CN205153138U - Prefabricated building of amalgamation - Google Patents

Prefabricated building of amalgamation Download PDF

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Publication number
CN205153138U
CN205153138U CN201520721480.0U CN201520721480U CN205153138U CN 205153138 U CN205153138 U CN 205153138U CN 201520721480 U CN201520721480 U CN 201520721480U CN 205153138 U CN205153138 U CN 205153138U
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China
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reinforcement
cast
precast plate
reinforcing bar
situ concrete
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CN201520721480.0U
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陈定球
刘斌
李昌州
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China Minsheng Zhuyou Co Ltd
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China Minsheng Zhuyou Co Ltd
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Abstract

The utility model provides a prefabricated building of amalgamation, include prefabricated plate and the prefabricated wall of being connected with the prefabricated plate the prefabricated plate is provided with the connecting piece with the junction of prefabricated wall, the connecting piece includes the framework of steel reinforcement, prefabricated plate, prefabricated wall and connecting piece between the two pass through cast in situ concrete and annotate integratively. So, at the connected node of prefabricated plate with the above -mentioned structure of prefabricated wall amalgamation department adoption, make into the framework of steel reinforcement with the reinforcing bar, to be small -size cast -in -place because of prefabricated plate amalgamation department, if adopt the field fabrication then to consume a large amount of costs of labor, and adopt prefabricated skeleton, then can be favorable to guaranteeing that the skeleton conforms with the design size in the mechanized preparation in batches in workshop, can reduce the cost of manufacture simultaneously by a wide margin, pour cast in situ concrete after, increase substantially the wholeness and the anti -seismic performance of prefabricated plate and prefabricated wall amalgamation department, make it under earthquake disaster's effect, cracked condition appearance in the middle part of can not leading to has improved the wholeness and the security performance of building.

Description

A kind of split pre-fabricated building
Technical field
The utility model relates to a kind of assembled architecture component, particularly a kind of split pre-fabricated building.
Background technology
In assembled architecture, its component such as floor and wallboard is typically employed in prefabrication, then at the construction field (site) the connected node between prefabricated units is formed overall structure by poured in place concrete.As the connected node between the wallboard with beam and floor, general way is, cast-in-situ concrete between prefabricated panel and precast floor slab, by concrete, prefabricated panel and precast floor slab are linked to be entirety, the prefabricated panel of this structure and the connected node of precast floor slab, efficiency of construction is high, but globality is poor, and it is not firm that cast-in-situ concrete is connected with between prefabricated panel, precast floor slab.
Summary of the invention
The technical problems to be solved in the utility model is: provide a kind of split pre-fabricated building, and it can improve the globality of building structure greatly.
The solution of technical problem of the present utility model is achieved in that a kind of split pre-fabricated building, the dry wall comprising precast plate and be connected with precast plate, the junction of described precast plate and dry wall is provided with connector, described connector comprises cage of reinforcement, and described precast plate, dry wall and connector between the two form one by cast-in-situ concrete.So, adopt the connected node of said structure at precast plate and dry wall mosaic, add cage of reinforcement at precast plate and dry wall mosaic, and precast plate and dry wall mosaic are that small size is cast-in-place, therefore situ wet operation is considerably less; In addition, cage of reinforcement as adopted field fabrication then at substantial cost of labor, and adopts precast framework, then at room machine batch making, can be conducive to ensureing that skeleton conforms to design size, significantly can reduce cost of manufacture simultaneously, improve efficiency of construction; After cast-in-situ concrete, under the acting in conjunction of cage of reinforcement and cast-in-situ concrete, globality and the anti-seismic performance of precast plate and dry wall mosaic can be increased substantially, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve globality and the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, described cage of reinforcement comprises longitudinal reinforcement and transverse reinforcement, described longitudinal reinforcement is elongated reinforcing bar, transverse reinforcement is connecting reinforcement, described elongated reinforcing bar and connecting reinforcement are arranged in length and breadth and fixedly become cage of reinforcement, and described connecting reinforcement is provided with turnover.So, reinforcement fabrication is become cage of reinforcement, because precast plate mosaic is that small size is cast-in-place, as adopted field fabrication then at substantial cost of labor, and adopt precast framework, then can at room machine batch making, be conducive to ensureing that skeleton conforms to design size, significantly can reduce cost of manufacture simultaneously, and on connecting reinforcement, be provided with turnover, after building cast-in-situ concrete, by elongated reinforcing bar and connecting reinforcement, contiguous prefabricated plate is connected to form integral rigidity plate, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, and described elongated reinforcing bar and connecting reinforcement are by being welded to connect into cage of reinforcement.So, when elongated reinforcing bar with connecting reinforcement by being welded to connect into cage of reinforcement time, the production efficiency of cage of reinforcement is high, can realize automatic production line and produce, significantly can reduce cost of labor, and secure and reliable connection, be conducive to large-scale promotion application.
Another technical scheme of the present utility model is on above-mentioned basis, and described elongated reinforcing bar and connecting reinforcement connect into cage of reinforcement by colligation.So, when elongated reinforcing bar and connecting reinforcement connect into cage of reinforcement by colligation, in application process, local reinforcement location can be adjusted flexibly, so that arrange other pipelines or lose pre-buried, facilitate construction operation.
Another technical scheme of the present utility model is on above-mentioned basis, and described connecting reinforcement end is provided with linkage.So, connecting reinforcement end is provided with linkage, when described cage of reinforcement is applied to precast plate mosaic, the linkage of connecting reinforcement end can be connected to each other with the reserved reinforcing bar exposed in precast plate, afterwards after concreting, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, and described linkage is the screw thread being arranged at connecting reinforcement end.So, when linkage is the screw thread being arranged at connecting reinforcement end, during described cage of reinforcement application, can be inserted in hole reserved on precast plate by arranging threaded end, after concreting, can connecting reinforcement be anchored in precast plate, and then, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, and described connecting reinforcement is or/and the end of elongated reinforcing bar is provided with pier nose.So, when connecting reinforcement or/and the end of elongated reinforcing bar is provided with pier nose, during described cage of reinforcement application, the end being provided with pier nose can be inserted in hole reserved on precast plate, or by pier nose by lockset by the bar connecting exposed pre-buried on precast plate, after concreting, can by elongated reinforcing bar or/and connecting reinforcement be anchored in precast plate, and then, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, and described connecting reinforcement two ends arrange bending section.So, connecting reinforcement two ends arrange bending section, and when described cage of reinforcement is applied to the split position of precast plate, after building cast-in-situ concrete, bending end can form good anchoring.
