CN220377540U - Spherical grid steel construction anti-seismic support device - Google Patents

Abstract

The utility model relates to the technical field of spherical grid steel structure earthquake resistance, and discloses a spherical grid steel structure earthquake resistance support device, which comprises a spherical grid main body, wherein an I-shaped steel is fixedly arranged at the bottom of the spherical grid main body, a pipeline is arranged at the top of the I-shaped steel, a limiting component for limiting the position of the pipeline is arranged on the I-shaped steel, the limiting component comprises a mounting frame, the mounting frame is L-shaped, two groups of mounting frames are symmetrically and fixedly connected to the side wall of the I-shaped steel, a mounting box is fixedly connected in the middle of one end of the mounting frame, far away from the I-shaped steel, of the two sides of the mounting frame, a bidirectional threaded rod is rotatably arranged in the middle of the mounting box, one end of the bidirectional threaded rod extends to the outer side of the mounting frame, and two symmetrical threads of the two ends of the bidirectional threaded rod are connected with a moving block.

Description

Spherical grid steel construction anti-seismic support device

Technical Field

The utility model relates to the technical field of spherical grid steel structure earthquake resistance, in particular to a spherical grid steel structure earthquake resistance bracket device.

Background

Earthquake is one of natural disasters, with burstiness and unpredictability. China is one of the countries with the most active earthquake activities and the greatest influence of earthquake disasters worldwide, and has an area of approximately 30 percent, 1/2 cities and over 80 percent of extra large cities which are positioned in a high earthquake intensity area of over 7 degrees. Thus, the earthquake-proof requirements of buildings are particularly important, and building earthquake-proof is generally composed of 3 parts, namely building structural earthquake-proof, building non-structural member earthquake-proof and building electromechanical equipment earthquake-proof. At present, more and more electromechanical devices are used in a building, when natural disasters such as earthquakes are encountered, falling is easy to occur, and safety accidents are caused by occurrence of secondary earthquakes in the building, so that a support for supporting a bridge frame is required to have better shock resistance. However, the existing anti-seismic support is mainly applied to a concrete structure, but the application of the spherical grid steel structure is not related to the building, and on the spherical grid steel structure, the spherical body cannot be welded dynamically, and the spherical grid steel structure is not easy to fix and inconvenient to install.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the spherical grid steel structure anti-seismic bracket device, which can solve the problems that the anti-seismic bracket is not easy to fix and inconvenient to install on the spherical grid steel structure.

In order to solve the technical problem, according to one aspect of the utility model, the spherical grid steel structure anti-seismic bracket device more specifically comprises a spherical grid main body, I-steel is fixedly installed at the bottom of the spherical grid main body, a pipeline is arranged at the top of the I-steel, a limiting component for limiting the position of the pipeline is installed on the I-steel, the limiting component comprises a mounting frame, the mounting frame is L-shaped, two groups of mounting frames are arranged, symmetrical fixed connection is arranged on the side wall of the I-steel, a mounting box is fixedly connected in the middle of one end of the mounting frame far away from the I-steel, a bidirectional threaded rod is rotatably installed in the middle of the mounting box, one end of the bidirectional threaded rod extends to the outer side of the mounting frame, moving blocks are symmetrically connected at two ends of the bidirectional threaded rod, inserting plates are detachably connected at the top of the moving blocks, a first fixing strip and a second fixing strip are rotatably installed at the top of the inserting plate respectively, the first fixing strip and the second fixing strip are respectively arranged at two sides of the pipeline, a buckle is fixedly connected to the top of the first fixing strip, a buckle is fixedly connected to the second buckle, and is fixedly connected to the second buckle.

Still further, the inside coupling assembling that is provided with in top of movable block, pass through coupling assembling fixes the picture peg on the movable block, coupling assembling includes the vertical slot second of seting up in the middle of the movable block top, the picture peg bottom is pegged graft in the slot second, movable groove one has been seted up to movable groove one horizontally run through in movable groove one slot second, slidable mounting has the limiting plate in the movable groove one, slot one has been seted up to the lower part of picture peg, the limiting plate runs through slot one.

Furthermore, a second movable groove is formed in the bottom of the first movable groove, a baffle is fixedly connected to the bottom end of the limiting plate, the baffle is slidably arranged in the second movable groove, and a spring for resetting the baffle is arranged in the second movable groove.

