CN202416626U - Flexible energy-consumption frame filling wall - Google Patents

Abstract

The utility model discloses a flexible energy-consumption frame filling wall which comprises an upper frame beam (1), a lower frame beam (2), a left frame column (3) and a right frame column (4) forming a frame structure, and partition wall battens (5), wherein U-shaped steel plate slots (6) with a downward opening direction and an upward opening direction are fixed on the lower side of the beam bottom of the upper frame beam (1) and the upper side of the beam top of the lower frame beam (2) opposite thereto respectively; the partition wall battens (5) are vertically arranged in the U-shaped steel plate slots (6) and connected by bolts (7); gaps (8) are reserved between the two ends of the partition wall battens (5) and the bottoms of the U-shaped steel plate slots (6), between the partition wall battens (5) and between the partition wall battens (5) and the left frame column (3) and right frame column (4); and viscous-elastic materials (9) are filled in the gaps (8). The flexible energy-consumption frame filling wall disclosed by the utility model has simple structure, low cost and strong deformability, is quick and convenient to mount, can provide additional damping, and has a wide application range.

Description

A kind of flexible energy framework infilled wall

Technical field

The utility model relates to architectural design and building aseismicity field, relates in particular to framework infilled wall design field, specifically a kind of flexible energy framework infilled wall.

Background technology

Along with country widelys popularize green materials for wall, some high performance light partition boards have obtained increasing utilization and popularization.Partition wall batten is the key technology that solves wallboard popularization and structure design with being connected of concrete frame particularly with frame construction.

" seismic design provision in building code " (GB5001-2010) stipulated; Masonry infilled wall in the reinforced concrete structure; Should throw off or adopt with post and flexibly connect; But since consider reliable between body of wall and the framework be connected and construct on facility, be connected being rigidly connected of nearly all adopting between traditional infilled wall and the framework.

Infilled wall forms an integral body with framework and resists the external loads effect jointly.The existence of infilled wall has improved the ability of the anti-lateral load of structure collectivity; But also produced corresponding problem; One of which: the quantity of infilled wall and the difference of arrangement in the different structure layer; Formed the discontinuous of levels infilled wall, caused facing mutually the rigidity sudden change of interlayer, caused weak floor to destroy or collapse; Its two: the infilled wall that punches or window makes the actual ratio of shear span to effective depth of section of frame column reduce to cause short column shear failure to the lateral restraint of frame column; Its three: the adding of infilled wall increases the integral rigidity of whole frame structure system, and the horizontal seismic force that structure is born also can increase; Its four: the infilled wall layout is inhomogeneous to cause construction torsion to destroy.

Summary of the invention

The purpose of the utility model is the drawback that exists to the available frame infilled wall, provides a kind of and has than large elastic-plastic deformation's ability, can produce additional damping, alleviates the flexible energy framework infilled wall of body of wall degree.

The purpose of the utility model solves through following technical scheme:

A kind of flexible energy framework infilled wall; Comprise that the upper ledge that constitutes frame type structure is set a roof beam in place, lower frame is set a roof beam in place, left frame post and correct frame post and partition wall batten; The back upside that beneath side of the beam that said upper ledge is set a roof beam in place and the lower frame that is oppositely arranged with it are set a roof beam in place is set with the U shaped steel board slot that opening direction is downward and opening direction makes progress respectively; Described partition wall batten vertically is arranged on U shaped steel board slot and adopts bolt to link to each other; Be provided with the space between the bottom land of the two ends of partition wall batten and U shaped steel board slot, between the partition wall batten and between partition wall batten and left frame post and the correct frame post, fill viscoelastic material in the described space.

The top and bottom of said partition wall batten are respectively arranged with connecting hole, and the fixing hole that is provided with on described connecting hole and the U shaped steel board slot sidewall is corresponding.

The aperture of described connecting hole and fixing hole is 10-25mm.

The outward flange of said connecting hole and the edges of boards of partition wall batten distance are not less than 10mm.

