CN220686331U - Stand column welding structural member with shockproof structure - Google Patents

Abstract

The utility model discloses a stand column welding structural member with a shockproof structure, which belongs to the technical field of building construction and comprises a stand column, a shockproof structure, a hydraulic buffer rod and a base shockproof structure; the base shock-absorbing structure is arranged between the upright post and the foundation, and the hydraulic buffer rod is arranged between the side surface of the upright post and the top plate; the mounting plate is welded at the top of the upright post, the shock absorbing spring is arranged in the middle of the mounting plate and is contacted with the top plate, and the shock absorbing spring is in a compressed state; the bolt rod is arranged at the opposite angle of the mounting plate and penetrates through the mounting plate to be in contact with the top plate, limiting convex rings are arranged at two ends of the bolt rod, the extension spring is sleeved outside the bolt rod and arranged at the lower part of the mounting plate, and the compression spring is sleeved outside the bolt rod and arranged at the upper part of the mounting plate; the device enables the integral shockproof capacity of the upright post to be greatly improved through the mutual matching of the shockproof structure, the hydraulic buffer rod and the base shockproof structure.

Description

Stand column welding structural member with shockproof structure

Technical Field

The utility model relates to the technical field of building construction, in particular to a stand column welding structural member with a shockproof structure.

Background

The upright posts are reinforced concrete constructional columns arranged in the wall body of the multi-layer brick-concrete structure building for enhancing the integrity and stability of the building, are connected with the ring beams of each layer and are space frames with shearing resistance and bending resistance, and can prevent the house from collapsing. The upright post in the building has the functions of building performance and structural stress, and is mainly resistant to shearing force and shock resistance and is generally arranged at a rest platform of a stairwell, a cross joint of longitudinal and transverse walls and a corner of the wall.

The traditional upright post has weaker shockproof capability and single shockproof structure, so that the upright post is easily affected by transverse cutting, left and right shaking occurs, foundation looseness is caused, stability is poor, the vibration of a building body is directly involved, the building body is easy to collapse, and serious safety accidents occur, and therefore the upright post welding structural member with the shockproof structure is designed so as to solve the problems.

Disclosure of Invention

The utility model aims at: in order to solve the problems of weaker shockproof capacity, single shockproof structure and the like of the traditional upright post, the upright post welding structural member with the shockproof structure is provided.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: a stand column welding structural member with a shockproof structure comprises a stand column, a shockproof structure, a hydraulic buffer rod and a base shockproof structure; the stand column is arranged between the top plate and the foundation, the shock-proof structure is arranged between the stand column and the top plate, the base shock-proof structure is arranged between the stand column and the foundation, and the hydraulic buffer rod is arranged between the side surface of the stand column and the top plate; the shock-proof structure comprises a shock-proof spring, a mounting plate, a compression spring, a bolt and an extension spring, wherein the mounting plate is welded at the top of the upright post, the shock-proof spring is arranged in the middle of the mounting plate and is in contact with the top plate, and the shock-proof spring is in a compression state; the bolt rod is arranged at the opposite angle of the mounting plate and penetrates through the mounting plate to be in contact with the top plate, limiting convex rings are arranged at two ends of the bolt rod, the extension spring is sleeved outside the bolt rod and arranged at the lower part of the mounting plate, and the compression spring is sleeved outside the bolt rod and arranged at the upper part of the mounting plate.

As still further aspects of the utility model: the hydraulic buffer rod comprises a lower support arm and an upper support arm, wherein the upper support arm is arranged in the lower support arm and can reciprocate, and a buffer spring is arranged between the upper support arm and the lower support arm.

As still further aspects of the utility model: the side of stand still is provided with the boss, hydraulic buffer rod passes through the boss with the side of stand is connected.

As still further aspects of the utility model: the base shock absorbing structure comprises a plurality of slotted holes formed in the foundation and shock absorbers, and the shock absorbers are installed in the slotted holes and are in contact with the bottom surfaces of the stand columns.

As still further aspects of the utility model: the shock absorber comprises a frame, a top cover and base springs, wherein the two base springs are arranged and located in the frame, the top cover penetrates through the top surface of the frame and is connected with the base springs, and the other surface of the top cover is directly contacted with the bottom surface of the upright post.

As still further aspects of the utility model: the top cover is made of hard rubber, and the surface of the top cover is provided with anti-skid patterns.

Compared with the prior art, the utility model provides the upright post welding structural member with the shockproof structure through improvement, and has the following improvement and advantages:

the method comprises the following steps: the shock-proof structure is arranged between the upright post and the top plate, and the shock-proof structure is welded at the top of the upright post, so that the buffering capacity between the upright post and the top plate can be greatly enhanced, and the buffering capacity of the shock-proof structure and the stability of the whole structure can be greatly improved through the combination of the shock-proof springs arranged in the middle of the mounting plate and a plurality of compression springs and extension springs around the shock-proof springs.

