CN110258779B

CN110258779B - Assembled energy-saving house

Info

Publication number: CN110258779B
Application number: CN201910518395.7A
Authority: CN
Inventors: 张美云; 张云忠; 宋友志; 程文敏; 程秀华; 程秀玉; 何月华; 洪鼎述
Original assignee: Haoyao Times Fujian Group Co ltd
Current assignee: Haoyao Times Fujian Group Co ltd
Priority date: 2019-06-15
Filing date: 2019-06-15
Publication date: 2020-12-04
Anticipated expiration: 2039-06-15
Also published as: CN110258779A

Abstract

The invention relates to the technical field of house construction, in particular to an assembled energy-saving house. The utility model provides an energy-conserving house of prefabricated ization, includes the support frame and installs the bounding wall subassembly on braced frame, the support frame is including laminating at the subaerial inner circle frame of concrete and outer lane frame, the bounding wall subassembly includes four side bounding walls and apron, the first aluminum alloy panel that the bounding wall includes first cement foaming board and links firmly with first cement foaming board, the side bounding wall is connected with outer lane frame, inner circle frame respectively through the first aluminum alloy panel of both sides, the apron includes second cement foaming board and is fixed in the second aluminum alloy panel of second cement foaming board top. Because the side wall board includes first cement foaming board and is located the first aluminum alloy panel of cement foaming board both sides, wherein the cement foaming board can provide better syllable-dividing thermal-insulated effect, and aluminum alloy panel can play better waterproof and protection cement foaming board's effect.

Description

Assembled energy-saving house

Technical Field

The invention relates to the technical field of house construction, in particular to an assembled energy-saving house.

Background

At present, the construction site rooms are of two types, one type is a metal prefabricated house which is built by taking light steel as a framework and taking an aluminum alloy steel plate as a building envelope material, and the metal prefabricated house can be conveniently assembled and disassembled and is convenient for position transfer of the construction site rooms. The other is a temporary concrete house.

The above prior art solution has the following drawbacks: the temporary concrete room has better strength and heat-preservation and energy-saving effects, but can not be reused because the temporary concrete room needs to be dismantled after the construction of a construction site is completed, and the cost is higher. And the heat-proof effect of metal prefabricated house is relatively poor, and when using air conditioner summer, microthermal indoor air can rapid heating up at the in-process with external heat exchange, causes the energy extravagant.

Disclosure of Invention

The invention aims to provide an assembled energy-saving house which has the advantages of heat insulation and energy saving.

The above object of the present invention is achieved by the following technical solutions: the utility model provides an energy-conserving house of prefabricated ization, includes the support frame and installs the bounding wall subassembly on braced frame, the support frame is including laminating at the subaerial inner circle frame of concrete and outer lane frame, the bounding wall subassembly includes four side bounding walls and apron, the first aluminum alloy panel that the bounding wall includes first cement foaming board and links firmly with first cement foaming board, the side bounding wall is connected with outer lane frame, inner circle frame respectively through the first aluminum alloy panel of both sides, the apron includes second cement foaming board and is fixed in the second aluminum alloy panel of second cement foaming board top.

Through adopting above-mentioned technical scheme, install the bounding wall subassembly through the support frame and form the room body. Because the side wall board includes first cement foaming board and is located the first aluminum alloy panel of cement foaming board both sides, wherein the cement foaming board can provide better syllable-dividing thermal-insulated effect, and aluminum alloy panel can play better waterproof and protection cement foaming board's effect. Because the support frame is divided into the outer ring frame and the inner ring frame which are not connected, the heat loss caused by the heat conduction of the support frame can be avoided.

The invention is further configured to: wherein one side and the laminating of concrete ground of interior angle steel, the another side of interior angle steel upwards extends perpendicularly in the outside side of interior angle steel, and wherein one side and the laminating of concrete ground of outer angle steel, the another side of outer angle steel upwards extends perpendicularly in the inside side of outer angle steel, the groove of dodging outer angle steel and the vertical face of interior angle steel is offered on two sides that the lower terminal surface of first cement foaming board is close to second panel and third panel.

