CN220888959U - BIM-based steel structure beam column connection structure - Google Patents

Abstract

The application discloses a BIM-based steel structure beam column connection structure, which relates to the technical field of steel structure buildings and comprises a vertical connection mechanism, wherein the vertical connection mechanism comprises a vertical column body, a plurality of groups of second screw holes are uniformly formed in the upper end of the outer wall of the vertical column body, a vertical connection frame body is movably sleeved outside the vertical column body, vertical plate bodies which are in contact with the outer wall of the vertical column body are arranged around the inner cavity of the vertical connection frame body, and a plurality of groups of first bolts which penetrate through the vertical plate bodies and are in threaded connection with the second screw holes are uniformly arranged at the upper end position of the outer wall of the vertical connection frame body. According to the application, the vertical connecting frame body is sleeved outside the vertical columns with different specifications, the first bolt is screwed to penetrate through the vertical plate body and is in threaded connection with the second screw hole, and then the second bolt is screwed to be in threaded connection with the third screw hole, so that the position of the first connecting frame can be fixed, and the vertical connecting frame is further suitable for the vertical columns with different specifications.

Description

BIM-based steel structure beam column connection structure

Technical Field

The application relates to the technical field of steel structure buildings, in particular to a steel structure beam column connection structure based on BIM.

Background

The modern building comprises a concrete frame structure, a steel structure and the like, and the steel structure building is widely applied to buildings with large spans and the like due to low weight, and the steel structure building usually comprises a column body, a beam body and the like.

The Chinese patent document with the bulletin number of CN208996202U discloses a steel structure beam column connecting structure based on BIM, which comprises a column body and a plurality of cross beams arranged on the column body, wherein the column body is provided with a fixing sleeve through a fixing assembly, the cross beams are arranged on the side wall of the fixing sleeve in a plugging manner, and the fixing sleeve is provided with a connecting piece connected with the cross beams. The beam and the column body are fixed through the fixing sleeve, the fixing assembly and the connecting piece, so that the beam and the column body can be detached, and the beam and the column body can be conveniently detached. However, the technical scheme still has the defects, and the technical scheme is as follows:

When the connecting structure is used, the connecting structure can only be suitable for cylinders with the same specification, and once the cross section sizes of the cylinders are different, the connecting structure cannot be spliced into a compact surrounding structure, so that the using limitation is larger. For this reason, we propose a BIM-based steel structure beam column connection structure to solve the above mentioned problems.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application as well as in the abstract and application names, which may not be used to limit the scope of the application.

Therefore, the application aims to provide a BIM-based steel structure beam column connecting structure, which can solve the problems that the existing steel structure beam column connecting structure is only applicable to columns with the same specification and has larger limitation.

The application provides a BIM-based steel structure beam column connection structure, which adopts the following technical scheme:

The utility model provides a steel construction beam column connection structure based on BIM, includes vertical coupling mechanism, it includes vertical cylinder, the multiunit second screw has evenly been seted up to the outer wall upper end of vertical cylinder, the outside movable sleeve of vertical cylinder is equipped with vertical connection framework, all be provided with the vertical plate body that contacts with vertical cylinder outer wall around the inner chamber of vertical connection framework, the first bolt of multiunit run through vertical plate body and with second screw threaded connection is evenly worn to vertical connection framework outer wall upper end position, all be provided with the first link that contacts with vertical plate body outer wall around the vertical connection framework diapire, the multiunit third screw has evenly been seted up to vertical plate body outer wall lower extreme position, the second bolt that multiunit and third screw thread match is evenly worn to first link outer wall;

The transverse connection mechanism comprises transverse beam bodies, wherein a plurality of groups of transverse beam bodies are arranged, the transverse beam bodies are respectively arranged at the periphery of the outer wall of the vertical connection frame body, and a plurality of groups of second connection frames which are in contact with the outer wall of the vertical connection frame body are respectively arranged at the top wall and the bottom wall of the transverse beam bodies.

