CN210857538U - Assembled concrete frame beam column connection structure - Google Patents

Abstract

An assembled concrete frame beam column connecting structure belongs to the technical field of constructional engineering. The frame column and beam connecting structure comprises a connecting sleeve plate, wherein two ends of the connecting sleeve plate are respectively provided with a frame column connecting part and a frame beam connecting part which are respectively used for connecting a frame column and a frame beam, a horizontal through groove matched with the frame beam is formed in the connecting sleeve plate, a first groove is formed in the position, corresponding to the connecting through groove, of the frame column, a horizontal adjusting device is arranged in the first groove, and the insertion depth of the frame beam is adjusted; the connecting sleeve plate is of a split structure and is divided into an upper part and a lower part which are respectively arranged at the upper part and the lower part of the frame beam to form a whole after connection, the frame beam is connected between two adjacent frame columns, the horizontal installation position of the frame beam is adjusted through a horizontal adjusting device, and the frame beam is connected and fixed through the connecting sleeve plate. The utility model discloses increased the connection stability between frame post and the frame roof beam, prevented that the tie point of frame post and frame roof beam from appearing warping or the cracked condition because load is great.

Description

Assembled concrete frame beam column connection structure

Technical Field

The invention belongs to the technical field of constructional engineering, and particularly relates to an assembled concrete frame beam-column connecting structure.

Background

In the prefabricated steel structure building, part or all of components of the building are produced in a component prefabrication factory and then are transported to a construction site in a corresponding transportation mode, and the components are assembled by adopting a reliable installation mode and an installation machine to form a building construction mode of a building with a use function. Compared with field construction, the prefabricated assembly type construction has the advantages of convenience in construction, high engineering progress, small influence on the surrounding environment, easiness in ensuring the quality of building components and the like.

When prefabricated formula steel construction assembles, connection between the beam column is difficult problem in the assembling process, appear becoming flexible the scheduling problem easily between the beam column through the direct assembly of ordinary bolt, the tie point also appears the condition such as fracture of warping easily when receiving great vibrations, the security for the assembled building brings certain influence, simultaneously, some complicated connecting pieces are comparatively complicated when the assembly, and work load is great, has brought certain influence for the assembly efficiency of prefabricated building.

Disclosure of Invention

Aiming at the technical problems, the assembled concrete frame beam column connecting structure is convenient to connect and has a damping effect.

The purpose of the invention is realized by the following technical scheme:

the invention relates to an assembly type concrete frame beam-column connecting structure, which comprises a connecting sleeve plate, wherein two ends of the connecting sleeve plate are respectively provided with a frame column connecting part and a frame beam connecting part which are respectively used for connecting a frame column and a frame beam; the connecting sleeve plate is of a split structure and is divided into an upper part and a lower part which are respectively arranged at the upper part and the lower part of the frame beam to form a whole after connection, the frame beam is connected between two adjacent frame columns, the horizontal installation position of the frame beam is adjusted through a horizontal adjusting device, and the frame beam is connected and fixed through the connecting sleeve plate.

Preferably, the frame beam connecting portion 32 is provided with a ring groove therein, and the ring groove is matched with the rib of the frame beam to block, and the upper portion and the lower portion of the connecting sleeve plate are connected with the frame through bolts to form a whole.

Preferably, the upper part and the lower part of the connecting sleeve plate are provided with L-shaped groove structures matched with each other and connected through connecting screws.

Preferably, the peripheral surface of the frame beam extending into the connecting sleeve plate is provided with a convex edge which is matched with the frame of the connecting sleeve plate to stop.

Preferably, the horizontal adjusting device is formed by arranging a first connecting spring group in a first groove of the frame column, a fourth through hole is formed at the end part of the frame beam inserted into the first groove, a second through hole is correspondingly formed at the connecting side of the frame column, and the frame beam is fastened and connected through a third connecting bolt and a third connecting nut.

Preferably, the vertical shock-absorbing device is arranged in the vertical direction of the connecting end of the frame beam, the vertical shock-absorbing device is characterized in that second grooves are symmetrically formed in the upper portion and the lower portion of each connecting sleeve plate, a second connecting spring group is arranged on the bottom edge of each second groove, a pressing plate is arranged at one end, opposite to the frame beam, of each second connecting spring group, a pressing plate adjusting device is arranged on each connecting sleeve plate, when the frame beam is inserted, the pressing plates are adjusted in the second grooves, and after the frame beam is inserted, the groove-shaped pressing plates are attached to the surface of the frame beam.