Furthermore, a sliding groove is formed in the middle of the side wall of the mounting box, a sliding block is fixedly connected to the side wall of the moving block, and the sliding block is arranged in the sliding groove in a sliding mode.

Furthermore, a plurality of groups of mounting holes are formed in the middle of the I-steel, and the mounting frame is fixedly mounted at the positions of the mounting holes through bolt pairs.

Furthermore, the first fixing strip and the second fixing strip are elastic metal sheets.

The spherical grid steel structure anti-seismic support device has the beneficial effects that:

the limiting assembly is convenient to install the pipeline on the I-steel in a limiting mode, the mounting frame in the limiting assembly is installed on the side edge of the I-steel through the bolt pair during use, then the inserting buckle is vertically inserted into the buckle, the first fixing strip and the inserting socket are rotated, the end of the inserting buckle transverse rod is clamped in the buckle, the first fixing strip and the second fixing strip are respectively overlapped on two sides of the top of the pipeline, the first fixing strip and the second fixing strip bottom inserting plate are respectively inserted into the second moving block top inserting groove, the inserting plates are placed through the connecting assembly to fall off, the moving blocks on two sides can be driven to approach the middle through the rotation of the bidirectional threaded rod, and the first fixing strip and the second fixing strip above can be pulled to be pressed on the side edge of the pipeline, so that the position of the pipeline can be fixed, and the pipeline can be stably installed on the top of the I-steel.

Through setting up coupling assembling with picture peg stable mounting on the movable block, avoid the picture peg to drop, outwards pulling limiting plate earlier during the use, extrude the spring through the baffle, later insert slot two bottoms with the picture peg when, loosen the limiting plate, promote the limiting plate to peg graft in slot one under the resilience effect of spring to can restrict the picture peg and break away from slot two.

The I-steel is provided with a plurality of groups of mounting holes, so that the mounting frame can be mounted at different positions on the I-steel through bolt pairs according to actual needs, the mounting position of a pipeline can be changed, and more use requirements are met.

Drawings

The utility model will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic structural view of a spherical grid steel structure anti-seismic bracket device of the utility model;

FIG. 2 is a front view of a spherical grid steel structure anti-seismic bracket device of the utility model;

FIG. 3 is a schematic view of a spacing assembly of a spherical grid steel structure seismic bracket assembly of the present utility model;

FIG. 4 is a schematic view of another angle of a spacing assembly of a spherical grid steel structure seismic bracket assembly of the present utility model;

fig. 5 is an enlarged schematic view of the structure at the position a of the spherical grid steel structure anti-seismic bracket device.

In the figure: 1. a spherical net rack main body; 2. i-steel; 21. a mounting hole; 3. a pipe; 4. a limit component; 41. a mounting frame; 42. a mounting box; 43. a two-way threaded rod; 44. a first fixing strip; 45. a second fixing strip; 46. inserting plate; 47. a moving block; 48. a clasp ring; 49. inserting and buckling; 410. a slide block; 411. a bolt pair; 412. a chute; 5. a connection assembly; 51. a limiting plate; 52. a movable groove I; 53. a baffle; 54. a movable groove II; 55. a spring; 56. a first slot; 57. and a second slot.

