CN106049672A - Assembled energy-saving building lap joint structure - Google Patents

Abstract

The invention discloses an assembled energy-saving building lap joint structure which comprises a house pillar, a house beam and a floor slab. The side of the house pillar is provided with an integrally extending bracket, the upper surface of the bracket is provided with a first groove, the end of the house beam is installed over the bracket, the lower surface of the end of the house beam is provided with a first protrusion matched with the first groove, and both the first groove and the first protrusion are perpendicular to the length direction of the house beam; the upper surface of the house beam is provided with a second groove in the direction same as the length direction of the house beam, the floor slab is installed over the house beam, and the lower surface of the floor slab is provided with a second protrusion matched with the second groove. The lower surface of the bracket is obliquely upward, the side surface of the bracket is vertical, and the intersecting line of the lower surface and the side surface is flush with the lower surface of the house beam. According to the assembled energy-saving building lap joint structure, the bracket and the house pillar are integrally formed and then connected with the house beam in a lap-joint mode through cooperation of the grooves and the protrusions and bolt fixing, and therefore good structural stability and vertical bearing capacity are achieved.

Description

A kind of assembled energy-saving building bridging arrangement

Technical field

The present invention relates to building subassembly, particularly to a kind of assembled energy-saving building bridging arrangement.

Background technology

The bracket that generally uses between the pillars of a house with house beam is connected, and transmits the load from house beam, and this part becomes top and builds Weak part in building structure, it addition, bracket needs bigger space, affects architectural appearance.Design is tackled herein Structure gives enough attention, particularly with assembled architecture.

Summary of the invention

The present invention seeks to: provide a kind of stabilized structure, outward appearance to simplify, the assembled energy-saving building overlap joint knot of energy-saving heat preserving Structure.

The technical scheme is that

A kind of assembled energy-saving building bridging arrangement, including the pillars of a house, house beam and floor, described pillars of a house side is provided with and integrally extends Bracket, described bracket upper surface is provided with the first groove, and the end of described house beam is installed on above bracket, the following table of house beam end It is protruding that face is provided with first adaptive with the first groove, and described first groove, the first projection are all perpendicular with house beam length direction；Institute Stating house beam upper surface and be provided with second groove identical with house beam length direction, described floor is installed on above house beam, under floor It is protruding that surface is provided with second adaptive with the second groove.

Preferably, the lower surface of described bracket obliquely, side surface vertical, the following table of intersecting lens between the two and house beam Face is concordant.

Preferably, it is lined with elastic insert in the seam between the described pillars of a house and bracket, house beam, floor.

Preferably, described elastic insert is insulation elastic bed course.

Preferably, described pillars of a house outer surface is provided with adiabator layer.

Preferably, the corner that the described pillars of a house connects with floor is provided with L-type backing plate, the base plate of described L-type backing plate and floor, House beam and bracket pass sequentially through the first bolt and fix；The side plate of L-type backing plate is fixed by the second bolt with the pillars of a house.

Preferably, described floor is fixed also by some 3rd bolts with house beam, and the 3rd bolt depends on from the upper surface of floor Secondary through below the second groove of second protruding, the house beam of floor.

Preferably, described floor is fixed also by some 4th bolts with house beam, the 4th bolt cross the side of house beam with And floor second is protruding.

The invention have the advantage that

Assembled energy-saving the most provided by the present invention building bridging arrangement, bracket is one-body molded with the pillars of a house, is joined by groove, projection The way that conjunction+bolt is fixed overlaps with house beam, has good structural soundness and vertical bearing capacity；

2. the lower surface of the bracket of the present invention obliquely, side surface vertical, the lower surface of intersecting lens between the two and house beam is put down Together, reduce outside bracket is exposed to, the shortcoming affecting outward appearance；

3. it is lined with elastic insert, good damping effect in the seam between the pillars of a house and bracket, house beam, the floor of the present invention；Described Elastic insert is insulation elastic bed course, has blocked the heat bridge effect of building, has had energy-saving heat preserving effect.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings and embodiment the invention will be further described:

Fig. 1 is the schematic diagram of the assembled energy-saving building bridging arrangement in embodiment 1；

Fig. 2 is the schematic diagram of the house beam in embodiment 1 and floor overlap joint；

Fig. 3 is the schematic diagram of the assembled energy-saving building bridging arrangement in embodiment 2；

Fig. 4 is the schematic diagram of the house beam in embodiment 2 and floor overlap joint.

Detailed description of the invention

Embodiment 1

As illustrated in fig. 1 and 2, disclosed a kind of assembled energy-saving building bridging arrangement, including the pillars of a house 1, house beam 2 and building Plate 3, the described pillars of a house 1 side is provided with the bracket 11 integrally extended, and described bracket 11 upper surface is provided with the first groove 12, described room The end of beam 2 is installed on above bracket 11, and the lower surface of house beam 2 end is provided with and the first projection 21 of the first groove 12 adaptation, Described first groove the 12, first projection 21 is all perpendicular with house beam 2 length direction.

Described house beam 2 upper surface is provided with second groove 22 identical with house beam 2 length direction.Described floor 3 is installed on room Above beam 2, the lower surface of floor 3 is provided with and the second projection 31 of the second groove 22 adaptation.Described floor 3 and house beam 2 also by Some 3rd bolts 73 fix, and the 3rd bolt 73 sequentially passes through the second projection 31 of floor 3, house beam 2 from the upper surface of floor 3 Below second groove 22.

