CN220416751U - Quick detach formula big data server erection equipment - Google Patents

Abstract

The utility model discloses a quick-dismantling type big data server installation device, which comprises: the device comprises a connecting base, a lifting supporting structure, an adjusting component and a sliding wheel; the whole connecting base is of a cavity structure with one end open, and the adjusting component is arranged on the connecting base and close to the opening; the lifting support structure is arranged in the connecting base, a lifting end and an anti-skid end are arranged in the lifting support structure, and the lifting end of the lifting support structure can lift the big data server under the drive of power; meanwhile, the anti-skid end of the lifting support structure can be contacted with the ground under the drive of power; through setting up the bearing structure that lifts in connecting the base in this scheme, can be under the effect of power with big data server and connect the base separation fast, with big data server lift certain height simultaneously, reduce the high distance of final transport to use manpower sparingly, when installing big data server simultaneously, also can reduce final transport height, use manpower sparingly.

Description

Quick detach formula big data server erection equipment

Technical Field

The utility model relates to the technical field of big data equipment application, in particular to quick-dismantling big data server installation equipment.

Background

Big data, or huge amount of data, refers to information that the amount of data involved is so large that it cannot be retrieved, managed, processed, and consolidated in a reasonable time through the mainstream software tools, thus helping the business decision to be more aggressive. The big data is usually stored in the big data server, and the big data server has large volume because the stored data is very important, so the big data server is inconvenient to install and carry, and if the big data is large in shaking during installation and carrying, the problems of abnormality, equipment failure and the like of the internal data can be caused.

Related generic installation arrangements for big data servers have been disclosed in the prior art, such as application number: 2020226651531 it includes the mount table, the universal wheel is installed to the bottom of mount table, the brake block is installed in the outside of universal wheel, the inboard bottom fixedly connected with limiting plate of mount table, the spacing groove has all been seted up to the inboard bottom four ends of limiting plate, the inboard bottom surface bonding of mount table has the shock pad, the inboard grafting of limiting plate has the server cabinet, the inside of server cabinet is provided with the server body, the earthing tab is all installed to the bottom four ends of server cabinet. This general erection equipment of big data server through being provided with the gear at driving motor's output, has reached the purpose of automatic rising bottom plate, has practiced thrift a large amount of time, and then has improved work efficiency, through being provided with the slipmat in the bottom of bottom plate, has reached skid-proof purpose, has strengthened the steadiness when equipment is placed.

In the prior art, the mode of adding auxiliary supporting pieces on two sides is adopted to realize stable support, meanwhile, the damping pad is arranged in the machine room, and the mode of adding the auxiliary supporting pieces on two sides is adopted to increase the whole occupied area and reduce the space utilization rate of the machine room; when the rubber material is used as the anti-skid pad, the server can form a close contact structure with the anti-skid pad due to the fact that the server is in contact with the anti-skid pad for a long time, so that the server base and the anti-skid pad can be separated with great effort, and human resources can be wasted when the server is transported and replaced.

Disclosure of Invention

The utility model aims to provide the quick-dismantling type large data server installation equipment aiming at the defects, and solves the problems that the mode of adding auxiliary supporting pieces on two sides in the prior art can increase the whole occupied area and reduce the space utilization rate of a machine room; meanwhile, the problem that the server is separated from the anti-skid pad, and human resources are wasted when the server is carried and replaced is solved.

The utility model is realized by the following scheme:

a quick-dismantling big data server installation device comprises a connection base, a lifting support structure, an adjusting component and a sliding wheel; the whole connecting base is of a cavity structure with one opening at one end, and the adjusting component is arranged on the connecting base and close to the opening; the lifting support structure is arranged in the connecting base, a lifting end and an anti-skid end are arranged in the lifting support structure, and the lifting end of the lifting support structure can lift the big data server under the driving of power; the anti-slip end of the lifting support structure can be driven by power to contact the ground.

