CN219491585U - High-strength machine room floor support frame - Google Patents

Abstract

The utility model discloses a high-strength machine room floor support frame which comprises a shockproof base, a support column structure and a support structure, wherein the support column structure is arranged on the shockproof base, the support structure is arranged on the shockproof base and comprises a connecting base, a high-strength bolt, a connecting seat, a high-strength nut, a support column, a first support seat, a limit column, a first cross beam and a second cross beam, the connecting base is arranged on the shockproof base, the high-strength bolt is arranged on the connecting base, and the connecting seat penetrates through the high-strength bolt and is arranged on the connecting base. The utility model belongs to the technical field of machine room floor equipment, and particularly relates to a high-strength machine room floor support frame, which effectively solves the problems that the machine room floor support frame in the current market is provided with four support columns, a cross beam is supported, a support structure is not arranged in the middle, long-time machine room internal equipment is pressed on a bottom plate by gravity, the middle position of the machine room floor is easy to sink, and the stability of the machine room floor support frame is affected.

Description

High-strength machine room floor support frame

Technical Field

The utility model belongs to the technical field of machine room floor equipment, and particularly relates to a high-strength machine room floor support frame.

Background

The raised floor is called as a dissipative type electrostatic floor, and is mainly formed by assembling adjustable brackets, cross beams, panels and the like in a combined mode, and the raised electric floor is generally divided according to different base materials and veneering materials. The application range is that the large, medium and small computer rooms of the main machine room of the large server and the cabinet are provided. The utility model provides a CN202122037946.3 discloses a high strength computer lab floor support that shocks resistance includes the installing frame, the frame is installed to the inboard of installing frame, and the below of installing frame all is fixed with the connecting plate in four corner positions department, the inboard of frame is fixed with the plate body, the below of connecting plate is fixed with buffer gear, although has solved the relatively poor problem of buffer performance, but current computer lab floor support only has four support columns, supports the crossbeam, inside no bearing structure in the middle, long-time computer lab internal equipment, gravity presses on the bottom plate, causes the computer lab floor intermediate position to be sunken easily, influences the stability of computer lab floor support.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the high-strength machine room floor support frame provided by the utility model effectively solves the problems that the machine room floor support frame in the current market is provided with four support columns, a cross beam is supported, a support structure is not arranged in the middle, long-time machine room internal equipment is arranged, gravity is pressed on a bottom plate, the middle position of the machine room floor is easy to sink, and the stability of the machine room floor support frame is affected.

The technical scheme adopted by the utility model is as follows: the utility model provides a high-strength machine room floor support frame which comprises a shockproof base, a support column structure and a support structure, wherein the support column structure is arranged on the shockproof base, the support structure is arranged on the shockproof base and comprises a connecting base, a high-strength bolt, a connecting seat, a high-strength nut, a support column, a first support seat, a limit column, a first cross beam and a second cross beam, the connecting base is arranged on the shockproof base, the high-strength bolt is arranged on the connecting base, the connecting seat penetrates through the high-strength bolt and is arranged on the connecting base, the high-strength nut is arranged on the high-strength bolt in a threaded manner, the support column is arranged on the connecting seat, the support column plays a supporting role, the first support seat is arranged on the support column, the limit column is arranged on the first support seat, the first cross beam penetrates through the limit column and is arranged on the first cross beam, and the second cross beam plays a fixing role.

Preferably, the supporting structure comprises a supporting seat II, an inverted tripod, a supporting seat III, a supporting seat IV, a positive tripod, a supporting seat V, a supporting frame and a bottom plate surface, wherein the supporting seat II is arranged on the shockproof base, the inverted tripod is welded on the supporting seat II, the inverted tripod plays a supporting role, the supporting seat III is welded on the inverted tripod, the supporting seat IV is welded on the shockproof base, the positive tripod is welded on the supporting seat IV, the supporting seat V is welded on the positive tripod, the supporting frame is welded on the supporting seat V, the supporting frame is welded on the supporting seat III, the bottom plate surface is arranged on the supporting frame, and the bottom plate surface plays a supporting role.

In order to better realize the effect of support, the tripod that falls locates between supporting seat two and supporting seat three, just the tripod is located between supporting seat four and the fifth supporting seat, the support column is located between connecting seat and the first supporting seat.