Through adopting above-mentioned technical scheme, insert through interior angle steel and outer angle steel cooperation and dodge the inslot and make the position of side bounding wall by the cooperation location, and separate through first cement foaming board between interior angle steel and the outer angle steel, play good diaphragm and should the heat preservation effect.

The invention is further configured to: the first aluminum alloy panel comprises a first panel fixed on the first end surface of the first cement foaming plate, a second panel fixed on the outer side surface of the first cement foaming plate and a third panel fixed on the inner side surface of the first cement foaming plate; the first panel is equal in width and height to the first end face, the second panel is equal in width and height to the outer side face of the first cement foaming plate, the third panel is equal in height to the inner side face of the first cement foaming plate, the second end face of one side is flush with the second end face of the other side, and the other side and the first end face are separated by the thickness of the first cement foaming plate; the four side enclosing plates are spliced to form the side wall of the house in a mode that the second end face of each side enclosing plate is abutted to the first panel and the third panel at the inner side face of the other side enclosing plate.

Through adopting above-mentioned technical scheme, come as the panel protection of protection first cement foaming board through setting up first panel, second panel and third panel. Set up and leave the clearance between third panel and the first panel and make between the side bounding wall can laminate sealedly between two blocks of side bounding walls through terminal surface and side looks butt's mode, can not have the panel again simultaneously and communicate to outdoor from indoor, avoid influencing syllable-dividing effect and heat preservation effect.

The invention is further configured to: and a plurality of threaded holes are uniformly formed in the equal-distance equal-height positions on the vertical surfaces of the inner angle steel and the outer angle steel, and the bolts penetrate through the second panel and then are connected with the threaded holes in the outer angle steel and penetrate through the third panel and then are connected with the threaded holes in the inner angle steel.

Through adopting above-mentioned technical scheme, the bolt passes second panel and third panel respectively from both sides and is connected with outer angle steel and interior angle steel, avoids having the metalwork directly to communicate from indoor to outdoor, avoids influencing syllable-dividing effect and heat preservation effect.

The invention is further configured to: and each first aluminum alloy panel is bent for four times at equal intervals along the horizontal direction to form a reinforced bent section.

Through adopting above-mentioned technical scheme, strengthen the support ability of first aluminum alloy panel through set up the section of bending at first aluminum alloy panel surface.

The invention is further configured to: strengthen the section of bending include with the parallel first space bar in first cement foaming board surface, be equipped with the connecting plate between two adjacent side bounding walls, the connecting plate is including two mutually vertically attaching plates that form after bending, every attaching plate all laminates with the third panel internal surface after bending four times along the equal interval of horizontal direction every, just to the position of connecting plate on the third panel, it has first fixation nut to weld towards first cement foaming board one side in all first space bars, first fixation bolt passes the connecting plate in proper order and first fixation nut connects fixedly.

Through adopting above-mentioned technical scheme, connect adjacent two side coamings through the connecting plate, first fixing bolt and first fixation nut are connected the back and are fixed connecting plate and side coamings. Because the first fixing nut is welded on the inner side of the first partition plate, no extra space is occupied, and the installation is more convenient.

The invention is further configured to: the four sides of the second cement foaming plate are connected with third aluminum alloy panels, the lower ends of the third aluminum alloy panels exceed the lower end faces of the second cement foaming plate, the third aluminum alloy panels are bent for four times at equal intervals along the horizontal direction to form reinforced bending sections, each reinforced bending section comprises a second partition plate parallel to the surface of the first cement foaming plate, and the second partition plates are attached to the outer side faces of the first partition plates; the first panel is just opposite to the third aluminum alloy panel, a second fixing nut is welded on one side, facing the first cement foam board, of each first partition board, and the second fixing bolts sequentially penetrate through the third aluminum alloy panel and the first panel and then are fixedly connected with the second fixing nuts.

Through adopting above-mentioned technical scheme, set up the third aluminum alloy panel on the second cement foaming board and come to cooperate the laminating with first aluminum alloy panel and be laminated structure mutually, then it is fixed with the cooperation of second fixation nut through second fixing bolt, because second fixation nut welds at first space inboard, consequently can not occupy extra space, and it is more convenient during the installation.

The invention is further configured to: the lower side surface and the upper side surface of the second cement foaming plate form an inclination angle of 15 degrees.

