CN222183679U - A high load building frame structure for construction - Google Patents

Abstract

The utility model relates to the technical field of construction engineering, and discloses a high-load building frame structure for construction, including two mutually parallel first I-beams, a second I-beam is arranged between adjacent first I-beams, two groups of reinforcing plates are respectively fixedly connected to the inner sides of the two first I-beams near the two sides of the second I-beam, one side of the two reinforcing plates located on the front side of the second I-beam is matched with a mounting frame, one side of the two reinforcing plates located on the rear side of the second I-beam is respectively penetrated with two groups of reinforcing bolts, the front ends of several reinforcing bolts in each group pass through a reinforcing plate, a second I-beam and another reinforcing plate in turn and are connected with nuts, and a placing mechanism is arranged on the front side of the mounting frame. The utility model can place the nuts to be installed in advance, which is convenient for the staff to quickly install them with a tightening gun.

Description

High-load building frame structure for building

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a high-load building frame structure for a building.

Background

The high-load frame structure mainly comprises beams, plates, columns and foundations, wherein the joints of the beams and the columns are rigid joints, the foundations of the columns are mostly rigid joint foundations, and sometimes are made into hinged joints, the structure belongs to a hyperstatic structure, in mechanical calculation, the structure is commonly called a rigid frame, the frame structure can be divided into a steel frame, a concrete frame, a laminated wood structure frame or a steel and reinforced concrete mixed frame and the like according to materials, the most commonly used structure is a concrete frame, and the structure comprises cast-in-situ type, assembled type and integrally assembled type, and prestressing force can be applied according to requirements, wherein the steel frame mainly comprises I-shaped steel;

The Chinese patent CN212376026U discloses a reinforced steel at the joint of a steel structure, and four H-shaped steel is fixed by a first L-shaped panel, a second L-shaped panel, a third L-shaped panel, a first 匚 -shaped panel, a second 匚 -shaped panel, a third 匚 -shaped panel and an inverted U-shaped panel as the reinforced steel, so that the joint of the four H-shaped steel is more stable, the strength is higher, the rigidity is good, the joint of the four H-shaped steel and the reinforced steel adopts screws, and the installation is rapid and the construction is easy;

But this patent is installing the concatenation when installing a plurality of I-steel, needs to use a plurality of reinforcing bolts and nut to install fixedly, before the nut screw in reinforcing bolt, needs the staff to screw in first on the reinforcing bolt with the hand, then screw up the rifle and install, because lack the mechanism of placing and assisting the installation to a plurality of nuts that need install, lead to appearing I-steel basis great, the staff is difficult to the phenomenon of location to the nut in the eminence, based on this, we propose a high load building frame construction for building.

Disclosure of utility model

The utility model aims to provide a high-load building frame structure for building, which solves the problems in the prior art.

The technical scheme of the utility model is as follows:

The high-load building frame structure for the building comprises two first I-beams which are parallel to each other, wherein a second I-beam is arranged between the adjacent first I-beams, two groups of reinforcing plates are fixedly connected to the inner sides of the two first I-beams close to the two sides of the second I-beam respectively, mounting frames are arranged on one sides of the two reinforcing plates positioned on the front side of the second I-beam in a matched mode, two groups of reinforcing bolts are respectively arranged on one sides of the two reinforcing plates positioned on the rear side of the second I-beam in a penetrating mode, and the front ends of a plurality of reinforcing bolts in each group sequentially penetrate through one reinforcing plate, the second I-beam and the other reinforcing plate and then are connected with nuts;

The front side of mounting bracket is provided with places the mechanism, place the mechanism and include the rotor plate, the mounting hole has all been seted up to the both sides of mounting bracket, the inside fixedly connected with a plurality of dead lever of mounting hole, dead lever outer wall sliding connection has the slider, the inboard fixedly connected with mounting panel of slider, the embedding hole has been seted up on the mounting panel, the rotor plate has a plurality of, and each rotor plate outer wall rotates with each embedding hole inner wall respectively to be connected, the rotor plate is seted up and is placed the hole, and the shape of placing the hole is the same with the appearance of nut, and the nut can slide along the axial and embed and place downthehole.

