CN115741619A

CN115741619A - Steel support frame for constructional engineering

Info

Publication number: CN115741619A
Application number: CN202211565404.6A
Authority: CN
Inventors: 郭小琴; 陈中华; 陈艺宾; 陈巧明
Original assignee: Xiamen Jisan Construction Group Co ltd
Current assignee: Xiamen Jisan Construction Group Co ltd
Priority date: 2022-12-07
Filing date: 2022-12-07
Publication date: 2023-03-07
Anticipated expiration: 2042-12-07
Also published as: CN115741619B

Abstract

The invention discloses a steel support frame for constructional engineering, which comprises a base, wherein the bottom of the base is provided with a horizontal calibration device, and the top of the base is provided with a steel conveying device and a steel lifting device; the horizontal calibration device comprises a horizontal monitoring component and a horizontal adjusting component which are arranged at the bottom of the base; the steel conveying device comprises a mounting plate arranged at the top of the base, a telescopic adjusting component and a conveying component which are arranged on one side of the mounting plate, and baffle plates symmetrically hinged to the top of the mounting plate; the steel lifting device comprises a linear guide rail arranged at the top of a base, a plurality of material placing plates arranged at an execution end of the linear guide rail, atmospheric pressure fixing parts symmetrically arranged at the tops of the material placing plates, two groups of supporting plates symmetrically arranged at the top of the base and penetrating through the hollow parts of the material placing plates, steel arranging parts arranged at the tops of the side walls of the supporting plates, and limiting parts arranged at the tops of the side walls of the linear guide rail. The steel support frame is convenient for assisting in loading and unloading of steel and facilitating better fixation of the steel.

Description

Steel support frame for constructional engineering

Technical Field

The invention mainly relates to the technical field of constructional engineering, in particular to a steel support frame for constructional engineering.

Background

In building engineering, for the convenience support steel and put, can use the steel support frame usually, because steel quality is heavier, will consume the manpower in a large number by artifical transport loading and unloading, influence work efficiency to the problem that sideslips appears easily when the steel that supports is more, and then influences workman's safety on every side.

According to the patent document with the application number of CN202221348280.1, the adjustable steel support frame for the construction engineering is known, and the device comprises a bottom barrel; the inner side of the bottom barrel is provided with two groups of movable plates, the movable plates are connected with the bottom barrel in a sliding mode, universal wheels are fixedly mounted at the bottom ends of the movable plates, supporting blocks are fixedly mounted at the upper ends of the bottom barrel, a top barrel is fixedly mounted at the upper ends of the supporting blocks, and connecting rods are fixedly mounted on the outer sides of the supporting blocks. This steel support frame with adjustable building engineering only needs to drive the extension subassembly through drive assembly, extends the processing to the layer board through the extension subassembly, carries out spacing processing to steel through the layer board to the stable regulation processing to steel support frame capacity has been realized.

The capacity of the steel quantity adjustment support frame that the device in the above-mentioned patent was convenient for put as required, nevertheless the unloading of the supplementary steel of not being convenient for, the better fixed of steel of not being convenient for.

Disclosure of Invention

The invention mainly provides a steel support frame for constructional engineering, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a steel support frame for constructional engineering comprises a base, wherein a horizontal calibration device is arranged at the bottom of the base, and a steel conveying device and a steel lifting device are sequentially arranged at the top of the base;

the horizontal calibration device comprises a horizontal monitoring component and a horizontal adjusting component which are arranged at the bottom of the base;

the steel conveying device comprises a mounting plate, a telescopic adjusting component, a conveying component and a baffle plate, wherein the mounting plate is arranged at the top of the base and positioned on one side of the steel lifting device, the telescopic adjusting component is arranged at the bottom of one side, away from the steel lifting device, of the mounting plate, the conveying component is arranged on one side, away from the steel lifting device, of the mounting plate, and the baffle plate is symmetrically hinged to the top of the mounting plate;

steel elevating gear is including locating the linear guide at base top locates a plurality of flitches of putting of linear guide execution end, the symmetry is located put the atmospheric pressure fixed part at flitch top, it is the cavity form to put the flitch, and the symmetry is located the base top just runs through put two sets of backup pads at flitch cavity position, locate the steel arrangement component at backup pad lateral wall top, and locate linear guide lateral wall top just is located the spacing part of steel arrangement component top.