Through adopting above-mentioned technical scheme, the upper surface and the lower surface that set up the second cement foaming board are 15 degrees angles for the rainwater that falls on second aluminum alloy panel slides down along the inclined plane.

The invention is further configured to: and one surfaces of the inner angle steel and the outer angle steel, which are attached to the concrete ground, are fixed through expansion bolts.

Through adopting above-mentioned technical scheme, it is fixed through expansion bolts and concrete ground to set up interior angle steel and exterior angle steel and make interior angle steel and exterior angle steel can have great land fertility of grabbing, and house intensity is better.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the side wall plate comprises a first cement foaming plate and first aluminum alloy panels positioned on two sides of the cement foaming plate, wherein the cement foaming plate can provide better sound insulation and heat insulation effects, the aluminum alloy panels can play better waterproof and cement foaming plate protection effects, and the support frame is divided into an outer ring frame and an inner ring frame which are not connected, so that heat loss caused by heat conduction of the support frame can be avoided;

2. set up and leave the clearance between third panel and the first panel and make between the side bounding wall can laminate sealedly between two blocks of side bounding walls through terminal surface and side looks butt's mode, can not have the panel again simultaneously and communicate to outdoor from indoor, avoid influencing syllable-dividing effect and heat preservation effect.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a schematic structural view of the support frame in the embodiment;

FIG. 3 is an enlarged fragmentary view of the shroud assembly of the embodiment;

FIG. 4 is a schematic structural view of the fitting part of the side coaming and the support frame in the embodiment;

FIG. 5 is a schematic structural view of a cover plate in the embodiment;

fig. 6 is an enlarged view at a in fig. 5.

Reference numerals: 1. a support frame; 2. a coaming assembly; 3. inner angle steel; 4. outer angle steel; 5. side coaming plates; 6. a first aluminum alloy panel; 7. a first panel; 8. a second panel; 9. a third panel; 10. a first cement foam board; 11. an avoidance groove; 12. reinforcing the bending section; 13. a first partition plate; 14. a connecting plate; 15. attaching a plate; 16. a first fixing nut; 17. a first fixing bolt; 18. a cover plate; 19. a second cement foam board; 20. a second aluminum alloy panel; 21. a third aluminum alloy panel; 22. a second partition plate; 23. a second fixing nut; 24. and a second fixing bolt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the assembled energy-saving house comprises a support frame 1 and a coaming assembly 2 arranged on the support frame.

As shown in fig. 2, the support frame 1 comprises an inner ring frame and an outer ring frame which are attached to the raised concrete floor. The inner ring frame comprises four inner angle steels 3 which are connected end to form a square, the outer ring frame comprises four outer angle steels 4 which are connected end to form a square, and the length of each outer angle steel 4 is larger than that of each inner angle steel 3. One side of the inner angle steel 3 is attached to the concrete ground, and the other side of the inner angle steel 3 vertically extends upwards from the outward side of the inner angle steel 3. One side of the outer angle steel 4 is attached to the concrete ground, and the other side of the outer angle steel 4 vertically extends upwards from the inward side of the outer angle steel 4. One surface of each inner angle steel 3 and one surface of each outer angle steel 4, which are attached to the concrete ground, are fixed on the concrete ground through expansion bolts. The vertical surfaces of the inner angle steel 3 and the outer angle steel 4 on the same side are separated by 5-8 cm. The vertical surfaces of each inner angle steel 3 and each outer angle steel 4 are provided with a plurality of threaded holes at equal intervals.

As shown in fig. 3, the surround assembly 2 comprises four side surrounds 5, the left end of each surround being the first end and the right end of each surround being the second end, from a viewpoint of viewing standing in the house. Every side wall board 5 all includes first cement foaming board 10 and the first aluminum alloy panel 6 that is in the same place with the adhesion of first cement foaming board 10, and first aluminum alloy panel 6 is including fixing first panel 7 at the first terminal surface of first cement foaming board 10, fixing the second panel 8 at first cement foaming board 10 lateral surface and fixing the third panel 9 at first cement foaming board 10 medial surface. The first panel 7 is equal in width and height to the first end face, the second panel 8 is equal in width and height to the outer side face of the first cement foam board 10, the third panel 9 is equal in height to the inner side face of the first cement foam board 10, the second end face of one side is flush with the second end face of the other side, and the other side and the first end face are separated by the distance of the thickness of the first cement foam board 10.