The mounting bracket outside is provided with restriction mechanism, and restriction mechanism is located the rear side of placing the mechanism, restriction mechanism includes the deflector, equal fixedly connected with first screw rod in mounting bracket one side top and bottom, first screw rod front side is provided with the supporting shoe, threaded hole has been seted up to the supporting shoe inboard, first screw rod and threaded hole threaded connection, supporting shoe outside threaded connection has the second screw rod, the deflector outside is through bearing frame and second screw rod one end rotation connection.

The deflector is the arc, and its inner wall can laminate with the reinforcing bolt outer wall.

The inner wall of the placement hole is embedded with a magnetic sheet, and the outer wall of the nut is magnetically connected with the side surface of the magnetic sheet.

The inside magnetic stripe that inlays of mounting bracket, the mounting bracket can be connected with the reinforcing plate that is located the second I-steel front side through the magnetic stripe.

The utility model provides a high-load building frame structure for building through improvement, which has the following improvement and advantages compared with the prior art:

According to the utility model, the mounting frame is conveniently positioned outside the reinforcing bolts through the guide plates and the magnetic strips, the nuts are conveniently adsorbed in the placing holes through the magnetic sheets, when a worker uses the tightening gun to install the reinforcing bolts, the mounting plate drives the sliding block to slide on the fixing rod, the rotating plate rotates along with the nuts, and the nuts and the reinforcing bolts are tightened.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a schematic view of a portion of the structure of the present utility model;

FIG. 4 is a schematic diagram of a portion of a second embodiment of the present utility model;

FIG. 5 is a schematic diagram of a portion of a third embodiment of the present utility model;

Fig. 6 is a schematic diagram of a portion of the structure of the present utility model.

Reference numerals illustrate:

1. A first I-steel; 2, a second I-steel, 3, a reinforcing plate, 4, a reinforcing bolt, 5, a mounting rack, 6, a magnetic strip, 7, a mounting hole, 8, a fixed rod, 9, a sliding block, 10, a mounting plate, 11, an embedded hole, 12, a rotating plate, 13, a placing hole, 14, a magnetic sheet, 15, a first screw rod, 16, a threaded hole, 17, a supporting block, 18, a second screw rod, 19, a guide plate, 20 and a nut.

Detailed Description

The present utility model will be further described with reference to specific embodiments, however, it will be appreciated by those skilled in the art that the detailed description herein with reference to the accompanying drawings is for better illustration, and that the utility model is not necessarily limited to such embodiments, but rather is intended to cover various equivalent alternatives or modifications, as may be readily apparent to those skilled in the art.

Fig. 1-6 illustrate a preferred embodiment of the present utility model, and the present utility model will be further described with reference to fig. 1-6.

Referring to fig. 1-6, a high-load building frame structure for a building comprises two first I-beams 1 which are parallel to each other, wherein a second I-beam 2 is arranged between the adjacent first I-beams 1, and the second I-beam 2 is vertically arranged with the two first I-beams 1. Two groups of reinforcing plates 3 are fixedly connected to the inner sides of the two first I-beams 1 near the two sides of the second I-beam 2 respectively, mounting frames 5 are arranged on one sides of the two reinforcing plates 3 located on the front side of the second I-beam 2 in a matched mode, two groups of reinforcing bolts 4 are respectively arranged on one sides of the two reinforcing plates 3 located on the rear side of the second I-beam 2 in a penetrating mode, and the front ends of the plurality of reinforcing bolts 4 in each group sequentially penetrate through the reinforcing plates 3, the second I-beam 2 and the other reinforcing plates 3 and then are connected with nuts 20, so that the second I-beam 2 is fixedly connected with the two first I-beams 1.