Another technical scheme of the present utility model is on above-mentioned basis, and described connecting reinforcement is intersect after bending to form.So, connecting reinforcement is intersect after bending to form, and described cage of reinforcement is applied to precast plate mosaic, after concreting, increase on the one hand its with concrete contact area and with concrete adhesion, reach the effect of bonding strength enhancing; On the other hand, adopt interconnection muscle, effectively can regulate the bending angle of dowel, the minimizing of turning angle effectively can ensure that dowel has enough anchorage lengths, and test shows, the turning angle of staggered form dowel is less, and the overall performance of plate is stronger.
Another technical scheme of the present utility model is on above-mentioned basis, and the bending angle scope of described connecting reinforcement is 20 °-60 °.So, connecting reinforcement is intersect after bending to form, and described cage of reinforcement is applied to precast plate mosaic, after concreting, increase on the one hand its with concrete contact area and with concrete adhesion, reach the effect of bonding strength enhancing; On the other hand, adopt interconnection muscle, effectively can regulate the bending angle of dowel, the minimizing of turning angle effectively can ensure that dowel has enough anchorage lengths, and test shows, the turning angle of staggered form dowel is less, and the overall performance of plate is stronger.
Another technical scheme of the present utility model is on above-mentioned basis, and described connecting reinforcement is or/and elongated reinforcing bar is indented bars is made.So, adopt indented bars to make skeleton, indented bars has good anchoring property, can improve the antidetonation of precast plate mosaic cast-in-place concrete structure, fracture resistance.
Another technical scheme of the present utility model is on above-mentioned basis, and described precast plate is hollow pre-fabricated panels or prestressing force precast plate.So, adopt hollow pre-fabricated panels can reduce the weight of floor, save material, meanwhile, the sound isolating and heat insulating performance of floor can be increased substantially, and adopt prestressing force precast plate, then can improve non-deformability and the weight bearing power of floor.
Another technical scheme of the present utility model is on above-mentioned basis, the link of described precast plate is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, reinforcing bar is had or/and steel strand and dry wall are arranged in intersecting vertically in precast plate, and reinforcing bar is or/and steel strand expose and stretch in cast-in-situ concrete die cavity, cast-in-situ concrete is built and is formed the superimposed connecting overall of T-shaped between precast plate and dry wall.So, by cast-in-place T-shaped structure, precast plate and dry wall are connected into overall structure, and have reinforcing bar in precast plate or/and steel strand and dry wall are arranged in intersecting vertically, and reinforcing bar is or/and steel strand expose and stretch in cast-in-situ concrete die cavity, can jointly form overall force structure by the cast-in-situ concrete of choosing outside step platform lower in part.Be that vertical plane arranges groove further as chosen portion end surface outside step platform lower, after then building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in a groove, in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
Another technical scheme of the present utility model is on above-mentioned basis, vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, the upper corner of section lower corner near dry wall is chosen outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity.So, outside step platform lower, choose the upper corner of section lower corner near dry wall, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction.
Another technical scheme of the present utility model is on above-mentioned basis, and have reinforcing bar in described precast plate or/and steel strand expose and stretch into after in cast-in-situ concrete die cavity, connected by linkage, described linkage is compression sleeve.So, reinforcing bar is had or/and steel strand expose and stretch into after in cast-in-situ concrete die cavity in precast plate, connected by linkage, after building cast-in-situ concrete, precast plate, dry wall engage with cast-in-place concrete structure and form overall load-carrying construction component, have increased substantially integral rigidity and the anti-seismic performance of floor, make that each independently precast plate, dry wall become overall load-carrying construction, and linkage is compression sleeve, then reduce bar connecting difficulty, can efficiency of construction be increased substantially.
Another technical scheme of the present utility model is on above-mentioned basis, has embedded bar to expose and jointly build in cast-in-situ concrete with cage of reinforcement in described dry wall.So, have embedded bar to expose in dry wall jointly to build after in cast-in-situ concrete with cage of reinforcement, prefabricated structural element and cast-in-place structural form entirety, make each independently precast plate, dry wall become overall load-carrying construction, have increased substantially integral rigidity and the anti-seismic performance of floor.
Another technical scheme of the present utility model is on above-mentioned basis, and the link of described precast plate is provided with V-type notch or double V-groove.So, the link of precast plate is provided with V-type notch or double V-groove, after building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in V-type notch or double V-groove, in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
Another technical scheme of the present utility model is on above-mentioned basis, the link of described precast plate is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, have reinforcing bar in precast plate or/and steel strand and dry wall are set in parallel, cast-in-situ concrete is built and is formed the superimposed connecting overall of T-shaped between precast plate and dry wall.So, by cast-in-place T-shaped structure, precast plate and dry wall are connected into overall structure, and have reinforcing bar in precast plate or/and steel strand and dry wall are set in parallel, can jointly form overall force structure by the cast-in-situ concrete of choosing outside step platform lower in part.Be that vertical plane arranges groove further as chosen portion end surface outside step platform lower, after then building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in a groove, in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
Another technical scheme of the present utility model is on above-mentioned basis, vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, the upper corner of section lower corner near dry wall is chosen outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity.So, outside step platform lower, choose the upper corner of section lower corner near dry wall, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction.
Another technical scheme of the present utility model is on above-mentioned basis, has embedded bar to expose and jointly build in cast-in-situ concrete with cage of reinforcement in described dry wall.So, have embedded bar to expose in dry wall jointly to build after in cast-in-situ concrete with cage of reinforcement, prefabricated structural element and cast-in-place structural form entirety, make each independently precast plate, dry wall become overall load-carrying construction, have increased substantially integral rigidity and the anti-seismic performance of floor.