As shown in fig. 3 and 4, the four side panels 5 are spliced to form the house side wall in a manner that the second end face of each side panel 5 is abutted against the first panel 7 and the third panel 9 at the inner side face of the other side panel 5 at intervals. Two side edges of the lower end face of the first cement foaming board 10, which are close to the second panel 8 and the third panel 9, are provided with avoidance grooves 11 for avoiding vertical faces of the outer angle steel 4 and the inner angle steel 3. The vertical faces of the inner angle steel 3 and the outer angle steel 4 are inserted into the avoiding groove 11, then the vertical faces penetrate through the second panel 8 and then are connected with the threaded holes in the outer angle steel 4, and the vertical faces penetrate through the third panel 9 and then are connected with the threaded holes in the inner angle steel 3. The shroud assembly 2 is mounted on the support frame 1 in the manner described above.

As shown in fig. 3, the first aluminum alloy panel 6 is bent four times at equal intervals along the horizontal direction to form a reinforced bent section 12, and the reinforced bent section 12 includes a first partition plate 13 parallel to the surface of the first cement foam board 10.

As shown in fig. 3, the inner sides of two adjacent side coamings 5 are connected by a connecting plate 14, and the connecting plate 14 is located at the middle position of the third panel 9 in the height direction. The connecting plate 14 comprises two vertical attaching plates 15 formed after bending, and each attaching plate 15 is attached to the inner surface of the third panel 9 after being bent for four times at equal intervals along the horizontal direction. And a first fixing nut 16 is welded on one side of each first partition plate 13 facing the first cement foam plate 10 at a position, opposite to the connecting plate 14, on the third panel 9, and a first fixing bolt 17 sequentially penetrates through the connecting plate 14 and is fixedly connected with the first fixing nut 16.

As shown in fig. 5 and 6, the boarding assembly 2 comprises a cover plate 18, the cover plate 18 comprises a second cement foaming plate 19 which is square and has the size equal to the outer surrounding size of the house side wall, the lower side surface and the upper side surface of the second cement foaming plate 19 form an inclination angle of 15 degrees, a second aluminum alloy panel 20 is adhered to the upper end surface of the second cement foaming plate 19, third aluminum alloy panels 21 are connected to four sides of the second cement foaming plate 19, and the lower end of each third aluminum alloy panel 21 exceeds the lower end surface of the second cement foaming plate 19. The third aluminum alloy panel 21 is bent for four times at equal intervals along the horizontal direction to form a reinforced bending section 12, the reinforced bending section 12 comprises a second partition plate 22 parallel to the surface of the first cement foaming plate 10, and the second partition plate 22 is attached to the outer side surface of the first partition plate 13.

As shown in fig. 5 and 6, a second fixing nut 23 is welded to one side of each first partition plate 13 facing the first cement foam plate 10 at a position on the first panel 7 opposite to the third aluminum alloy panel 21, and a second fixing bolt 24 sequentially penetrates through the third aluminum alloy panel 21 and the first panel 7 and then is connected and fixed with the second fixing nut 23.

The specific using process is as follows:

the inner angle steel 3 and the outer angle steel 4 are fixed on the concrete ground through expansion bolts, then four side enclosing plates 5 are installed, and the lower ends of the side enclosing plates 5 are connected with the inner angle steel 3 and the outer angle steel 4. The connecting plates 14 are installed to connect the adjacent side coamings 5 together, and finally, the cover plates 18 are installed, and the cover plates 18 can also play a role of connecting the side coamings 5 except for shielding wind and rain.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides an energy-conserving house of prefabricated, includes support frame (1) and installs bounding wall subassembly (2) on braced frame, characterized by: the support frame (1) comprises an inner ring frame and an outer ring frame which are attached to the concrete ground, the inner ring frame comprises four inner angle steels (3) which are connected end to form a square, and the outer ring frame comprises four outer angle steels (4) which are connected end to form a square; the coaming assembly (2) comprises four side coamings (5) and a cover plate (18), wherein each side coamings (5) comprises a first cement foaming plate (10) and a first aluminum alloy panel (6) fixedly connected with the first cement foaming plate (10), each side coamings (5) are respectively connected with an outer ring frame and an inner ring frame through the first aluminum alloy panels (6) on two sides, and each cover plate (18) comprises a second cement foaming plate (19) and a second aluminum alloy panel (20) fixed above the second cement foaming plate (19);

