CN217537307U - Steel construction factory building beam column connected node structure - Google Patents

Abstract

The utility model belongs to the technical field of the steel construction factory building, especially, be a steel construction factory building beam column connected node structure field, including H type beam column and connecting plate, the left and right sides welding of H type beam column has the thing piece of putting, the trip shaft, the air spring, slider and mounting panel one, the connecting plate is installed on the top of H type beam column, powerful bolt one is installed to the left and right sides of reinforcing plate one, damping spring is installed at the top of connecting plate, and damping spring's top installs mounting panel two, the welding of the left and right sides of mounting panel two has reinforcing plate two, and H type crossbeam is installed to the top of mounting panel two, powerful bolt two is installed to the bottom of H type crossbeam, hang H type crossbeam when mounting panel two and reinforcing plate two tops, two reinforcing plate and connecting plate follow spout two relative motions under the pressure effect of H type crossbeam, can cushion H type crossbeam through damping spring and reset spring, can be effective convenient the impact of reduction H type crossbeam to H type beam column.

Description

Steel construction factory building beam column connected node structure

Technical Field

The utility model belongs to the technical field of the steel construction factory building, concretely relates to steel construction factory building beam column connected node structure.

Background

The steel structure factory building mainly means that main bearing components are made of steel. Including the steel post, the girder steel, steel construction basis, the steel roof truss, the steel roof, the wall of steel construction factory building also can adopt brick wall enclosure, and steel construction building's advantage has the quality light, and intensity is high, and the span is big, construction period is short, move the convenience, retrieve pollution-free etc. and steel construction building's shortcoming has the fire proofness poor, and is not corrosion-resistant, should not use the steel construction in the low temperature area.

SUMMERY OF THE UTILITY MODEL

The beam column connecting node structure of the existing steel structure factory building is not convenient to reduce the impact of an H-shaped beam on the H-shaped beam column when the beam column is hoisted in the use process, and the stability of the beam column connecting node structure when the beam column connecting node structure is used is reduced. The utility model provides a steel construction factory building beam column connected node structure hangs H type crossbeam when mounting panel two with two tops of reinforcing plate, two reinforcing plates of mounting panel two and connecting plate along two relative motion of spout under the pressure effect of H type crossbeam, can cushion H type crossbeam through damping spring and reset spring, reduction H type crossbeam that can be effectively convenient is to the impact of H type beam column.

The utility model provides a following technical scheme: the utility model provides a steel construction factory building beam column connected node structure, includes H type beam column and connecting plate, the left and right sides welding of H type beam column has puts the thing piece, and puts the thing piece and keep away from one side of H type beam column and install the trip shaft, the air spring is installed to the top of trip shaft, and the top of air spring installs the slider through the trip shaft, mounting panel one is installed at the top of slider, and the below surface of mounting panel one has seted up spout one, the connecting plate is installed in the top of H type beam column, and installs reinforcing plate one below the connecting plate, powerful bolt one is installed to the left and right sides of reinforcing plate one, damping spring is installed at the top of connecting plate, and mounting panel two is installed at damping spring's top, spout two have been seted up to mounting panel two's inboard, and the internally mounted of spout two has reset spring, the left and right sides welding of mounting panel two has reinforcing plate two, and the top of mounting panel two installs H type crossbeam, powerful bolt two is installed to the bottom of H type crossbeam.

Wherein, constitute upset mounting structure through the trip shaft between air spring and the H type beam column, and the air spring is provided with four about H type beam column central line symmetry, drives the air spring upset through the trip shaft and can make things convenient for the regulation of air spring position, and four air springs can make the air spring cooperation put more reliably when being connected between a pair of H type crossbeam of thing piece, slider, mounting panel and the H type beam column.

The first sliding groove is formed in the first mounting plate, the first sliding groove is connected with the H-shaped cross beam in a sliding mode, the sliding groove is formed in the first mounting plate, and the sliding groove is connected with the H-shaped cross beam in a welding mode.

The connecting plate and the second mounting plate form a clamping sliding mounting structure through the second sliding groove, the connecting plate and the second mounting plate are arranged in parallel, sliding of the connecting plate can be limited through the second sliding groove, and the connecting plate and the second mounting plate are arranged in parallel and can enable the connecting plate and the second mounting plate to slide relatively more stably.

The first reinforcing plate and the first reinforcing plate are in threaded connection, the first reinforcing plate and the connecting plate are integrally welded, the first reinforcing plate and the H-shaped beam column can be firmly and reliably connected through the threaded connection, and the first reinforcing plate and the connecting plate can be firmly and reliably connected through the integrally welded connection.

Wherein, damping spring equidistant distribution can guarantee damping spring's buffering effect in the top of connecting plate, damping spring equidistant distribution.

