CN219411904U - Building steel construction engineering component rotating device - Google Patents

Abstract

The utility model discloses a rotating device for a construction steel structure engineering component, which comprises a hoisting frame, a frame mechanism, a rotating mechanism and a buffer mechanism, wherein the hoisting frame is arranged on a lifting hook of hoisting equipment, the frame mechanism is used for providing support for the steel structure component, the rotating mechanism is used for providing rotating support for the frame mechanism, the buffer mechanism is used for buffering the frame mechanism and the rotating mechanism, the frame mechanism is positioned below the hoisting frame, the rotating mechanism is positioned at the inner side of the hoisting frame and at the upper part of the frame mechanism, and the buffer mechanism is positioned between the frame mechanism and the rotating mechanism.

Description

Building steel construction engineering component rotating device

Technical Field

The utility model relates to the technical field of steel structure engineering, in particular to a rotating device for a building steel structure engineering component.

Background

Compared with the traditional concrete building, the steel structure building has the advantages that steel plates or section steel are used for replacing reinforced concrete, the strength is higher, the shock resistance is better, and as the components can be manufactured in a factory and installed on site, the construction period is greatly shortened, the construction waste can be greatly reduced due to the repeated utilization of the steel, the steel structure building is more environment-friendly, and is widely adopted by various countries in the world, the steel structure building is applied to industrial buildings and civil buildings, a plurality of large steel structure components which are tens of meters in weight are used in the steel structure building industry, in the construction process, the steel structure components are required to be rotated due to assembly problems, so that assembly construction work is completed, the component rotating device of the steel structure building is a device for hoisting the components in the installation and use process and is convenient for adjusting the installation direction of the components, the use end of a steel wire rope on the steel structure building is generally bound with the middle part of the components, the steel rope is relatively poor in stability, the steel structure component binding is not stable, the steel structure component binding is relatively poor in the fixing and is carried out, meanwhile, the hoisting operation is cumbersome, the steel rope is easy to loosen, the steel rope is relatively poor in the practical and poor in the adjustment process is relatively poor in the use.

The application number is: the utility model patent of 202121331117.X discloses a rotating device of a constructional steel structural engineering member, which comprises a round rod connected to the surface of an outer frame in a threaded manner, wherein a rotatable round frame is sleeved on the surface of the round rod, one end, far away from the round rod, of the round frame is fixedly connected with a square frame, the inner wall of the square frame is fixedly connected with an L-shaped plate, the upper surface of the L-shaped plate is fixedly connected with a compression spring, a connecting plate is inserted into the inner wall of the square frame, and one side of the L-shaped plate is connected with a first long rod through a bolt. However, the rotating device for the construction steel structure engineering member is complex in structure, can not buffer the lifting piece and the steel structure in the lifting and rotating process, can cause rigid interference between the lifting piece and the steel structure in the lifting and rotating process to generate damage, can adjust and position the frame by adjusting the length of the rod body, can not directly butt and position frame plates with different specifications, and is poor in positioning stability.

Disclosure of Invention

The utility model aims to provide a rotating device for a construction steel structure engineering member.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model provides a building steel construction engineering component rotating device, includes the hoist and mount frame, the hoist and mount frame disposes on the lifting hook of lifting device, still including the frame mechanism that is used for providing support for steel construction component, be used for providing the slewing mechanism that rotates the support for frame mechanism and be used for carrying out the buffer gear who buffers frame mechanism and slewing mechanism, frame mechanism is located hoist and mount frame's below, slewing mechanism is located hoist and mount frame's inboard just is located frame mechanism's upper portion, buffer gear is located between frame mechanism and the slewing mechanism.

The frame mechanism comprises a supporting frame, a frame reinforcing plate and a frame cross beam, wherein the supporting frame is configured below the hoisting frame through a rotating mechanism, the supporting frame is composed of a plurality of groups of structural steel with end parts mutually connected, the frame reinforcing plate is provided with a plurality of groups, the frame reinforcing plate is respectively arranged at the inner side corner of the supporting frame and fixedly connected with the supporting frame, and the frame cross beam is arranged at the middle part of the upper end of the supporting frame and fixedly connected with the supporting frame.

The frame support rod is symmetrically arranged on the inner side of the supporting frame and fixedly connected with the supporting frame, and a frame reinforcing plate is arranged between the frame support rod and the supporting frame.

