CN212295481U - Elevated floor foot rest supporting structure and combined connection structure thereof - Google Patents

Abstract

The utility model discloses an elevated floor foot rest bearing structure, including steel pipe, coupling assembling, roof and gasket, the steel pipe is connected with ground, the roof passes through coupling assembling with the steel pipe is connected, and through adjusting coupling assembling can change the height of roof, the gasket sets up the roof top. The utility model also discloses a built-up connection structure of raised floor foot rest bearing structure, including evenly installing subaerially a plurality of raised floor foot rest bearing structure, it is adjacent connect through the crossbeam between the raised floor foot rest bearing structure, and the through-hole has been opened respectively at four angles on raised floor, just mounting bolt with raised floor foot rest bearing structure fixed connection in the through-hole.

Description

Elevated floor foot rest supporting structure and combined connection structure thereof

Technical Field

The utility model relates to an elevated floor technical field, more accurately say and relate to an elevated floor foot rest bearing structure and built-up connection structure thereof.

Background

The raised floor is widely applied to places such as a main machine room of a server and a cabinet, a computer room, a communication center machine room, various electrical control machine rooms, a post and telecommunications junction, a control center of various computers and the like. The raised floor is generally assembled by adjustable brackets, beams, panels and other components. The lower space of the panel can be used for ventilation of an air conditioner, and can also be matched with a ventilation board to adjust the ventilation quantity of the bottom layer. When the raised floor is laid, in the prior art, firstly, a bracket needs to be installed on a concrete ground, and then, a panel of the raised floor is installed on the bracket. Conventional racks are typically arranged in a grid pattern with a raised floor placed on each grid. In order to ensure that the raised floor cannot easily move during use, the requirement on the installation accuracy when the raised floor is placed on each grid is high, which results in a slow laying speed of the raised floor. In addition, the mode of laying the raised floor on the grid easily causes the movement dislocation of the raised floor when the load on the raised floor is large, and the potential safety hazard is easily generated, so the load bearing limit of the raised floor is low. In order to prevent the moving dislocation of the raised floor, the prior art includes a scheme of fixedly connecting the raised floor with the bracket, but the combined connection structure of the raised floor in the prior art is generally complex, the installation time is long, the laying efficiency of the raised floor is low, and the manufacturing cost of the combined connection structure is also high. To sum up, the field needs a spacing fixed knot of raised floor to construct, can make things convenient for raised floor to lay fast, can also swiftly firmly realize raised floor's fixed, improve the security performance to improve the suitability.

SUMMERY OF THE UTILITY MODEL

In view of this, the main object of the present invention is to provide a supporting structure for a foot stand of an elevated floor, including a steel pipe, a connecting assembly, a top plate and a gasket, wherein the steel pipe is connected to the ground, the top plate is connected to the steel pipe through the connecting assembly, the height of the top plate can be changed by adjusting the connecting assembly, and the gasket is disposed on the top of the top plate.

Another object of the utility model is to provide a raised floor foot rest bearing structure's built-up connection structure, including evenly installing subaerial a plurality of raised floor foot rest bearing structure, it is adjacent connect through the crossbeam between the raised floor foot rest bearing structure, and the through-hole has been opened respectively at four angles on raised floor, just mounting bolt with raised floor foot rest bearing structure fixed connection in the through-hole.

In order to achieve the above object, the utility model provides a raised floor foot rest bearing structure, including steel pipe, coupling assembling, roof and gasket, the steel pipe is connected with ground, the roof passes through coupling assembling with the steel pipe is connected, the roof is located the steel pipe top, the gasket sets up the roof top is through adjusting coupling assembling changes the height of roof is fixed the roof.

Preferably, the top plate has four top corners and four top edges, the four top corners are located at four corners of the top plate, the top corners extend out of the top plate, and the adjacent top corners are perpendicular to each other; the four top edges are positioned in the middle of the four edges of the top plate, the four top edges extend out of the top plate, and the adjacent top edges are perpendicular to each other.

Preferably, the top corner portion is provided with a floor connecting hole and a beam connecting hole, and the floor connecting hole and the beam connecting hole are sequentially arranged in a direction away from the center of the top plate.

Preferably, the gasket top has four stopper, four the stopper is the cross and arranges.

Preferably, coupling assembling includes anti nut, tooth pole and fixed subassembly of lifting, anti nut of lifting is installed the top of steel pipe, fixed subassembly with the lateral part of steel pipe is connected, just fixed subassembly passes the lateral part of steel pipe with anti nut of lifting is connected, the tooth pole with anti nut screw connection of lifting, just the tooth pole with the steel pipe is coaxial, the tooth pole top is connected the roof, the nut with tooth pole screw connection, just the nut is located anti nut of lifting with between the roof.

Preferably, fixed subassembly includes welding nut, fixing nut and set screw, welding nut welds on the lateral wall of steel pipe, just welding nut is in the horizontal plane direction with be connected at the steel pipe top the anti nut of lifting aligns, the set screw with welding nut screwed connection, just the set screw passes the lateral wall of steel pipe stretches into inside the steel pipe, fixing nut with fixing screw screwed connection.