Preferably, the level monitoring part comprises a bubble level meter arranged at the bottom of the base and a camera arranged at the bottom of the base and positioned above the bubble level meter. In the preferred embodiment, the level monitoring means facilitates detection of whether the device is level.

Preferably, the horizontal adjusting component comprises a plurality of electric push rods arranged at the bottom of the base. In the preferred embodiment, leveling of the device is facilitated by leveling features.

Preferably, the telescopic adjusting component comprises a telescopic bar symmetrically arranged at the bottom of the side wall of the mounting plate and a fixing block arranged at the execution end of the telescopic bar. In the preferred embodiment, the angle of the transfer member is facilitated by a telescoping adjustment member.

Preferably, the conveying part is located including the symmetry the mounting bracket at mounting panel lateral wall top, both ends are rotated respectively and are connected two the first beam barrel of mounting bracket lateral wall, both ends are rotated respectively and are connected two the second beam barrel of fixed block lateral wall, the cover is located the first conveyer belt of first beam barrel, second beam barrel outer wall is located a plurality of material boards of taking of first conveyer belt outer wall locate one of them the locating plate of fixed block lateral wall, and locate the locating plate top just is used for the drive the second beam barrel pivoted rotates the motor. In the preferred embodiment, the steel materials are conveniently driven by the conveying component to be conveyed to the steel material arranging component for arrangement.

Preferably, the mounting frame top is equipped with the drive baffle pivoted adjusting part, adjusting part is including locating the miniature electric jar at mounting frame top to and locate the baffle lateral wall and with the connecting block that miniature electric jar execution end is connected. In the preferred embodiment, the angle of the baffle plate can be conveniently adjusted by the adjusting component, so that the steel conveyed by the conveying component slides to the steel aligning component.

Preferably, the atmospheric pressure fixing part comprises a plurality of suckers arranged at the top of the material placing plate, an air pipe arranged at the bottom of each sucker and communicated with the corresponding sucker, a positioning block arranged at one side of the material placing plate close to the linear guide rail, an air suction pump arranged at the top of the positioning block and provided with an execution end connected with one end of the air pipe, and an air outlet pipe arranged at one side of the air suction pump. In the preferred embodiment, the air between the suction cup and the steel is conveniently pumped out by the atmospheric pressure fixing component so as to fix the steel.

Preferably, the bottom of the material placing plate is provided with a first rubber layer, and the first rubber layer is used for protecting collision between the bottom of the material placing plate and lower-layer steel. In this preferred embodiment, through setting up the first rubber layer be convenient for protect the collision between flitch bottom and the lower floor steel of putting, be convenient for increase put the frictional force between flitch bottom and the lower floor steel to better fixed steel.

Preferably, the steel arranging component comprises a first rotating shaft with two ends respectively connected with one group of the supporting plate side walls in a rotating mode, a second rotating shaft with two ends respectively connected with the other group of the supporting plate side walls in a rotating mode, a second conveying belt sleeved on the outer walls of the first rotating shaft and the second rotating shaft, an installation block arranged on the supporting plate side walls and corresponding to the first rotating shaft, and a driving motor arranged on the top of the installation block and used for driving the first rotating shaft to rotate. In the preferred embodiment, the steel aligning member facilitates the alignment of the steel conveyed by the conveying member.

Preferably, the limiting component comprises a limiting plate arranged at the top of the side wall of the linear guide rail and a second rubber layer arranged at the bottom of the limiting plate. In the preferred embodiment, the material placing plate at the topmost layer is limited by the limiting component, and steel materials in the material placing plate at the topmost layer are fixed and protected by the second rubber layer.

Compared with the prior art, the invention has the beneficial effects that:

the device is convenient for assisting in loading and unloading of steel, and is convenient for better fixing of the steel.

