CN210662100U

CN210662100U - Adjustable bracket of data center

Info

Publication number: CN210662100U
Application number: CN201920729272.3U
Authority: CN
Inventors: 熊斌
Original assignee: Guangzhou Sui Neng Tong Integrated Energy Co ltd; Guangzhou Power Communication Networks Co ltd
Current assignee: China Southern Power Grid Big Data Service Co ltd; China Southern Power Grid Digital Power Grid Group Information Communication Technology Co ltd
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-06-02
Anticipated expiration: 2029-05-21

Abstract

The utility model relates to a data center apparatus technical field specifically discloses a data center adjustable support, including base and lifter plate, the upper surface intermediate position of base has set firmly vertical fixed cover, and the inside rotation of base and fixed cover is provided with vertical spiral shell grooved bar, and the bottom coaxial rotation of spiral shell grooved bar is connected with second transmitting gear, second transmitting gear and the meshing of first steering gear. The right-hand member coaxial coupling of first steering gear has the crank, and the lower surface intermediate position of lifter plate has set firmly vertical lift cover, and the inside nestification of lift cover is on the top of spiral groove pole, and the inside rotation of lift cover is provided with a plurality of first balls, and first ball nestification is in the spiral groove of spiral groove pole, and vertical nested cavity has been seted up to the inside of fixed cover, and the nested inside that gets into nested cavity of lift cover. The utility model discloses the advantage: simple structure, convenient operation, small adjusting difficulty, good stability and convenient implementation and popularization.

Description

Adjustable bracket of data center

Technical Field

The utility model relates to a data center apparatus technical field specifically is a data center adjustable support.

Background

The data center is generally called a computer room and is a global cooperative specific equipment network, provides outsourced Information Technology (IT) services for internet connection access for industries with high data requirements, such as internet operators, communication, finance, automobile manufacturing, medical treatment and the like, and comprises services such as internet access or application hosting, host computer management, controlled server, storage network and the like, such as 'BAT' (hundreds of degrees, Ali, Tencent), banking systems, three operators, emerging internet companies, government units or insurance companies.

Chinese patent (publication No. CN 208652057U, bulletin date 2019.03.26) discloses an adjustable bracket of a data center, which comprises a supporting seat, wherein a supporting column is fixedly connected to the middle of the upper end of the supporting seat, a moving plate is arranged at the upper end of the supporting column and connected with the supporting column through a connecting mechanism, four supporting plates are symmetrically arranged at the upper end of the moving plate, two adjacent supporting plates are attached to each other, and a moving mechanism is arranged at the lower end of each support. The height and depth of the bracket can be adjusted; and in the later stage, welding is not needed, and the floor is perfectly in seamless connection with the anti-static floor. However, the support is inconvenient to adjust, the quality of the mounting cabinet is large, the moving plate is difficult to lift, the adjusting bolt and the threaded rod are required to be screwed to adjust the height of the moving plate, friction force is large due to thread transmission, and adjusting difficulty is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a data center adjustable support to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an adjustable bracket of a data center comprises a base and a lifting plate. The upper surface intermediate position of base has set firmly vertical fixed cover, and the inside rotation of base and fixed cover is provided with vertical thread groove pole, and the bottom coaxial rotation of thread groove pole is connected with second rotating gear, second rotating gear and the meshing of first steering gear. The right end of the first steering gear is coaxially connected with a crank, the crank is rotated by hands, the crank drives the first steering gear to rotate, and the first steering gear drives the second steering gear to rotate, so that the spiral groove rod rotates inside the fixed sleeve.

The lower surface intermediate position of lifter plate has set firmly vertical lift cover, and the inside nestification of lift cover is on the top of spiral groove pole, and the inside rotation of lift cover is provided with a plurality of first balls, and first ball nestification is in the spiral groove of spiral groove pole. The arrangement of the first ball enables the lifting sleeve and the thread groove rod to slide smoothly relatively, so that the adjustment is easier. The fixed sleeve is internally provided with a vertical nested cavity, and the lifting sleeve is nested into the nested cavity, so that the lifting plate can lift in the maximum range.