For the purpose of reaching the support faster, connect base and connecting seat and be parallel arrangement, the connecting seat is perpendicular setting with high strength bolt, the connecting seat sets up perpendicularly with the support column, crossbeam one is perpendicular setting with crossbeam two, the support frame is parallel arrangement with the bottom plate.

Further, the connecting seat is in a cylindrical shape, the inverted tripod is in a triangular shape, the supporting frame is in a net shape, and the bottom plate is in a rectangular shape.

For realizing the effect of support, the connecting seat is equipped with four groups, crossbeam one is equipped with two sets of, crossbeam two is equipped with two sets of, the tripod of falling is equipped with six sets of, supporting seat two is equipped with a plurality of groups.

The beneficial effects obtained by the utility model by adopting the structure are as follows: the utility model provides a high strength's computer lab floor support frame, the effectual computer lab floor support frame that has solved present market only has four support columns, supports the crossbeam, and inside no bearing structure in the middle, long-time computer lab internal equipment, gravity are pressed on the bottom plate, cause the computer lab floor intermediate position sunken easily, influence the problem of the stability of computer lab floor support frame.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a high-strength machine room floor support frame according to the present utility model;

fig. 2 is a schematic view of another view angle structure of a high-strength machine room floor support frame according to the present utility model.

Wherein, 1, a shockproof base, 2, a pillar structure, 3, a supporting structure, 4, a connecting base, 5, a high-strength bolt, 6, a connecting seat, 7, a high-strength nut, 8, a supporting column, 9, a first supporting seat, 10 and a limit column, 11, a first beam, 12, a second beam, 13, a second supporting seat, 14, an inverted tripod, 15, a third supporting seat, 16, a fourth supporting seat, 17, a right tripod, 18, a fifth supporting seat, 19, a supporting frame, 20 and a bottom plate surface.

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; 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.

As shown in fig. 1 and 2, the high-strength machine room floor support frame provided by the utility model comprises a shockproof base 1, a support column structure 2 and a support structure 3, wherein the support column structure 2 is arranged on the shockproof base 1, the support structure 3 is arranged on the shockproof base 1, the support column structure 2 comprises a connecting base 4, a high-strength bolt 5, a connecting seat 6, a high-strength nut 7, a support column 8, a first support seat 9, a limit column 10, a first cross beam 11 and a second cross beam 12, the connecting base 4 is arranged on the shockproof base 1, the high-strength bolt 5 is arranged on the connecting base 4, the connecting seat 6 penetrates through the high-strength bolt 5 to be arranged on the connecting base 4, the high-strength nut 7 is arranged on the high-strength bolt 5 in a threaded manner, the support column 8 is arranged on the connecting seat 6, the support column 8 plays a supporting role, the first support column 9 is arranged on the support column 8, the limit column 10 is arranged on the support seat 9 in a penetrating manner, the first cross beam 11 is arranged on the support seat 9 in a penetrating manner, the limit column 12 is arranged on the cross beam 11 in a penetrating manner, and the limit column 11 is arranged on the cross beam 11 and plays a role of fixing.

As shown in fig. 1 and 2, the support structure 3 includes a second support seat 13, an inverted tripod 14, a third support seat 15, a fourth support seat 16, a front tripod 17, a fifth support seat 18, a support frame 19 and a bottom plate surface 20, wherein the second support seat 13 is arranged on the shockproof base 1, the inverted tripod 14 is welded on the second support seat 13, the inverted tripod 14 plays a supporting role, the third support seat 15 is welded on the inverted tripod 14, the fourth support seat 16 is welded on the shockproof base 1, the front tripod 17 is welded on the fourth support seat 16, the fifth support seat 18 is welded on the front tripod 17, the support frame 19 is welded on the fifth support seat 18, the support frame 19 is welded on the third support seat 15, the bottom plate surface 20 is arranged on the support frame 19, and the bottom plate surface 20 plays a supporting role.

As shown in fig. 1 and 2, the inverted tripod 14 is disposed between the second support seat 13 and the third support seat 15, the positive tripod 17 is disposed between the fourth support seat 16 and the fifth support seat 18, and the support column 8 is disposed between the connecting seat 6 and the first support seat 9.