The mounting plate II is in threaded connection with the strong bolts II, the strong bolts are equidistantly distributed at the top of the mounting plate II, the strong bolts are fixedly connected with the H-shaped cross beam more firmly and reliably through threaded connection, and the strong bolts are equidistantly distributed so that the strong bolts are fixed with the H-shaped cross beam more comprehensively.

And the second reinforcing plate and the second mounting plate are arranged in an integrated manner, and the structural strength of the second mounting plate can be increased by the integrated manner.

The utility model has the advantages that: when the steel structure factory building beam column connection node structure is used, a connecting plate and a reinforcing plate I are installed above an H-shaped beam column through a strong bolt II and a strong bolt I, then the reinforcing plate II and a mounting plate II are fixed below the H-shaped beam column through a strong bolt II, the H-shaped beam column is connected with the H-shaped beam column, object placing blocks are welded on the left side and the right side of the H-shaped beam column, the mounting plate I is welded at a specified position below the H-shaped beam column, the mounting plate I and the object placing blocks are connected through a turnover shaft and an air spring, the H-shaped beam is supported, the structural strength of the device can be increased through the reinforcing plate II and the reinforcing plate I, after welding of all welding spots of the device is completed, an anti-rust coating is sprayed on the welding position of the device, when the H-shaped beam is hung above the mounting plate II and the reinforcing plate II, the mounting plate II and the connecting plate move relative to each other under the pressure of the H-shaped beam, the damping spring and a reset spring can buffer the H-shaped beam, impact of the H-shaped beam on the H-shaped beam column can be effectively and conveniently reduced, and the reliability of the H-shaped beam column can be increased when the device is installed;

after the installation is accomplished, when powerful vibrations appear, put thing piece, air spring, slider and mounting panel and put the thing piece and be connected with H type beam column through putting, avoid H type crossbeam and H type beam column to break away from, reduce the vibrations between H type crossbeam and the H type beam column through damping spring and reset spring, can be effectively when powerful vibrations, increase the stability of device.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic view of the overall right-side structure of the present invention;

FIG. 3 is a schematic axial view of the gas spring and the mounting block of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

in the figure: 1. h-shaped beam columns; 2. placing the object blocks; 3. a turning shaft; 4. a gas spring; 5. a slider; 6. a first mounting plate; 7. a first sliding chute; 8. a connecting plate; 9. a first reinforcing plate; 10. a first strong bolt; 11. a damping spring; 12. a second mounting plate; 13. a second chute; 14. a return spring; 15. a second reinforcing plate; 16. an H-shaped beam; 17. and a second strong bolt.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a steel construction factory building beam column connected node structure, includes H type beam column 1 and connecting plate 8, the left and right sides welding of H type beam column 1 has puts thing piece 2, and puts thing piece 2 and keep away from one side of H type beam column 1 and install trip shaft 3, air spring 4 is installed to the top of trip shaft 3, and the top of air spring 4 installs slider 5 through trip shaft 3, mounting panel one 6 is installed at slider 5's top, and the below surface of mounting panel one 6 has seted up spout one 7, connecting plate 8 is installed in the top of H type beam column 1, and installs reinforcing plate one 9 below connecting plate 8, powerful bolt one 10 is installed to the left and right sides of reinforcing plate one 9, damping spring 11 is installed at the top of connecting plate 8, and mounting panel two 12 are installed at damping spring 11's top, spout two 13 have been seted up to the inboard of mounting panel two 12, and the internally mounted of spout two 13 has reset spring 14, the left and right sides welding of mounting panel two 12 has reinforcing plate 15, and the top of mounting panel two 12 installs H type crossbeam 16, powerful crossbeam 17 is installed to the bottom of H type crossbeam 17.

In this embodiment:

constitute upset mounting structure through trip shaft 3 between air spring 4 and the H type beam column 1, and air spring 4 is provided with four about 1 central line symmetry of H type beam column, drives the upset of air spring 4 through trip shaft 3 and can make things convenient for the regulation of air spring 4 position, and four air springs 4 can make air spring 4 cooperation put thing piece 2, slider 5, mounting panel 6 more reliable when being connected between H type crossbeam 16 and the H type beam column 1.

Constitute block sliding installation structure through spout one 7 between slider 5 and the mounting panel one 6, and adopt welding integration to set up between spout one 7 and the H type crossbeam 16, can inject the slip of mounting panel one 6 through spout one 7, welding integration sets up and can make the connection between spout one 7 and the H type crossbeam 16 more firm reliable.

Constitute block sliding installation structure through two 13 of spouts between connecting plate 8 and the two 12 mounting panels, and adopt mutual parallel arrangement between connecting plate 8 and the two 12 mounting panels, can inject the slip of connecting plate 8 through two 13 spouts, it is more steady when connecting plate 8 and the two 12 relative slip of mounting panels can make connecting plate 8 and the mutual parallel arrangement of mounting panels of connecting plate 8 and the two 12 mounting panels.

