CN220318756U - Beam column structure connecting piece capable of realizing multidirectional overhanging on same plane - Google Patents

Abstract

The utility model discloses a beam column structure connecting piece for realizing multidirectional overhanging on the same plane, which comprises a horizontal suspension panel for a multidirectional suspension beam, an upper column connecting part and a lower column connecting part which are respectively fixed on the upper surface of the suspension panel and the lower surface of the suspension panel, wherein the upper column connecting part and the lower column connecting part are respectively used for connecting the lower end of an upper column and the upper end of a lower column, and suspension screw holes for vertically penetrating through suspension screws are arranged on the suspension panel. The cantilever plate used for being embedded into the end part of the beam is arranged below the cantilever panel, the cantilever plate is suspended and fixed below the cantilever panel, and the cantilever plate is provided with a cantilever bolt hole horizontally penetrating through the cantilever bolt. The multi-directional cantilever beam has the advantages that the multi-directional cantilever beams are all located on the same plane, and the waste of labor and materials caused by the fact that the traditional vertical dislocation cantilever needs to be manually supplemented is avoided.

Description

Beam column structure connecting piece capable of realizing multidirectional overhanging on same plane

Technical Field

The utility model relates to a beam column structure connecting piece capable of realizing multidirectional overhanging on the same plane, and belongs to the technical field of building construction members.

Background

Along with the promotion of national energy conservation and emission reduction policies, the assembled building with low construction cost and high construction efficiency is more and more popular, wherein the assembled wood structure is widely applied to urban parks and scenic spots. However, the construction of the fabricated building needs to fully consider how to facilitate transportation, how to save materials and how to facilitate assembly on the premise of ensuring the strength of the building structure, which brings challenges to the design of some building components, especially for component connection, which need to consider the space structure, the stress direction and the stress strength connecting piece. The cantilever beam is supported by the same floor slab on the same plane, the upper surface of the cantilever beam positioned below is required to be subjected to heightened design before assembly or leveling treatment after assembly, and therefore, the material cost is increased, and the construction amount is increased. And for the columns for supporting multi-story houses, if the length of the column is too long, transportation and assembly are not facilitated. Therefore, the problem of overhanging arrangement of the beam is solved, and meanwhile, the segmented connection of the column is also solved.

By searching, a patent document with the application number 201921175698.5, the patent name of the lower overhanging connecting unit of the fabricated balcony, is obtained.

The utility model discloses a lower overhanging connecting unit of assembled balcony, including being used for the vertical connector of being connected with the stand and being used for the transverse connector of being connected with the crossbeam, the one end terminal surface of vertical connector is connected with the floor upper surface of transverse connector, the transverse connector still includes parallel relative first curb plate, the second curb plate that sets up, and this first curb plate, the respective up end of second curb plate are connected with the floor, all open a plurality of first mounting holes on the first curb plate of transverse connector and the second curb plate, all open a plurality of second mounting holes on four sides of vertical connector. The utility model has smart structure and simple installation, realizes the connection with the cross beam and the upright post, and can be suitable for the installation of the overhanging balcony, so that the overhanging beam of the balcony and the main cross beam of the house are the whole beam, thereby ensuring the stability of the balcony structure and increasing the area of the balcony while ensuring the stability of the balcony structure.

The technical solution disclosed in this document can be seen to solve the problem of unidirectional cantilever (symmetrical to form a single transverse cantilever on the left and right sides of the column) and not solve the problem of multidirectional cantilever, nor involve the connection of the columns.

Disclosure of Invention

The utility model aims to solve the technical problems that: the connecting piece can be used for connecting the upper column and the lower column on the same plane multidirectional cantilever beam.

Aiming at the problems, the technical proposal provided by the utility model is as follows:

the utility model provides a realize beam column structure connecting piece that multidirectional cantilever in coplanar, includes the horizontally that is used for multidirectional cantilever hang solid panel, fixes respectively at the last post connecting portion and lower post connecting portion that hang solid panel upper surface and hang solid panel lower surface, goes up post connecting portion and lower post connecting portion and is used for connecting the lower extreme of last post and the upper end of lower post respectively, is equipped with the screw hole that hangs that is used for vertically crossing to hang solid screw on hanging solid panel.

Further, a cantilever plate for embedding the end part of the beam is arranged below the cantilever panel, the cantilever plate is suspended and fixed below the cantilever panel, and the cantilever plate is provided with a cantilever bolt hole horizontally penetrating through the cantilever bolt.

Further, the upper column connecting part and the lower column connecting part are embedded bodies which are fixed by the first panel and the second panel in a cross shape, and fastening bolt holes which are horizontally arranged are formed in the first panel and the second panel.

Further, the suspension panel is formed by a left suspension plate overhanging the left side of the column and a right suspension plate overhanging the right side of the column in a straight shape; cantilever plates are respectively arranged below the left-direction cantilever plate and the right-direction cantilever plate.