Preferably, one end of the pressing plate corresponding to the second connecting spring group is of a groove-shaped structure, and the end part of the second connecting spring group is arranged in the groove shape.

Preferably, the pressing plate adjusting device is characterized in that a pin hole is formed in the pressing plate, a through hole is correspondingly formed in the side face of the connecting sleeve plate, a pin penetrates through the through hole and is arranged in the pin hole, the position of the pressing plate is fixed in the second groove by fixing the pin after the position of the pressing plate is adjusted, the pin is taken down after the pressing plate is assembled, and the pressing plate is in surface contact with the frame beam in the through groove through the elasticity of the second connecting spring group.

The invention has the beneficial effects that:

1. according to the invention, the frame beam column is connected through the connecting sleeve plate, and the horizontal and/or vertical direction adjusting/damping device is arranged in the connecting sleeve plate, so that the connecting sleeve plate can be quickly connected and fixed with the frame column and the frame beam, the connecting stability between the frame column and the frame beam is also increased through the connecting sleeve plate, the connecting sleeve plate also plays a role in fixing and protecting the connecting area of the frame column and the frame beam, and simultaneously plays a damping role, and the condition that the connecting point of the frame column and the frame beam is deformed or broken due to larger load is prevented.

According to the horizontal adjusting device, the first connecting spring group is arranged in the first groove; when the damping device is vertical, a pressing plate is arranged in a groove formed in the upper surface and the lower surface in the through groove, a second connecting spring group in a compressed state is connected between the pressing plate and the bottom in the groove, and an adjusting device for adjusting the position of the pressing plate is arranged on the connecting sleeve plate; the pin that will adjusting device takes off after the assembly, elasticity through second connecting spring makes the clamp plate press on logical inslot frame roof beam, it is more firm to make the frame roof beam at logical inslot fixed, avoid the frame roof beam to use the condition such as not hard up deformation appear for a long time, the first connecting spring and the second connecting spring that are in compression state simultaneously can also play absorbing effect, the frame post and the frame roof beam when the tie point position receive vibrations through the deformation of first connecting spring and second connecting spring play the cushioning effect, the tie point stable in structure of protection frame post and frame roof beam.

Drawings

Fig. 1 is a schematic perspective view of embodiment 1 of the present invention.

Fig. 2 is a cross-sectional view of fig. 1.

Fig. 3 is a schematic perspective view of embodiment 2 of the present invention.

Fig. 4 is a cross-sectional view of fig. 3.

Fig. 5 is a sectional view a-a of fig. 4.

In the figure: 1. frame post, 101, first through hole, 102, first groove, 103, second through hole, 2, frame beam, 201, third through hole, 202, fourth through hole, 203, rib, 3, connecting sleeve plate, 301, through groove, 302, second groove, 303, ring groove, 31, frame post connecting part, 311, fifth through hole, 32, frame beam connecting part, 321, sixth through hole, 33, upper connecting part, 34, lower connecting part, 4, first connecting bolt, 41, first connecting nut, 5, second connecting bolt, 51, second connecting nut, 6, first connecting spring group, 7, pressing plate, 701, pin hole, 8, second connecting spring group, 9, third connecting bolt, 91, third connecting nut, 10, pin, 11, connecting screw.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

Example 1: as shown in fig. 1 and 2, the assembled concrete frame beam-column connection structure of the present invention includes a connection sleeve plate 3, two ends of which are respectively provided with a frame column connection portion 31 and a frame beam connection portion 32 for respectively connecting a frame column 1 and a frame beam 2, a horizontal through groove 301 matched with the frame beam 2 is provided in the connection sleeve plate 3, a first groove 102 is provided at a position of the frame column corresponding to the connection through groove 301, and a horizontal adjustment device is provided in the first groove 102 for adjusting an insertion depth of the frame beam 2; connecting sleeve plate 3 is split type structure, divide into upper and lower two parts, arranges the upper and lower position of frame roof beam respectively in, forms wholly after connecting, frame roof beam 2 stretches into that the global in connecting sleeve plate 3 has the bead, blocks with the cooperation of connecting sleeve plate 3 frame, connects frame roof beam 2 between two adjacent frame post 1, adjusts the horizontal installation position of frame roof beam 2 through level adjustment device, then installation connecting sleeve plate 3, this example is in be provided with two first connecting bolt 4 on the frame post connecting portion 31, first connecting bolt 4 level is connected fixedly with first connecting nut 41 after passing fifth through-hole 311 on frame post connecting portion 31 and first through-hole 101 on the frame post 1, and fifth through-hole 311 and first through-hole 101 are prefabricated hole.

