CN217630837U - Steel frame beam for steel structure factory building - Google Patents

Abstract

The application discloses steel frame crossbeam for steel construction factory building, relate to steel structure crossbeam technical field, the trouble problem of installation has been improved, it includes two lateral walls and a plurality of link that are parallel to each other, the link includes two and takes and leans on the roof beam, two take and lean on the roof beam towards the orientation slope of keeping away from mutually and set up downwards, two take and still be provided with two and take and lean on the mutual taut subassembly of roof beam between the roof beam, and two take and all be provided with the mounting panel by one side that the roof beam was kept away from mutually, supply mounting panel male mounting groove has been seted up to the lateral wall, be provided with the installed part of fixing the mounting panel in the mounting groove on the lateral wall, install the connecting plate between two lateral walls, two take and all set up the spread groove that supplies the connecting plate card to be gone into by one side that the roof beam is close to mutually, the connecting plate inserts in all spread grooves simultaneously, it fixes the coupling assembling in the spread groove to take to be provided with the connecting plate on the roof beam. This application can be easy to assemble.

Description

Steel frame beam for steel structure factory building

Technical Field

The utility model belongs to the technical field of steel construction crossbeam technique and specifically relates to a steel frame crossbeam for steel construction factory building is related to.

Background

The steel structure factory building mainly means that main bearing components are made of steel. The composite wall has the advantages of light weight, high strength, large span, short construction period and the like, and the earthquake resistance and the wind resistance can be guaranteed.

Chinese patent with publication number CN216276460U discloses a steel frame beam for steel structure factory building, including hinged support and two hinged beam main bodies, two beam columns all rotate to be connected on the hinged support, be connected with the limiting plate between two beam main body hinged portions, still install the first straining device of taut two beam main bodies between two beam columns, be provided with on the beam main body and be used for the taut second straining device who states first straining device and be close to state beam main body, first straining device and second straining device are a plurality of cable and constitute.

A large amount of inhaul cables are needed to be used when the cross beam is installed, the installation time is long, the workload is large, and the installation is troublesome.

SUMMERY OF THE UTILITY MODEL

For convenient installation, this application provides steel frame crossbeam for steel construction factory building.

The application provides steel frame crossbeam for steel construction factory building adopts following technical scheme:

the utility model provides a steelframe crossbeam for steel construction factory building, includes two lateral walls and a plurality of link that are parallel to each other, the link includes that two are taken and are leaned on the roof beam, two take and lean on the roof beam to set up downwards towards the direction slope of keeping away from mutually, two it still is provided with between the roof beam to take and takes two and lean on the mutual taut subassembly of roof beam, and two it all is provided with the mounting panel to take one side of keeping away from mutually by the roof beam, supply mounting panel male mounting groove is seted up to the lateral wall, be provided with on the lateral wall and fix the installed part in the mounting groove with the mounting panel, two install the connecting plate between the lateral wall, two it all sets up the spread groove that supplies the connecting plate card to go into to take one side that is close to mutually by the roof beam, the connecting plate inserts in all spread grooves simultaneously, it is provided with on the roof beam and fixes the coupling assembling in the spread groove.

Through adopting above-mentioned technical scheme, insert the mounting groove respectively with two mounting panels on the link in, and fix the mounting panel through the installed part, install all the beams that lean on in proper order, then descend the connecting plate to insert in all spread grooves until the connecting plate, under coupling assembling's effect, the connecting plate is fixed in the spread groove, make all take by the beam through the connecting plate and connect into a whole, improve the stability between a plurality of link, take by the roof beam taut through two on the taut subassembly with same link, accomplish the installation of steelframe crossbeam, realize easy to assemble's effect.

Optionally, the mounting piece is a mounting screw rod sliding on the side wall, and a thread groove matched with the thread part of the mounting screw rod is formed in the mounting plate.

Through adopting above-mentioned technical scheme, rotatory installation screw rod is until in installation screw rod screw in thread groove, realizes that the installed part fixes the effect in the mounting groove with the mounting panel.