The rotating mechanism comprises a rotating motor, a rotating base, a rotating bolt, a connecting component and a positioning component, wherein the rotating motor is arranged on the inner side of the lifting frame and fixedly connected with the lifting frame, the output end of the rotating motor is arranged downwards and penetrates through the lifting frame, the rotating base is arranged at the output end of the rotating motor and fixedly connected with the output end of the rotating motor, the rotating base is positioned at the bottom of the lifting frame and is internally provided with an internal thread, and the rotating bolt is arranged on one side of the rotating base and penetrates through the rotating base and is in threaded connection with the rotating base.

The connecting assembly comprises a connecting rod and a connecting nut, wherein the connecting rod is arranged at the lower part of the rotating base and the upper part of the connecting rod is in threaded connection with the rotating base, a positioning through hole is formed in the upper part of the connecting rod, the rotating bolt penetrates through the positioning through hole in the upper part of the connecting rod, the lower part of the connecting rod penetrates through the frame beam and partially protrudes out of the frame beam, the connecting nut is arranged at the lower part of the frame beam and in threaded connection with the connecting rod, and the connecting nut is positioned at the bottom of the frame beam.

The locating component comprises a locating support, locating screws and locating plates, wherein the locating support is arranged at the lower part of the connecting rod and is fixedly connected with the connecting rod through pins, the locating screws are arranged in two groups, the locating screws are symmetrically arranged at two sides of the locating support and are in threaded connection with the locating support, the locating plates are arranged in two groups, the locating plates are respectively arranged at two groups, one ends of the locating screws, which are oppositely arranged, are fixedly connected with the corresponding locating screws, and the locating plates are respectively arranged at two sides of the frame cross beam and are in butt joint with the side parts of the frame cross beam.

The positioning anti-slip pad is provided with two groups corresponding to the two groups of positioning plates, the two groups of positioning anti-slip pads are respectively arranged on one side of the two groups of positioning plates, which are oppositely arranged, and are fixedly connected with the corresponding positioning plates, and the positioning plates are in butt joint with the side parts of the frame cross beams through the positioning anti-slip pads.

The buffer mechanism comprises two groups of buffer bases, buffer sleeves, buffer supporting rods and buffer components, wherein the buffer bases are symmetrically arranged on two sides of the upper end of the supporting frame and fixedly connected with the supporting frame, the buffer sleeves are sleeved on the upper portion of the connecting rod and are in sliding connection with the connecting rod, the buffer supporting rods are arranged in two groups, each group of buffer supporting rods consists of two rod bodies which are oppositely arranged, the two groups of buffer supporting rods are respectively arranged between the two groups of buffer bases and the buffer sleeves, two ends of the buffer supporting rods are respectively connected with the corresponding buffer bases and the corresponding buffer sleeves in a rotating mode, and the buffer components are arranged in two groups and are respectively configured in the middle of the two groups of buffer supporting rods.

The buffer assembly comprises two buffer base blocks and buffer springs, wherein the two buffer base blocks are arranged in two groups, the two buffer base blocks are respectively arranged at one ends of each group of buffer supporting rods, which are oppositely arranged, and are fixedly connected with the corresponding rod bodies, and the buffer springs are arranged between the two buffer base blocks, and the two ends of each buffer spring are respectively fixedly connected with the two buffer base blocks.

The lifting frame is arranged on a lifting hook of lifting equipment through the lifting seat.

The beneficial effects of the utility model are as follows:

simple structure is equipped with frame mechanism, can provide stable erection bracing for steel structural member through its sectional type bearing capacity, is equipped with slewing mechanism, can directly carry out the butt location to the frame crossbeam of different specifications through its locating component, and positioning stability is good to can drive frame mechanism and stably rotate, be equipped with buffer gear, can cushion frame mechanism and slewing mechanism at hoist and mount rotation in-process, effectively prevent to appear rigid interference and produce the damage between hoist and mount rotation in-process frame mechanism and the slewing mechanism.

Drawings

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

FIG. 2 is a schematic illustration of the coupling assembly and positioning assembly of the present utility model mated with a frame rail;

FIG. 3 is a schematic view of the buffering mechanism of the present utility model.

