, do not need to do isothermal holding in addition, insulation layer and body of wall same life-span.Do not need indoor and outdoor secondary to plaster a wall, fit up, reach one-shot forming.Be particularly suitable for Urban renewal, new countryside construction, hilly ground building construction, use in rainy, high wind area, the multiple band building construction of earthquake.

The second, hydropower installation is directly embedded in the good body of wall of compound, avoids the secondary construction of interior decoration, destroys body of wall and building structure.

Three, the stalk board that building board of the present invention (composite thermo-insulating wall board and complex heat-preservation floor) is used is by the whole piece straw high temperature punch forming without fragmentation, there is good pliability, make sheet material have enough intensity through installing hard frame additional, there is excellent shock resistance, insulation, waterproof, sound insulation, environmental protection, fireproof performance.The technical problem that glue-free stalk board is not suitable for being connected to each other is solved by hard frame.Stalk board used is not containing adhesive, and the pernicious gas such as Diazolidinyl Urea, does not have excellent environmental-protecting performance.The neighboring of hard frame can offer groove and for embedding the raised line in groove, mutual grafting between sheet material, is convenient to the rapid-assembling construction of body of wall.Stalk board and polyurethane material combine together, indeformable, sheet material and building same life-span.

Accompanying drawing explanation

Fig. 1 is body of wall of the present invention arrangement organigram.

Fig. 2 is structure and the annexation schematic diagram of body of wall of the present invention and floor.

Fig. 3 is roof truss of the present invention and wall connecting relation schematic diagram.

Fig. 4 is roof panel of the present invention and wall connecting relation schematic diagram.

Fig. 5 is the structural representation of body of wall position of the present invention support frame.

Fig. 6 is the structural representation of position, body of wall turning of the present invention support frame.

Fig. 7 is the structural representation of floor of the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention will be further described:

As Fig. 1, body of wall of the present invention comprise some round steel columns 1 and level trend and with the cold bending thin wall 3 that round steel column 1 socket-connects, the round steel column 1 be connected to each other and cold bending thin wall 3 form body of wall position support frame.The both sides of cold bending thin wall 3 are fixedly connected with composite thermo-insulating wall board 2 respectively.

As Fig. 1 and Fig. 2, embodiments of the invention also comprise concrete foundation 4, are embedded with the pre-buried tube connector 5 exposed from concrete foundation 4 in concrete foundation 4.Described round steel column 1 lower end and the bared end of pre-buried tube connector 5 socket-connect.The upper end of one deck body of wall is provided with the collar tie beam pressing plate 7 of the steel plate form fixed with cold bending thin wall 3 and composite thermo-insulating wall board 2, and floor 8 is fixed on collar tie beam pressing plate 7.Also comprise through floor 8 and up and down two ends lay respectively at the interlayer tube connector 9 of floor 8 upper and lower, the lower end of the upper end of the round steel column 1 of lower floor's body of wall and the round steel column 1 of upper strata body of wall socket-connects with interlayer tube connector 9 respectively.

Described cold bending thin wall 3 comprises C type cold bending thin wall and U-shaped cold bending thin wall, and its intermediate plate punches and is enclosed within round steel column 1, and left and right sides wallboard round steel column 1 is for being connected with composite thermo-insulating wall board 2.As shown in Figure 5,6.

As Fig. 3 and 4, roof of the present invention comprises roof truss 10 and is arranged on roof panel 11 on roof truss 10.Roof truss 10 fixes with the collar tie beam pressing plate 7 of the superiors' body of wall upper end.Collar tie beam pressing plate 7 between adjacent roof truss 10 is provided with triangle body abaculus 12, and triangle body abaculus 12 downside contacts with collar tie beam pressing plate 7 upper surface, and inclined-plane and the roof panel 11 of triangle body abaculus 12 fix.

As Fig. 7, floor 8 of the present invention is formed by several complex heat-preservation floor modules grafting.Described complex heat-preservation floor modules comprises glue-free stalk board 14, and the surrounding of glue-free stalk board 14 is respectively equipped with hard frame 15; Four peripheries of glue-free stalk board 14 directly contact with hard frame 15 or glue-free stalk board 14 four peripheries in two and hard frame 15 between with polyurethane foaming layer; Positive and negative two sides of glue-free stalk board 14 are respectively equipped with panel 13, in described positive and negative two sides between at least one side and panel of this side with polyurethane foaming layer.