Optionally, the mounting screw penetrates through the mounting plate, and a stabilizing groove for clamping the mounting screw is formed in the wall of the mounting groove.

Through adopting above-mentioned technical scheme, the mounting screw passes the mounting panel and inserts the steady groove, further improves the fixed connection of mounting screw to the mounting panel.

Optionally, coupling assembling includes connecting rod and elastic component, the connecting rod horizontal direction slides on taking by the roof beam, set up on the connecting plate and supply connecting rod male fixed slot, the elastic component is for the connecting rod all the time towards the elasticity that is close to the fixed slot direction and slides, the connecting rod is equipped with and supplies the connecting plate butt and control the connecting rod towards keeping away from the inclined plane of leading that the fixed slot direction slided.

Through adopting above-mentioned technical scheme, in the connecting plate got into the spread groove, under the cooperation of leading the inclined plane, the connecting rod slided towards keeping away from the spread groove direction, and until the connecting rod aims at the fixed slot, under the effect of elastic component, in the spread groove inserts the fixed slot, realize coupling assembling and fix the effect in the spread groove with the connecting plate.

Optionally, the elastic element is a connecting spring, a sliding groove for sliding the connecting rod in the horizontal direction is formed in the wall of the connecting groove, one end of the connecting spring abuts against the connecting rod, and the other end of the connecting spring abuts against the bottom of the sliding groove.

Through adopting above-mentioned technical scheme, under the effect of connecting spring elasticity, the connecting rod has all the time to slide towards being close to the fixed slot direction, until the connecting rod inserts in the fixed slot.

Optionally, reinforcing ribs are respectively arranged on one sides of the two abutting beams, and the end faces of the two sides of the two reinforcing ribs are attached to each other.

Through adopting above-mentioned technical scheme, increase two through two strengthening ribs and lean on the contact surface between the roof beam, realize improving two and lean on the effect of the stability between the roof beam.

Optionally, the tensioning assembly comprises a sliding rod sliding on the reinforcing rib in the horizontal direction and a tensioning block sliding on the sliding rod in the vertical direction, the sliding rod is adjacent to the tensioning block, an insertion groove for inserting the sliding rod is formed in the reinforcing rib, a tensioning groove for inserting the tensioning block is formed in the wall of the insertion groove, a tensioning spring for controlling the tensioning block to slide towards the direction close to the tensioning groove is arranged on the sliding rod, a guide surface for abutting against the notch of the tensioning groove and controlling the tensioning block to slide towards the direction close to the bottom of the insertion groove is arranged on the tensioning block, and one of the guide surfaces is arranged on the abutting beam and controls the sliding rod to slide towards the direction close to the insertion groove.

Through adopting above-mentioned technical scheme, under the effect of control, the slide bar inserts in the inserting groove, and simultaneously under the effect of taut spring elasticity, taut piece slides towards keeping away from the slide bar direction, and under the cooperation of taut groove notch and spigot surface, two are taken and are close to each other by the roof beam, realize taut subassembly with two take and lean on the mutual taut effect of roof beam.

Optionally, the control part is a control rod which slides in the bottom of the connecting groove in the vertical direction, and the sliding rod is provided with a guide surface which is used for the descending control rod to abut against and control the sliding rod to slide in the direction away from the control rod.

Through adopting above-mentioned technical scheme, when the connecting plate descends, the connecting plate drives the control lever decline, and under the cooperation of guide face, the slide bar slides towards being close to the inserting groove direction, until the slide bar inserts in the inserting groove.

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

insert the mounting panel in the mounting groove, then fix the mounting panel through the installation screw rod, install all the beams of leaning on in proper order, then in the control connection board inserted all spread grooves, coupling assembling fixed the connecting plate, and the connecting plate drives the control lever decline simultaneously, and two are taken the beam and are taut each other under the effect of supporting tight subassembly, install all links in proper order.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic cross-sectional view of the side wall and the abutment beam in the present embodiment;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

fig. 4 is an enlarged schematic view at B in fig. 2.