Based on the structure of the quick-dismantling type big data server installation equipment, the anti-slip pad and the grounding piece are arranged in the connecting base, the anti-slip pad is arranged at the bottom of the connecting base, and the grounding piece is embedded in the anti-slip pad and penetrates through the anti-slip pad to be in contact with the connecting base.

Based on the structure of the quick-dismantling type big data server installation equipment, the lifting support structure comprises a power motor, a coupler and a motion rod; the power motor is arranged at the bottom of the connecting base, the coupler is arranged on an output shaft of the power motor, an output gear is arranged at the end part, far away from the power motor, of the coupler, and a rack meshed with the output gear is arranged on the motion rod.

Based on the structure of the quick-dismantling large data server installation equipment, the two ends of the motion rod are respectively provided with a first support plate and a second support plate; the first backup pad sets up in connecting the base, be provided with the holding chamber that supplies first backup pad to place in the slipmat, the second backup pad sets up in connecting the base outside, be provided with the through-hole that supplies the motion pole to move in the connection base.

Based on the structure of the quick-dismantling type big data server installation equipment, the moving rod is arranged at the central position of the base plate of the connecting base, and the first supporting plate and the second supporting plate are coaxially arranged with the moving rod, so that the first supporting plate is also arranged at the central position of the connecting base.

Based on the structure of the quick-dismantling type big data server installation equipment, the wear-resistant layer is arranged on the end face, contacted with the big data server, of the first support plate, and the wear-resistant layer is arranged on the end face, contacted with the ground, of the second support plate.

Based on the structure of the quick-dismantling type big data server installation equipment, a connecting column is arranged between the sliding wheel and the connecting base.

Based on the structure of the quick-dismantling big data server installation equipment, the adjusting assembly comprises a contact pad and an adjusting screw, an adjusting hole connected with the adjusting screw is formed in the side wall of the connecting base, an internal thread is arranged in the adjusting hole, an external thread is arranged on the adjusting screw, the adjusting screw is screwed into the adjusting hole to be fixed, and the contact pad is arranged at the end part of the adjusting screw.

Based on the structure of the quick-dismantling big data server installation equipment, auxiliary pieces are arranged on the side walls of the connecting base, the auxiliary pieces are symmetrically arranged along the central position of the connecting base, and the auxiliary pieces comprise connecting lugs and auxiliary supporting feet; the auxiliary supporting leg is of an L-shaped structure as a whole and comprises a connecting transverse plate and a connecting vertical plate; the connecting transverse plate is perpendicular to the connecting vertical plate; the end part of the connecting vertical plate far away from the connecting transverse plate is provided with a hinge hole, and the connecting lug is hinged with the hinge hole.

Based on the structure of the quick-dismantling type big data server installation equipment, the side wall of the connecting base is provided with a clamping groove for accommodating the connecting transverse plate, and a rubber layer is arranged in the clamping groove; and a limiting block is arranged on the connecting lug.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. through setting up the bearing structure that lifts in connecting the base in this scheme, can be under the effect of power with big data server and connect the base separation fast, with big data server lift certain height simultaneously, reduce the high distance of final transport to use manpower sparingly, when installing big data server simultaneously, also can reduce final transport height, use manpower sparingly.

2. According to the scheme, the big data server can be prevented from being in rigid contact with the connecting base through the anti-slip pad, damage to the big data server is prevented, meanwhile, when the big data server is in contact with the anti-slip pad, the grounding piece is also in contact with the big data server, and finally the connecting base is connected with the ground through the connecting base, and the connecting base can be finally grounded through the ground wire.