Another technical scheme of the present utility model is on above-mentioned basis, and the embedded bar exposed in described dry wall is stirrup.So, when the embedded bar exposed at dry wall top is stirrup, the elongated reinforced binding that stirrup can will be placed in one, after cast-in-situ concrete, form cast-in-situ concrete spandrel girder at prefabricated coping, reduce the load pressure of dry wall, improve the overall performance of cast-in-place concrete structure.
Another technical scheme of the present utility model is on above-mentioned basis, and described stirrup is open stirrup.So, when stirrup is open stirrup, elongated reinforcing bar can be inserted from stirrup top very easily, and does not need to wear from the end of dry wall, is very easy to construction, reduces difficulty of construction.
Another technical scheme of the present utility model is on above-mentioned basis, and the dowel in described cage of reinforcement is horizontal L shape reinforcing bar, the elongated bar splicing in described L shape reinforcing bar and open stirrup or fixing after overlapping.So, by the setting of horizontal L shape dowel, after building cast-in-situ concrete, dry wall and precast plate connect in order to entirety by cast-in-place concrete structure, and the precast plate being and dry wall form load-carrying member that can be jointly stressed, as the end at precast plate is also provided with groove, then in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
Another technical scheme of the present utility model is on above-mentioned basis, and described dry wall is exterior wall, and the side of body of wall is provided with precast plate, and its opposite side is provided with exempts from hold mode, exempts from hold mode and precast plate, body of wall top form cast-in-situ concrete die cavity jointly.So, the side of body of wall is provided with precast plate, its opposite side is provided with exempts from hold mode, exempt from hold mode and precast plate, body of wall top when jointly forming cast-in-situ concrete die cavity, after having built concrete, do not need stripping, can construct further, decrease plank and install operation, simplify construction technology, reduce construction cost and material cost.
Another technical scheme of the present utility model is on above-mentioned basis, described in exempt from hold mode and comprise stencil body, at least one side of described stencil body is provided with flanging, described in exempt from hold mode and be fixed on cage of reinforcement.So, precast plate and dry wall mosaic adopt the connected node of said structure, wherein have employed integrated connector, after the side of its stencil body is provided with flanging, exempt from hold mode application process described, flanging can close with precast plate and precast wall body close contact, the plate face formed after flanging can contact with the surperficial forming surface of precast plate, effectively can prevent its spillage in casting process, if flanging to be converted into and stencil body is angle between 90 ° to 135 °, then can expand bonding tightness further, simultaneously, the plate face formed after its flanging can be shelved on the split face of precast plate and precast wall body, under the effect of working load, hold mode and precast plate and precast wall body will be exempted from and compress mortar leakage prevention.
Another technical scheme of the present utility model is on above-mentioned basis, and described stencil body is steel plate, and described flanging is elastic telescopic face.So, stencil body is steel plate, when described flanging is elastic telescopic face, flanging has extendable room, described hold mode of exempting from is applied in the split process of precast plate and dry wall, can make up to arrange range error between precast plate, can prevent the split of precast plate from connecting spillage.
Another technical scheme of the present utility model is on above-mentioned basis, and described stencil body is bamboo slab rubber, wood glue plate or plastic plate.So, when stencil body is above-mentioned material, have cost low, wide material sources, when particularly adopting plastic plate, it has good plasticity and decay resistance, is conducive to applying.
Another technical scheme of the present utility model is on above-mentioned basis, and the both sides of described stencil body are provided with elastic telescopic face, and described elastic telescopic face is that steel plate edge is compressed into fold and forms.So, the both sides of template are provided with elastic telescopic face, described elastic telescopic face is that steel plate edge is compressed into fold when forming, template processing technology is simple, flanging has extendable room, described hold mode of exempting from is applied in the split process of precast plate and dry wall, can make up and between precast plate, range error is set, can prevent the split of precast plate from connecting spillage, and after application, template bottom also has corresponding fold accordingly, and what increased substantially its underpart whitewashes coating bonding surface, can prevent rendering layer from coming off; In addition, the existence of bleeding aperture, can also prevent the hollowing that the cast-in-place position of Nodes is formed due to air, reduces potential safety hazard.
Another technical scheme of the present utility model is, on above-mentioned basis, described stencil body to be provided with bleeding aperture.So, stencil body is provided with bleeding aperture, described hold mode of exempting from is applied in the split process of precast plate, after Cast-in-place concrete pours into, a small amount of slurry can be secreted from bleeding aperture, thus the soffit at split position forms matsurface, what increased substantially its underpart whitewashes coating binding force, can prevent rendering layer from coming off; In addition, the existence of bleeding aperture, can also prevent the hollowing that the cast-in-place position of Nodes is formed due to air, reduces potential safety hazard.
Another technical scheme of the present utility model is, on above-mentioned basis, described stencil body to be provided with reinforcing bar fixture.So; stencil body is provided with reinforcing bar fixture; described hold mode of exempting from is in the split process being applied to precast plate; the reinforcing bar at split position can by reinforcing bar fixture with exempt from hold mode and be connected; fully can ensure the cast-in-situ concrete protective layer thickness of reinforcing bar; meanwhile, also can by template firmly with bar connecting, prevent its template in the process of cast-in-situ concrete from falling because of the applying of working load.
Another technical scheme of the present utility model is on above-mentioned basis, described reinforcing bar fixture and stencil body one-body molded.So, when reinforcing bar fixture and stencil body one-body molded time, only need reinforcing bar fixture to be made by punching press, considerably reduce manufacture difficulty and the cost of reinforcing bar fixture.
Another technical scheme of the present utility model is on above-mentioned basis, and described reinforcing bar fixture is working of plastics.So, when adopting working of plastics as reinforcing bar fixture, reinforcing bar permanent position is adjustable, and reinforcing bar fixture reduces costs by batch making.