The front side of the mounting frame 5 is provided with a placement mechanism comprising a turning plate 12. The mounting bracket is characterized in that mounting holes 7 are formed in two sides of the mounting bracket 5, a plurality of fixing rods 8 are fixedly connected to the inside of the mounting holes 7, sliding blocks 9 are slidably connected to the outer walls of the fixing rods 8, mounting plates 10 are fixedly connected to the inner sides of the sliding blocks 9, embedding holes 11 are formed in the mounting plates 10, a plurality of rotating plates 12 are formed, the outer walls of the rotating plates 12 are respectively and rotatably connected with the inner walls of the embedding holes 11, placing holes 13 are formed in the rotating plates 12, the shapes of the placing holes 13 are identical to the shapes of nuts 20, and the nuts 20 can be axially and slidably embedded into the placing holes 13. The magnetic sheet 14 is embedded in the inner wall of the placement hole 13, and the outer wall of the nut 20 is magnetically connected with the side surface of the magnetic sheet 14. The placement mechanism is used for placing a plurality of nuts 20 in advance.

The outside of the mounting frame 5 is provided with a limiting mechanism, the limiting mechanism is used for initially positioning the mounting frame 5, and the limiting mechanism is positioned at the rear side of the placement mechanism. The limiting mechanism comprises a guide plate 19, the top and the bottom of one side of the mounting frame 5 are fixedly connected with a first screw rod 15, a supporting block 17 is arranged on the front side of the first screw rod 15, a threaded hole 16 is formed in the inner side of the supporting block 17, the first screw rod 15 is in threaded connection with the threaded hole 16, a second screw rod 18 is in threaded connection with the outer side of the supporting block 17, and the outer side of the guide plate 19 is in rotary connection with one end of the second screw rod 18 through a bearing seat. The guide plate 19 is an arc-shaped plate, and the inner wall of the guide plate can be attached to the outer wall of one of the reinforcing bolts 4, so that the guide plate is used for positioning, and the position of the mounting frame 5 is determined, so that all the reinforcing bolts 4 can be correctly abutted with the nuts 20.

The inside of the installation frame 5 is embedded with a magnetic stripe 6, and the installation frame 5 can be connected with the reinforcing plate 3 positioned on the front side of the second I-steel 2 through the magnetic stripe 6. The magnetic stripe 6 is used for fixing the position of the mounting frame 5 and is convenient for the mounting frame 5 to be disassembled and assembled.

When the utility model is used, firstly, a plurality of nuts 20 to be installed are embedded in the placing holes 13 in a sliding way, most of the structures are exposed outside the placing holes 13, the operation of screwing the gun is convenient, and the position of the nuts 20 is conveniently limited and fixed due to the magnetic connection of the magnetic sheets 14 and the nuts 20, so that the nuts are prevented from falling; then embedding one end of the second I-steel 2 between the two reinforcing plates 3 on the inner side of the first I-steel 1, penetrating the reinforcing bolts 4 through one reinforcing plate 3, the second I-steel 2 and the other reinforcing plate 3 in sequence, sleeving the mounting frame 5 on the outer sides of the reinforcing bolts 4, supporting the guide plates 19 by the second screw rods 18, enabling the inner sides of the guide plates 19 to be attached to the outer sides of one reinforcing bolt 4, positioning the mounting frame 5, fixing the mounting frame 5 on one side of the reinforcing plate 3 by virtue of the action of the magnetic strips 6, aligning all nuts 20 with the reinforcing bolts 4, then rotating the second screw rods 18 towards the outer sides of the mounting frame 5, enabling the second screw rods 18 to drive the guide plates 19 to be separated from the outer walls of the reinforcing bolts 4, and then rotating the supporting blocks 17, enabling the supporting blocks 17 to rotate ninety degrees towards the left side of the mounting frame 5 outside the first screw rods 15 through the threaded holes 16, and accordingly accommodating the supporting blocks 17, and avoiding the interference of the movement of the nuts 20;