Detailed Description

The utility model will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

According to an aspect of the present utility model, as shown in fig. 1 to 5, there is provided a spherical grid steel structure anti-seismic bracket device, comprising a spherical grid body 1, an i-beam 2 is fixedly installed at the bottom of the spherical grid body 1, a pipe 3 is provided at the top of the i-beam 2, a limiting component 4 for limiting the position of the pipe 3 is installed on the i-beam 2, the limiting component 4 comprises a mounting frame 41, the mounting frame 41 is L-shaped, the mounting frame 41 is provided with two groups and symmetrically and fixedly connected to the side wall of the i-beam 2, a mounting box 42 is fixedly connected to the middle of one end of the mounting frame 41 far away from the i-beam 2, a bidirectional threaded rod 43 is rotatably installed in the middle of the mounting box 42, one end of the bidirectional threaded rod 43 extends to the outer side of the mounting frame 41, two symmetrical threads of the bidirectional threaded rod 43 are connected with moving blocks 47, the tops of the two side moving blocks 47 are detachably connected with insertion plates 46 respectively, the top of the two side plugboards 46 are respectively and rotatably provided with a first fixing strip 44 and a second fixing strip 45, the first fixing strip 44 and the second fixing strip 45 are respectively arranged on two sides of the pipeline 3, the top of the first fixing strip 44 is fixedly connected with a buckle 49, the buckle 49 is T-shaped, the top of the second fixing strip 45 is fixedly connected with a buckle 48, the buckle 49 is matched with the buckle 48, during operation, the mounting bracket 41 in the limiting assembly 4 is arranged on the side edge of the I-steel 2 through the bolt pair 411, then the buckle 49 is vertically inserted into the buckle 48, then the first fixing strip 44 and the socket 49 are rotated, so that the end of a cross rod of the buckle 49 is clamped in the buckle 48, the first fixing strip 44 and the second fixing strip 45 are respectively overlapped on two sides of the top of the pipeline 3, then the bottom plugboards 46 of the first fixing strip 44 and the second fixing strip 45 are respectively inserted into the second slot 57 on the top of the moving block 47, and then the two-way threaded rod 43 are rotated, the moving blocks 47 on two sides can be driven to approach towards the middle, and the fixing strip I44 and the fixing strip II 45 above can be pulled to be pressed on the side edge of the pipeline 3, so that the position of the pipeline 3 can be fixed, and the pipeline 3 can be stably arranged at the top of the I-steel 2.

In this embodiment, the connection assembly 5 is disposed inside the top of the moving block 47, the inserting plate 46 is fixed on the moving block 47 through the connection assembly 5, the connection assembly 5 includes a second slot 57 vertically disposed in the middle of the top of the moving block 47, the bottom end of the inserting plate 46 is inserted into the second slot 57, a first movable slot 52 is disposed inside the upper portion of the moving block 47, the first movable slot 52 horizontally penetrates through the second slot 57, a limiting plate 51 is slidably mounted in the first movable slot 52, a first slot 56 is disposed at the lower portion of the inserting plate 46, the limiting plate 51 penetrates through the first slot 56, during operation, the limiting plate 51 is pulled outwards first, then the inserting plate 46 is inserted into the second slot 57, and then the limiting plate 51 is pushed inwards, so that the limiting plate 51 is inserted into the first slot 56, thereby limiting the inserting plate 46 in the second slot 57, and the inserting plate 46 can be conveniently mounted on the top of the moving block 47.

In this embodiment, the bottom of the first movable slot 52 is provided with the second movable slot 54, the bottom end of the limiting plate 51 is fixedly connected with the baffle 53, the baffle 53 is slidably disposed in the second movable slot 54, the spring 55 for resetting the baffle 53 is installed in the second movable slot 54, when the limiting plate 51 moves outwards during operation, the spring 55 is pressed by the baffle 53, when the insert plate 46 is inserted into the bottom of the second slot 57, the limiting plate 51 is loosened, and the limiting plate 51 is pushed to be inserted into the first slot 56 under the rebound action of the spring 55, so that the insert plate 46 can be limited from being separated from the second slot 57.

In this embodiment, a sliding groove 412 is formed in the middle of the side wall of the mounting box 42, a sliding block 410 is fixedly connected to the side wall of the moving block 47, and the sliding block 410 is slidably disposed in the sliding groove 412, and in operation, by setting the sliding block 410 and the sliding groove 412, the moving block 47 is limited, so that the moving block 47 cannot self-transfer, and then moves back and forth along the bi-directional threaded rod 43.

In this embodiment, the middle of the i-steel 2 is provided with a plurality of groups of mounting holes 21, the mounting frame 41 is fixedly mounted at the positions of the mounting holes 21 through the bolt pairs 411, and when in operation, the mounting frame 41 can be mounted at different positions on the i-steel 2 through the bolt pairs 411 according to actual needs, so that the mounting position of the pipeline 3 can be changed.

In this embodiment, the first fixing strip 44 and the second fixing strip 45 are elastic metal sheets, so that the first fixing strip 44 and the second fixing strip 45 are conveniently pressed on the side edge of the pipeline 3 during operation.