As a further aspect of the present invention: the crank is provided with a rubber anti-slip layer with salient points, and the friction force of the crank is increased due to the arrangement of the rubber anti-slip layer.

As a further aspect of the present invention: the lifting sleeve and the nested cavity are both of a polygon prism structure, so that the problem that the lifting sleeve rotates to cause unsmooth lifting in the lifting process of the lifting plate is avoided.

As a further aspect of the present invention: the top of fixed cover sets firmly the horizontally fixed plate, and vertical perforation has been seted up in the four corners of fixed plate, and the bottom four corners of lifter plate is fixed and is provided with vertical guide bar, and the guide bar passes the perforation. The setting up of guide bar makes the lifter plate go up and down more steadily, has increased the stability of lifter plate simultaneously.

As a further aspect of the present invention: the bottom of guide bar is provided with the stopper, and the setting of stopper avoids the guide bar to break away from the fixed plate.

As a further aspect of the present invention: a plurality of ball grooves are formed in the guide rod, a plurality of second balls are arranged in the punched holes in a rotating mode, the second balls are nested in the ball grooves, friction force between the fixing plate and the guide rod is reduced due to the arrangement of the second balls, and the guide rod can slide more smoothly.

Compared with the prior art, the beneficial effects of the utility model are that: the arrangement of the first ball enables the lifting sleeve and the thread groove rod to slide smoothly relatively, so that the adjustment is easier. The lifting sleeve is nested into the interior of the nesting cavity, so that the lifting plate can be lifted in the maximum range. The handle is used for adjusting, so that the moment is increased, and the adjusting difficulty is reduced. The friction of the crank is increased due to the arrangement of the rubber anti-slip layer. The friction between the fixed plate and the guide rod is reduced by the arrangement of the second ball, so that the guide rod can slide more smoothly. The utility model discloses the advantage: simple structure, convenient operation, small adjusting difficulty, good stability and convenient implementation and popularization.

Drawings

Fig. 1 is a schematic perspective view of an adjustable bracket of a data center.

Fig. 2 is a schematic diagram of an internal structure of an adjustable bracket of a data center.

Fig. 3 is a schematic structural diagram of a guide bar in an adjustable bracket of a data center.

In the figure, a crank handle 1, a fixed plate 2, a lifting plate 3, a lifting sleeve 4, a guide rod 5, a limiting block 6, a fixed sleeve 7, a base 8, a first steering gear 9, a second steering gear 10, a thread groove rod 11, a first ball 12, a second ball 13, a ball groove 14 and a nesting cavity 15.

Detailed Description

In order to clearly understand the technical features, objects and effects of the present invention, the present invention will now be described with reference to the accompanying drawings.

Example 1

Referring to fig. 1-2, an adjustable stand for a data center includes a base 8 and a lifting plate 3. The upper surface intermediate position of base 8 sets firmly vertical fixed cover 7, and the inside rotation of base 8 and fixed cover 7 is provided with vertical thread groove pole 11, and the coaxial rotation in bottom of thread groove pole 11 is connected with second rotating gear 10, and second rotating gear 10 meshes with first steering gear 9. The right end of the first steering gear 9 is coaxially connected with the crank 1, the crank 1 is provided with a rubber anti-slip layer with salient points, and the friction force of the crank 1 is increased due to the arrangement of the rubber anti-slip layer. By rotating the crank handle 1 by hand, the crank handle 1 drives the first turning gear 9 to rotate, and the first turning gear 9 drives the second turning gear 10 to rotate, so that the spiral groove rod 11 rotates inside the fixed sleeve 7.