After that, when a worker uses the tightening gun to install the nut 20, the nut 20 drives the rotating plate 12 to rotate in the embedded hole 11, and the installation plate 10 approaches to one side of the reinforcing plate 3 on the fixed rod 8 through the sliding block 9, so that the nut 20 is installed on one side of the reinforcing plate 3, and the installation of the second I-steel 2 is completed, so that the nut 20 to be installed can be placed on the installation frame 5 in advance, the worker can conveniently and quickly install the nut by using the tightening gun, and the other first I-steel 1 is installed on the other end of the second I-steel 2 by using the same method, so that a high-load building frame is formed;

After the installation is finished, the installation frame 5 is detached from the reinforcing plate 3, the attractive force of the magnetic sheet 14 and the magnetic strip 6 is small, and the installation frame can be detached manually.

Claims (5)

1. A high-load building frame structure for construction, characterized in that: it comprises two first I-beams (1) parallel to each other, a second I-beam (2) is arranged between adjacent first I-beams (1), two groups of reinforcing plates (3) are respectively fixedly connected on both sides of the inner sides of the two first I-beams (1) close to the second I-beams (2), one side of the two reinforcing plates (3) located on the front side of the second I-beams (2) are both provided with mounting frames (5), one side of the two reinforcing plates (3) located on the rear side of the second I-beams (2) are respectively penetrated with two groups of reinforcing bolts (4), and the front ends of a plurality of reinforcing bolts (4) in each group pass through a reinforcing plate (3), a second I-beam (2) and another reinforcing plate (3) in turn and are then connected with nuts (20); A placement mechanism is provided on the front side of the mounting frame (5), the placement mechanism comprising a rotating plate (12), mounting holes (7) are provided on both sides of the mounting frame (5), a plurality of fixing rods (8) are fixedly connected inside the mounting holes (7), a slider (9) is slidably connected to the outer wall of the fixing rod (8), a mounting plate (10) is fixedly connected to the inner side of the slider (9), an embedding hole (11) is provided on the mounting plate (10), a plurality of rotating plates (12) are provided, and the outer wall of each rotating plate (12) is rotatably connected to the inner wall of each embedding hole (11), the rotating plate (12) is provided with a placement hole (13), the shape of the placement hole (13) is the same as the outer shape of the nut (20), and the nut (20) can be slidably embedded in the placement hole (13) along the axial direction. 2. A high-load building frame structure for construction according to claim 1, characterized in that: a limiting mechanism is arranged on the outer side of the mounting frame (5), the limiting mechanism is located on the rear side of the placing mechanism, the limiting mechanism includes a guide plate (19), a first screw rod (15) is fixedly connected to the top and bottom of one side of the mounting frame (5), a support block (17) is arranged on the front side of the first screw rod (15), a threaded hole (16) is opened on the inner side of the support block (17), the first screw rod (15) is threadedly connected to the threaded hole (16), a second screw rod (18) is threadedly connected to the outer side of the support block (17), and the outer side of the guide plate (19) is rotatably connected to one end of the second screw rod (18) through a bearing seat. 3. A high-load building frame structure for construction according to claim 2, characterized in that: the guide plate (19) is an arc-shaped plate, and its inner wall can fit with the outer wall of the reinforcing bolt (4). 4. A high-load building frame structure for construction according to claim 1, characterized in that: a magnetic sheet (14) is embedded in the inner wall of the placement hole (13), and the outer wall of the nut (20) is magnetically connected to the side of the magnetic sheet (14). 5. A high-load building frame structure for construction according to claim 1, characterized in that: a magnetic strip (6) is embedded inside the mounting frame (5), and the mounting frame (5) can be connected to the reinforcing plate (3) located on the front side of the second I-beam (2) through the magnetic strip (6).