Further, the suspension panel is composed of a left suspension plate overhanging the left side of the column, a right suspension plate overhanging the right side of the column and a front suspension plate overhanging the front side of the column in a T shape; cantilever plates are respectively arranged below the left-direction cantilever plate, the right-direction cantilever plate and the front-direction cantilever plate.

Further, the suspension panel is formed by a left suspension plate overhanging the left side of the column, a right suspension plate overhanging the right side of the column, a front suspension plate overhanging the front side of the column and a rear suspension plate overhanging the rear side of the column in a cross shape; cantilever plates are respectively arranged below the left-direction cantilever plate, the right-direction cantilever plate, the front-direction cantilever plate and the rear-direction cantilever plate.

Further, the suspension panel, the upper column connecting part, the lower column connecting part and the cantilever plate are made of metal materials.

Advantageous effects

1. The multi-directional cantilever beam can be positioned on the same plane, and the waste of labor and materials caused by the need of manually repairing the cantilever in the traditional vertical dislocation manner is avoided.

2. The connection of the upper column and the lower column can be realized at the same time, and the inconvenience in transportation and assembly caused by too long whole column of the multi-layer building is avoided.

3. The full utilization of the material strength can be realized.

4. The building design with diversified appearance can be realized.

Drawings

FIG. 1 is a schematic perspective view of a beam column structure connector according to an embodiment;

FIG. 2 is a schematic perspective view of a beam column structure connecting piece according to an embodiment;

FIG. 3 is a schematic perspective view of a beam column structure connector according to a second embodiment;

fig. 4 is a schematic perspective view of a beam column structure connector according to a third embodiment.

In the figure: 1. suspending and fixing the panel; 101. a left suspension plate; 102. a right-direction suspension plate; 103. a forward suspension plate; 104. a rear suspension plate; 2. an upper column connecting part; 3. a lower column connecting part; 4. panel I; 5. a second panel; 6. a cantilever plate; 7. suspending screw holes; 8. picking and fixing the bolt holes; 9. a fastening bolt hole; 10. a suspension screw; 11. a bolt is fixedly picked up; 12. a fastening bolt; 13. a column; 1301. loading a column; 1302. a lower column; 14. a beam.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

example 1

As shown in fig. 1 and 2, a beam column structure connecting piece for realizing multidirectional cantilever on the same plane comprises a horizontal cantilever panel 1 for a multidirectional cantilever beam 14, an upper column connecting part 2 and a lower column connecting part 3 which are respectively fixed on the upper surface of the cantilever panel 1 and the lower surface of the cantilever panel 1, wherein the upper column connecting part 2 and the lower column connecting part 3 are respectively used for connecting the lower end of an upper column 1301 and the upper end of a lower column 1302, and a cantilever screw hole 7 for vertically penetrating through a cantilever screw 10 is arranged on the cantilever panel 1. When the lower column connecting part 3 is used, the lower end of the upper column 1301 is fixed at the upper end of the lower column 1302, and the lower end of the upper column 1301 is fixed at the upper column connecting part 2 so as to realize the fixed butt joint of the upper column 1301 and the lower column 1302; one end of the beam 14 is fixed under the suspension panel 1 at one side of the lower column 1302, specifically, the end of the beam 14 is fastened to the lower bottom surface of the suspension panel 1 in a suspended manner by the suspension screw 10 through the suspension screw hole 7. In this way, the beams 14 to be mounted and fixed can be multi-directionally overhanging the lower bottom surface of the suspension panel 1 at the periphery of the lower column 1302, and the multi-directionally overhanging beams 14 can be all located on the same plane.

The cantilever plate 6 for embedding the end part of the beam 14 is arranged below the cantilever panel 1, the cantilever plate 6 is suspended and fixed below the cantilever panel 1, and the cantilever plate 6 is provided with a cantilever bolt hole 8 horizontally penetrating through a cantilever bolt 11. Before application, a notch embedded into the cantilever plate 6 is formed in the cantilever end part of the beam 14, a plurality of bolt holes corresponding to the cantilever bolt holes 8 are horizontally formed in two sides of the notch, and when the cantilever plate is applied, the cantilever plate 6 is embedded into the notch of the beam 14, then the cantilever bolt 11 is inserted from the bolt hole on one side of the notch, the cantilever bolt hole 8 of the cantilever plate 6 is inserted into the bolt hole on the other side of the notch, and the cantilever bolt 11 bears the pressure of the beam.