In this embodiment, the frame beam connecting portion 32 has a ring groove 203 therein, which cooperates with the rib 203 of the frame beam 2 to block, and the upper and lower portions of the connecting sleeve plate 3 are connected to the frame by bolts to form a whole. The adjustment of the horizontal position of the frame beam 2 in the installation process is ensured, and the adjustment distance is the distance between the ring groove and the convex edge; meanwhile, when vibration occurs, the connection between the frame beam 2 and the frame column 1 is not damaged through the adjustment of the horizontal adjusting device, so that the support of the frame column 1 is stable.

The connection sleeve plate 3 can be fast connected and fixed with the frame column 1 and the frame beam 2, the connection stability between the frame column 1 and the frame beam 2 is further improved through the connection sleeve plate 3, the connection sleeve plate 3 further plays a role in fixing and protecting the connection area of the frame column 1 and the frame beam 2, and the situation that deformation or fracture occurs to the connection point of the frame column 1 and the frame beam 2 due to large load is prevented.

As shown in fig. 1 and 2, in the leveling device of this embodiment, the first connecting spring group 6 is disposed in the first groove 102 of the frame column, the end of the frame beam 2 inserted into the first groove 102 is provided with a fourth through hole 202, the connecting side of the frame column 1 is correspondingly provided with a second through hole 103, and the frame column is fastened and connected by the third connecting bolt 9 and the third connecting nut 91. Through horizontal adjusting device makes frame roof beam 2 both ends be convenient for install in the logical groove 301 of level of frame post.

The vertical damping device is characterized in that the vertical direction of the connecting end of the frame beam 2 is further provided with a vertical damping device, the vertical damping device is that the upper part and the lower part of the connecting sleeve plate 3 are symmetrically provided with second grooves 302, the bottom edges of the second grooves 302 are provided with second connecting spring groups 8, one ends of the second connecting spring groups 8, which are opposite to the frame beam 2, are provided with pressing plates 7, the connecting sleeve plate 3 is provided with a pressing plate adjusting device, when the frame beam 2 is inserted, the pressing plates 7 are adjusted in the second grooves 302, and after the frame beam 2 is inserted, the pressing plates 7 are attached to the surface of the frame beam 2.

One end of the pressing plate 7, corresponding to the second connecting spring group 8, is of a groove-shaped structure, and the end part of the second connecting spring group 8 is arranged in the groove shape.

The pressing plate adjusting device is characterized in that a pin hole 701 is formed in the pressing plate 7, a through hole is correspondingly formed in the side face of the connecting sleeve plate 3, the pin 10 penetrates through the through hole and is arranged in the pin hole 701, the pin 10 is fixed after the position of the pressing plate 7 is adjusted to fix the position of the pressing plate 7 in the second groove 302, the pin 10 is taken down after assembly, and the pressing plate 7 is in surface contact with the frame beam 2 in the through groove 301 through the elastic force of the second connecting spring group 8.

When the utility model is used, the two ends of the frame beam 2 are inserted into the first grooves 102 of the frame columns 1 at the two ends, the two ends of the frame column 1 are conveniently inserted through the horizontal adjusting device in the first grooves 102, the horizontal position of the frame beam 2 is adjusted at the same time, then the connecting sleeve plate 3 is installed, the upper part and the lower part of the connecting sleeve plate 3 are horizontally passed through the fifth through hole 311 on the frame column connecting part 31 and the first through hole 101 on the frame column 1 through the first connecting bolt 4 and then are connected with the first connecting nut 41 respectively between the frame column 1 and the upper part and the lower part of the connecting sleeve plate 3, so that the connecting sleeve plate 3 and the frame column 1 are fixedly connected; meanwhile, the connecting sleeve plate 3 is sleeved on the periphery of the frame beam 2 and is fixedly connected with two vertically symmetrical parts of the sleeve plate 3 through bolts; so that the press plates 7 of the vertical damping devices in the connecting straps 3 abut against the surface of the frame beam 2. When receiving the vibrations, the first connecting spring group 6 and the second connecting spring group 8 deform to play a role in shock absorption, and the connecting structure of the protective frame beam 2 and the frame column 1 is stable.