The utility model also provides a raised floor foot rest bearing structure's built-up connection structure for lay fixed raised floor, it is a plurality of raised floor foot rest bearing structure evenly installs subaerial, adjacent connect through the crossbeam between the raised floor foot rest bearing structure, four angles on raised floor pass the bolt respectively, just four angles on raised floor pass through respectively bolt and four raised floor foot rest bearing structure fixed connection.

Preferably, the top plates are fixedly connected with the cross beam through the top corner parts and the top edge parts.

Preferably, four corners of the raised floor are respectively provided with a through hole, the bolt passes through the raised floor through the through holes, and when the raised floor is limited by the limiting blocks, the through holes are aligned with the floor connecting holes.

Compared with the prior art, the utility model discloses an elevated floor foot rest bearing structure and built-up connection structure's advantage lies in: the foot rest supporting structure of the raised floor has the advantages of stable structure, good safety performance, wider applicable bearing range and capability of conveniently changing the height, and effectively preventing the movement and the dislocation of the raised floor; by adopting the combined connection structure of the foot stand supporting structure of the raised floor, the raised floor can be laid quickly and accurately, and the laying efficiency of the raised floor is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of a supporting structure of a foot stand for an elevated floor according to the present invention.

Fig. 2 is an exploded view of a supporting structure of a foot stand for an elevated floor according to the present invention.

Fig. 3 is a schematic structural view of a combined connection structure of a supporting structure of a foot stand for an elevated floor according to the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is an enlarged schematic view of a portion B in fig. 3.

Detailed Description

As shown in fig. 1, the present invention relates to a supporting structure 30 for a foot rest of an elevated floor, which comprises a steel pipe 31, a connecting assembly 32, a top plate 33 and a gasket 34, wherein the bottom of the steel pipe 31 has a bottom plate 311, and the steel pipe 31 is connected to the ground through the bottom plate 311. The top plate 33 is connected to the steel pipe 31 through the connection assembly 32, and the height of the top plate 33 can be changed by adjusting the connection assembly 32. The spacer 34 is disposed on top of the top plate 33.

Specifically, referring to fig. 2, the connection assembly 32 includes an anti-lifting nut 321, a nut 322, a tooth bar 323 and a fixing assembly 324, the anti-lifting nut 321 is installed on the top end of the steel pipe 31, the fixing assembly 324 is connected to the side of the steel pipe 31, and the fixing assembly 324 passes through the side of the steel pipe 31 and the anti-lifting nut 321 is connected, and by adjusting the fixing assembly 324 can be locked the anti-lifting nut 321 and the steel pipe 31 is fixedly connected or released the anti-lifting nut 321 and the steel pipe 31 are connected. The threaded rod 323 is screwed with the anti-lifting nut 321, and the threaded rod 323 is coaxial with the steel pipe 31. The top end of the threaded rod 323 is connected with the top plate 33, and the distance between the top plate 33 and the anti-lifting nut 321 can be changed by rotating the anti-lifting nut 321. Nut 322 with threaded connection 323, just nut 322 is located anti-lift nut 321 with between the roof plate 33. By adjusting the position of the screw cap 322 on the screw rod 323, the depth of screwing the screw rod 323 into the anti-lifting screw cap 321, and thus the height of the top plate 33, can be limited.

As shown in fig. 2, the fixing assembly 324 includes a welding nut 3241, a fixing nut 3242 and a fixing screw 3243, the welding nut 3241 is welded on the sidewall of the steel pipe 31, and the welding nut 3241 is aligned with the anti-lifting nut 321 installed on the top of the steel pipe 31 in a horizontal direction. Set screw 3243 with weld nut 3241 screwed connection, just set screw 3243 passes the lateral wall of steel pipe 31 stretches into inside the steel pipe 31, through the rotation set screw 3243 can make its contact anti nut 321, it is right anti nut 321 forms spacing fixed. The fixing nut 3242 is screwed with the fixing screw 3243, and by adjusting the position of the fixing nut 3242 on the fixing screw 3243, the depth of the fixing screw 3243 screwed into the welding nut 3241 can be limited, so as to ensure the fixing of the fixing screw 3243 to the anti-lifting nut 321.

As shown in fig. 2, the top plate 33 is parallel to the horizontal plane, and the top plate 33 has four top corner portions 331 and four top side portions 332. The four top corners 331 are located at four corners of the top plate 33, the top corners 331 extend out of the top plate 33, and the adjacent top corners 331 are perpendicular to each other. The four top edge portions 332 are located in the middle of the four sides of the top plate 33, the four top edge portions 332 extend out of the top plate 33, and the adjacent top edge portions 332 are perpendicular to each other. The top corner 331 has a floor connecting hole 333 and a beam connecting hole 334, and the floor connecting hole 333 and the beam connecting hole 334 are sequentially arranged in a direction away from the center of the top plate 33. The top end of the gasket 34 is provided with four limiting blocks 341, and the four limiting blocks 341 are arranged in a cross shape.