Description of reference numerals: 1. a side wall; 11. mounting grooves; 12. a movable groove; 13. a stabilizing groove; 2. a connecting frame; 21. a leaning beam is lapped; 211. mounting a plate; 2111. a thread groove; 212. reinforcing ribs; 2121. a sliding groove; 2122. inserting grooves; 2123. a tensioning slot; 213. connecting grooves; 214. a sliding groove; 215. a control slot; 3. a mounting member; 31. installing a screw rod; 4. a connecting plate; 41. fixing grooves; 5. a connection assembly; 51. a connecting rod; 511. a guide slope; 52. an elastic member; 521. a connecting spring; 6. a tension assembly; 61. a slide bar; 611. a moving groove; 612. a guide surface; 62. a tensioning block; 621. a guide surface; 7. a control member; 71. a control lever; 8. the spring 8 is tensioned.

Detailed Description

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

The embodiment of the application discloses steel frame crossbeam for steel construction factory building.

Referring to fig. 1 and 2, steel frame crossbeam for steel construction factory building includes two lateral walls 1 and a plurality of link 2, two lateral walls 1 are parallel to each other, a plurality of link 2 is all installed in 1 upper end of lateral wall and is evenly arranged along 1 length direction of lateral wall, link 2 includes that two are taken and lean on roof beam 21, two are taken and lean on roof beam 21 towards the direction slope of keeping away from downwards setting mutually, and it has mounting panel 211 to take one side welding that leans on roof beam 21 to keep away from mutually at two, offer on lateral wall 1 and supply mounting panel 211 male mounting groove 11.

Referring to fig. 2 and 3, the side wall 1 is further provided with an installation member 3, the installation member 3 is an installation screw 31, the side wall 1 is provided with a movable groove 12 for sliding the installation screw 31, and the installation plate 211 is provided with a thread groove 2111 adapted to the thread portion of the installation screw 31. When the mounting screw 31 is rotated, the mounting screw 31 slides in a direction approaching the screw groove 2111 until the mounting screw 31 is screwed into the screw groove 2111, thereby achieving an effect that the mounting piece 3 fixes the mounting plate 211 in the mounting groove 11.

Referring to fig. 2 and 3, in order to enhance the stability of the mounting plate 211 on the side wall 1, a fixing groove 13 for inserting the mounting screw 31 is formed on a side wall of the mounting groove 11 away from the movable groove 12, and the mounting screw 31 passes through the mounting plate 211 and is inserted into the fixing groove 13, thereby further improving the fixed connection of the mounting screw 31 to the mounting plate 211.

Referring to fig. 2 and 4, the end surfaces of the two abutting beams 21 close to each other are bonded together, the reinforcing ribs 212 are welded to the side of the two abutting beams 21 close to each other, the end surfaces of the two reinforcing ribs 212 close to each other are also bonded to each other, the contact surface between the two abutting beams 21 is increased by the end surfaces of the two abutting beams 21 and the end surfaces of the two reinforcing ribs 212, and the effect of improving the stability between the two abutting beams 21 is achieved.

Referring to fig. 2 and 4, a connecting plate 4 is further installed between the two side walls 1, a connecting groove 213 for inserting the connecting plate 4 is formed in the lap beam 21, the connecting plate 4 can be simultaneously inserted into all the connecting grooves 213, and when the connecting plate 4 enters the connecting groove 213, the upper end face of the connecting plate 4 can be kept horizontal, which facilitates installation of the roof.

Referring to fig. 2 and 4, a connecting assembly 5 is further mounted on the lap beam 21, the connecting assembly 5 includes a connecting rod 51 and an elastic member 52, the elastic member 52 is a connecting spring 521, a sliding groove 214 for sliding the connecting rod 51 in the horizontal direction is formed on a groove wall of the connecting groove 213, one end of the connecting spring 521 abuts against the connecting rod 51, the other end of the connecting spring 521 abuts against a groove bottom of the sliding groove 214, a fixing groove 41 for inserting the connecting rod 51 is formed on the side wall 1 of the connecting plate 4, and a guiding inclined surface 511 is further provided on the connecting rod 51.