In the figure: 1. hoisting the frame; 2. a support frame; 3. a frame reinforcing plate; 4. a frame cross beam; 5. a frame strut; 6. a rotating motor; 7. rotating the base; 8. rotating the bolt; 9. a connecting rod; 10. a coupling nut; 11. a positioning bracket; 12. positioning a screw; 13. a positioning plate; 14. positioning an anti-slip pad; 15. a buffer base; 16. a buffer sleeve; 17. a buffer support rod; 18. buffering the base block; 19. a buffer spring; 20. and (5) hoisting the seat.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings,

the utility model discloses a rotating device for a building steel structure engineering component, which comprises a lifting frame 1, wherein the lifting frame 1 is arranged on a lifting hook of lifting equipment, and further comprises a frame mechanism for providing support for the steel structure component, a rotating mechanism for providing rotating support for the frame mechanism, and a buffer mechanism for buffering the frame mechanism and the rotating mechanism, wherein the frame mechanism is positioned below the lifting frame 1, the rotating mechanism is positioned at the inner side of the lifting frame 1 and is positioned at the upper part of the frame mechanism, and the buffer mechanism is positioned between the frame mechanism and the rotating mechanism.

The frame mechanism comprises a supporting frame 2, a frame reinforcing plate 3 and a frame cross beam 4, wherein the supporting frame 2 is configured below the hoisting frame 1 through a rotating mechanism, the supporting frame 2 is composed of a plurality of groups of structural steel with end parts mutually connected, the frame reinforcing plate 3 is provided with a plurality of groups, the plurality of groups of frame reinforcing plates 3 are respectively arranged at the inner side corners of the supporting frame 2 and fixedly connected with the supporting frame 2, the frame cross beam 4 is arranged at the middle part of the upper end of the supporting frame 2 and fixedly connected with the supporting frame 2, the frame mechanism is matched with the supporting frame 2, the frame reinforcing plate 3 and the frame cross beam 4 to form a frame structure, the frame structure provides mounting support for a steel structural member, the supporting frame 2 is used as the frame structure to provide mounting support for the steel structural member, the frame reinforcing plate 3 is used for improving the strength and the connection stability of the supporting frame 2, and the frame cross beam 4 is used as a connection foundation on the supporting frame 2 to provide mounting support for the rotating mechanism.

Still include frame branch 5, frame branch 5 is equipped with two sets of, and two sets of frame branch 5 symmetrical arrangement are at the inboard of braced frame 2 and with braced frame 2 fixed connection, are equipped with frame reinforcing plate 3 between frame branch 5 and the braced frame 2, and wherein, frame branch 5 is used for constituting sectional type bearing structure with braced frame 2 and promotes braced frame 2's intensity and stability.

The rotating mechanism comprises a rotating motor 6, a rotating base 7, a rotating bolt 8, a connecting component and a positioning component, wherein the rotating motor 6 is arranged on the inner side of the lifting frame 1 and fixedly connected with the lifting frame 1, the output end of the rotating motor 6 is downwards arranged and penetrates through the lifting frame 1, the rotating base 7 is arranged on the output end of the rotating motor 6 and fixedly connected with the output end of the rotating motor 6, the rotating base 7 is arranged at the bottom of the lifting frame 1 and is internally provided with internal threads on the inner side of the rotating base 7, the rotating bolt 8 is arranged on one side of the rotating base 7 and penetrates through the rotating base 7 and is in threaded connection with the rotating base 7, the rotating mechanism drives the supporting frame 2 to rotate according to the use requirement, the rotating motor 6 is used for providing mounting support for the rotating base 7 and driving the rotating base 7 to rotate, the connecting component is driven to rotate under the action of the rotating motor 6, the rotating bolt 8 is used for positioning the connecting component and the rotating base 7, and the connecting component is used as a connecting structure to connect the rotating base 7 with the rotating base 4 to the frame 4, and the connecting component is used for positioning the frame 4 to be connected with the rotating frame 4 to the frame 4, and the frame 4 is relatively connected with the rotating component to the rotating frame 4.

The coupling assembling includes connecting rod 9 and coupling nut 10, connecting rod 9 sets up in the lower part of rotating base 7 and its upper portion and rotates base 7 threaded connection, the upper portion of connecting rod 9 is equipped with the location through-hole, the location through-hole that rotates bolt 8 run through connecting rod 9 upper portion, frame crossbeam 4 is run through to the lower part of connecting rod 9 and part protrusion in frame crossbeam 4, coupling nut 10 sets up in the connecting rod 9 outstanding in the lower part of frame crossbeam 4 and with connecting rod 9 threaded connection, coupling nut 10 is located the bottom of frame crossbeam 4, coupling assembling passes through connecting rod 9 and coupling nut 10 cooperation, will rotate base 7 and frame crossbeam 4 and be connected, wherein, connecting rod 9 is used for being connected rotating base 7 and frame crossbeam 4 as connection structure, coupling nut 10 is used for connecting the connecting rod 9 with frame crossbeam 4 and fixes a position.