And two,: according to the utility model, the hydraulic buffer rod is arranged on the side surface of the upright post, and can further improve the shockproof capacity between the upright post and the top plate. And the bottom surface at the stand still is provided with base shock absorber structure, and base shock absorber structure has improved the buffer capacity between stand and the ground greatly. The device enables the integral shockproof capacity of the upright post to be improved dramatically through the mutual matching of the shockproof structure, the hydraulic buffer rod and the base shockproof structure.

Drawings

The utility model is further explained below with reference to the drawings and examples:

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

FIG. 2 is an enlarged view of the structure of FIG. 1A in accordance with the present utility model;

FIG. 3 is a schematic view of a base shock absorbing structure according to the present utility model;

FIG. 4 is an enlarged view of the structure of FIG. 3B in accordance with the present utility model;

FIG. 5 is a cross-sectional view of a hydraulic buffer rod of the present utility model;

FIG. 6 is a schematic diagram of a shock absorber according to the present utility model.

Reference numerals illustrate:

1. a column; 2. a top plate; 3. a foundation; 4. a hydraulic buffer rod; 5. a boss; 6. a shockproof structure; 7. a shock absorbing spring; 8. a mounting plate; 9. a compression spring; 10. a bolt; 11. a tension spring; 12. a lower support arm; 13. an upper support arm; 14. a base shock absorbing structure; 15. a shock absorber; 16. a slot hole; 17. a buffer spring; 18. a frame; 19. a top cover; 20. and a base spring.

Detailed Description

The following detailed description of the present utility model will provide clear and complete description of the technical solutions of the embodiments of the present utility model, with reference to fig. 1 to 6, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a column welding structural member with a shockproof structure, which is shown in fig. 1-6, and comprises a column 1, a shockproof structure 6, a hydraulic buffer rod 4 and a base shockproof structure 14; the vertical column 1 is arranged between the top plate 2 and the foundation 3, the shockproof structure 6 is arranged between the vertical column 1 and the top plate 2, the base shockproof structure 14 is arranged between the vertical column 1 and the foundation 3, and the hydraulic buffer rod 4 is arranged between the side surface of the vertical column 1 and the top plate 2; the shock-proof structure 6 comprises a shock-proof spring 7, a mounting plate 8, a compression spring 9, a bolt 10 and an extension spring 11, wherein the mounting plate 8 is welded at the top of the upright post 1, the shock-proof spring 7 is arranged in the middle of the mounting plate 8 and is in contact with the top plate 2, and the shock-proof spring 7 is in a compression state; the bolt 10 is arranged at the opposite angle of the mounting plate 8 and penetrates the mounting plate 8 to be in contact with the top plate 2, limiting convex rings are arranged at two ends of the bolt 10, the extension spring 11 is sleeved outside the bolt 10 and arranged at the lower part of the mounting plate 8, and the compression spring 9 is sleeved outside the bolt 10 and arranged at the upper part of the mounting plate 8.

In this embodiment: the upright 1 with the shockproof structure 6 is mainly divided into four parts: the hydraulic buffer rod comprises a vertical column 1, a vibration-proof structure 6, a hydraulic buffer rod 4 and a base vibration-proof structure 14, wherein the vertical column 1 is arranged between a top plate 2 and a foundation 3, the vibration-proof structure 6 is arranged between the vertical column 1 and the top plate 2, the base vibration-proof structure 14 is arranged between the vertical column 1 and the foundation 3, and the hydraulic buffer rod 4 is arranged between the side face of the vertical column 1 and the top plate 2. The shock-proof structure 6 comprises a shock-proof spring 7, a mounting plate 8, a compression spring 9, a bolt 10 and an extension spring 11, wherein the mounting plate 8 is welded at the top of the upright post 1, the shock-proof spring 7 is arranged in the middle of the mounting plate 8 and is in contact with the top plate 2, and the shock-proof spring 7 is in a compression state; the bolt 10 is arranged at the opposite angle of the mounting plate 8 and penetrates the mounting plate 8 to be in contact with the top plate 2, limiting convex rings are arranged at two ends of the bolt 10, the extension spring 11 is sleeved outside the bolt 10 and arranged at the lower part of the mounting plate 8, and the compression spring 9 is sleeved outside the bolt 10 and arranged at the upper part of the mounting plate 8.

This shock-proof structure 6 sets up between stand 1 and roof 2 to with shock-proof structure 6 welding at the top of stand 1, this can strengthen the buffer capacity between stand 1 and the roof 2 greatly, and through arranging the shock-proof spring 7 in the middle part of mounting panel 8 and a plurality of compression spring 9 and extension spring 11 combination all around, can improve shock-proof structure 6's buffer capacity greatly and improve the stability of whole structure.

Referring to fig. 5, the hydraulic buffer rod 4 includes a lower arm 12 and an upper arm 13, the upper arm 13 being disposed inside the lower arm 12 and reciprocally movable, and a buffer spring 17 being disposed between the upper arm 13 and the lower arm 12.