Another technical scheme of the present utility model is on above-mentioned basis, and described working of plastics one end is the embedding mouth of reinforcing bar, is sold back to a grain-producing area till the other end.So, when working of plastics one end is the embedding mouth of reinforcing bar, be sold back to a grain-producing area till the other end, during described reinforcing bar fixture application, reinforcing bar can be snapped in reinforcing bar embedding mouth internal fixtion reinforcing bar, non-return pin inserts non-return in the hole that template is offered and fixes, construction technology is simple, reduces difficulty of construction.
Another technical scheme of the present utility model is on above-mentioned basis, and described reinforcing bar fixture is reinforcing bar locating slot.So, stencil body is provided with reinforcing bar locating slot, described hold mode of exempting from is in the split process being applied to precast plate, the reinforcing bar at split position can by reinforcing bar locating slot with exempt from hold mode and be connected, reinforcing bar can be prevented to be shifted, convenient fixing to be installed, simultaneously, also can by template firmly with bar connecting, prevent its template in the process of cast-in-situ concrete from falling because of the applying of working load.
Another technical scheme of the present utility model is, on above-mentioned basis, described stencil body to be provided with fin.So; after stencil body is provided with fin; the rigidity of template itself is greatly improved; the thickness of template can be reduced, meanwhile, can also template deformation be prevented; in addition; if fin horizontally set, can also use as steel bar spacer, can fully ensure concrete cover to reinforcement thickness.
Another technical scheme of the present utility model is on above-mentioned basis, described fin and stencil body one-body molded, or described fin and stencil body divide body formed and described fin to be fixed on stencil body.So, when fin and stencil body one-body molded time, as adopt steel plate make template, then can be compressing by steel plate, manufacture craft is convenient and simple,
Another technical scheme of the present utility model is, on above-mentioned basis, described fin to be provided with reinforcing bar locating slot.So, after fin is provided with reinforcing bar locating slot, in application process, reinforcing bar is placed in reinforcing bar locating slot, reinforcing bar can be prevented to be shifted, if arrange restraint device at reinforcing bar detent notch, then reinforcing bar firmly can be fixed in reinforcing bar detent, prevent reinforcing bar from moving further, effectively can ensure that the interior mechanics performance of cast-in-place structural is coincide with design.
Another technical scheme of the present utility model is on above-mentioned basis, additionally provides a kind of construction method of split pre-fabricated building, for building the split pre-fabricated building described in above-mentioned any one, comprises the following steps
(1) precast plate is laid on dry wall;
(2) in the mosaic of precast plate and dry wall, cage of reinforcement is laid;
(3) in the mosaic of precast plate and dry wall, concreting;
(4) namely maintenance obtains split precast plate and dry wall.
So, pass through above-mentioned steps, a kind of split precast plate and dry wall can be obtained, it has good two-way stiffness, because it is provided with cage of reinforcement with the mosaic of dry wall and cast-in-situ concrete is connected at split precast plate, increases substantially globality and the anti-seismic performance of split precast plate and dry wall, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve globality and the security performance of building.
Another technical scheme of the present utility model is on above-mentioned basis, in described (2) step, the embedded bar exposed in described dry wall is open stirrup, dowel in described cage of reinforcement is horizontal L shape reinforcing bar, first elongated reinforcing bar is inserted in open stirrup, fix after overlap joint or overlap joint.So, when adopting abovementioned steps, by the setting of horizontal L shape dowel, after building cast-in-situ concrete, dry wall and precast plate connect in order to entirety by cast-in-place concrete structure, the precast plate being and dry wall form load-carrying member that can be jointly stressed, as the end at precast plate is also provided with groove, then in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
Another technical scheme of the present utility model is on above-mentioned basis, in described (2) step, body of wall is exterior wall, first the side of body of wall is provided with precast plate, then arrange at its opposite side and exempt from hold mode, exempt from hold mode and precast plate, body of wall top form cast-in-situ concrete die cavity jointly.So, when adopting abovementioned steps, the side of body of wall is provided with precast plate, and its opposite side is provided with exempts from hold mode, exempts from hold mode and precast plate, body of wall top when jointly forming cast-in-situ concrete die cavity, after having built concrete, do not need stripping, can construct further, decrease plank and install operation, simplify construction technology, reduce construction cost and material cost.
Accompanying drawing explanation
The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.
Fig. 1 is for representing the drawing of the split pre-fabricated building involved by a kind of embodiment of this patent;
Fig. 2 and Fig. 3 is for representing the drawing of the split pre-fabricated building involved by the another two kinds of embodiments of this patent;
Fig. 4 is for representing the structural representation of connector in the split pre-fabricated building involved by a kind of embodiment of this patent.
In figure:
1 stencil body 2 flanging 3 bleeding aperture 4 reinforcing bar fixture
21 elongated reinforcing bar 22 connecting reinforcements
110 precast plate 120 dry walls
Detailed description of the invention
Be described in detail the utility model below in conjunction with accompanying drawing, the description of this part is only exemplary and explanatory, should not have any restriction to protection domain of the present utility model.In addition, those skilled in the art, according to the description of presents, can carry out respective combination to the feature in embodiment in presents and in different embodiment.
The utility model embodiment is as follows, refer to shown in Fig. 1 to Fig. 3, a kind of split pre-fabricated building, the dry wall 120 comprising precast plate 110 and be connected with precast plate 110, the junction of described precast plate 110 and dry wall 120 is provided with connector, described connector comprises cage of reinforcement, and described precast plate 110, dry wall 120 and connector between the two form one by cast-in-situ concrete.Described precast plate 110 can be distributed in the side of dry wall 120, also can all be provided with precast plate 110 in the both sides of dry wall 120.So, the connected node of said structure is adopted at precast plate and dry wall mosaic, reinforcement fabrication is become cage of reinforcement, because precast plate mosaic is that small size is cast-in-place, as adopted field fabrication then at substantial cost of labor, and adopt precast framework, then can at room machine batch making, be conducive to ensureing that skeleton conforms to design size, significantly can reduce cost of manufacture simultaneously, after building cast-in-situ concrete, increase substantially globality and the anti-seismic performance of precast plate and dry wall mosaic, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve globality and the security performance of building.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figures 1 to 4, described cage of reinforcement can comprise longitudinal reinforcement and transverse reinforcement, described longitudinal reinforcement is elongated reinforcing bar 21, transverse reinforcement is connecting reinforcement 22, and described elongated reinforcing bar 21 and connecting reinforcement 22 are arranged in length and breadth and fixedly become cage of reinforcement, and described connecting reinforcement 22 is provided with turnover.So, reinforcement fabrication is become cage of reinforcement, because precast plate mosaic is that small size is cast-in-place, as adopted field fabrication then at substantial cost of labor, and adopt precast framework, then can at room machine batch making, be conducive to ensureing that skeleton conforms to design size, significantly can reduce cost of manufacture simultaneously, and on connecting reinforcement 22, be provided with turnover, after building cast-in-situ concrete, by elongated reinforcing bar 21 and connecting reinforcement 22, contiguous prefabricated plate is connected to form integral rigidity plate, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.Preferably, described connecting reinforcement 22 can be many, and is uniformly distributed, and arranges in length and breadth with elongated reinforcing bar 21 and fixedly becomes cage of reinforcement.