The lower surface of described bracket 11 obliquely, side surface vertical, the lower surface of intersecting lens between the two and house beam 2 is put down Together, reduce bracket and be exposed to outer, to affect outward appearance shortcoming.

It is lined with elastic insert 4 in seam between the described pillars of a house 1 and bracket 11, house beam 2, floor 3.Outside the described pillars of a house 1 Side surface is provided with adiabator layer 5.The corner that the described pillars of a house 1 connects with floor 3 is provided with L-type backing plate 6, described L-type backing plate Base plate and floor 3, house beam 2 and bracket 11 pass sequentially through the first bolt 71 and fix；The side plate of L-type backing plate 6 and the pillars of a house 1, thermal insulating material The bed of material 5 is fixed by the second bolt 72.

Embodiment 2

As shown in Figures 3 and 4, disclosed a kind of assembled energy-saving building bridging arrangement, including the pillars of a house 1, house beam 2 and building Plate 3, the described pillars of a house 1 side is provided with the bracket 11 integrally extended, and described bracket 11 upper surface is provided with the first groove 12, described room The end of beam 2 is installed on above bracket 11, and the lower surface of house beam 2 end is provided with and the first projection 21 of the first groove 12 adaptation, Described first groove the 12, first projection 21 is all perpendicular with house beam 2 length direction.

Described house beam 2 upper surface is provided with second groove 22 identical with house beam 2 length direction, and described floor 3 is installed on room Above beam 2, the lower surface of floor 3 is provided with and the second projection 31 of the second groove 22 adaptation.Described floor 3 and house beam 2 also by Some 4th bolts 74 are fixed, and the 4th bolt 74 crosses side and floor 3 second projection 31 of house beam 2.

The lower surface of described bracket 11 obliquely, side surface vertical, the lower surface of intersecting lens between the two and house beam 2 is put down Together.

It is lined with elastic insert 4, described elastic insert in seam between the described pillars of a house 1 and bracket 11, house beam 2, floor 3 4 is insulation elastic bed course.The corner that the described pillars of a house 1 connects with floor 3 is provided with L-type backing plate 6, the base plate of described L-type backing plate with Floor 3, house beam 2 and bracket 11 pass sequentially through the first bolt 71 and fix；The side plate of L-type backing plate and the pillars of a house 1 are by the second bolt 72 Fixing.

Above-described embodiment, only for technology design and the feature of the explanation present invention, its object is to allow person skilled in the art Will appreciate that present disclosure and implement according to this, can not limit the scope of the invention with this.All according to master of the present invention Want the modification that the spirit of technical scheme is done, all should contain within protection scope of the present invention.

Claims (8)

1. an assembled energy-saving building bridging arrangement, it is characterised in that: include the pillars of a house (1), house beam (2) and floor (3), described The pillars of a house (1) side is provided with the bracket (11) integrally extended, and described bracket (11) upper surface is provided with the first groove (12), described room The end of beam (2) is installed on bracket (11) top, and the lower surface of house beam (2) end is provided with first adaptive with the first groove (12) Protruding (21), described first groove (12), first protruding (21) are all perpendicular with house beam (2) length direction；On described house beam (2) Surface is provided with second groove (22) identical with house beam (2) length direction, and described floor (3) is installed on house beam (2) top, floor (3) lower surface is provided with second protruding (31) adaptive with the second groove (22).

Assembled energy-saving the most according to claim 1 building bridging arrangement, it is characterised in that: the following table of described bracket (11) Face obliquely, side surface vertical, intersecting lens between the two is concordant with the lower surface of house beam (2).

Assembled energy-saving the most according to claim 2 building bridging arrangement, it is characterised in that: the described pillars of a house (1) and cattle thereof It is lined with elastic insert (4) in seam between lower limb (11), house beam (2), floor (3).

Assembled energy-saving the most according to claim 3 building bridging arrangement, it is characterised in that: described elastic insert (4) is Insulation elastic bed course.

Assembled energy-saving the most according to claim 3 building bridging arrangement, it is characterised in that: the described pillars of a house (1) outside table Face is provided with adiabator layer (5).

Assembled energy-saving the most according to claim 3 building bridging arrangement, it is characterised in that: the described pillars of a house (1) and floor (3) corner connected is provided with L-type backing plate (6), and the base plate of described L-type backing plate depends on floor (3), house beam (2) and bracket (11) Secondary the first bolt (71) that passes through is fixed；The side plate of L-type backing plate is fixed by the second bolt (72) with the pillars of a house (1).

Assembled energy-saving the most according to claim 6 building bridging arrangement, it is characterised in that: described floor (3) and house beam (2) fixing also by some 3rd bolts (73), the 3rd bolt (73) sequentially passes through floor (3) from the upper surface of floor (3) Second protruding (31), the second groove (22) lower section of house beam (2).

Assembled energy-saving the most according to claim 6 building bridging arrangement, it is characterised in that: described floor (3) and house beam (2) fixing also by some 4th bolts (74), the 4th bolt (74) crosses the side of house beam (2) and floor (3) second is convex Rise (31).