the first aluminum alloy panel (6) comprises a first panel (7) fixed on the first end face of the first cement foaming plate (10), a second panel (8) fixed on the outer side face of the first cement foaming plate (10) and a third panel (9) fixed on the inner side face of the first cement foaming plate (10); the first panel (7) is equal in width and height to the first end face, the second panel (8) is equal in width and height to the outer side face of the first cement foaming plate (10), the third panel (9) is equal in height to the inner side face of the first cement foaming plate (10), the second end face of one side is flush with the second end face of the other side, and the other side and the first end face are separated by the thickness of the first cement foaming plate (10); the four side enclosing plates (5) are spliced to form the side wall of the house in a way that the second end surface of each side enclosing plate (5) is abutted against the first panel (7) and the third panel (9) at intervals on the inner side surface of the other side enclosing plate (5);

each first aluminum alloy panel (6) is bent for four times at equal intervals along the horizontal direction to form a reinforced bent section (12);

the reinforced bending section (12) comprises first partition plates (13) parallel to the surface of a first cement foaming plate (10), a connecting plate (14) is arranged between two adjacent side enclosing plates (5), the connecting plate (14) comprises two vertical attaching plates (15) formed after bending, each attaching plate (15) is attached to the inner surface of a third panel (9) after being bent for four times at equal intervals along the horizontal direction, the position, opposite to the connecting plate (14), on the third panel (9), of each first partition plate (13) is welded with first fixing nuts (16) on one sides, facing the first cement foaming plate (10), and the first fixing bolts (17) sequentially penetrate through the connecting plate (14) and the first fixing nuts (16) to be connected and fixed;

the four sides of the second cement foaming plate (19) are connected with third aluminum alloy panels (21), the lower ends of the third aluminum alloy panels (21) exceed the lower end face of the second cement foaming plate (19), the third aluminum alloy panels (21) are bent for four times at equal intervals along the horizontal direction to form reinforced bending sections (12), each reinforced bending section (12) comprises a second partition plate (22) parallel to the surface of the first cement foaming plate (10), and the second partition plates (22) are attached to the outer side face of the first partition plate (13); a second fixing nut (23) is welded on one side of each first partition plate (13) facing the first cement foam plate (10) at a position, opposite to the third aluminum alloy panel (21), on the first panel (7), and a second fixing bolt (24) sequentially penetrates through the third aluminum alloy panel (21) and the first panel (7) and then is connected and fixed with the second fixing nut (23); one side of the inner angle steel (3) is attached to the concrete ground, the other side of the inner angle steel (3) vertically extends upwards from the outward side of the inner angle steel (3), one side of the outer angle steel (4) is attached to the concrete ground, the other side of the outer angle steel (4) vertically extends upwards from the inward side of the outer angle steel (4), and two sides of the lower end face of the first cement foam board (10) close to the second panel (8) and the third panel (9) are provided with avoidance grooves (11) for avoiding the vertical surfaces of the outer angle steel (4) and the inner angle steel (3); and a plurality of threaded holes are uniformly formed in the equal-height positions on the vertical surfaces of the inner angle steel (3) and the outer angle steel (4) at equal intervals, and the bolts penetrate through the second panel (8) and then are connected with the threaded holes in the outer angle steel (4) and penetrate through the third panel (9) and then are connected with the threaded holes in the inner angle steel (3).

2. The assembled energy-saving house as set forth in claim 1, wherein: the lower side surface and the upper side surface of the second cement foaming plate (19) form an inclination angle of 15 degrees.

3. The assembled energy-saving house as set forth in claim 1, wherein: and the inner angle steel (3) and the outer angle steel (4) are fixed with one surface of the concrete ground through expansion bolts.