On the basis of above-described embodiment, in another embodiment of the utility model, described elongated reinforcing bar 21 can by being welded to connect into cage of reinforcement with connecting reinforcement 22.So, when elongated reinforcing bar 21 with connecting reinforcement 22 by being welded to connect into cage of reinforcement time, the production efficiency of cage of reinforcement is high, automatic production line can be realized produce, significantly can reduce cost of labor, and secure and reliable connection, be conducive to large-scale promotion application.
On the basis of above-described embodiment, in another embodiment of the utility model, described elongated reinforcing bar 21 and connecting reinforcement 22 also can connect into cage of reinforcement by colligation.So, when elongated reinforcing bar 21 and connecting reinforcement 22 connect into cage of reinforcement by colligation, in application process, local reinforcement location can be adjusted flexibly, so that arrange other pipelines or lose pre-buried, facilitate construction operation.
On the basis of above-described embodiment, in another embodiment of the utility model, described connecting reinforcement 22 end can be provided with linkage.So, connecting reinforcement 22 end is provided with linkage, when described cage of reinforcement is applied to precast plate mosaic, the linkage of connecting reinforcement 22 end can be connected to each other with the reserved reinforcing bar exposed in precast plate, afterwards after concreting, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
On the basis of above-described embodiment, in another embodiment of the utility model, described linkage can for being arranged at the screw thread of connecting reinforcement 22 end.So, when linkage is the screw thread being arranged at connecting reinforcement 22 end, during described cage of reinforcement application, can be inserted in hole reserved on precast plate by arranging threaded end, after concreting, can connecting reinforcement 22 be anchored in precast plate, and then, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
On the basis of above-described embodiment, in another embodiment of the utility model, described connecting reinforcement 22 is or/and the end of elongated reinforcing bar 21 also can be provided with pier nose.So, when connecting reinforcement 22 or/and the end of elongated reinforcing bar 21 is provided with pier nose, during described cage of reinforcement application, the end being provided with pier nose can be inserted in hole reserved on precast plate, or by pier nose by lockset by the bar connecting exposed pre-buried on precast plate, after concreting, can by elongated reinforcing bar 21 or/and connecting reinforcement 22 be anchored in precast plate, and then, contiguous prefabricated plate is connected to form integral rigidity plate by the cage of reinforcement of junction and cast-in-situ concrete, increase substantially globality and the anti-seismic performance of prefabricated split floor, make it under the effect of earthquake disaster, the situation of middle part fracture can not be caused to occur, improve the security performance of building.
On the basis of above-described embodiment, in another embodiment of the utility model, described connecting reinforcement 22 two ends can also arrange bending section.So, connecting reinforcement 22 two ends arrange bending section, and when described cage of reinforcement is applied to the split position of precast plate, after building cast-in-situ concrete, bending end can form good anchoring.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described connecting reinforcement 22 can form for intersecting after bending.So, connecting reinforcement 22 forms for intersecting after the place's bending of middle part two, and described cage of reinforcement is applied to precast plate mosaic, after concreting, increase on the one hand itself and concrete contact area and with concrete adhesion, reach the effect of bonding strength enhancing; On the other hand, adopt interconnection muscle, effectively can regulate the bending angle of dowel, the minimizing of turning angle effectively can ensure that dowel has enough anchorage lengths, and test shows, the turning angle of staggered form dowel is less, and the overall performance of plate is stronger.
On the basis of above-described embodiment, in another embodiment of the utility model, the bending angle scope of described connecting reinforcement 22 can be 20 °-60 °.So, connecting reinforcement 22 forms for intersecting after bending, and described cage of reinforcement is applied to precast plate mosaic, after concreting, increase on the one hand itself and concrete contact area and with concrete adhesion, reach the effect of bonding strength enhancing; On the other hand, adopt interconnection muscle, effectively can regulate the bending angle of dowel, the minimizing of turning angle effectively can ensure that dowel has enough anchorage lengths, and test shows, the turning angle of staggered form dowel is less, and the overall performance of plate is stronger.
On the basis of above-described embodiment, in another embodiment of the utility model, described connecting reinforcement 22 is or/and elongated reinforcing bar 21 can be made for indented bars.So, adopt indented bars to make skeleton, indented bars has good anchoring property, can improve the antidetonation of precast plate mosaic cast-in-place concrete structure, fracture resistance.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described precast plate 110 can be hollow pre-fabricated panels or prestressing force precast plate.So, adopt hollow pre-fabricated panels can reduce the weight of floor, save material, meanwhile, the sound isolating and heat insulating performance of floor can be increased substantially, and adopt prestressing force precast plate, then can improve non-deformability and the weight bearing power of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 1, Figure 2 and Figure 3, the link of described precast plate 110 is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, reinforcing bar is had or/and steel strand and dry wall 120 are arranged in intersecting vertically in precast plate 110, and reinforcing bar is or/and steel strand expose and stretch in cast-in-situ concrete die cavity, cast-in-situ concrete is built and is formed the superimposed connecting overall of T-shaped between precast plate 110 and dry wall 120.So, by cast-in-place T-shaped structure, precast plate 110 and dry wall 120 are connected into overall structure, and have reinforcing bar in precast plate 110 or/and steel strand and dry wall 120 are arranged in intersecting vertically, and reinforcing bar is or/and steel strand expose and stretch in cast-in-situ concrete die cavity, overall force structure can be jointly formed by the cast-in-situ concrete of choosing outside step platform lower in part, the upper corner of section lower corner near dry wall 120 is chosen outside step platform lower, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction, be that vertical plane arranges groove further as chosen portion end surface outside step platform lower, after then building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in a groove, in earthquake disaster process, even if precast plate 110 destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate 110 ruptured from falling, improve the seismic seeurity of floor.In addition, preferably, the surface of the step platform of precast plate 110 is matsurface, and particularly the upper surface of step platform can also arrange anchor slot, strengthens the anchoring strength of new-old concrete on direction, plate face, strengthens the globality of floor further.