Referring to fig. 2 and 4, when the link plate 4 moves from top to bottom toward the direction approaching the connection groove 213, the link plate 4 abuts against the guide slope 511, the link rod 51 slides away from the connection groove 213 in cooperation with the guide slope 511 until the link rod 51 is completely received in the sliding groove 214 until the link plate 4 enters the connection groove 213, and the link rod 51 communicates with the fixed groove 41, and the link rod 51 slides toward the direction approaching the connection groove 213 in response to the elastic force of the link spring 521 until the link rod 51 is inserted into the fixed groove 41. Under the action of the connecting rod 51, the effect that the connecting component 5 fixes the connecting plate 4 in the connecting groove 213 is realized, and all the connecting frames 2 are connected into a whole through the connecting plate 4.

Referring to fig. 2 and 4, the tension assembly 6 is further mounted on the lap beam 21, the tension assembly 6 includes a sliding rod 61 and a tension block 62, a sliding groove 2121 for the sliding rod 61 to slide in the horizontal direction is formed in one of the reinforcing ribs 212, an insertion groove 2122 for the sliding rod 61 to slide in the horizontal direction is formed in the other reinforcing rib 212, a moving groove 611 for the tension block 62 to slide in the vertical direction is formed in the upper end surface of the sliding rod 61, a tension spring 8 is further mounted on the sliding rod 61, one end of the tension spring 8 abuts against the tension block 62, the other end of the tension spring 8 abuts against the bottom of the moving groove 611, a tension groove 2123 for the tension block 62 to insert is formed in the upper groove wall of the insertion groove 2122, a guide surface 621 is further provided on the tension block 62, and the guide surface 621 is arranged to incline upward in the direction away from the sliding groove 2121.

Referring to fig. 2 and 4, the control member 7 is further mounted on the reinforcing rib 212, the control member 7 is a control rod 71, a control groove 215 into which the control rod 71 is inserted is formed at the bottom of the connecting groove 213, the control groove 215 penetrates the reinforcing rib 212, the control groove 215 communicates with the slide groove 2121, the slide rod 61 is provided with a guide surface 612, and the guide surface 612 is obliquely upward in a direction away from the control rod 71.

Referring to fig. 2 and 4, when the connecting plate 4 is lowered into the connecting groove 213, the connecting plate 4 drives the control rod 71 to be lowered, the control rod 71 abuts against the guide surface 612, and the sliding rod 61 slides away from the control rod 71 under the cooperation of the guide surface 612 until the sliding rod 61 is inserted into the insertion groove 2122. At this time, under the action of the elastic force of the tension spring 8, the tension block 62 slides away from the sliding rod 61, and the two abutment beams 21 approach each other under the cooperation of the notch of the tension groove 2123 and the guide surface 621, so that the tension assembly 6 tensions the two abutment beams 21.

The implementation principle of steel frame crossbeam for steel construction factory building of this application embodiment does:

the mounting plate 211 is inserted into the mounting groove 11, the mounting screw 31 is rotated to enable the mounting screw 31 to penetrate through the mounting plate 211 and to be inserted into the stabilizing groove 13, the mounting plate 211 is fixed, and the lap beams 21 on all the connecting frames 2 are sequentially mounted. Then the hoisting connection plate 4 descends until being inserted into all the connection grooves 213, the connection rod 51 is inserted into the fixed groove 41 under the action of the elastic force of the connection spring 521, the fixed installation of the connection plate 4 is completed, meanwhile, the connection plate 4 drives the control rod 71 to descend, the sliding rod 61 is inserted into the insertion groove 2122 under the cooperation of the guide surface 612, the tensioning block 62 ascends under the action of the tensioning spring 8, the two abutting beams 21 are mutually tensioned under the cooperation of the notch of the tensioning groove 2123 and the guide surface 621, and all the connection frames 2 are sequentially installed. The effect of convenient installation is realized.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a steel frame crossbeam for steel construction factory building which characterized in that: including two lateral wall (1) and a plurality of link (2) that are parallel to each other, link (2) include two and take and lean on roof beam (21), two take and lean on roof beam (21) and set up downwards towards the direction slope of keeping away from mutually, two it still is provided with between roof beam (21) and takes two and lean on roof beam (21) taut subassembly (6) that roof beam (21) is taut each other, and two take and lean on one side that roof beam (21) kept away from mutually and all be provided with mounting panel (211), lateral wall (1) is seted up and is supplied mounting panel (211) male mounting groove (11), be provided with on lateral wall (1) and fix mounting panel (211) installed part (3) in mounting groove (11), two install connecting plate (4) between lateral wall (1), two take and lean on one side that roof beam (21) are close to mutually and all set up spread groove (213) of supplying connecting plate (4) card to go into, connecting plate (4) insert simultaneously in all spread groove (213), it is provided with coupling assembling component (5) of fixing connecting plate (4) in connecting groove (213) to take on roof beam (21).