According to the invention, the horizontal calibration of the device is realized through the horizontal calibration device, whether the device is horizontal or not is conveniently detected through the horizontal monitoring part in the horizontal calibration device, and the leveling of the device is conveniently carried out through the horizontal adjusting part;

the steel conveying device is used for conveying steel, the telescopic adjusting part is convenient for adjusting the angle of the conveying part, the conveying part is convenient for driving the steel to be conveyed to the steel arranging part for arrangement, and the adjusting part is convenient for adjusting the angle of the baffle plate, so that the steel conveyed by the conveying part slides to the steel arranging part;

realize the lift to steel through steel elevating gear, it puts the flitch lift to be convenient for drive through linear guide among the steel elevating gear, air between sucking disc and the steel of managing to find time through atmospheric pressure fixed part is convenient for, so that fix steel, be convenient for protect through setting up first rubber layer and put the collision between flitch bottom and the lower floor's steel, be convenient for increase and put the frictional force between flitch bottom and the lower floor's steel, so that better fixed steel, arrange the part through steel and be convenient for arrange the steel that comes to the conveying part conveying, be convenient for fix the protection to the steel in the flitch is put to the top through the second rubber layer.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is an isometric view of the overall construction of the present invention;

FIG. 2 is an exploded view of the horizontal alignment device of the present invention;

FIG. 3 is an exploded view of the steel material transfer apparatus according to the present invention;

FIG. 4 is an exploded view of the steel lifting device according to the present invention;

FIG. 5 is an exploded view of the structure of the steel arrangement member of the present invention;

FIG. 6 is a cross-sectional view of the overall construction of the present invention;

FIG. 7 is a side view of the overall structure of the present invention;

FIG. 8 is an enlarged view of the structure at A of the present invention.

Description of the drawings: 10. a base; 20. a horizontal calibration device; 21. a level monitoring component; 211. a bubble level; 212. a camera; 22. a horizontal adjustment member; 221. an electric push rod; 30. a steel material conveying device; 31. mounting a plate; 32. a telescopic adjustment member; 321. a telescopic bar; 322. a fixed block; 33. a conveying member; 331. a mounting frame; 332. a first beam barrel; 333. a second shaft roller; 334. a first conveyor belt; 335. a material carrying plate; 336. positioning a plate; 337. rotating the motor; 34. a baffle plate; 35. an adjustment member; 351. a miniature electric cylinder; 352. connecting blocks; 40. a steel lifting device; 41. a linear guide rail; 42. placing a material plate; 421. a first rubber layer; 43. an atmospheric pressure fixing member; 431. a suction cup; 432. an air tube; 433. positioning blocks; 434. an air pump; 435. an air outlet pipe; 44. a support plate; 45. a steel arrangement member; 451. a first rotating shaft; 452. a second rotating shaft; 453. a second conveyor belt; 454. mounting blocks; 455. a drive motor; 46. a limiting component; 461. a limiting plate; 462. a second rubber layer.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, 2 and 7, in a preferred embodiment of the present invention, a steel support for construction engineering includes a base 10, a horizontal calibration device 20 is disposed at the bottom of the base 10, and a steel conveying device 30 and a steel lifting device 40 are sequentially disposed at the top of the base 10; the horizontal calibration device 20 comprises a horizontal monitoring part 21 and a horizontal adjusting part 22 which are arranged at the bottom of the base 10; the level monitoring part 21 comprises a bubble level meter 211 arranged at the bottom of the base 10 and a camera 212 arranged at the bottom of the base 10 and above the bubble level meter 211, and the level adjusting part 22 comprises a plurality of electric push rods 221 arranged at the bottom of the base 10.

In this embodiment, when the device is used, the level monitoring unit 21 is used to check whether the device is level, and the level adjusting unit 22 is used to level the device;

further, when the level monitoring part 21 is in operation, the camera 212 captures an image of the displacement of the bubbles in the bubble level meter 211;

further, when the leveling component 22 is operated, the controller receives the image shot by the camera 212 and controls the corresponding electric push rod 221 to extend and contract according to the set image condition so as to level the device.

Referring to fig. 1, 3, 6 and 7 again, in another preferred embodiment of the present invention, the steel material conveying device 30 includes a mounting plate 31 disposed on the top of the base 10 and located on one side of the steel material lifting device 40, a telescopic adjusting member 32 disposed on the bottom of the mounting plate 31 on the side away from the steel material lifting device 40, a conveying member 33 disposed on the mounting plate 31 on the side away from the steel material lifting device 40, and baffles 34 symmetrically hinged to the top of the mounting plate 31; the telescopic adjusting component 32 is arranged on the telescopic bar 321 at the bottom of the side wall of the mounting plate 31 and on the fixing block 322 at the execution end of the telescopic bar 321, the transmission component 33 is arranged on the mounting frame 331 at the top of the side wall of the mounting plate 31 and two ends of the mounting frame 331 are respectively connected in a rotating manner, two ends of the transmission component are respectively connected with two second rollers 333 of the side wall of the fixing block 322, the first transmission belts 334 of the outer walls of the first rollers 332 and the second rollers 333 are sleeved on the first transmission belts, the plurality of belt plates 335 of the outer walls of the first transmission belts 334 are arranged on one of the first rollers and the second rollers, the positioning plate 336 of the side wall of the fixing block 322 is arranged on the top of the positioning plate 336 and is used for driving the rotating motor 337 of the second rollers 333, the top of the mounting frame 331 is provided with a driving adjusting component 35 for rotating the baffle 34, the adjusting component 35 is arranged on the top of the mounting frame 331, and is arranged on the side wall of the baffle 34 and on the connecting block 352 connected with the execution end of the miniature electric cylinder 351.