The positioning assembly comprises a positioning bracket 11, positioning screws 12 and positioning plates 13, wherein the positioning bracket 11 is arranged at the lower part of the connecting rod 9 and is fixedly connected with the connecting rod 9 through pins, the positioning screws 12 are provided with two groups, the two groups of positioning screws 12 are symmetrically arranged at two sides of the positioning bracket 11 and are in threaded connection with the positioning bracket 11, the two groups of positioning plates 13 are respectively arranged at one ends of the two groups of positioning screws 12 opposite to each other and are fixedly connected with the corresponding positioning screws 12, the two groups of positioning plates 13 are respectively positioned at two sides of the frame cross beam 4 and are abutted with the side parts of the frame cross beam 4, the positioning assembly is matched with the connecting rod 9 and the frame cross beam 4 through the positioning brackets 11, the positioning screws 12 and the positioning plates 13, the positioning bracket 11 is used for providing mounting support for the positioning screws 12 and configuring the positioning screws 12 on the connecting rod 9, the positioning screws 12 are used for providing mounting support for the positioning plates 13 and adjusting the horizontal position of the positioning plates 13 through spiral rotation between the positioning screws 12 and the positioning brackets 11, and the positioning plates 13 are used for horizontally moving under the action of the positioning screws 12 so as to be abutted with the side parts of the frame cross beam 4, and the frame cross beam 4 is matched with the frame cross beam 4, and the frame assembly is shown in a schematic diagram 2.

Still including location slipmat 14, location slipmat 14 corresponds two sets of locating plates 13 and is equipped with two sets of, two sets of location slipmat 14 set up respectively in the relative one side that sets up of two sets of locating plates 13 and with corresponding locating plate 13 fixed connection, locating plate 13 is through the lateral part butt of location slipmat 14 and frame crossbeam 4, wherein, location slipmat 14 is used for as the anti-skidding structure on the locating plate 13, increase the frictional force between locating plate 13 and the frame crossbeam 4 in order to prevent to appear relative slip between locating plate 13 and the frame crossbeam 4, and location slipmat 14 can effectively protect locating plate 13 and frame crossbeam 4, prevent that both from appearing friction damage in the hoist and mount rotation process.

The buffer mechanism comprises buffer bases 15, buffer sleeves 16, buffer supporting rods 17 and buffer components, wherein the buffer bases 15 are provided with two groups, the buffer bases 15 are symmetrically arranged at two sides of the upper end of the supporting frame 2 and are fixedly connected with the supporting frame 2, the buffer sleeves 16 are sleeved on the upper part of the connecting rod 9 and are slidably connected with the connecting rod 9, the buffer supporting rods 17 are provided with two groups, each group of buffer supporting rods 17 consists of two oppositely arranged rod bodies, the two groups of buffer supporting rods 17 are respectively arranged between the two groups of buffer bases 15 and the buffer sleeves 16, the two ends of the buffer supporting rods 17 are respectively in rotary connection with the corresponding buffer bases 15 and the buffer sleeves 16, the buffer components are provided with two groups of buffer components, the two groups of buffer components are respectively arranged in the middle of the two groups of buffer supporting rods 17, the buffer mechanism is in buffer connection with the frame mechanism through the buffer bases 15, the buffer sleeves 16, the buffer supporting rods 17 and the buffer components through elastic structures of the buffer components, so that damage caused by rigid interference of the buffer supporting rods in the hoisting and rotation process is prevented, the buffer bases 15 are used as supporting bases on the supporting frames 2, one ends of the buffer supporting rods 17 are provided with mounting support, the buffer supporting sleeves 16 are used as supporting structures on the connecting rod 9, the supporting structures can be slidably used as supporting structures on the connecting rod bodies, the buffer supporting rods 17 are respectively provided with the buffer supporting structures, the buffer supporting rods 17 are respectively, and the buffer structures are provided with the elastic structures are used as the buffer structures and the buffer structures are provided under the buffer structures by the buffer structures and are respectively.