As shown in fig. 3, the utility model relates to an elevated floor foot rest bearing structure's built-up connection structure for lay fixed elevated floor 20, a plurality of elevated floor foot rest bearing structure 30 evenly installs on ground 10, and adjacent connect through crossbeam 40 between the elevated floor foot rest bearing structure 20, bolt 21 is passed respectively at four angles on elevated floor 20, just four angles on elevated floor 20 pass through respectively bolt 21 and four elevated floor foot rest bearing structure 30 fixed connection.

As shown in fig. 4, the top plate 33 and the top plate 33 are fixedly connected to the cross member 40 via the top corner portion 331 and the top edge portion 332. Thereby achieving the mutual connection of the top plates 33 by the cross members 40. Part of the cross beam 40 is fixedly connected with the top plate 33 through the cross beam connecting hole 334 by bolts, and part of the cross beam 40 is fixedly connected with the top plate 33 through the top edge part 332 by bolts.

As shown in fig. 5, when the raised floor 20 is laid, the bottom of the raised floor 20 is blocked by the stop block 341, so that the bolt 21 is defined to be aligned with the floor connection hole 333 after the movement of the raised floor 20 is stopped, the laying of the raised floor 20 is facilitated, the installation of the bolt 21 is facilitated, and the raised floor 20 and the top plate 33 can be efficiently and fixedly connected.

Further, as shown in fig. 5, four corners of the raised floor 20 are respectively provided with a through hole 201, and the bolt 21 passes through the raised floor 20 through the through hole 201. When the raised floor 20 is limited and fixed by the limit block 331, the through hole 201 is aligned with the floor connecting hole 333, and the bolt 21 penetrates through the through hole 201 and then is spirally and fixedly connected with the floor connecting hole 333.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 invention. Thus, the present invention 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 (8)

1. A foot stool supporting structure of an elevated floor is characterized by comprising a steel pipe, a connecting assembly, a top plate and a gasket, wherein the steel pipe is connected with the ground, the top plate is connected with the steel pipe through the connecting assembly, the top plate is positioned at the top of the steel pipe, the gasket is arranged at the top of the top plate, and the connecting assembly is adjusted to change the height of the top plate and fix the top plate; coupling assembling includes anti nut, tooth pole and fixed subassembly of lifting, anti nut of lifting is installed the top of steel pipe, fixed subassembly with the lateral part of steel pipe is connected, just fixed subassembly passes the lateral part of steel pipe with anti nut of lifting is connected, the tooth pole with anti nut screw connection of lifting, just the tooth pole with the steel pipe is coaxial, the tooth pole top is connected the roof, the nut with tooth pole screw connection, just the nut is located anti nut of lifting with between the roof.

2. The raised floor foot support structure of claim 1, wherein said top plate has four top corners and four top edges, four of said top corners being located at four corners of said top plate, said top corners extending beyond said top plate, and adjacent said top corners being perpendicular to each other; the four top edges are positioned in the middle of the four edges of the top plate, the four top edges extend out of the top plate, and the adjacent top edges are perpendicular to each other.

3. The elevated floor foot support structure according to claim 2, wherein the top corner portion has a floor attachment hole and a beam attachment hole, the floor attachment hole and the beam attachment hole being arranged in order in a direction away from the center of the top plate.

4. The raised floor foot rest support structure according to claim 3, wherein the top end of the gasket has four stoppers arranged in a cross shape.

5. The raised floor foot rest support structure of claim 1, wherein the fixing assembly comprises a welding nut, a fixing nut, and a fixing screw, the welding nut is welded on the side wall of the steel pipe, and the welding nut is aligned with the anti-lifting nut connected at the top of the steel pipe in a horizontal plane direction, the fixing screw is screw-connected with the welding nut, and the fixing screw penetrates through the side wall of the steel pipe to extend into the interior of the steel pipe, the fixing nut is screw-connected with the fixing screw.

6. A combined connection structure of a foot stand supporting structure of an elevated floor, which is used for laying and fixing the elevated floor, and is characterized in that the foot stand supporting structure of the elevated floor according to claim 4 is adopted, a plurality of foot stand supporting structures of the elevated floor are uniformly arranged on the ground, the adjacent foot stand supporting structures of the elevated floor are connected through a cross beam, four corners of the elevated floor respectively pass through bolts, and the four corners of the elevated floor are respectively fixedly connected with the four foot stand supporting structures of the elevated floor through the bolts.

7. The modular construction of claim 6 wherein the top plate is fixedly connected to the cross member by the top corner portion and the top edge portion.

8. The modular connection structure of a horse supporting structure for a raised floor according to claim 6, wherein the raised floor has a through hole at each of four corners thereof, the bolt passes through the raised floor through the through hole, and the through hole is aligned with the floor coupling hole when the raised floor is restrained by the stopper.

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