Example 2: the difference between this example and example 1 is: as shown in fig. 3-5, the upper and lower portions of the connecting sleeve plate 3 in this embodiment have an L-shaped groove structure, and are connected by a connecting screw 11. In this embodiment, the frame beam 2 is not provided with a rib, after the frame beam 2 is horizontally fixed, the frame beam connecting portion 32 is provided with two second connecting bolts 5, the second connecting bolts 5 vertically and downwardly penetrate through a sixth through hole 321 on the frame beam connecting portion 32 and a fourth through hole 202 on the frame column 2 and then are connected and fixed with a second connecting nut 51, wherein the sixth through hole 321 and the fourth through hole 202 can be prefabricated holes, and holes can be drilled on site according to actual positions and connected through bolts.

In this embodiment, when mounting, the connecting sleeve plate 3 and the frame column 1 are connected and fixed, and the first connecting bolt 4 horizontally penetrates through the fifth through hole 311 of the frame column connecting part 31 and the first through hole 101 of the frame column 1 and then is connected with the first connecting nut 41, so that the connecting sleeve plate 3 and the frame column 1 are connected and fixed; the frame beam 2 penetrates through the through groove 301 and then is inserted into the first groove 102, vertically and downwards penetrates through the sixth through hole 321 in the beam connecting portion 32 and the fourth through hole 202 in the frame beam 2 through the second connecting bolt 5 and then is connected with the second connecting nut 51, so that the connecting sleeve plate 3 and the frame beam 2 are connected and fixed, finally the pin 10 is taken down, the pressing plate 7 is pressed on the frame beam 2 in the through groove 301 through the elastic force of the second connecting spring 8, the frame beam 2 is fixed more firmly in the through groove 301, the situations that the frame beam 2 is loosened and deformed when being used for a long time are avoided, and meanwhile, the first connecting spring group 6 and the second connecting spring group 8 in a compression state can also play a role in shock absorption.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides an assembled concrete frame beam column connection structure which characterized in that: the frame column and beam combined type frame assembly comprises a connecting sleeve plate (3), wherein frame column connecting parts (31) and frame beam connecting parts (32) are arranged at two ends of the connecting sleeve plate respectively and are used for connecting a frame column (1) and a frame beam (2) respectively, a horizontal through groove (301) matched with the frame beam (2) is arranged in the connecting sleeve plate (3), a first groove (102) is formed in the position, corresponding to the connecting through groove (301), of the frame column, a horizontal adjusting device is arranged in the first groove (102), and the insertion depth of the frame beam (2) is adjusted; the connecting sleeve plate (3) is of a split structure, is divided into an upper part and a lower part, is respectively arranged at the upper part and the lower part of the frame beam, forms a whole after being connected, is connected with the frame beam (2) between two adjacent frame columns (1), adjusts the horizontal installation position of the frame beam (2) through a horizontal adjusting device, and is fixedly connected through the connecting sleeve plate (3).

2. A fabricated concrete frame beam-column connection structure as claimed in claim 1, wherein: the frame beam connecting part (32) is internally provided with a ring groove (303) which is matched with a convex edge of the frame beam (2) to block, and the upper part and the lower part of the connecting sleeve plate (3) are connected with a frame through bolts to form a whole.

3. A fabricated concrete frame beam-column connection structure as claimed in claim 1, wherein: the upper part and the lower part of the connecting sleeve plate (3) are provided with L-shaped groove structures matched with each other and are connected through connecting screws (11).

4. A fabricated concrete frame beam-column connection structure as claimed in claim 1, wherein: the circumferential surface of the frame beam (2) extending into the connecting sleeve plate (3) is provided with convex edges which are matched with the frame of the connecting sleeve plate (3) to stop.

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