The buffer assembly comprises two groups of buffer base blocks 18 and buffer springs 19, wherein the buffer base blocks 18 are provided with two groups of buffer base blocks 18, the two groups of buffer base blocks 18 are respectively arranged at one ends of two rod bodies in each group of buffer support rods 17, which are oppositely arranged, and are fixedly connected with the corresponding rod bodies, the buffer springs 19 are arranged between the two groups of buffer base blocks 18, the two ends of the buffer springs are respectively fixedly connected with the two groups of buffer base blocks 18, the buffer assembly is matched with the buffer springs 19 through the buffer base blocks 18 to form an elastic buffer structure on the buffer support rods 17, the buffer base blocks 18 are used for providing mounting support for the buffer springs 19 and connecting the buffer springs 19 with the buffer support rods 17, and the buffer springs 19 are used for forming the elastic buffer structure on the buffer support rods 17 through the elastic structure of the buffer springs 19, so that buffer connection between the rotating mechanism and the frame mechanism is realized.

Still include hoist and mount seat 20, hoist and mount seat 20 set up in hoist and mount frame 1's upper end and with hoist and mount frame 1 fixed connection, hoist and mount frame 1 disposes on lifting hook of lifting device through hoist and mount seat 20, wherein, hoist and mount seat 20 is used for thereby being connected hoist and mount frame 1 and lifting hook as the mounting structure on hoist and mount frame 1.

Working principle:

when the steel structure members need to be hoisted and transported, the steel structure members are stacked on the supporting frame 2, the steel structure members are fixed on the supporting frame 2 in a pile, the hoisting frame 1 is arranged on a lifting hook of hoisting equipment through the hoisting seat 20, the positioning screw 12 is rotated, the positioning plate 13 is abutted against the side part of the frame cross beam 4, the relative positioning between the frame mechanism and the connecting component is realized, then the hoisting equipment is operated to hoist and transport the steel structure members, in the transportation process, when the supporting frame 2 needs to rotate, the connecting rod 9 is driven to rotate through the rotating motor 6, so that the supporting frame 2 is driven to rotate, the angle adjustment of the steel structure members is realized, and all components in the rotating mechanism, the connecting component, the positioning component and the buffer mechanism can be detached and replaced, so that the steel structure member is convenient to maintain.

The utility model has the beneficial effects that the structure is simple, the frame mechanism is arranged, stable mounting support can be provided for the steel structural member through the sectional type supporting structure, the bearing capacity is strong, the rotating mechanism is arranged, the frame beams with different specifications can be directly abutted and positioned through the positioning assembly, the positioning stability is good, the frame mechanism can be driven to stably rotate, the buffer mechanism is arranged, the frame mechanism and the rotating mechanism can be buffered in the hoisting and rotating process, and the damage caused by rigid interference between the frame mechanism and the rotating mechanism in the hoisting and rotating process is effectively prevented.

The foregoing describes one embodiment of the present utility model in detail, but the disclosure is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (10)

1. The utility model provides a building steel construction engineering component rotating device, includes hoist and mount frame (1), hoist and mount frame (1) disposes on lifting hook of lifting device, its characterized in that still includes the frame mechanism that is used for providing support for steel construction component, is used for providing the slewing mechanism that rotates the support for frame mechanism and is used for carrying out buffer gear to frame mechanism and slewing mechanism, and frame mechanism is located hoist and mount frame (1) below, slewing mechanism is located hoist and mount frame (1) inboard and be located frame mechanism's upper portion, buffer gear is located between frame mechanism and the slewing mechanism.

2. The rotating device for the construction steel structural engineering components according to claim 1, wherein the frame mechanism comprises a supporting frame (2), a frame reinforcing plate (3) and a frame cross beam (4), the supporting frame (2) is configured below the hoisting frame (1) through the rotating mechanism, the supporting frame (2) is composed of a plurality of groups of structural steel with end parts mutually connected, the frame reinforcing plate (3) is provided with a plurality of groups, the plurality of groups of frame reinforcing plates (3) are respectively arranged at inner side corners of the supporting frame (2) and are fixedly connected with the supporting frame (2), and the frame cross beam (4) is arranged at the middle part of the upper end of the supporting frame (2) and is fixedly connected with the supporting frame (2).

3. The rotating device for the construction steel structural engineering component according to claim 2, further comprising two groups of frame struts (5), wherein the two groups of frame struts (5) are symmetrically arranged on the inner side of the supporting frame (2) and fixedly connected with the supporting frame (2), and a frame reinforcing plate (3) is arranged between the frame struts (5) and the supporting frame (2).