In this embodiment, after leveling, feeding is started, the telescopic adjusting component 32 adjusts the conveying component 33 to a proper angle, the conveying component 33 conveys the steel after adjustment is completed, the adjusting component 35 adjusts the baffle 34 to a proper angle, and the steel on the conveying component 33 slides to the steel arranging component 45 through the baffle 34;

further, when the telescopic adjusting component 32 works, the actuating end of the telescopic rod 321 drives the fixing block 322 to extend and retract;

further, when the conveying component 33 works, the execution end of the rotating motor 337 drives the second shaft roller 333 to rotate, the second shaft roller 333 drives the first conveying belt 334 and the first shaft roller 332 to rotate, the first conveying belt 334 drives the material carrying plate 335 to transmit, and the material carrying plate 335 drives the steel material to convey;

further, when the adjusting component 35 works, the execution end of the micro electric cylinder 351 drives the connecting block 352 to extend, and the connecting block 352 drives the baffle 34 to rotate.

Referring to fig. 1, 4, 5, 6, 7 and 8, in another preferred embodiment of the present invention, the steel lifting device 40 includes a linear guide rail 41 disposed on the top of the base 10, a plurality of material placing plates 42 disposed at the execution end of the linear guide rail 41, atmospheric pressure fixing members 43 symmetrically disposed on the top of the material placing plates 42, the material placing plates 42 are hollow, two sets of support plates 44 symmetrically disposed on the top of the base 10 and penetrating the hollow portions of the material placing plates 42, a steel arranging member 45 disposed on the top of the side wall of the support plates 44, and a limiting member 46 disposed on the top of the side wall of the linear guide rail 41 and located above the steel arranging member 45; the atmospheric pressure fixing component 43 includes a plurality of suction cups 431 disposed on the top of the material placing plate 42, an air pipe 432 disposed at the bottom of the suction cups 431 and communicated with the suction cups 431, a positioning block 433 disposed on one side of the material placing plate 42 close to the linear guide 41, an air suction pump 434 disposed on the top of the positioning block 433 and having an execution end connected to one end of the air pipe 432, and an air outlet pipe 435 disposed on one side of the air suction pump 434, wherein a first rubber layer 421 is disposed at the bottom of the material placing plate 42, the first rubber layer 421 is used for preventing collision between the bottom of the material placing plate 42 and a lower layer of steel, the steel arranging component 45 includes a first rotating shaft 451 having two ends rotatably connected to a side wall of one of the supporting plates 44, a second rotating shaft 452 having two ends rotatably connected to a side wall of the other supporting plate 44, a second conveying belt 453 sleeved on outer walls of the first rotating shaft 451 and a mounting block 454 disposed on a side wall of the supporting plate 44 corresponding to the first rotating shaft 451, and a driving motor 455 disposed on the top of the mounting block 461 and used for driving the first rotating shaft to rotate, and the limiting plate 462 disposed on the top of the linear guide 41 and the bottom of the limiting plate 462.