Optionally, the inner wall of vertical connection framework evenly installs the multiunit spring, multiunit the one end that the spring is close to vertical plate body is fixed mutually with vertical plate body outer wall.

Through adopting above-mentioned technical scheme, establish the outside suitable altitude department of vertical cylinder at different specifications with vertical connection framework cover, make vertical plate body automatic and the outer wall of vertical cylinder laminate each other under the elasticity effect of multiunit spring, screw first bolt and make it run through vertical plate body and with second screw between threaded connection, then screw second bolt and make its and third screw between threaded connection can fix the position of first link, and then can be applicable to the vertical cylinder of different specifications and use, improve the degree of universalization.

Optionally, the outer wall of multiunit vertical plate body evenly inlays has multiunit horizontal pipe, multiunit horizontal pipe all movable sleeve establishes on the outer wall of first bolt.

By adopting the technical scheme, the shearing force born by the vertical plate body can be assisted under the action of the plurality of groups of transverse pipes.

Optionally, the inner wall lower extreme position of vertical connection framework has evenly offered multiunit bar spout, bar spout inner chamber that vertical connection framework was offered all slides and wears to be equipped with the slider, multiunit the lower extreme position of vertical plate outer wall all articulates through the articulated shaft has the connecting rod, multiunit connecting rod top position is connected with the outer wall rotation of slider through the articulated shaft respectively.

Through adopting above-mentioned technical scheme, the in-process of the automatic mutual laminating of outer wall with the vertical cylinder of vertical plate body makes the connecting rod rotate and promotes the slider and slide from top to bottom in the inner chamber of bar spout under the effect of articulated shaft automatically.

Optionally, the roof of the horizontal roof beam body has evenly offered multiunit fourth screw, the third link that multiunit and horizontal roof beam body roof position contacted is all installed to vertical connection frame body outer wall top position, wear to be equipped with multiunit and fourth screw thread matching's fourth bolt on the third link.

Through adopting above-mentioned technical scheme, revolve and twist and make threaded connection between its and the fourth screw, and then can further improve the fastening degree of being connected between horizontal roof beam body and the vertical connection framework.

Optionally, a plurality of groups of fifth screw holes are uniformly formed in the top wall of the transverse beam body, and a plurality of groups of fifth bolts matched with the fifth screw holes in threads are arranged on the bottom wall of the second connecting frame in a penetrating mode.

Optionally, the outer wall of the vertical connection frame body is evenly provided with a plurality of groups of first screw holes, and the outer wall of the second connection frame is evenly provided with a plurality of groups of third bolts matched with the first screw holes in a penetrating mode.

Through adopting above-mentioned technical scheme, laminating multiunit transverse beam body on the outer wall of vertical connection framework, screw the third bolt and make threaded connection between its and the first screw, then screw the fifth bolt and make threaded connection between its and the fifth screw to can be with the help of multiunit second link mutually fixed between transverse beam body and the vertical connection framework, conveniently constitute fast and dismantle, under the effect of the first screw of multiunit different height, can be applicable to transverse beam body and the second link of different specifications.

In summary, the present application includes at least one of the following beneficial effects:

Firstly, sleeving the vertical connecting frame body at proper heights outside the vertical columns with different specifications, enabling the vertical plate body to be mutually attached to the outer walls of the vertical columns under the action of the elasticity of a plurality of groups of springs, screwing a first bolt to penetrate the vertical plate body and be in threaded connection with a second screw hole, screwing a second bolt to be in threaded connection with a third screw hole, and therefore fixing the position of the first connecting frame, and further being applicable to the vertical columns with different specifications;

And secondly, attaching a plurality of groups of transverse beam bodies to the outer wall of the vertical connection frame body, screwing a third bolt to enable the third bolt to be in threaded connection with the first screw hole, and screwing a fifth bolt to enable the fifth bolt to be in threaded connection with the fifth screw hole, so that the transverse beam bodies and the vertical connection frame body can be mutually fixed by means of a plurality of groups of second connection frames, and the vertical connection frame body is convenient and quick to assemble and disassemble.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present application;

FIG. 2 is a schematic diagram of a front cross-sectional structure of the present application;

FIG. 3 is a schematic diagram of a front cross-sectional structure of the present application;

Fig. 4 is a schematic elevational view of the present application.