Drawings

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

FIG. 2 is a schematic view of the auxiliary member of the present utility model after being released;

FIG. 3 is a schematic view of the structure of the present utility model after lifting the lifting support structure;

the marks in the figure: 1. the base is connected; 2. lifting the support structure; 3. an adjustment assembly; 4. a sliding wheel; 5. an auxiliary member; 6. a big data server; 101. an anti-slip pad; 102. a grounding plate; 103. a receiving chamber; 104. a connecting column; 105. a clamping groove; 106. a rubber layer; 201. a power motor; 202. a coupling; 203. a motion bar; 204. an output gear; 205. a first support plate; 206. a second support plate; 207. a wear-resistant layer; 301. a contact pad; 302. adjusting a screw; 303. an adjustment aperture; 501. a connecting lug; 502. auxiliary supporting feet; 503. a connecting transverse plate; 504. connecting a vertical plate; 505. a hinge hole; 506. and a limiting block.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may include one or more of the feature, either explicitly or implicitly.

Example 1

As shown in fig. 1 to 3, the present utility model provides a technical solution:

a quick-release big data server installation device, which at least comprises, but is not limited to, a connection base 1, a lifting support structure 2, an adjusting component 3 and a sliding wheel 4; the whole connecting base 1 is of a cavity structure with one end open, and the adjusting component 3 is arranged on the connecting base 1 and close to the open position; the lifting support structure 2 is arranged in the connecting base 1, the lifting support structure 2 is provided with a lifting end and an anti-skid end, and the lifting end of the lifting support structure 2 can lift the big data server 6 under the driving of power; meanwhile, the anti-skid end of the lifting support structure 2 can be in contact with the ground under the driving of power.

Based on the above structure, in the scheme, the lifting support structure 2 is arranged in the connection base 1, so that the big data server 6 can be quickly separated from the connection base 1 under the action of power, meanwhile, the big data server 6 is lifted to a certain height, and the final carrying height distance is reduced, so that the manpower resources are saved, and meanwhile, the final carrying height can be reduced and the manpower resources are saved when the big data server 6 is installed;

in this scheme, the antiskid end is established in the profile scope of connecting base 1, can not occupy great area, can the biggest utilization computer lab space that can promote economic benefits.

As an example, the connection base 1 is provided therein with a non-slip mat 101 and a grounding plate 102, the non-slip mat 101 is provided at the bottom position of the connection base 1, and the grounding plate 102 is embedded in the non-slip mat 101 and penetrates the non-slip mat 101 to be in contact with the connection base 1.

Based on the above structure, the big data server 6 can be prevented from rigidly contacting the connection base 1 by providing the anti-slip pad 101, damage to the big data server 6 is prevented, and simultaneously, when the big data server 6 contacts with the anti-slip pad 101, the grounding piece 102 contacts with the big data server 6 at the same time, and finally, the connection base 1 is connected with the ground through the connection base 1, and the connection base 1 can be finally grounded through the ground wire.

As an example, the lifting support structure 2 may comprise a power motor 201, a coupling 202 and a motion bar 203; the power motor 201 is arranged at the bottom of the connecting base 1, the coupler 202 is arranged on an output shaft of the power motor 201, an output gear 204 is arranged at the end part, far away from the power motor 201, of the coupler 202, and a rack meshed with the output gear 204 is arranged on the motion rod 203; the ascending or descending of the moving rod 203 is achieved by the forward rotation or the reverse rotation of the power motor 201.

Based on the above structure, this scheme sets up the power motor 201 in the bottom position of connecting base 1, does not occupy the space of both sides, has increased holistic space utilization.

As an example, both ends of the movement lever 203 are respectively provided with a first support plate 205 and a second support plate 206; the first backup pad 205 sets up in connecting base 1, is provided with the accommodation chamber 103 that supplies first backup pad 205 to place in the slipmat 101, and the second backup pad 206 sets up in connecting base 1 outside, is provided with the through-hole that supplies motion pole 203 to move in the connecting base 1.

Based on the above structure, the motion rod 203 drives the first support plate 205 and the second support plate 206 to move under the action of the power motor 201, the first support plate 205 is used for contacting with the big data server 6, and the second support plate 206 is used for contacting with the ground to increase the contact surface with the ground, so that the whole device is prevented from slipping.