It should be noted that, in this embodiment, when the steel on the conveying component 33 is conveyed to the steel arranging component 45, the steel arranging component 45 arranges the steel, after the steel is arranged, the execution end of the linear guide rail 41 drives the material placing plate 42 to ascend, when the ascending height of the material placing plate 42 exceeds the steel arranging component 45, the arranged steel falls on the top of the material placing plate 42, the atmospheric pressure fixing component 43 fixes the steel, after the steel is fixed, the execution end of the linear guide rail 41 drives the material placing plate 42 with the steel fixed to ascend and arrange, and this operation is repeated until all the material placing plates 42 ascend and arrange;

when the device needs blanking, the execution end of the linear guide rail 41 drives the material placing plate 42 to descend, when the execution end descends to a position lower than the steel arranging component 45, the steel falls on the steel arranging component 45 to drive steel arrangement in the reverse direction, the steel falls on the conveying component 33 through the baffle 34, and the conveying component 33 carries out reverse conveying for blanking;

further, when the atmospheric pressure fixing unit 43 is operated, the air pump 434 evacuates air between the suction cup 431 and the steel through the air pipe 432;

further, when the steel arrangement component 45 works, the actuating end of the driving motor 455 drives the first rotating shaft 451 to rotate through the belt pulley, and the first rotating shaft 451 drives the second conveyor belt 453 and the second rotating shaft 452 to rotate;

further, when the position limiting component 46 works, the second rubber layer 462 fixes the steel materials in an anti-skidding mode.

The specific process of the invention is as follows:

the controller model is 6ES7323-1BL00-0AA 0.

When the device is used, whether the device is horizontal or not is firstly observed through the horizontal monitoring part 21, and the device is leveled by the horizontal adjusting part 22;

when the level monitoring part 21 works, the camera 212 shoots the air bubble offset image in the air bubble level meter 211;

when the horizontal adjusting component 22 works, the controller receives the image shot by the camera 212 and controls the corresponding electric push rod 221 to stretch and contract according to the set image condition so as to level the device;

after the device is leveled, feeding is started, the telescopic adjusting component 32 adjusts the conveying component 33 to a proper angle, the conveying component 33 conveys steel after the adjustment is finished, the adjusting component 35 adjusts the baffle 34 to a proper angle, and the steel on the conveying component 33 slides to the steel arranging component 45 through the baffle 34;

when the telescopic adjusting component 32 works, the execution end of the telescopic rod 321 drives the fixing block 322 to extend and retract;

when the conveying part 33 works, the execution end of the rotating motor 337 drives the second shaft roller 333 to rotate, the second shaft roller 333 drives the first conveying belt 334 and the first shaft roller 332 to rotate, the first conveying belt 334 drives the material carrying plate 335 to transmit, and the material carrying plate 335 drives the steel material to transmit;

when the adjusting component 35 works, the execution end of the micro electric cylinder 351 drives the connecting block 352 to stretch, and the connecting block 352 drives the baffle 34 to rotate;

when the steel on the conveying part 33 is conveyed to the steel arranging part 45, the steel arranging part 45 arranges the steel, after the steel is arranged, the execution end of the linear guide rail 41 drives the material placing plates 42 to ascend, when the ascending height of the material placing plates 42 exceeds the steel arranging part 45, the arranged steel falls to the tops of the material placing plates 42, the atmospheric pressure fixing part 43 fixes the steel, after the steel is fixed, the execution end of the linear guide rail 41 drives the material placing plates 42 fixed with the steel to ascend and arrange, and the operation is repeated until all the material placing plates 42 ascend and are arranged;

when the device needs blanking, the execution end of the linear guide rail 41 drives the material placing plate 42 to descend, when the execution end of the linear guide rail descends to a position lower than the steel arranging component 45, steel falls on the steel arranging component 45, the steel falls on the steel arranging component 45 to reversely drive steel arrangement, the steel falls on the conveying component 33 through the baffle 34, and the conveying component 33 reversely conveys the steel for blanking;

when the atmospheric pressure fixing part 43 works, the air pump 434 pumps out the air between the suction cup 431 and the steel through the air pipe 432;

when the steel arrangement component 45 works, the actuating end of the driving motor 455 drives the first rotating shaft 451 to rotate through the belt pulley, and the first rotating shaft 451 drives the second conveyor belt 453 and the second rotating shaft 452 to rotate;

when the position limiting component 46 works, the second rubber layer 462 fixes the steel materials in an anti-skidding mode.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. A steel support frame for constructional engineering comprises a base (10), and is characterized in that a horizontal calibration device (20) is arranged at the bottom of the base (10), and a steel conveying device (30) and a steel lifting device (40) are sequentially arranged at the top of the base (10);

the horizontal calibration device (20) comprises a horizontal monitoring part (21) and a horizontal adjusting part (22) which are arranged at the bottom of the base (10);