Reference numerals illustrate: 100. a vertical connection mechanism; 101. a first bolt; 102. a spring; 103. a slide block; 104. the vertical connecting frame body; 1041. a strip-shaped chute; 1042. a first screw hole; 105. a second bolt; 106. a vertical column; 1061. a second screw hole; 107. a vertical plate body; 1071. a third screw hole; 108. a first connection frame; 109. a connecting rod; 110. a transverse tube; 200. a transverse connection mechanism; 201. a third bolt; 202. a fourth bolt; 203. a transverse beam body; 2031. a fourth screw hole; 2032. a fifth screw hole; 204. a fifth bolt; 205. a second connecting frame; 206. and a third connecting frame.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

Referring to fig. 1 and 2 of the drawings in the specification, a BIM-based steel structure beam column connection structure includes a vertical connection mechanism 100, which includes a vertical column 106, multiple groups of second screw holes 1061 are uniformly formed in the upper end of the outer wall of the vertical column 106, a vertical connection frame 104 is movably sleeved outside the vertical column 106, the upper end and the lower end of the vertical connection frame 104 are both provided with openings, vertical plates 107 contacting with the outer wall of the vertical column 106 are all provided around the inner cavity of the vertical connection frame 104, the transverse length of the vertical plates 107 is smaller than the length of the inner wall of the vertical connection frame 104, and the vertical height of the vertical plates 107 is greater than the vertical height of the vertical connection frame 104.

Referring to fig. 1, 2 and 4 in the drawings of the specification, a plurality of groups of springs 102 are uniformly mounted on the inner wall of a vertical connection frame 104, one end, close to a vertical plate 107, of each group of springs 102 is fixed to the outer wall of the vertical plate 107, a plurality of groups of first bolts 101 penetrating through the vertical plate 107 and in threaded connection with a second screw hole 1061 are uniformly arranged at the upper end position of the outer wall of the vertical connection frame 104, the plurality of groups of first bolts 101 are respectively staggered with the plurality of groups of springs 102, a plurality of groups of strip-shaped sliding grooves 1041 are uniformly arranged at the lower end position of the inner wall of the vertical connection frame 104, and sliding blocks 103 are uniformly arranged in the inner cavity of the strip-shaped sliding groove 1041 formed in the vertical connection frame 104 in a sliding manner.

Referring to fig. 1, 2 and 4 in the drawings of the specification, the lower end positions of the outer walls of the plurality of groups of vertical plates 107 are all hinged with connecting rods 109 through hinge shafts, the top end positions of the plurality of groups of connecting rods 109 are respectively connected with the outer walls of the sliding blocks 103 in a rotating mode through hinge shafts, first connecting frames 108 in contact with the outer walls of the vertical plates 107 are all arranged on the periphery of the bottom wall of the vertical connecting frame 104, the longitudinal sections of the first connecting frames 108 are L-shaped, a plurality of groups of third screw holes 1071 are uniformly formed in the lower end positions of the outer walls of the vertical plates 107, and a plurality of groups of second bolts 105 in threaded fit with the third screw holes 1071 are uniformly formed in the outer walls of the first connecting frames 108 in a penetrating mode.

