CN214090783U - Novel raised floor supports device - Google Patents

Abstract

A novel overhead floor supporting device relates to the field of data machine room ground decoration buildings. The utility model discloses a plurality of support bases fixed with ground, every support base includes the supporting leg and arranges the adjustable layer board of its top in. The height adjustment of the adjustable supporting plate is realized through the adjusting nut, and the adjustable supporting plate is locked through the locking jackscrew. The anti-static floor is structurally characterized in that a C-shaped steel layer and a guide rail layer are sequentially arranged above the supporting base, and the anti-static floor is laid on the guide rail layer. The C-shaped steel layer comprises a plurality of C-shaped steels which are arranged in parallel, and the guide rail layer comprises a plurality of integrated column-dividing guide rails which are arranged perpendicular to the C-shaped steels. Compared with the prior art, the utility model has the advantages of workable, easy installation, easy regulation, convenient to use, improved the flexibility that raised floor supported pedestal mounting.

Description

Novel raised floor supports device

Technical Field

The utility model relates to a data computer lab ground decoration building field, especially built on stilts floor strutting arrangement.

Background

With the arrival of the big data era, the data center industry is developed at a high speed, the construction scale of medium and large data centers is obviously increased, and as a common ground decoration process of a data machine room, the installation quality and the installation speed of an overhead floor support system have great influence on the overall construction quality of the data centers.

At present, the standard specification of the raised floor is 600 × 600mm, the raised floor supporting system is composed of a supporting base, sectional materials and an adjustable supporting plate, and the distance between the bases is determined by integral multiples of the size of the raised floor according to installation requirements. In the prior art, once the base interval is determined, the section bars and other accessories above the base need to be customized according to the base interval. This makes it difficult to adjust the position of the support base during installation after the base is machined. With the continuous increase of the construction scale of medium and large-scale data centers, a large number of pipeline troughs are often laid under the raised floor, so that the position conflict between a support base of the raised floor and electromechanical pipeline troughs is easily generated, and the construction of the raised floor is difficult.

Disclosure of Invention

To the not enough of existence among the above-mentioned prior art, the utility model aims at providing a novel built on stilts floor supports device. The support base has the advantages of easy processing, easy installation, easy adjustment and convenient use, and improves the flexibility of the installation of the support base of the raised floor.

In order to achieve the above object, the technical solution of the present invention is implemented as follows:

a novel raised floor supporting device comprises a plurality of supporting bases fixed with the ground, and each supporting base comprises a supporting leg and an adjustable supporting plate arranged above the supporting leg. The height adjustment of the adjustable supporting plate is realized through the adjusting nut, and the adjustable supporting plate is locked through the locking jackscrew. The anti-static floor is structurally characterized in that a C-shaped steel layer and a guide rail layer are sequentially arranged above the supporting base, and the anti-static floor is laid on the guide rail layer. The C-shaped steel layer comprises a plurality of C-shaped steels which are arranged in parallel, and the guide rail layer comprises a plurality of integrated column-dividing guide rails which are arranged perpendicular to the C-shaped steels.

In the overhead floor supporting device, the C-shaped steel is fixed with the adjustable supporting plate through a bolt and a nut by a C-shaped steel clamping plate arranged in the inner cavity.

In the above raised floor support device, the integrated fence rail is fixed to the C-section steel by a T-bolt and a nut.

In the above raised floor support device, the lower end of the support leg is fixed to the ground by an expansion bolt.

The utility model discloses owing to adopted above-mentioned structure, satisfy the nimble setting of built on stilts floor support base through the cooperation of C shaped steel and integration subfield guide rail. The supporting base can be adjusted randomly within the range of the calculated allowable distance according to the actual installation requirement, and the distance of the integrated column-dividing guide rails on the upper portion of the C-shaped steel is only required to be consistent with the size of the raised floor. The customization work load of each part of braced system reduces greatly, has improved flexibility and the suitability that supports the base setting, the utility model discloses the device is applicable to more in the middle of the intensive, the big project of pipeline size of pipeline under the floor.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

FIG. 1 is an exploded view of the raised floor support of the present invention;

FIG. 2 is a schematic view of the connection between the support base and the C-shaped steel of the present invention;

fig. 3 is a schematic view of the connection of the C-shaped steel, the integrated fence rail and the anti-static floor of the present invention.

Detailed Description

Referring to fig. 1 to 3, the utility model discloses built on stilts floor strutting arrangement, it includes a plurality of support bases 1 fixed with ground, and support base 1 top has still put C shaped steel layer and guide rail layer in proper order, and antistatic floor 7 lays on the guide rail layer. Each supporting base 1 comprises supporting legs 11 and an adjustable supporting plate 12 arranged above the supporting legs, the height of the adjustable supporting plate 12 is adjusted through adjusting nuts 13, and the adjustable supporting plate 12 is locked through locking jackscrews 14. C shaped steel layer includes many parallel arrangement's C shaped steel 4, and the guide rail layer includes many and C shaped steel 4 vertical arrangement's integration subfield guide rail 6. The C-shaped steel 4 is fixed with the adjustable supporting plate 12 through a bolt and a nut by the C-shaped steel clamping plate 2 arranged in the inner cavity. The integrated column-dividing guide rail 6 is fixed on the C-shaped steel 4 through a T-shaped bolt and a nut. The lower end of the supporting leg 11 is fixed with the ground through an expansion bolt.