The working principle of the device is as follows: the mounting frame 41 in the limiting assembly 4 is mounted on the side edge of the I-steel 2 through the bolt pair 411, then the inserting buckle 49 is vertically inserted into the retaining ring 48, then the fixing strip I44 and the inserting buckle 49 are rotated, the transverse rod end of the inserting buckle 49 is clamped in the retaining ring 48, the fixing strip I44 and the fixing strip II 45 are respectively overlapped on two sides of the top of the pipeline 3, then the fixing strip I44 and the fixing strip II 45 bottom inserting plate 46 are respectively inserted into the inserting groove II 57 on the top of the moving block 47, the inserting plate 46 is placed through the connecting assembly 5 to fall off, then the moving blocks 47 on two sides can be driven to be close to the middle through rotating the bidirectional threaded rod 43, and then the fixing strip I44 and the fixing strip II 45 above can be pulled to be pressed on the side edge of the pipeline 3, so that the position of the pipeline 3 can be fixed, and the pipeline 3 can be stably mounted on the top of the I-steel 2.

Wherein the electrical components presented herein are all electrical components that are present in reality.

Of course, the above description is not intended to limit the utility model, but rather the utility model is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the utility model will be within the scope of the utility model.

Claims (6)

1. A spherical grid steel construction anti-seismic support device which characterized in that: including spherical rack main part (1), the bottom fixed mounting of spherical rack main part (1) has I-steel (2), the top of I-steel (2) is provided with pipeline (3), install spacing subassembly (4) of restriction pipeline (3) position on I-steel (2), spacing subassembly (4) include mounting bracket (41), mounting bracket (41) set up to L type, mounting bracket (41) are provided with two sets of, and symmetrical fixed connection is on the lateral wall of I-steel (2), both sides mounting bracket (41) are kept away from I-steel (2) one end intermediate fixedly connected with mounting box (42), the centre rotation of mounting box (42) is installed bi-directional threaded rod (43), the one end of bi-directional threaded rod (43) extends to the outside of mounting bracket (41), the both ends symmetrical threaded connection of bi-directional threaded rod (43) has movable block (47), both sides the top of movable block (47) is dismantled respectively and is connected with picture peg (46), both sides the top of picture peg (46) is rotated respectively and is installed fixed strip (44) and two (45) in the middle of the one end of I-steel (2), two (45) are fixed strip (45) respectively, two fixed connection (45) are fixed top (44) respectively, the top end of the second fixing strip (45) is fixedly connected with a retaining ring (48), and the eye-splice (49) is matched with the retaining ring (48).

2. The spherical grid steel structure anti-seismic bracket device according to claim 1, wherein: the utility model discloses a movable socket, including movable block (47), link assembly (5) are provided with inside link assembly (5) in top of movable block (47), link assembly (5) are including vertical slot two (57) of seting up in the middle of movable block (47) top, peg graft in slot two (57) in picture peg (46) bottom, movable groove one (52) has been seted up to inside in movable groove one (52) upper portion, movable groove one (52) horizontally runs through slot two (57), slidable mounting has limiting plate (51) in movable groove one (52), slot one (56) have been seted up to the lower part of picture peg (46), limiting plate (51) run through slot one (56).

3. A spherical grid steel structure seismic support assembly as set forth in claim 2, wherein: the bottom of the first movable groove (52) is provided with a second movable groove (54), the bottom end of the limiting plate (51) is fixedly connected with a baffle plate (53), the baffle plate (53) is slidably arranged in the second movable groove (54), and a spring (55) for resetting the baffle plate (53) is arranged in the second movable groove (54).

4. The spherical grid steel structure anti-seismic bracket device according to claim 1, wherein: a sliding groove (412) is formed in the middle of the side wall of the installation box (42), a sliding block (410) is fixedly connected to the side wall of the moving block (47), and the sliding block (410) is arranged in the sliding groove (412) in a sliding mode.

5. The spherical grid steel structure anti-seismic bracket device according to claim 1, wherein: a plurality of groups of mounting holes (21) are formed in the middle of each I-shaped steel (2), and the mounting frame (41) is fixedly mounted at the positions of the mounting holes (21) through bolt pairs (411).

6. The spherical grid steel structure anti-seismic bracket device according to claim 1, wherein: the first fixing strip (44) and the second fixing strip (45) are elastic metal sheets.