The thickness of described partition wall batten is not more than the vallecular cavity width of U shaped steel board slot.

Described partition wall batten comprises steam-pressing aero-concrete batten, industrial ash slag concrete porous batten, the light porous batten of glass fiber reinforced cement, gypsum lath, string batten, coal ash foam cement batten and silicon magnesium air entrained cement batten.

Described upper ledge is set a roof beam in place, lower frame is set a roof beam in place, left frame post and correct frame post are concrete frame or steel frame.

Described U shaped steel plate slot welding is connected on the back upside that side under the beam that upper ledge sets a roof beam in place and/or lower frame are set a roof beam in place.

The back upside that described U shaped steel board slot is set a roof beam in place through bolt anchoring side and/or lower frame under the beam that upper ledge is set a roof beam in place.

Described viscoelastic material comprises foamed glue and elastic cement.

The utility model is compared prior art has following advantage:

The utility model installs U shaped steel board slot additional in framework; Link to each other with partition wall batten through U shaped steel board slot then; All be provided with the space between six faces of partition wall batten each parts corresponding with it; Be filled with viscoelastic material in the space, the partition wall batten under geological process can rotate around bolt in the plane of U shaped steel board slot and partition wall batten formation, and partition wall batten also can be destroyed under the situation of frame construction large deformation; And partition wall batten is in rotating process; The viscoelastic material that fill between the partition wall batten and the gap of partition wall batten and left and right sides frame column and U shaped steel board slot can produce viscoelastic strain; The additional damping that is equivalent to damper is provided, reduces the earthquake response of total.

Simple in structure, the low cost of manufacture of the utility model, convenience quick for installation; Can confirm the additional damping ratio of structure in the actual engineering according to the quantity of partition wall batten; Wide accommodation and practicality are high; Be particularly useful for the building in earthquake prone areas, high earthquake intensity area, can effectively improve important public building, such as anti-seismic performance, the security performance of hospital, school.

Description of drawings

Accompanying drawing 1 is the perspective view of the utility model;

Accompanying drawing 2 is the plane structure sketch map of the utility model;

Accompanying drawing 3 is the U shaped steel board slot of the utility model and the open-celled structure sketch map of partition wall batten;

Accompanying drawing 4 is the U shaped steel board slot of the utility model and the syndeton sketch map of partition wall batten;

Accompanying drawing 5 is set a roof beam in place for the U shaped steel board slot of the utility model and lower frame and is adopted bolted structural representation;

Accompanying drawing 6 is the distressed structure phantom of flexible energy framework infilled wall when earthquake of the utility model.

Wherein: 1-upper ledge is set a roof beam in place; 2-lower frame is set a roof beam in place; 3-left frame post; 4-correct frame post; 5-partition wall batten; 6-U shaped steel board slot; 7-bolt; 8-space; 9-viscoelastic material; 10-connecting hole; 11-fixing hole.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