The upper column connecting part 2 and the lower column connecting part 3 are embedded bodies which are fixed by the first panel 4 and the second panel 5 in a cross shape, and fastening bolt holes 9 which are horizontally arranged are arranged on the first panel 4 and the second panel 5. Before application, the lower end of the upper column 1301 and the upper end of the lower column 1302 are respectively provided with a cross-shaped notch capable of being embedded into the first panel 4 and the second panel 5, and are provided with bolt holes corresponding to the fastening bolt holes 9, and when the lower column connecting part 3 is applied, the lower column connecting part 3 is inserted into the cross-shaped notch of the lower column 1302, and the lower column connecting part 3 is fastened with the lower column 1302 by the fastening bolt 12; the upper column connecting part 2 is inserted into the cross-shaped notch of the upper column 1301, and the upper column connecting part 2 is fastened with the upper column 1301 by the fastening bolt 12.

The suspension panel 1 is formed by a left suspension plate 101 overhanging the left side of the column 13 and a right suspension plate 102 overhanging the right side of the column 13 in a straight shape; the cantilever plates 6 are provided under the left-hand cantilever plate 101 and the right-hand cantilever plate 102, respectively.

The upper suspension panel 1, the upper column connecting part 2, the lower column connecting part 3 and the cantilever plate 6 are made of metal materials.

Example two

As shown in fig. 3, the difference from the first embodiment is that the suspension panel 1 is constituted by a left-hand suspension plate 101 overhanging the left side of the column 13, a right-hand suspension plate 102 overhanging the right side of the column 13, and a front-hand suspension plate 103 overhanging the front side of the column 13 in a t shape; the cantilever plates 6 are provided under the left-hand cantilever plate 101, the right-hand cantilever plate 102, and the front-hand cantilever plate 103, respectively.

Example III

As shown in fig. 4, the difference from the second embodiment is that the suspension panel 1 is constituted by a left-hand suspension plate 101 overhanging the left side of the column 13, a right-hand suspension plate 102 overhanging the right side of the column 13, a front-hand suspension plate 103 overhanging the front side of the column 13, and a rear-hand suspension plate 104 overhanging the rear side of the column 13 in a cross shape; the cantilever plates 6 are provided under the left-hand cantilever plate 101, the right-hand cantilever plate 102, the front-hand cantilever plate 103 and the rear-hand cantilever plate 104, respectively.

The above embodiments are only for the purpose of more clearly describing the present utility model and should not be construed as limiting the scope of the present utility model, and any equivalent modifications should be construed as falling within the scope of the present utility model.

Claims (7)

1. The utility model provides a beam column structure connecting piece that realizes multidirectional encorbelmenting at coplanar which characterized in that: including being used for the level of multidirectional cantilever beam (14) to hang solid panel (1), fix respectively at the last post connecting portion (2) and lower post connecting portion (3) of hanging solid panel (1) upper surface and cantilever panel (1) lower surface, go up post connecting portion (2) and lower post connecting portion (3) and be used for connecting the lower extreme of last post (1301) and the upper end of lower post (1302) respectively, be equipped with on cantilever panel (1) and be used for vertically passing the suspension screw hole (7) that hang solid screw (10).

2. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 1, wherein: the cantilever plate (6) used for embedding the end part of the beam (14) is arranged below the cantilever panel (1), the cantilever plate (6) is vertically fixed below the cantilever panel (1), and the cantilever plate (6) is provided with a horizontal cantilever bolt hole (8).

3. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 2, wherein: the upper column connecting part (2) and the lower column connecting part (3) are embedded bodies which are fixed in a cross manner by the first panel (4) and the second panel (5), and fastening bolt holes (9) which are horizontally arranged are formed in the first panel (4) and the second panel (5).

4. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 2, wherein: the suspension panel (1) is formed by a left suspension plate (101) overhanging the left side of the column (13) and a right suspension plate (102) overhanging the right side of the column (13) in a straight shape; the cantilever plates (6) are respectively arranged below the left-direction cantilever plate (101) and the right-direction cantilever plate (102).

5. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 2, wherein: the suspension panel (1) is composed of a left suspension plate (101) overhanging the left side of the column (13), a right suspension plate (102) overhanging the right side of the column (13) and a front suspension plate (103) overhanging the front side of the column (13) in a T shape; cantilever plates (6) are respectively arranged below the left-direction cantilever plate (101), the right-direction cantilever plate (102) and the front-direction cantilever plate (103).

6. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 2, wherein: the suspension panel (1) is formed by a left suspension plate (101) overhanging the left side of the column (13), a right suspension plate (102) overhanging the right side of the column (13), a front suspension plate (103) overhanging the front side of the column (13) and a rear suspension plate (104) overhanging the rear side of the column (13) in a cross shape; cantilever plates (6) are respectively arranged below the left-direction cantilever plate (101), the right-direction cantilever plate (102), the front-direction cantilever plate (103) and the rear-direction cantilever plate (104).

7. The beam column structure connecting piece for realizing multidirectional overhanging on the same plane as in claim 1, wherein: the suspension panel (1), the upper column connecting part (2), the lower column connecting part (3) and the cantilever plate (6) are made of metal materials.