On the basis of above-described embodiment, in another embodiment of the utility model, vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, the upper corner of section lower corner near dry wall 120 is chosen outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity.So, outside step platform lower, choose the upper corner of section lower corner near dry wall, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figures 2 and 3, reinforcing bar is had in described precast plate 110 or/and steel strand expose and stretch into after in cast-in-situ concrete die cavity, connected by linkage, described linkage is compression sleeve.Described reinforcing bar can be prestressed reinforcement.So, reinforcing bar is had or/and steel strand expose and stretch into after in cast-in-situ concrete die cavity in precast plate 110, connected by linkage, after building cast-in-situ concrete, precast plate 110, dry wall 120 engage with cast-in-place concrete structure and form overall load-carrying construction component, integral rigidity and the anti-seismic performance of floor are increased substantially, make that each independently precast plate 110, dry wall 120 become overall load-carrying construction, and linkage is compression sleeve, then reduce bar connecting difficulty, can efficiency of construction be increased substantially.
On the basis of above-described embodiment, in another embodiment of the utility model, there is embedded bar to expose in described dry wall 120 and jointly build in cast-in-situ concrete with cage of reinforcement.So, have embedded bar to expose in dry wall 120 jointly to build after in cast-in-situ concrete with cage of reinforcement, prefabricated structural element and cast-in-place structural form entirety, make each independently precast plate 110, dry wall 120 become overall load-carrying construction, increase substantially integral rigidity and the anti-seismic performance of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, the link of described precast plate 110 is provided with V-type notch or double V-groove.So, the link of precast plate 110 is provided with V-type notch or double V-groove, after building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in V-type notch or double V-groove, in earthquake disaster process, even if precast plate 110 destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate 110 ruptured from falling, improve the seismic seeurity of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 1, Figure 2 and Figure 3, the link of described precast plate 110 is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, has reinforcing bar or/and steel strand and dry wall 120 are set in parallel in precast plate 110, and cast-in-situ concrete is built and formed the superimposed connecting overall of T-shaped between precast plate 110 and dry wall 120.So, by cast-in-place T-shaped structure, precast plate 110 and dry wall 120 are connected into overall structure, and have reinforcing bar in precast plate 110 or/and steel strand and dry wall 120 are set in parallel, overall force structure can be jointly formed by the cast-in-situ concrete of choosing outside step platform lower in part, the upper corner of section lower corner near dry wall 120 is chosen outside step platform lower, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction, be that vertical plane arranges groove further as chosen portion end surface outside step platform lower, after then building cast-in-situ concrete, cast-in-situ concrete forms embedded structure in a groove, in earthquake disaster process, even if precast plate 110 destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate 110 ruptured from falling, improve the seismic seeurity of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, the upper corner of section lower corner near dry wall 120 is chosen outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity.So, outside step platform lower, choose the upper corner of section lower corner near dry wall, form cast-in-situ concrete die cavity, can not need that template is set in its junction and directly can build cast-in-situ concrete, be very easy to construction, reduce difficulty of construction, improve efficiency of construction.
On the basis of above-described embodiment, in another embodiment of the utility model, there is embedded bar to expose in described dry wall 120 and jointly build in cast-in-situ concrete with cage of reinforcement.So, have embedded bar to expose in dry wall jointly to build after in cast-in-situ concrete with cage of reinforcement, prefabricated structural element and cast-in-place structural form entirety, make each independently precast plate, dry wall become overall load-carrying construction, have increased substantially integral rigidity and the anti-seismic performance of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, the embedded bar exposed in described dry wall 120 can be stirrup.So, when the embedded bar exposed at dry wall top is stirrup, the elongated reinforced binding that stirrup can will be placed in one, after cast-in-situ concrete, form cast-in-situ concrete spandrel girder at prefabricated coping, reduce the load pressure of dry wall, improve the overall performance of cast-in-place concrete structure.
On the basis of above-described embodiment, in another embodiment of the utility model, described stirrup can be open stirrup.So, when stirrup is open stirrup, elongated reinforcing bar can be inserted from stirrup top very easily, and does not need to wear from the end of dry wall, is very easy to construction, reduces difficulty of construction.
On the basis of above-described embodiment, in another embodiment of the utility model, the dowel in described cage of reinforcement can be horizontal L shape reinforcing bar, the elongated bar splicing in described L shape reinforcing bar and open stirrup or fixing after overlapping.So, by the setting of horizontal L shape dowel, after building cast-in-situ concrete, dry wall and precast plate connect in order to entirety by cast-in-place concrete structure, and the precast plate being and dry wall form load-carrying member that can be jointly stressed, as the end at precast plate is also provided with groove, then in earthquake disaster process, even if precast plate destroys fracture, because of the existence of embedded structure, effectively can prevent the precast plate ruptured from falling, improve the seismic seeurity of floor.