2. The steel frame beam for the steel structure factory building of claim 1, wherein: the mounting piece (3) is a mounting screw (31) sliding on the side wall (1), and a thread groove (2111) matched with the thread part of the mounting screw (31) is formed in the mounting plate (211).

3. The steel frame beam for the steel structure factory building of claim 2, wherein: mounting screw (31) pass mounting panel (211), offer on mounting groove (11) cell wall and supply stabilizing groove (13) that mounting screw (31) were gone into.

4. The steel frame beam for the steel structure factory building of claim 1, wherein: coupling assembling (5) are including connecting rod (51) and elastic component (52), connecting rod (51) horizontal direction slides on putting up beam (21), offer on connecting plate (4) and supply connecting rod (51) male fixed slot (41), elastic component (52) are given connecting rod (51) all the time and are being close to the elasticity that fixed slot (41) direction slided, connecting rod (51) are equipped with and supply connecting plate (4) butt and control connecting rod (51) towards keeping away from leading inclined plane (511) that fixed slot (41) direction slided.

5. The steel frame beam for the steel structure factory building of claim 4, wherein: the elastic piece (52) is a connecting spring (521), a sliding groove (214) for sliding the connecting rod (51) in the horizontal direction is formed in the groove wall of the connecting groove (213), one end of the connecting spring (521) abuts against the connecting rod (51), and the other end of the connecting spring (521) abuts against the groove bottom of the sliding groove (214).

6. The steel frame beam for the steel structure factory building of claim 5, wherein: and reinforcing ribs (212) are respectively arranged on one sides, close to the two abutting beams (21), of the two abutting beams, and the end faces of the two sides, close to the reinforcing ribs (212), of the two reinforcing ribs are attached to each other.

7. The steel frame beam for the steel structure factory building of claim 6, wherein: the tensioning assembly (6) comprises a sliding rod (61) sliding on a reinforcing rib (212) in the horizontal direction and a tensioning block (62) sliding on the sliding rod (61) in the vertical direction, an insertion groove (2122) for inserting the sliding rod (61) is formed in the adjacent reinforcing rib (212), a tensioning groove (2123) for inserting the tensioning block (62) is formed in the groove wall of the insertion groove (2122), a tensioning spring (8) for controlling the tensioning block (62) to slide towards the direction close to the tensioning groove (2123) is arranged on the sliding rod (61), a guide surface (621) for abutting against the notch of the tensioning groove (2123) and controlling the tensioning block (62) to slide towards the direction close to the groove bottom of the insertion groove (2122) is arranged on the tensioning block (62), and a control part (7) for controlling the sliding rod (61) to slide towards the direction close to the insertion groove (2122) is arranged on one of the abutting beams (21).

8. The steel frame beam for the steel structure factory building of claim 7, wherein: the control piece (7) is a control rod (71) which slides on the bottom of the connecting groove (213) in the vertical direction, and a guide surface (612) which is used for enabling the descending control rod (71) to abut against and controlling the sliding rod (61) to slide towards the direction far away from the control rod (71) is arranged on the sliding rod (61).

Images