The first strong bolt 10 is in threaded connection with the first reinforcing plate 9, the first reinforcing plate 9 and the connecting plate 8 are integrally welded, the first strong bolt 10 can be firmly and reliably connected with the first reinforcing plate 9 and the H-shaped beam column 1 through the threaded connection, and the first reinforcing plate 9 and the connecting plate 8 can be firmly and reliably connected through the integrally welded connection.

Damping spring 11 is equidistant distribution in the top of connecting plate 8, and damping spring 11 is equidistant distribution can guarantee damping spring 11's buffering effect.

The mounting plate II 12 and the powerful bolt II 17 are in threaded connection, the powerful bolt II 17 is equidistantly distributed at the top of the mounting plate II 12, the powerful bolt II 17 can be firmly and reliably connected and fixed between the mounting plate II 12 and the H-shaped cross beam 16 through the threaded connection, and the powerful bolt II 17 can be more comprehensively fixed on the mounting plate II 12 and the H-shaped cross beam 16 through the equidistant distribution of the powerful bolt II 17.

Adopt integrated into one piece to set up between two 15 reinforcing plates and the two 12 mounting panels, integrated into one piece sets up the structural strength that can make the two 12 mounting panels of increase.

The utility model discloses a theory of operation and use flow: when the beam-column connection node structure of the steel structure factory building is used, the connecting plate 8 and the reinforcing plate I9 are arranged above the H-shaped beam-column 1 through the reinforcing bolt II 17 and the reinforcing bolt I10, then the reinforcing plate II 15 and the mounting plate II 12 are fixed below the H-shaped cross beam 16 through the reinforcing bolt II 17, the H-shaped beam-column 1 and the H-shaped cross beam 16 are connected, the object placing blocks 2 are welded on the left side and the right side of the H-shaped beam-column 1, the mounting plate I6 is welded at a designated position below the H-shaped cross beam 16, the mounting plate I6 and the object placing blocks 2 are connected through the turnover shaft 3 and the air spring 4, the H-shaped cross beam 16 is supported, the structural strength of the device can be increased through the reinforcing plate II 15 and the reinforcing plate I9, all welding spots of the device are sprayed with anti-rust coatings after welding is completed, and the welding position of the device is prevented from being rusted, when the H-shaped beam 16 is hung above the mounting plate II 12 and the reinforcing plate II 15, the mounting plate II 12 and the reinforcing plate II 15 and the connecting plate 8 move relatively along the sliding groove II 13 under the pressure action of the H-shaped beam 16, the H-shaped beam 16 can be buffered through the damping spring 11 and the reset spring 14, the impact of the H-shaped beam 16 on the H-shaped beam column 1 can be effectively and conveniently reduced, the reliability of the device during installation is improved, after the device is installed, when strong vibration occurs, the object block 2, the air spring 4, the sliding block 5 and the mounting plate I6 are used for connecting the object block 2 with the H-shaped beam column 1, the H-shaped beam 16 is prevented from being separated from the H-shaped beam column 1, the vibration between the H-shaped beam 16 and the H-shaped beam column 1 is reduced through the damping spring 11 and the reset spring 14, and the stability of the device can be effectively improved during the strong vibration.

Claims (8)

1. The utility model provides a steel construction factory building beam column connected node structure which characterized in that: including H type beam column and connecting plate, the left and right sides welding of H type beam column has puts the thing piece, and puts the thing piece and keep away from one side of H type beam column and install the trip shaft, the air spring is installed to the top of trip shaft, and the top of air spring installs the slider through the trip shaft, mounting panel one is installed at the top of slider, and the below surface of mounting panel one has seted up spout one, the connecting plate is installed in the top of H type beam column, and installs reinforcing plate one in the below of connecting plate, powerful bolt one is installed to the left and right sides of reinforcing plate one, damping spring is installed at the top of connecting plate, and damping spring's top installs mounting panel two, spout two has been seted up to mounting panel two's inboard, and the internally mounted of spout two has reset spring, mounting panel two's left and right sides welding has reinforcing plate two, and mounting panel two's top installs H type crossbeam, powerful bolt two is installed to the bottom of H type crossbeam.

2. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: and four air springs are symmetrically arranged on the center line of the H-shaped beam column.

3. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: the sliding block and the mounting plate I form a clamping sliding mounting structure through the sliding groove I, and the sliding groove I and the H-shaped cross beam are integrally welded.

4. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: and the connecting plate and the second mounting plate form a clamping sliding mounting structure through the second sliding groove, and are arranged in parallel.

5. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: the first powerful bolt is in threaded connection with the first reinforcing plate, and the first reinforcing plate and the connecting plate are integrally welded.

6. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: the damping springs are distributed above the connecting plate at equal intervals.

7. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: and the second mounting plate is in threaded connection with the second powerful bolt, and the second powerful bolt is equidistantly distributed on the top of the second mounting plate.

8. The beam-column connection node structure of the steel structure factory building according to claim 1, characterized in that: and the second reinforcing plate and the second mounting plate are integrally formed.

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