Shown in Fig. 1-5: a kind of flexible energy framework infilled wall; Comprise that the upper ledge that constitutes frame type structure sets a roof beam in place 1, lower frame is set a roof beam in place 2, left frame post 3 and correct frame post 4 and partition wall batten 5; Upper ledge sets a roof beam in place 1, lower frame is set a roof beam in place 2, left frame post 3 and correct frame post 4 are concrete frame or steel frame, and partition wall batten 5 comprises steam-pressing aero-concrete batten, industrial ash slag concrete porous batten, the light porous batten of glass fiber reinforced cement, gypsum lath, string batten, coal ash foam cement batten and silicon magnesium air entrained cement batten.Set a roof beam in place 2 back upside of side and the lower frame that is oppositely arranged with it is set with opening direction respectively downwards and in the U shaped steel board slot 6 that makes progress of opening direction under upper ledge is set a roof beam in place 1 beam; Partition wall batten 5 vertically is arranged on U shaped steel board slot 6 and adopts bolt 7 to link to each other; The vallecular cavity bottom of the two ends of partition wall batten 5 and U shaped steel board slot 6 is equipped with space 8; The thickness of partition wall batten 5 is not more than the vallecular cavity width of U shaped steel board slot 6 simultaneously; Be also to have space 8 between the vallecular cavity inwall of front and back sides and U shaped steel board slot 6 of general partition wall batten 5; Between the simultaneously adjacent partition wall batten 5 and also be provided with space 8 between partition wall batten 5 and left frame post 3 and the correct frame post 4, viscoelastic materials 9 fillings of adopting foamed glues or elastic cement to process in the space 8.Be respectively arranged with connecting hole 10 in the top and bottom of partition wall batten 5 in addition; The fixing hole 11 that is provided with on connecting hole 10 and U shaped steel board slot 6 sidewalls is corresponding; Bolt 7 passes fixing hole 11 and connecting hole 10 successively with partition wall batten 5 and U shaped steel board slot 6 relative fixed; And the aperture of connecting hole 10 and fixing hole 11 is 10-25mm, and the edges of boards distance of the outward flange of connecting hole 10 and partition wall batten 5 is not less than 10mm so that have certain gap 8 in the vallecular cavity of U shaped steel board slot 6 to fill viscoelastic material 9.Set a roof beam in place when upper ledge and 1 to set a roof beam in place 2 when the steel frame with lower frame, U shaped steel board slot 6 is welded on upper ledge set a roof beam in place 2 the back upside of side under 1 the beam and/or lower frame of setting a roof beam in place; Set a roof beam in place when upper ledge and 1 to set a roof beam in place 2 when the concrete frame with lower frame, U shaped steel board slot 6 is anchored at upper ledge set a roof beam in place 2 the back upside of side under 1 the beam and/or lower frame of setting a roof beam in place through bolt 7.

Illustrate the manufacturing process of the flexible energy framework infilled wall of the utility model below, at first set the upper ledge be the setting of frame type set a roof beam in place 1 and the lower frame clear distance of setting a roof beam in place between 2 be 2680mm, the clear distance between left frame post 3 and the correct frame post 4 is 5160mm.At first preparing two length is that 5160mm, sectional dimension are the U shaped steel board slot 6 of 100mm * 80mm * 4mm * 4mm (wide * height * base thickness * edge of a wing is thick), prepares eight sectional dimensions and be the partition wall batten 5 that the steam-pressing aero-concrete of 2600mm * 600mm * 90mm (high * wide * thick) is processed; Then minor face (width edge) medium position at partition wall batten 5 is provided with the connecting hole 10 that diameter is 20mm, and the edges of boards distance of the outward flange of connecting hole 10 and partition wall batten 5 is 10mm; Simultaneously on U shaped steel board slot 6, with connecting hole 10 corresponding positions the fixing hole 11 that diameter is 20mm is set, the distance between the wall upper edge, chamber of the outward flange of fixing hole 11 and U shaped steel board slot 6 is 10mm; Adopt 8 expansion bolts 7 that two U shaped steel board slots 6 are separately fixed at upper ledge the set a roof beam in place relevant position of 2 back upside of side and lower frame under 1 the beam of setting a roof beam in place then; Then pack into the partition wall batten 5 after handling in the U shaped steel board slot 6 and use the bolt 7 relative fixed partition wall battens 5 and U shaped steel board slots 6 of diameter as 20mm; The viscoelastic material of processing with elastic cement at last 9 is filled bottom the vallecular cavity of two ends end face and side and U shaped steel board slot 6 of partition wall battens 5 and the space 8 that exists between the sidewall; The viscoelastic material of processing with elastic cement 9 is filled space 8 and the space 8 between partition wall batten 5 and left frame post 3 and the correct frame post 4 between the adjacent partition wall batten 5, accomplishes the manufacturing process of this flexible energy framework infilled wall.