In this embodiment: in order to enhance the cushioning capacity between the side of the column 1 and the top plate 2, the hydraulic cushioning lever 4 is provided in two parts of a lower arm 12 and an upper arm 13, the upper arm 13 is provided inside the lower arm 12 and is reciprocally movable, and a cushioning spring 17 is provided between the upper arm 13 and the lower arm 12.

Referring to fig. 1, a boss 5 is further provided on a side surface of the upright 1, and the hydraulic buffer rod 4 is connected with the side surface of the upright 1 through the boss 5.

In this embodiment: in order to facilitate the installation of the hydraulic buffer rod 4, a boss 5 is arranged on the side surface of the upright post 1, and the hydraulic buffer rod 4 is connected with the side surface of the upright post 1 through the boss 5.

Referring to fig. 3-4, the base shock absorbing structure 14 includes a plurality of slots 16 formed in the foundation 3 and a shock absorber 15, and the shock absorber 15 is installed in the slots 16 and contacts the bottom surface of the column 1.

In this embodiment: in order to improve the cushioning capability between the column 1 and the foundation 3, a plurality of slots 16 are formed in the foundation 3, and the shock absorber 15 is installed in the slots 16 and contacts the bottom surface of the column 1.

Referring to fig. 6, the shock absorber 15 includes a frame 18, a top cover 19, and a base spring 20, the base spring 20 is provided in two and is located inside the frame 18, the top cover 19 penetrates the top surface of the frame 18 and is connected to the base spring 20, and the other surface of the top cover 19 is directly contacted with the bottom surface of the column 1.

In this embodiment: in order to improve the cushioning capacity of the column 1 and to improve the stability of the whole structure, the base springs 20 are provided in two and inside the frame 18, the top cover 19 penetrates the top surface of the frame 18 and is connected to the base springs 20, and the other surface of the top cover 19 is directly contacted with the bottom surface of the column 1.

Referring to fig. 6, the top cover 19 is made of hard rubber, and the surface of the top cover 19 is provided with anti-skid patterns.

In this embodiment: rubber is a common material that is commonly used to reduce stress and improve cushioning, so the material of the top cover 19 is selected to be a hard rubber in order to improve cushioning between the stud 1 and the top cover 19. In order to improve the anti-slip ability between the upright post 1 and the top cover 19, an anti-slip pattern is processed on the surface of the top cover 19.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. An upright post welding structure with shockproof structure, which is characterized in that: comprises an upright post (1), a shockproof structure (6), a hydraulic buffer rod (4) and a base shockproof structure (14); the vertical column (1) is arranged between the top plate (2) and the foundation (3), the shockproof structure (6) is arranged between the vertical column (1) and the top plate (2), the base shockproof structure (14) is arranged between the vertical column (1) and the foundation (3), and the hydraulic buffer rod (4) is arranged between the side surface of the vertical column (1) and the top plate (2); the shock-proof structure (6) comprises a shock-proof spring (7), a mounting plate (8), a compression spring (9), a bolt (10) and an extension spring (11), wherein the mounting plate (8) is welded at the top of the upright post (1), the shock-proof spring (7) is arranged in the middle of the mounting plate (8) and is in contact with the top plate (2), and the shock-proof spring (7) is in a compression state; the bolt rod (10) is arranged at the diagonal position of the mounting plate (8) and penetrates through the mounting plate (8) to be in contact with the top plate (2), limiting convex rings are arranged at two ends of the bolt rod (10), the extension spring (11) is sleeved outside the bolt rod (10) and arranged at the lower part of the mounting plate (8), and the compression spring (9) is sleeved outside the bolt rod (10) and arranged at the upper part of the mounting plate (8).

2. The stud welded structure having a vibration-resistant structure according to claim 1, wherein: the hydraulic buffer rod (4) comprises a lower support arm (12) and an upper support arm (13), wherein the upper support arm (13) is arranged in the lower support arm (12) and can reciprocate, and a buffer spring (17) is arranged between the upper support arm (13) and the lower support arm (12).

3. A stud welded structure having a vibration resistant structure according to claim 2, wherein: the side of stand (1) still is provided with boss (5), hydraulic buffer rod (4) pass through boss (5) with the side of stand (1) is connected.

4. The stud welded structure having a vibration-resistant structure according to claim 1, wherein: the base shock absorbing structure (14) comprises a plurality of slotted holes (16) formed in the foundation (3) and shock absorbers (15), and the shock absorbers (15) are installed in the slotted holes (16) and are in contact with the bottom surface of the upright post (1).

5. The stud welded structure with vibration resistant construction according to claim 4, wherein: the shock absorber (15) comprises a frame (18), a top cover (19) and a base spring (20), wherein the base spring (20) is arranged in the frame (18) in two, the top cover (19) penetrates through the top surface of the frame (18) and is connected with the base spring (20), and the other surface of the top cover (19) is directly contacted with the bottom surface of the upright post (1).

6. The stud welded structure with vibration resistant construction of claim 5, wherein: the top cover (19) is made of hard rubber, and anti-skid patterns are processed on the surface of the top cover (19).