On the basis of above-described embodiment, in another embodiment of the utility model, described dry wall is exterior wall, and the side of body of wall is provided with precast plate, and its opposite side is provided with exempts from hold mode, exempts from hold mode and precast plate, body of wall top form cast-in-situ concrete die cavity jointly.So, the side of body of wall is provided with precast plate, its opposite side is provided with exempts from hold mode, exempt from hold mode and precast plate, body of wall top when jointly forming cast-in-situ concrete die cavity, after having built concrete, do not need stripping, can construct further, decrease plank and install operation, simplify construction technology, reduce construction cost and material cost.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described in exempt from hold mode and comprise stencil body 1, at least one side of described stencil body 1 is provided with flanging 2, and described cage of reinforcement is fixed on exempts from hold mode.So, precast plate and dry wall mosaic adopt the connected node of said structure, wherein have employed integrated connector, after the side of its stencil body is provided with flanging, exempt from hold mode application process described, flanging can close with precast plate and precast wall body close contact, the plate face formed after flanging can contact with the surperficial forming surface of precast plate, effectively can prevent its spillage in casting process, if flanging to be converted into and stencil body is angle between 90 ° to 135 °, then can expand bonding tightness further, simultaneously, the plate face formed after its flanging can be shelved on the split face of precast plate and precast wall body, under the effect of working load, hold mode and precast plate and precast wall body will be exempted from and compress mortar leakage prevention.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described stencil body 1 can be steel plate, and described flanging 2 is elastic telescopic face.So, stencil body 1 is steel plate, when described flanging 2 is elastic telescopic face, flanging 2 has extendable room, described hold mode of exempting from is applied in the split process of precast plate and dry wall, can make up to arrange range error between precast plate, can prevent the split of precast plate from connecting spillage.
On the basis of above-described embodiment, in another embodiment of the utility model, described stencil body 1 is bamboo slab rubber, wood glue plate or plastic plate.So, when stencil body 1 is above-mentioned material, have cost low, wide material sources, when particularly adopting plastic plate, it has good plasticity and decay resistance, is conducive to applying.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, the both sides of described stencil body all can be provided with elastic telescopic face, and described elastic telescopic face is that steel plate edge is compressed into fold and forms.So, the both sides of template are provided with elastic telescopic face, described elastic telescopic face is that steel plate edge is compressed into fold when forming, template processing technology is simple, flanging 2 has extendable room, described hold mode of exempting from is applied in the split process of precast plate and dry wall, can make up and between precast plate, range error is set, can prevent the split of precast plate from connecting spillage, and after application, template bottom also has corresponding fold accordingly, and what increased substantially its underpart whitewashes coating bonding surface, can prevent rendering layer from coming off.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described stencil body 1 can be provided with bleeding aperture 3.So, stencil body 1 is provided with bleeding aperture 3, described hold mode of exempting from is applied in the split process of precast plate, after Cast-in-place concrete pours into, a small amount of slurry can be secreted from bleeding aperture 3, thus the soffit at split position forms matsurface, what increased substantially its underpart whitewashes coating binding force, can prevent rendering layer from coming off.In addition, described bleeding aperture 3 can arrange multiple, and is evenly distributed on described stencil body 1.Preferably, on described flanging 2, also can be provided with bleeding aperture 3, thus can form matsurface in the soffit entirety at split position, what increased substantially its underpart whitewashes coating binding force, can prevent rendering layer from coming off.In addition, described bleeding aperture 3 can be circular hole, semicircle orifice, square hole, star-shaped aperture or polygonal hole, can form bleeding aperture 3 by punching press direct on stencil body 1.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 4, described stencil body 1 can be provided with reinforcing bar fixture 4.So; stencil body 1 is provided with reinforcing bar fixture 4; described hold mode of exempting from is in the split process being applied to precast plate; the reinforcing bar at split position can by reinforcing bar fixture 4 with exempt from hold mode and be connected; fully can ensure the cast-in-situ concrete protective layer thickness of reinforcing bar; meanwhile, also can by template firmly with bar connecting, prevent its template in the process of cast-in-situ concrete from falling because of the applying of working load.
On the basis of above-described embodiment, in another embodiment of the utility model, described reinforcing bar fixture 4 can adopt one-body molded with stencil body 1.So, when reinforcing bar fixture 4 and stencil body 1 are one-body molded, only need reinforcing bar fixture 4 to be made by punching press, considerably reduce manufacture difficulty and the cost of reinforcing bar fixture 4.
On the basis of above-described embodiment, in another embodiment of the utility model, described reinforcing bar fixture 4 can be working of plastics.So, when adopting working of plastics as reinforcing bar fixture 4, reinforcing bar permanent position is adjustable, and reinforcing bar fixture 4 reduces costs by batch making.
On the basis of above-described embodiment, in another embodiment of the utility model, described working of plastics one end can be the embedding mouth of reinforcing bar, is sold back to a grain-producing area till the other end.So, when working of plastics one end is the embedding mouth of reinforcing bar, be sold back to a grain-producing area till the other end, when described reinforcing bar fixture 4 is applied, reinforcing bar can be snapped in reinforcing bar embedding mouth internal fixtion reinforcing bar, non-return pin inserts non-return in the hole that template is offered and fixes, construction technology is simple, reduces difficulty of construction.
On the basis of above-described embodiment, in another embodiment of the utility model, described reinforcing bar fixture 4 can be reinforcing bar locating slot.So, stencil body 1 is provided with reinforcing bar locating slot, described hold mode of exempting from is in the split process being applied to precast plate, the reinforcing bar at split position can by reinforcing bar locating slot with exempt from hold mode and be connected, reinforcing bar can be prevented to be shifted, convenient fixing to be installed, simultaneously, also can by template firmly with bar connecting, prevent its template in the process of cast-in-situ concrete from falling because of the applying of working load.
On the basis of above-described embodiment, in another embodiment of the utility model, described stencil body 1 can also be provided with fin.So; after stencil body 1 is provided with fin; the rigidity of template itself is greatly improved; the thickness of template can be reduced, meanwhile, can also template deformation be prevented; in addition; if fin horizontally set, can also use as steel bar spacer, can fully ensure concrete cover to reinforcement thickness.