The utility model installs U shaped steel board slot 6 additional in framework; Link to each other with partition wall batten 5 through U shaped steel board slot 6 then; All be provided with space 8 between six faces of partition wall batten 5 each parts corresponding with it; Be filled with viscoelastic material 9 in the space 8; Partition wall batten 5 under geological process can rotate around bolt in the plane that U shaped steel board slot 6 and partition wall batten 5 constitute, and partition wall batten 5 also can be destroyed under the situation of frame construction large deformation, and the malformation situation of this flexible energy framework infilled wall was as shown in Figure 6 when earthquake took place; And partition wall batten 5 is in rotating process; The viscoelastic material 9 that fill between the partition wall batten 5 and 8 places, space of partition wall batten 5 and left and right sides frame column and U shaped steel board slot 6 can produce viscoelastic strain; The additional damping that is equivalent to damper is provided, reduces the earthquake response of total; And having simple in structure, low cost of manufacture, characteristics easily quick for installation, wide accommodation and practicality are high, can confirm the additional damping ratio of structure simultaneously in the actual engineering according to the quantity of partition wall batten 5.

Above embodiment is merely the technological thought of explanation the utility model; Can not limit the protection domain of the utility model with this; Every technological thought that proposes according to the utility model, any change of on the technical scheme basis, being done all falls within the utility model protection domain; The technology that the utility model does not relate to all can realize through prior art.

Claims (10)

1. flexible energy framework infilled wall; Comprise that the upper ledge that constitutes frame type structure is set a roof beam in place (1), lower frame is set a roof beam in place (2), left frame post (3) and correct frame post (4) and partition wall batten (5); It is characterized in that said upper ledge is set a roof beam in place side under the beam of (1) and the lower frame that is oppositely arranged with it is set a roof beam in place (2) back upside is set with opening direction respectively and the U shaped steel board slot (6) that makes progress of opening direction downwards; Described partition wall batten (5) vertically is arranged on U shaped steel board slot (6) and adopts bolt (7) to link to each other; Be provided with space (8) between the bottom land of the two ends of partition wall batten (5) and U shaped steel board slot (6), between the partition wall batten (5) and between partition wall batten (5) and left frame post (3) and the correct frame post (4), fill viscoelastic material (9) in described space (8).

2. flexible energy framework infilled wall according to claim 1; The top and bottom that it is characterized in that said partition wall batten (5) are respectively arranged with connecting hole (10), and the fixing hole (11) that is provided with on described connecting hole (10) and U shaped steel board slot (6) sidewall is corresponding.

3. flexible energy framework infilled wall according to claim 2 is characterized in that the aperture of described connecting hole (10) and fixing hole (11) is 10-25mm.

4. flexible energy framework infilled wall according to claim 2 is characterized in that the outward flange of said connecting hole (10) and the edges of boards distance of partition wall batten (5) are not less than 10mm.

5. flexible energy framework infilled wall according to claim 1 and 2 is characterized in that the thickness of described partition wall batten (5) is not more than the vallecular cavity width of U shaped steel board slot (6).

6. flexible energy framework infilled wall according to claim 1 is characterized in that described partition wall batten (5) comprises steam-pressing aero-concrete batten, industrial ash slag concrete porous batten, the light porous batten of glass fiber reinforced cement, gypsum lath, string batten, coal ash foam cement batten and silicon magnesium air entrained cement batten.

7. flexible energy framework infilled wall according to claim 1 is characterized in that described upper ledge is set a roof beam in place (1), lower frame is set a roof beam in place (2), left frame post (3) and correct frame post (4) be concrete frame or steel frame.

8. flexible energy framework infilled wall according to claim 1 is characterized in that described U shaped steel board slot (6) is welded on upper ledge the set a roof beam in place back upside of (2) of side under the beam of (1) and/or lower frame of setting a roof beam in place.

9. flexible energy framework infilled wall according to claim 1 is characterized in that described U shaped steel board slot (6) is anchored at upper ledge the set a roof beam in place back upside of (2) of side under the beam of (1) and/or lower frame of setting a roof beam in place through bolt (7).

10. flexible energy framework infilled wall according to claim 1 is characterized in that described viscoelastic material (9) comprises foamed glue and elastic cement.

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