As an example, the movement bar 203 is disposed at a central position of the bottom plate of the connection base 1, and the first support plate 205 and the second support plate 206 are both disposed coaxially with the movement bar 203 such that the first support plate 205 is also disposed at a central position of the connection base 1.

Based on the above structure, by setting the movement bar 203 at the center position, the center of gravity of the first support plate 205 can be more stable when lifting and lowering the big data server 6, so that shaking can not occur in the movement process, and the safety of the big data server 6 is ensured.

As an example, the first support plate 205 may be provided with a wear layer 207 on an end surface contacting the big data server 6, and the second support plate 206 may be provided with a wear layer 207 on an end surface contacting the ground.

Based on the above structure, through all being provided with the wearing layer on first backup pad 205 and second backup pad 206, on the one hand can increase the friction between big data server 6 and the first backup pad 205, further increase the stability in the motion process, on the other hand also can increase the friction of ground and second backup pad 206, further prevent that whole device from taking place to move, simultaneously big data server 6 weight is heavier, and its second backup pad 206 is greater with the frictional force on ground.

The lifting support structure 2 in the scheme not only can separate the big data server 6 from the anti-skid pad 101 rapidly, lifts the big data server 6 at a certain height position and reduces the use of human resources, but also can contact the whole device with the ground, reduces the whole occupied area compared with the prior art, and improves the space utilization rate.

As an example, a connecting column 104 is provided between the sliding wheel 4 and the connecting base 1, and the connecting base 1 is lifted to a certain height through the connecting column 104, so that space is provided for the assembly of the power motor 201 and the movement of the movement rod 203.

As an example, the adjusting assembly 3 may include a contact pad 301 and an adjusting screw 302, an adjusting hole 303 connected to the adjusting screw 302 is provided on a side wall of the connection base 1, an internal thread is provided in the adjusting hole 303, an external thread is provided on the adjusting screw 302, the adjusting screw 302 is screwed into the adjusting hole 303 to fix, and the contact pad 301 is provided at an end of the adjusting screw 302.

Based on the above structure, the contact pad 301 is used for contacting with the side wall of the big data server 6, and fixes the big data server 6 through the adjusting screw 302, in this scheme, the opening of the connection base 1 is larger, and the big data server 6 with different models can be received, and the big data server 6 with different models is fixed through the adjusting screw 302, so that the big data server is not integrally connected with the connection base 1, and shake is avoided.

As an example, the auxiliary member 5 may be disposed on the side wall of the connection base 1, the auxiliary member 5 may be symmetrically disposed along the central position of the connection base 1, and the auxiliary member 5 may include a connection lug 501 and an auxiliary supporting leg 502; auxiliary supporting leg 502 is of an overall L-shaped structure, and auxiliary supporting leg 502 may include a connecting cross plate 503 and a connecting riser 504; the connection cross plate 503 is disposed perpendicular to the connection riser 504;

the end of the connecting vertical plate 504 far away from the connecting transverse plate 503 is provided with a hinge hole 505, and the connecting lug 501 is hinged with the hinge hole 505; the auxiliary support feet 502 are enabled to rotate about the connecting lugs 501, changing the state of the auxiliary element 5.

Based on the above structure, by arranging the auxiliary piece 5, when the big data server 6 needs to be carried away, the auxiliary supporting leg 502 is rotated to be in contact with the ground, the connecting transverse plate 503 is stepped on by the foot, the state of the connecting base 1 is fixed, and the carrying process is convenient; or after the mounting device is finally fixed, the auxiliary supporting leg 502 is rotated to be in contact with the ground, so that friction is increased to a certain extent, and the auxiliary supporting leg 502 piece is accommodated when the mounting device is moved.

Illustratively, the side wall of the connection base 1 is provided with a clamping groove 105 for accommodating the connection transverse plate 503, and the clamping groove 105 is provided with a rubber layer 106.