Composite thermo-insulating wall board 2 of the present invention has identical structure with floor 8.

It is below the monolithic construction method citing in house of the present invention.

1), after workshop utilizes numerical control device to process associated components according to drawing again good for composite thermo-insulating wall board 2 compound, and numbering contribute to on-site consolidation; According to the requirement size of drawing pre-buried tube connector 5 in concrete foundation 4 while the blanking of workshop;

2), the bared end of round steel column 1 lower end and pre-buried tube connector 5 is socket-connected fixing;

3), by cold bending thin wall 3 level be socketed on round steel column 1 also fixing with moving towards, in body of wall, stamp bridging, to improve the stability of body of wall;

4), start the composite thermo-insulating wall board 2 as side fascia is installed, and composite thermo-insulating wall board 2 is fixed on cold bending thin wall 3 lateral wall according to numbering arrangement structure screw 6; According to drawing requirement, water power pipe is arranged in cold bending thin wall 3 middle part, cold bending thin wall 3 middle part perforate is used for water power pipe and arranges;

5), after Hydroelectric Project Construction, start according to the composite thermo-insulating wall board 2 of numbering construction as inner wall panel, the same side fascia of fixed form;

6), at the upper surface of body of wall, the collar tie beam pressing plate 7 installing banded steel plate form, as collar tie beam, is connected with the cold bending thin wall 3 in body of wall and composite thermo-insulating wall board 2, makes it become as a whole with body of wall, improves house whole piece anti-seismic performance;

7), floor according to the layout of drawing, floor 8 to punch and according to interlayer tube connector 9 in hole, and makes the upper end of round steel column 1 to socket-connect with interlayer tube connector 9; Floor 8 is installed;

8), at the upper surface of floor start unwrapping wire, and in the body of wall correspondence of lower floor, the lower end of the round steel column 1 of upper strata body of wall and interlayer tube connector 9 are socket-connected.Upper strata body of wall installation steps are identical with one deck way;

9), the wall assembly of top layer good after, start roof truss 10 is installed, room 10 good for shop-fabricated started installation in position according to the layout of drawing, utilize structure screw 6 to be fixed on the collar tie beam pressing plate 7 of the superiors' body of wall upper end;

10) collar tie beam pressing plate 7 upper surface, between adjacent roof truss 10 puts a triangle body abaculus 12 according to honest material under drawing, ensures the abundant combination between body of wall upper end collar tie beam pressing plate 7 and roof panel 11 downside; Utilize structure screw 6 that triangle body abaculus 12 and collar tie beam pressing plate 7 are fixed together;

11), after roof truss 10 and triangle body abaculus 12 fix, start roof panel 11 is installed, according to the roof panel numbering that workshop processes, start to install successively, be fixed on roof truss or purlin by bolt nail;

12), after roof panel installs, in the middle of ridge, the joint of two roof panel installs filler rod;

13), start afterwards the waterproof of roofing, watt, the decoration construction of indoor and outdoor.

14), indoor are furnished with intelligence system, and roofing installs monolithic heat insulation tile and optoelectronic integration support and solar panel system.

It is below preparation method's citing of the present invention's building board used (composite thermo-insulating wall board 2 and complex heat-preservation floor modules).

Embodiment one, heat preservation of board performance prepared by the present embodiment is better, main as side fascia and roof panel.

The first step, equipment utilize block stamp by whole drying (moisture content 15% ~ 20%) straw (the strip straw such as such as rice straw, wheat stalk, the careless class stalk) punch forming without fragmentation, and in punch forming process, high temperature (180 ~ 200 DEG C) process is carried out to straw, high-temperature process object is the worm's ovum killed in stalk, bacterium etc., the low straw water content of a step-down of going forward side by side; Punch forming is to density 200 ~ 350kg/m ².The composition stripping in straw with cohesive action can also be made, for cohering between stalk by high-temperature process.Do not add any adhesive in preparation process, guarantee that finished product sheet material plate does not produce air pollution.Then on equipment, stamping forming stalk one-way ventilating paper (cloth) is wrapped up, obtain glue-free stalk board by design size cutting.