the steel conveying device (30) comprises a mounting plate (31) arranged at the top of the base (10) and positioned on one side of the steel lifting device (40), a telescopic adjusting component (32) arranged at the bottom of one side, far away from the steel lifting device (40), of the mounting plate (31), a conveying component (33) arranged on one side, far away from the steel lifting device (40), of the mounting plate (31), and baffles (34) symmetrically hinged to the top of the mounting plate (31);

steel elevating gear (40) is including locating linear guide (41) at base (10) top are located linear guide (41) execution end a plurality of flitchs (42) of putting, the symmetry is located put atmospheric pressure fixed part (43) at flitch (42) top, it is the cavity form to put flitch (42), and the symmetry is located base (10) top and run through put two sets of backup pads (44) at flitch (42) cavity position, locate steel arrangement component (45) at backup pad (44) lateral wall top, and locate linear guide (41) lateral wall top just is located spacing part (46) of steel arrangement component (45) top.

2. A steel support bracket for use in construction work according to claim 1 characterised in that the level monitoring means (21) comprises a bubble level (211) provided at the base of the base (10) and a camera (212) provided at the base of the base (10) above the bubble level (211).

3. A steel support bracket for use in construction work as claimed in claim 1 wherein said leveling member (22) includes a plurality of electrically powered rams (221) located at the bottom of said base (10).

4. A steel support for construction works according to claim 1, wherein the telescopic adjustment members (32) comprise telescopic bars (321) symmetrically arranged at the bottom of the side walls of the mounting plate (31), and fixing blocks (322) arranged at the execution ends of the telescopic bars (321).

5. The steel support frame for the constructional engineering as claimed in claim 4, wherein the conveying member (33) comprises mounting frames (331) symmetrically arranged at the top of the side walls of the mounting plate (31), first shaft rollers (332) with two ends respectively rotatably connected with the side walls of the two mounting frames (331), second shaft rollers (333) with two ends respectively rotatably connected with the side walls of the two fixing blocks (322), a first conveying belt (334) sleeved on the outer walls of the first shaft rollers (332) and the second shaft rollers (333), a plurality of belt material plates (335) arranged on the outer wall of the first conveying belt (334), a positioning plate (336) arranged on one of the side walls of the fixing blocks (322), and a rotating motor (337) arranged at the top of the positioning plate (336) and used for driving the second shaft rollers (333) to rotate.

6. The steel support frame for the building engineering as claimed in claim 5, wherein the top of the mounting frame (331) is provided with an adjusting component (35) for driving the baffle (34) to rotate, and the adjusting component (35) comprises a micro electric cylinder (351) arranged at the top of the mounting frame (331) and a connecting block (352) arranged on the side wall of the baffle (34) and connected with the actuating end of the micro electric cylinder (351).

7. The steel support bracket for the building engineering according to claim 1, wherein the atmospheric pressure fixing component (43) comprises a plurality of suction cups (431) disposed on the top of the material placing plate (42), an air pipe (432) disposed at the bottom of the suction cups (431) and communicated with the suction cups (431), a positioning block (433) disposed on one side of the material placing plate (42) close to the linear guide rail (41), an air suction pump (434) disposed on the top of the positioning block (433) and having an execution end connected with one end of the air pipe (432), and an air outlet pipe (435) disposed on one side of the air suction pump (434).

8. The steel support bracket for constructional engineering as claimed in claim 1, wherein the bottom of the material placing plate (42) is provided with a first rubber layer (421), and the first rubber layer (421) is used for protecting the collision between the bottom of the material placing plate (42) and the lower layer of steel.

9. The steel support frame for construction engineering as claimed in claim 1, wherein the steel arrangement member (45) includes a first shaft (451) having two ends rotatably connected to the sidewalls of one of the support plates (44), a second shaft (452) having two ends rotatably connected to the sidewalls of the other support plate (44), a second belt (453) sleeved on the outer walls of the first and second shafts (451, 452), a mounting block (454) disposed on the sidewall of one of the support plates (44) corresponding to the first shaft (451), and a driving motor (455) disposed on the top of the mounting block (454) and configured to drive the first shaft (451) to rotate.

10. The steel support bracket for building engineering of claim 1 wherein the position limiting component (46) comprises a position limiting plate (461) arranged at the top of the side wall of the linear guide rail (41), and a second rubber layer (462) arranged at the bottom of the position limiting plate (461).