The specific working principle is as follows: firstly, a plurality of groups of vertical plate bodies 107 are pulled outwards, then the vertical connection frame bodies 104 are sleeved at proper heights outside the vertical columns 106 with different specifications from top to bottom, then the vertical plate bodies 107 are loosened, the vertical plate bodies 107 are automatically attached to the outer walls of the vertical columns 106 under the action of elasticity of the plurality of groups of springs 102, at the moment, under the action of a hinge shaft, the connecting rods 109 are automatically enabled to rotate and push the sliding blocks 103 to slide up and down in the inner cavities of the strip-shaped sliding grooves 1041, then the first bolts 101 are screwed to penetrate through the vertical plate bodies 107 and are in threaded connection with the second screw holes 1061, and then the second bolts 105 are screwed to enable the second bolts 105 to be in threaded connection with the third screw holes 1071, so that the positions of the first connecting frames 108 can be fixed, and therefore the vertical column bodies 106 with different specifications can be used, and the universality is improved.

Referring to fig. 1 and 3 of the drawings in the description, a BIM-based steel structure beam column connection structure includes a transverse connection mechanism 200, which includes a transverse beam 203, the transverse beam 203 is provided with a plurality of groups, the plurality of groups of transverse beams 203 are respectively disposed at the peripheral positions of the outer wall of the vertical connection frame 104, the top wall and the bottom wall of the plurality of groups of transverse beams 203 are respectively provided with a second connection frame 205 contacting with the outer wall of the vertical connection frame 104, and the longitudinal section of the second connection frame 205 is L-shaped.

Referring to fig. 1 and 3 in the drawings, a plurality of groups of fifth screw holes 2032 are uniformly formed in the top wall of the transverse beam 203, and a plurality of groups of fifth bolts 204 which are in threaded fit with the fifth screw holes 2032 are arranged on the bottom wall of the second connecting frame 205 in a penetrating manner. A plurality of groups of first screw holes 1042 are uniformly formed in the outer wall of the vertical connection frame 104, and a plurality of groups of third bolts 201 which are matched with the first screw holes 1042 in a threaded manner are uniformly arranged in the outer wall of the second connection frame 205 in a penetrating manner.

The specific working principle is as follows: after the vertical connection frame 104 is fixed, the plurality of groups of transverse beam bodies 203 are attached to the outer wall of the vertical connection frame 104, the third bolt 201 is screwed to be in threaded connection with the first screw hole 1042, and then the fifth bolt 204 is screwed to be in threaded connection with the fifth screw hole 2032, so that the transverse beam bodies 203 and the vertical connection frame 104 can be mutually fixed by means of the plurality of groups of second connection frames 205, and the assembly and the disassembly are convenient and quick.

Referring to fig. 2, 3 and 4 of the drawings in the specification, a BIM-based steel structure beam column connection structure further includes a plurality of groups of transverse pipes 110 uniformly embedded on the outer walls of the plurality of groups of vertical plates 107, wherein the plurality of groups of transverse pipes 110 are movably sleeved on the outer walls of the first bolts 101, and the length dimension of the transverse pipes 110 is greater than the thickness dimension of the vertical plates 107.

The specific working principle is as follows: the shear force applied to the first bolt 101 can be assisted and shared under the action of the transverse pipe 110, so that the bearing capacity of the BIM-based steel structure beam column connection structure is improved.

Referring to fig. 3 of the drawings, the connection structure of a steel structure beam column based on BIM further includes a plurality of groups of fourth screw holes 2031 uniformly formed on the top wall of the transverse beam body 203, a plurality of groups of third connection frames 206 contacting with the top wall of the transverse beam body 203 are mounted on the top end position of the outer wall of the vertical connection frame 104, and a plurality of groups of fourth bolts 202 in threaded match with the fourth screw holes 2031 are arranged on the third connection frames 206.

The specific working principle is as follows: after the second connecting frame 205 is fixed, the bottom wall of the third connecting frame 206 and the top wall of the second connecting frame 205 are just attached to each other, and then the fourth bolt 202 is screwed to connect with the fourth screw hole 2031, so as to further improve the tightness of connection between the transverse beam 203 and the vertical connecting frame 104.