Make the hard frame being used for accommodating compressed straw slab.Require that the height of hard frame when horizontal positioned is greater than glue-free stalk board thickness.Inside hard frame two long limits and leave gap respectively between glue-free stalk board.

Second step, among the hard frame glue-free stalk board being placed in horizontal positioned, make the two bottom surface concordant, enter polyurethane foaming equipment, in glue-free stalk board depressed area and described gap, implement polyurethane coating, layer of polyurethane is concordant with hard frame upper surface.

Then in the front plate of upper surface compound as panel.

3rd step, at the backplate of glue-free stalk board back side compound as panel after upset 180o, or after the layer of polyurethane of spraying side, the glue-free stalk board back side composite back panel again.

Before polyurethane foam, be provided with gap between hard frame and two long limits of glue-free stalk board, polyurethane foams in gap, and the junction heat-insulating property of sheet material is better, and the water resistance of sheet material is better.

Embodiment two, sheet material prepared by the present embodiment is mainly used as inner wall panel.

The first step, equipment utilize block stamp by whole drying (moisture content 15% ~ 20%) straw (the strip straw such as such as rice straw, wheat stalk, the careless class stalk) punch forming without fragmentation, and in punch forming process, high temperature (180 ~ 200 DEG C) process is carried out to straw, high-temperature process object is the worm's ovum killed in stalk, bacterium etc., the low straw water content of a step-down of going forward side by side; Punch forming is to density 200 ~ 350kg/m ².The composition stripping in straw with cohesive action can also be made, for cohering between stalk by high-temperature process.Do not add any adhesive in preparation process, guarantee that finished product sheet material plate does not produce air pollution.Then on equipment, stamping forming stalk one-way ventilating paper (cloth) is wrapped up, obtain glue-free stalk board by design size cutting.

Make the hard frame being used for accommodating compressed straw slab.Require that the height of hard frame when horizontal positioned is greater than glue-free stalk board thickness.Gap is not stayed between hard scuncheon and glue-free stalk board.

Second step, among the hard frame glue-free stalk board being placed in horizontal positioned, make the two bottom surface concordant, enter polyurethane foaming equipment, implement polyurethane coating in glue-free stalk board depressed area, layer of polyurethane is concordant with hard frame upper surface.

Then in the front plate of upper surface compound as panel.

3rd step, at the backplate of glue-free stalk board back side compound as panel after upset 180o, or after the layer of polyurethane of spraying side, the glue-free stalk board back side composite back panel again.

In above-mentioned two embodiments, air-permeable paper used or breathable cloth be one-way ventilating paper or one-way ventilating cloth preferably.Described hard frame can be wooden a tree, used in making timber for boats, also can be the macromolecular material frame of rigidity, can also be that frame moulded by wood or frame etc. moulded by steel.The object arranging hard frame is: the first, be convenient on hard frame, arrange grafting groove and raised line between sheet material; The second, play a supporting role as sheet material skeleton; Three, sheet material bulk strength is improved.

Claims (7)

1. a module intelligence anti-seismic heat-preservation one splicing structure house, comprises concrete foundation (4), is embedded with the pre-buried tube connector (5) exposed from concrete foundation (4) in concrete foundation (4); It is characterized in that: the body of wall in described house comprise some round steel columns (1) and level trend and with the cold bending thin wall (3) that round steel column (1) socket-connects, the round steel column (1) be connected to each other and cold bending thin wall (3) form body of wall position support frame; The both sides of cold bending thin wall (3) are fixedly connected with composite thermo-insulating wall board (2) respectively; Described round steel column (1) lower end and the bared end of pre-buried tube connector (5) socket-connect; The upper end of body of wall is provided with the collar tie beam pressing plate (7) fixed with cold bending thin wall (3) and composite thermo-insulating wall board (2), and floor (8) is fixed on collar tie beam pressing plate (7); Also comprise through floor (8) and up and down two ends lay respectively at the interlayer tube connector (9) of floor (8) upper and lower, the lower end of the upper end of the round steel column (1) of lower floor's body of wall and the round steel column (1) of upper strata body of wall socket-connects with interlayer tube connector (9) respectively; The intermediate plate of described cold bending thin wall (3) punches and is enclosed within round steel column (1), and left and right sides wallboard round steel column (1) is for being connected with composite thermo-insulating wall board (2).