On the basis of above-described embodiment, in another embodiment of the utility model, described fin and stencil body 1 one-body molded, or described fin and the body formed and described fin of stencil body 1 point are fixed on stencil body 1.So, when fin and stencil body 1 one-body molded time, as adopt steel plate make template, then can be compressing by steel plate, manufacture craft is convenient and simple,
On the basis of above-described embodiment, in another embodiment of the utility model, described fin can also be provided with reinforcing bar locating slot.So, after fin is provided with reinforcing bar locating slot, in application process, reinforcing bar is placed in reinforcing bar locating slot, reinforcing bar can be prevented to be shifted, if arrange restraint device at reinforcing bar detent notch, then reinforcing bar firmly can be fixed in reinforcing bar detent, prevent reinforcing bar from moving further, effectively can ensure that the interior mechanics performance of cast-in-place structural is coincide with design.
The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. a split pre-fabricated building, the dry wall comprising precast plate and be connected with precast plate, it is characterized in that, the junction of described precast plate and dry wall is provided with connector, described connector comprises cage of reinforcement, and described precast plate, dry wall and connector between the two form one by cast-in-situ concrete.
2. split pre-fabricated building according to claim 1, it is characterized in that, described cage of reinforcement comprises longitudinal reinforcement and transverse reinforcement, described longitudinal reinforcement is elongated reinforcing bar, transverse reinforcement is connecting reinforcement, described elongated reinforcing bar and connecting reinforcement are arranged in length and breadth and fixedly become cage of reinforcement, and described connecting reinforcement is provided with turnover.
3. split pre-fabricated building according to claim 2, is characterized in that, described elongated reinforcing bar and connecting reinforcement are by being welded to connect into cage of reinforcement.
4. split pre-fabricated building according to claim 2, is characterized in that, described elongated reinforcing bar and connecting reinforcement connect into cage of reinforcement by colligation.
5. split pre-fabricated building according to claim 2, is characterized in that, described connecting reinforcement end is provided with linkage.
6. split pre-fabricated building according to claim 5, is characterized in that, described linkage is the screw thread being arranged at connecting reinforcement end.
7. split pre-fabricated building according to claim 2, is characterized in that, described connecting reinforcement is or/and the end of elongated reinforcing bar is provided with pier nose.
8. split pre-fabricated building according to claim 2, is characterized in that, described connecting reinforcement two ends arrange bending section; Or described connecting reinforcement is intersect after bending to form; Or the bending angle scope of described connecting reinforcement is 20 °-60 °; Or described connecting reinforcement is or/and elongated reinforcing bar is indented bars is made.
9. split pre-fabricated building according to claim 1, is characterized in that, described precast plate is hollow pre-fabricated panels or prestressing force precast plate.
10. split pre-fabricated building according to any one of claim 1 to 9, it is characterized in that, the link of described precast plate is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, reinforcing bar is had or/and steel strand and dry wall are arranged in intersecting vertically in precast plate, and reinforcing bar is or/and steel strand expose and stretch in cast-in-situ concrete die cavity, cast-in-situ concrete is built and is formed the superimposed connecting overall of T-shaped between precast plate and dry wall; Or the vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, choose the upper corner of section lower corner near precast beam outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity; Or have reinforcing bar in described precast plate or/and steel strand expose and stretch into after in cast-in-situ concrete die cavity, connected by linkage, described linkage is compression sleeve; Or have embedded bar to expose in described dry wall jointly to build in cast-in-situ concrete with cage of reinforcement; Or the link of described precast plate is provided with V-type notch or double V-groove; Or the link of described precast plate is provided with step platform, elongated steel-bar arrangement is had on step platform in cage of reinforcement, connecting reinforcement part stretches in step platform, have reinforcing bar in precast plate or/and steel strand and dry wall are set in parallel, cast-in-situ concrete is built and is formed the superimposed connecting overall of T-shaped between precast plate and dry wall; Or the vertical cross-section shape in step platform is vertical plane or inclined-plane, choosing portion end surface outside described step platform lower is vertical plane, choose the upper corner of section lower corner near precast beam outside step platform lower, form cast-in-situ concrete die cavity, cage of reinforcement is placed in cast-in-situ concrete die cavity; Or have embedded bar to expose in described dry wall jointly to build in cast-in-situ concrete with cage of reinforcement; Or the embedded bar exposed in described dry wall is stirrup; Or described stirrup is open stirrup; Or the dowel in described cage of reinforcement is horizontal L shape reinforcing bar, the elongated bar splicing in described L shape reinforcing bar and open stirrup or fixing after overlapping; Or described dry wall is exterior wall, and the side of body of wall is provided with precast plate, its opposite side is provided with exempts from hold mode, exempts from hold mode and precast plate, body of wall top form cast-in-situ concrete die cavity jointly; Or described in exempt from hold mode and comprise stencil body, at least one side of described stencil body is provided with flanging, described in exempt from hold mode and be fixed on cage of reinforcement; Or described stencil body is steel plate, described flanging is elastic telescopic face, or described stencil body is bamboo slab rubber, wood glue plate or plastic plate; Or the both sides of described stencil body are provided with elastic telescopic face, described elastic telescopic face is that steel plate edge is compressed into fold and forms; Or described stencil body is provided with bleeding aperture; Or described stencil body is provided with fin; Or described fin and stencil body one-body molded, or described fin and stencil body divide body formed and described fin to be fixed on stencil body; Or institute's fin is provided with reinforcing bar locating slot.
CN201520721480.0U 2015-09-17 2015-09-17 Prefabricated building of amalgamation Active CN205153138U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108265832A (en) * 2018-01-27 2018-07-10 昌大建筑科技有限公司 Fabricated shear wall is without template after-pouring system
CN110670717A (en) * 2019-10-11 2020-01-10 中民筑友科技产业有限公司 Prefabricated beam type balcony and connecting structure and construction method thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108265832A (en) * 2018-01-27 2018-07-10 昌大建筑科技有限公司 Fabricated shear wall is without template after-pouring system
CN110670717A (en) * 2019-10-11 2020-01-10 中民筑友科技产业有限公司 Prefabricated beam type balcony and connecting structure and construction method thereof
CN110670717B (en) * 2019-10-11 2021-09-24 中民筑友科技产业有限公司 Connecting structure and construction method of prefabricated beam type balcony

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