The lower surface intermediate position of lifter plate 3 has set firmly vertical lift cover 4, and the inside nestification of lift cover 4 is on the top of spiral groove pole 11, and the inside rotation of lift cover 4 is provided with a plurality of first balls 12, and first ball 12 nestification is in the spiral groove of spiral groove pole 11. The arrangement of the first ball 12 enables the lifting sleeve 4 and the screw groove rod 11 to slide smoothly relatively, and adjustment is easier. The interior of the fixed sleeve 7 is provided with a vertical nesting cavity 15, and the lifting sleeve 4 can be nested into the nesting cavity 15, so that the lifting plate 3 can be lifted in the maximum range. The lifting sleeve 4 and the nesting cavity 15 are both of a polygon prism structure, so that the lifting sleeve 4 is prevented from rotating in the lifting process of the lifting plate 3, and the lifting is not smooth.

The top of fixed cover 7 sets firmly horizontally fixed plate 2, and vertical perforation has been seted up in the four corners of fixed plate 2, and the bottom four corners of lifter plate 3 is fixed and is provided with vertical guide bar 5, and guide bar 5 passes the perforation. The setting of guide bar 5 makes lifter plate 3 go up and down more steadily, has increased lifter plate 3's stability simultaneously. The bottom of guide bar 5 is provided with stopper 6, and stopper 6's setting is avoided guide bar 5 to break away from fixed plate 2.

The utility model discloses a theory of operation is: the base 8 is fixed to the ground and the installation cabinet is mounted on the lifting plate 3. By rotating the crank handle 1 by hand, the crank handle 1 drives the first turning gear 9 to rotate, and the first turning gear 9 drives the second turning gear 10 to rotate, so that the spiral groove rod 11 rotates inside the fixed sleeve 7. The screw groove rod 11 rotates to enable the lifting sleeve 4 to lift, so that the lifting plate 3 is lifted, and the height of the installation cabinet is adjusted.

Example 2

Referring to fig. 3, on the basis of embodiment 1, a plurality of ball grooves 14 are formed in the guide rod 5, a plurality of second balls 13 are rotatably disposed inside the through hole, the second balls 13 are nested inside the ball grooves 14, and the arrangement of the second balls 13 reduces the friction between the fixed plate 2 and the guide rod 5, so that the guide rod 5 can slide more smoothly.

Claims

1. A data center adjustable support comprises a base (8) and a lifting plate (3), wherein a vertical fixed sleeve (7) is fixedly arranged at the middle position of the upper surface of the base (8), a vertical screw groove rod (11) is rotatably arranged inside the base (8) and the fixed sleeve (7), the support is characterized in that a second rotating gear (10) is coaxially rotatably connected to the bottom of the screw groove rod (11), the second rotating gear (10) is meshed with a first steering gear (9), a crank (1) is coaxially connected to the right end of the first steering gear (9), a vertical lifting sleeve (4) is fixedly arranged at the middle position of the lower surface of the lifting plate (3), the inside of the lifting sleeve (4) is nested at the top end of the screw groove rod (11), a plurality of first balls (12) are rotatably arranged inside the lifting sleeve (4), the first balls (12) are nested in the screw groove of the screw groove rod (11), a vertical nested cavity (15) is formed inside the fixed sleeve (7), the lifting sleeve (4) is nested into the nesting cavity (15).

2. The adjustable bracket of claim 1, wherein the crank (1) is provided with a rubber anti-slip layer with convex points.

3. A data centre adjustable support according to claim 1 or 2, characterised in that the lifting sleeve (4) and the nesting cavity (15) are both of a polygonal prism configuration.

4. The adjustable bracket of claim 3, wherein the top of the fixing sleeve (7) is fixedly provided with a horizontal fixing plate (2), four corners of the fixing plate (2) are provided with vertical through holes, four corners of the bottom of the lifting plate (3) are fixedly provided with vertical guide rods (5), and the guide rods (5) penetrate through the through holes.

5. A data center adjustable support according to claim 4, characterized in that the bottom of the guide rod (5) is provided with a stop block (6).

6. A data center adjustable support according to claim 5, characterized in that a plurality of ball grooves (14) are formed in the guide rod (5), a plurality of second balls (13) are rotatably arranged in the through hole, and the second balls (13) are nested in the ball grooves (14).