4. A construction steel construction engineering component rotating means according to claim 3, characterized in that the rotating means comprises a rotating motor (6), a rotating base (7), a rotating bolt (8), a connecting assembly and a positioning assembly, the rotating motor (6) is arranged on the inner side of the lifting frame (1) and fixedly connected with the lifting frame (1), the output end of the rotating motor (6) is arranged downwards and penetrates through the lifting frame (1), the rotating base (7) is arranged at the output end of the rotating motor (6) and fixedly connected with the output end of the rotating motor (6), the rotating base (7) is arranged at the bottom of the lifting frame (1) and is provided with internal threads on the inner side of the rotating base (7), and the rotating bolt (8) is arranged on one side of the rotating base (7) and penetrates through the rotating base (7) to be in threaded connection with the rotating base (7).

5. The rotating device for the construction steel structural engineering components according to claim 4, wherein the connecting assembly comprises a connecting rod (9) and a connecting nut (10), the connecting rod (9) is arranged at the lower part of the rotating base (7) and the upper part of the connecting rod is in threaded connection with the rotating base (7), a positioning through hole is formed in the upper part of the connecting rod (9), the rotating bolt (8) penetrates through the positioning through hole in the upper part of the connecting rod (9), the lower part of the connecting rod (9) penetrates through the frame beam (4) and partially protrudes out of the frame beam (4), the connecting nut (10) is arranged at the lower part of the connecting rod (9) protruding out of the frame beam (4) and is in threaded connection with the connecting rod (9), and the connecting nut (10) is positioned at the bottom of the frame beam (4).

6. The rotating device for the construction steel structural engineering component according to claim 5, wherein the positioning assembly comprises a positioning bracket (11), positioning screws (12) and positioning plates (13), the positioning bracket (11) is arranged at the lower part of the connecting rod (9) and is fixedly connected with the connecting rod (9) through pins, the positioning screws (12) are provided with two groups, the two groups of positioning screws (12) are symmetrically arranged at two sides of the positioning bracket (11) and are in threaded connection with the positioning bracket (11), the positioning plates (13) are provided with two groups, the two groups of positioning plates (13) are respectively arranged at one ends of the two groups of positioning screws (12) which are oppositely arranged and are fixedly connected with the corresponding positioning screws (12), and the two groups of positioning plates (13) are respectively arranged at two sides of the frame beam (4) and are in butt joint with the side parts of the frame beam (4).

7. The rotating device for the construction steel structure engineering component according to claim 6, further comprising positioning anti-slip pads (14), wherein the positioning anti-slip pads (14) are provided with two groups corresponding to two groups of positioning plates (13), the two groups of positioning anti-slip pads (14) are respectively arranged on one side of the two groups of positioning plates (13) opposite to each other and fixedly connected with the corresponding positioning plates (13), and the positioning plates (13) are abutted with the side parts of the frame cross beam (4) through the positioning anti-slip pads (14).

8. The construction steel structure engineering component rotating device according to claim 7, wherein the buffer mechanism comprises buffer bases (15), buffer sleeves (16), buffer supporting rods (17) and buffer components, the buffer bases (15) are provided with two groups, the two groups of buffer bases (15) are symmetrically arranged on two sides of the upper end of the supporting frame (2) and fixedly connected with the supporting frame (2), the buffer sleeves (16) are sleeved on the upper parts of the connecting rods (9) and are in sliding connection with the connecting rods (9), the buffer supporting rods (17) are provided with two groups, each group of buffer supporting rods (17) consists of two oppositely arranged rod bodies, the two groups of buffer supporting rods (17) are respectively arranged between the two groups of buffer bases (15) and the buffer sleeves (16) and are respectively in rotating connection with the corresponding buffer bases (15) and the corresponding buffer sleeves (16), the buffer components are provided with two groups, and the two groups of buffer components are respectively configured in the middle parts of the two groups of buffer supporting rods (17).

9. The construction steel structure engineering component rotating device according to claim 8, wherein the buffer assembly comprises buffer base blocks (18) and buffer springs (19), the buffer base blocks (18) are provided with two groups, the two groups of buffer base blocks (18) are respectively arranged at one ends of two rod bodies in each group of buffer support rods (17) which are oppositely arranged and are fixedly connected with the corresponding rod bodies, and the buffer springs (19) are arranged between the two groups of buffer base blocks (18) and are respectively fixedly connected with the two groups of buffer base blocks (18) at two ends.

10. The rotating device for the construction steel structural engineering component according to claim 9, further comprising a lifting seat (20), wherein the lifting seat (20) is arranged at the upper end of the lifting frame (1) and is fixedly connected with the lifting frame (1), and the lifting frame (1) is configured on a lifting hook of lifting equipment through the lifting seat (20).