As shown in fig. 1, the connection base 4 and the connection base 6 are arranged in parallel, the connection base 6 and the high-strength bolt 5 are arranged vertically, the connection base 6 and the support column 8 are arranged vertically, the first beam 11 and the second beam 12 are arranged vertically, and the support frame 19 and the bottom plate surface 20 are arranged in parallel.

As shown in fig. 1 and 2, the connection base 6 is cylindrically configured, the inverted tripod 14 is triangularly configured, the support 19 is reticularly configured, and the bottom plate surface 20 is rectangular.

As shown in fig. 1 and 2, the connecting seat 6 is provided with four groups, the first beam 11 is provided with two groups, the second beam 12 is provided with two groups, the inverted tripod 14 is provided with six groups, and the second supporting seat 13 is provided with a plurality of groups.

When the device is used, a user firstly passes through the high-strength bolt 5 to be arranged on the connecting base 4, then screws the high-strength bolt 5 by using the high-strength nut 7, fixes the connecting base 6, thereby fixes the high-strength nut 7 on the connecting base 6, firstly limits and fixes the beam I11 on the limit post 10 of the supporting base I9, then presses the beam II 12 on the beam I11 to be overlapped, thus limits and fixes the beam II 12 on the limit post 10 of the supporting base I9, then carries out welding and fixing, then welds and fixes the supporting base II 13 on the shockproof base 1, then welds and fixes the inverted tripod 14 on the supporting base II 13, then welds and fixes the supporting base III 15 on the inverted tripod 14, then welds and fixes the supporting base IV 16 on the shockproof base 1, then welds and fixes the supporting base IV 17 on the supporting base IV 16, then welds and fixes the supporting frame 19 on the supporting base IV 16 on the limit post 10 of the supporting base I9, the supporting base V18, the beam I11 and the beam II 12 on the supporting base IV 12, then welds and fixes the supporting frame 19 on the whole floor surface 20 on the shockproof base 1, and then welds and fixes the supporting frame IV on the whole floor surface 20 on the floor surface with high strength.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (6)

1. A high strength computer lab floor support frame, its characterized in that: the anti-vibration support comprises an anti-vibration base, a support structure and a supporting structure, wherein the support structure is arranged on the anti-vibration base, the supporting structure comprises a connecting base, a high-strength bolt, a connecting seat, a high-strength nut, a supporting column, a first supporting seat, a limiting column, a first cross beam and a second cross beam, the connecting base is arranged on the anti-vibration base, the high-strength bolt is arranged on the connecting base, the connecting seat penetrates through the high-strength bolt to be arranged on the connecting base, the high-strength nut is arranged on the high-strength bolt, the supporting column is arranged on the connecting seat, the first supporting seat is arranged on the supporting column, the first cross beam penetrates through the limiting column to be arranged on the first supporting seat, and the second cross beam penetrates through the limiting column to be arranged on the first cross beam.

2. The high strength machine room floor support of claim 1, wherein: the support structure comprises a support seat II, an inverted tripod, a support seat III, a support seat IV, a positive tripod, a support seat V, a support frame and a bottom plate surface, wherein the support seat II is arranged on a shockproof base, the inverted tripod is welded on the support seat II, the support seat III is welded on the inverted tripod, the support seat IV is welded on the shockproof base, the positive tripod is welded on the support seat IV, the support seat V is welded on the positive tripod, the support frame is welded on the support seat V, and the bottom plate surface is arranged on the support frame.

3. The high strength machine room floor support of claim 2, wherein: the reverse tripod is arranged between the second supporting seat and the third supporting seat, the positive tripod is arranged between the fourth supporting seat and the fifth supporting seat, and the supporting column is arranged between the connecting seat and the first supporting seat.

4. A high strength machine room floor support as claimed in claim 3, wherein: the connecting base is parallel to the connecting base, the connecting base is perpendicular to the high-strength bolt, the connecting base is perpendicular to the support column, the first cross beam is perpendicular to the second cross beam, and the support frame is parallel to the bottom plate.

5. The high-strength machine room floor support of claim 4, wherein: the connecting seat is cylindrical, the inverted tripod is triangular, the supporting frame is net-shaped, and the bottom plate is rectangular.

6. The high-strength machine room floor support of claim 5, wherein: the connecting seat is provided with four groups, the first beam is provided with two groups, the second beam is provided with two groups, the inverted tripod is provided with six groups, and the second supporting seat is provided with a plurality of groups.