Standard parts used in the document of the application can be purchased from market, all parts in the document of the application can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets, welding and the like in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the specific description is not made.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. BIM-based steel structure beam column connection structure is characterized in that: comprising the steps of (a) a step of,

The vertical connecting mechanism (100) comprises a vertical column body (106), a plurality of groups of second screw holes (1061) are uniformly formed in the upper end of the outer wall of the vertical column body (106), a vertical connecting frame body (104) is movably sleeved outside the vertical column body (106), vertical plate bodies (107) which are in contact with the outer wall of the vertical column body (106) are arranged around the inner cavity of the vertical connecting frame body (104), a plurality of groups of first bolts (101) which penetrate through the vertical plate bodies (107) and are in threaded connection with the second screw holes (1061) are uniformly arranged at the upper end position of the outer wall of the vertical connecting frame body (104), first connecting frames (108) which are in contact with the outer wall of the vertical plate bodies (107) are uniformly formed in the periphery of the bottom wall of the vertical connecting frame body (104), and a plurality of groups of second bolts (105) which are in threaded matching with the third screw holes (1071) are uniformly formed in the outer wall of the first connecting frames (108);

The transverse connection mechanism (200) comprises transverse beam bodies (203), wherein the transverse beam bodies (203) are provided with a plurality of groups, the transverse beam bodies (203) are respectively arranged at the periphery of the outer wall of the vertical connection frame body (104), and the top wall and the bottom wall of the transverse beam bodies (203) are respectively provided with a second connection frame (205) which is in contact with the outer wall of the vertical connection frame body (104).

2. The BIM-based steel structure beam column connection structure of claim 1, wherein: the inner wall of the vertical connection frame body (104) is uniformly provided with a plurality of groups of springs (102), and one end, close to the vertical plate body (107), of each group of springs (102) is fixed with the outer wall of the vertical plate body (107).

3. The BIM-based steel structure beam column connection structure of claim 2, wherein: the outer walls of the vertical plate bodies (107) are uniformly embedded with a plurality of groups of transverse pipes (110), and the transverse pipes (110) are movably sleeved on the outer walls of the first bolts (101).

4. A BIM-based steel structure beam column connection according to claim 2 or 3, wherein: the inner wall lower extreme position of vertical connection framework (104) has evenly seted up multiunit bar spout (1041), bar spout (1041) inner chamber that vertical connection framework (104) was seted up all slides and wears to be equipped with slider (103), multiunit the lower extreme position of vertical plate body (107) outer wall all articulates through the articulated shaft has connecting rod (109), multiunit connecting rod (109) top position is connected with the outer wall rotation of slider (103) respectively through the articulated shaft.

5. The BIM-based steel structure beam column connection structure of claim 1, wherein: the top wall of the transverse beam body (203) is uniformly provided with a plurality of groups of fourth screw holes (2031), a plurality of groups of third connecting frames (206) which are in contact with the top wall of the transverse beam body (203) are arranged at the top end position of the outer wall of the vertical connecting frame body (104), and a plurality of groups of fourth bolts (202) which are in threaded fit with the fourth screw holes (2031) are arranged on the third connecting frames (206) in a penetrating manner.

6. The BIM-based steel structure beam column connection structure of claim 5, wherein: multiple groups of fifth screw holes (2032) are uniformly formed in the top wall of the transverse beam body (203), and multiple groups of fifth bolts (204) matched with the fifth screw holes (2032) in a threaded mode are arranged on the bottom wall of the second connecting frame (205) in a penetrating mode.

7. A BIM-based steel structure beam column connection according to claim 2 or 6, wherein: the outer wall of the vertical connection frame body (104) is uniformly provided with a plurality of groups of first screw holes (1042), and the outer wall of the second connection frame (205) is uniformly provided with a plurality of groups of third bolts (201) which are matched with the first screw holes (1042) in a threaded mode.