The utility model discloses an in the construction, 11 lower extremes of supporting leg are formed by 200X 5mm steel sheet and phi 89X 3.5mm steel pipe welding, fix it and ground through expansion bolts. The upper end of the supporting leg 11 is welded with a pipe hoop with the inner diameter phi 30 through a steel plate with the thickness of 3.5mm, an inner thread opening of a locking jackscrew 14 is reserved on the side face of the pipe hoop with the inner diameter phi 30, and the locking jackscrew 14 is an M6 hexagon bolt.

The adjustable supporting plate 12 is formed by welding 140 x 5mm steel plates and 130mm long phi 30 outer screw rods, adjusting nuts 13 are mounted on the outer screw rods of the adjustable supporting plate 12 and then plugged into pipe hoops at the upper ends of the supporting legs 11, and the height of the adjustable supporting plate 12 is adjusted through the adjusting nuts 13, and then the adjustable supporting plate 12 is locked through locking jackscrews 14.

The standard length of the C-shaped steel 4 is 3000mm, the cross section dimension is 130X 120X 3mm, the gap width is 35mm, and the dimension of the C-shaped steel clamping plate 2 is 140X 100X 5 mm. C-shaped steel 4 is clamped by the C-shaped steel clamping plate 2 and the adjustable supporting plate 12 and then fixed by 4M 10 high-strength hexagon bolts and nuts with the length of 30 mm. Bolt connecting holes need to be prefabricated in advance for the C-shaped steel clamping plate 2 and the adjustable supporting plate 12 to be installed, bolt holes connected with the integrated column-dividing guide rail 6 are reserved at the upper end of the C-shaped steel 4, and the bolt hole interval is 600 mm. The fixed positions of the C-shaped steel 4 and the supporting base 1 can be adjusted according to the field practice, and the horizontal and vertical positions are guaranteed.

The integrated column guide rail 6 is formed by processing an aluminum alloy section, the standard length of the integrated column guide rail is 3000mm, the section size is 70 x 100 x 2.5mm, and a cross reinforcing rib with the same material thickness of 2.5mm is arranged in the middle. The integrated fence guide rail 6 and the fixed end of the anti-static floor 7 are provided with trapezoidal protrusions with the height of 5mm, and the installation stability of the raised floor is guaranteed. The fixed ends of the integrated separating guide rail 6 and the C-shaped steel 4 are provided with 10 mmC-shaped notches, and two T8T-shaped bolts with the length of 60mm are connected with the integrated separating guide rail 6 and the C-shaped steel 4 through the C-shaped notches. The fixed spacing of the integrated column-dividing guide rails 6 needs to be consistent with the width of the raised floor.

The utility model discloses built on stilts floor strutting arrangement's installation as follows:

after the building ground is leveled, the supporting base 1 with proper height is customized according to the sinking height of the raised floor, and the mounting position of the supporting base 1 is positioned and arranged with the supporting base 1 according to the mounting condition of pipelines in the sinking area. After the positioning is finished, the leveling instrument is used for paying off and aligning again to ensure that the base is installed horizontally and vertically, and the adjustable supporting plate 12 is adjusted and leveled. Then, fixing the C-shaped steel 4 above the supporting base 1, leveling the C-shaped steel 4, and screwing down the locking jackscrew 14 of the supporting base 1. After the fixation is finished, the integrated column-dividing guide rail 6 is fixed above the C-shaped steel 4, the T-shaped bolt penetrates through the C-shaped steel 4 along the longitudinal direction of the C-shaped steel 4 and is plugged into a C-shaped notch below the integrated column-dividing guide rail 6, then the T-shaped bolt rotates by 90 degrees and is fixed by a nut, the integrated column-dividing guide rail 6 and the C-shaped steel 4 are fixed, and the fixed distance of the integrated column-dividing guide rail 6 is the same as the size of the anti-static floor 7. After the integrated column-dividing guide rail 6 is fixed, the support base 1 and the ground are fixed by using expansion bolts, and then the anti-static floor 7 can be laid.

The above description and applications of the present invention are illustrative, and are not intended to limit the scope of the invention to the above embodiments. Variations and modifications of the embodiments disclosed herein are possible, and alternative and equivalent various components of the embodiments will be apparent to those skilled in the art. It will be clear to those skilled in the art that the present invention may be embodied in other forms, structures, arrangements, proportions, and with other components, materials, and parts, without departing from the spirit or essential characteristics thereof. Other variations and modifications of the embodiments disclosed herein may be made without departing from the scope and spirit of the present invention.

Claims (4)

1. A novel overhead floor supporting device comprises a plurality of supporting bases (1) fixed with the ground, wherein each supporting base (1) comprises a supporting leg (11) and an adjustable supporting plate (12) arranged above the supporting leg, the height of the adjustable supporting plate (12) is adjusted through an adjusting nut (13), and the adjustable supporting plate (12) is locked through a locking jackscrew (14); the anti-static floor is characterized in that a C-shaped steel layer and a guide rail layer are sequentially arranged above the supporting base (1), and the anti-static floor (7) is laid on the guide rail layer; c shaped steel layer includes many parallel arrangement's C shaped steel (4), and the guide rail layer includes many integrated column guide rail (6) of arranging perpendicularly with C shaped steel (4).

2. The novel raised floor support device of claim 1, wherein the C-section steel (4) is fixed to the adjustable support plate (12) by means of bolts and nuts by means of a C-section steel clamping plate (2) placed in the inner cavity.

3. A novel raised floor support according to claim 1 or 2, characterised in that the integrated sectional rail (6) is fixed to the C-section steel (4) by means of T-bolts and nuts.

4. A novel raised floor support according to claim 3, characterised in that the lower end of the support leg (11) is secured to the ground by expansion bolts.

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