2. module intelligence anti-seismic heat-preservation one splicing structure house according to claim 1, is characterized in that: the roof in described house comprises roof truss (10) and is arranged on the roof panel (11) on roof truss (10); Roof truss (10) fixes with the collar tie beam pressing plate (7) of the superiors' body of wall upper end; Collar tie beam pressing plate (7) between adjacent roof truss (10) is provided with triangle body abaculus (12), and triangle body abaculus (12) downside contacts with collar tie beam pressing plate (7) upper surface, and inclined-plane and the roof panel (11) of triangle body abaculus (12) fix.

3. module intelligence anti-seismic heat-preservation one splicing structure house according to claim 1, is characterized in that: described floor (8) is formed by several complex heat-preservation floor modules grafting; Described complex heat-preservation floor modules comprises glue-free stalk board (14), and the surrounding of glue-free stalk board (14) is respectively equipped with hard frame (15); Four peripheries of glue-free stalk board (14) directly contact with hard frame (15) or glue-free stalk board (14) four peripheries in two and hard frame (15) between with polyurethane foaming layer; Positive and negative two sides of glue-free stalk board (14) are respectively equipped with panel (13), in described positive and negative two sides between at least one side and panel of this side with polyurethane foaming layer.

4. module intelligence anti-seismic heat-preservation one splicing structure house according to claim 1, it is characterized in that: described composite thermo-insulating wall board (2) comprises glue-free stalk board (14), the surrounding of glue-free stalk board (14) is respectively equipped with hard frame (15); Four peripheries of glue-free stalk board (14) directly contact with hard frame (15) or glue-free stalk board (14) four peripheries in two and hard frame (15) between with polyurethane foaming layer; Positive and negative two sides of glue-free stalk board (14) are respectively equipped with panel (13), in described positive and negative two sides between at least one side and panel of this side with polyurethane foaming layer.

5. the module intelligence anti-seismic heat-preservation one splicing structure house according to claim 3 or 4, it is characterized in that the preparation method of described complex heat-preservation floor modules and described composite thermo-insulating wall board (2) is as follows: the first step, equipment utilizes block stamp by moisture content 15% ~ 20% whole thing straw punching of taking root in be formed into density 200 ~ 350 kg/m ³, and in extrusion forming process, 180 ~ 200 DEG C of high-temperature process are carried out to straw; Then on equipment, stamping forming stalk air-permeable paper or breathable cloth are wrapped up; Glue-free stalk board is obtained by design size cutting;

Make and be used for the hard frame of accommodating stalk board: require that the height of hard frame when horizontal positioned is greater than glue-free stalk board thickness, inside hard frame two long limits and leave gap respectively between glue-free stalk board;

Second step, among the hard frame glue-free stalk board being placed in horizontal positioned, make the two bottom surface concordant, enter polyurethane foaming equipment, in glue-free stalk board depressed area and described gap, implement polyurethane coating, layer of polyurethane is concordant with hard frame upper surface;

Then in the front plate of upper surface compound as panel;

3rd step, at the backplate of glue-free stalk board back side compound as face after upset 180o, or makes polyurethane in sheet material become to be integrated at spraying side, glue-free stalk board back side layer of polyurethane, then composite back panel.

6. module intelligence anti-seismic heat-preservation one splicing structure house according to claim 5, is characterized in that: air-permeable paper used or breathable cloth are one-way ventilating paper or one-way ventilating cloth.

7. module intelligence anti-seismic heat-preservation one splicing structure house according to claim 5, is characterized in that: described hard frame comprises wooden a tree, used in making timber for boats, rigid macromolecule material frame, frame moulded by wood and frame moulded by steel.