With the above configuration, the rubber layer 106 is provided in the locking groove 105, and when it is necessary to store the connection cross plate 503, the connection cross plate 503 is locked in the locking groove 105, and the connection cross plate 503 can press the rubber layer 106 in the locking groove 105, and the connection cross plate 503 is self-fixed.

As an example, a limiting block 506 is disposed on the connection ear 501; limiting blocks 506 can limit the limiting movement positions of the connecting vertical plates 504, so that the auxiliary supporting function of two sides is realized.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A quick detach formula big data server erection equipment, its characterized in that: the device comprises a connecting base, a lifting supporting structure, an adjusting component and a sliding wheel; the whole connecting base is of a cavity structure with one opening at one end, and the adjusting component is arranged on the connecting base and close to the opening; the lifting support structure is arranged in the connecting base, a lifting end and an anti-skid end are arranged in the lifting support structure, and the lifting end of the lifting support structure can lift the big data server under the driving of power; the anti-slip end of the lifting support structure can be driven by power to contact the ground.

2. A quick detach formula big data server installation equipment as defined in claim 1, wherein: the anti-slip pad and the grounding piece are arranged in the connecting base, the anti-slip pad is arranged at the bottom of the connecting base, and the grounding piece is embedded in the anti-slip pad and penetrates through the anti-slip pad to contact with the connecting base.

3. A quick detach formula big data server installation equipment as defined in claim 2, wherein: the lifting support structure comprises a power motor, a coupler and a motion rod; the power motor is arranged at the bottom of the connecting base, the coupler is arranged on an output shaft of the power motor, an output gear is arranged at the end part, far away from the power motor, of the coupler, and a rack meshed with the output gear is arranged on the motion rod.

4. A quick detach formula big data server installation apparatus according to claim 3, wherein: the two ends of the motion rod are respectively provided with a first supporting plate and a second supporting plate; the first backup pad sets up in connecting the base, be provided with the holding chamber that supplies first backup pad to place in the slipmat, the second backup pad sets up in connecting the base outside, be provided with the through-hole that supplies the motion pole to move in the connection base.

5. A quick detach formula big data server installation device as defined in claim 4, wherein: the motion rod is arranged at the central position of the base plate of the connecting base, and the first support plate and the second support plate are both coaxially arranged with the motion rod, so that the first support plate is also arranged at the central position of the connecting base.

6. A quick detach formula big data server installation equipment as defined in claim 5, wherein: the first backup pad is provided with the wearing layer on the terminal surface that contacts with big data server, be provided with the wearing layer on the terminal surface that contacts with ground of second backup pad.

7. The quick detach formula big data server installation equipment of claim 6, wherein: a connecting column is arranged between the sliding wheel and the connecting base.

8. The quick detach formula big data server installation equipment of claim 7, wherein: the adjusting assembly comprises a contact pad and an adjusting screw, an adjusting hole connected with the adjusting screw is formed in the side wall of the connecting base, internal threads are arranged in the adjusting hole, external threads are arranged on the adjusting screw, the adjusting screw is screwed into the adjusting hole to be fixed, and the contact pad is arranged at the end part of the adjusting screw.

9. The quick detach formula big data server installation equipment of claim 8, wherein: the auxiliary pieces are symmetrically arranged along the central position of the connecting base and comprise connecting lugs and auxiliary supporting feet; the auxiliary supporting leg is of an L-shaped structure as a whole and comprises a connecting transverse plate and a connecting vertical plate; the connecting transverse plate is perpendicular to the connecting vertical plate; the end part of the connecting vertical plate far away from the connecting transverse plate is provided with a hinge hole, and the connecting lug is hinged with the hinge hole.

10. The quick detach formula big data server installation equipment of claim 9, wherein: a clamping groove for accommodating the connecting transverse plate is formed in the side wall of the connecting base, and a rubber layer is arranged in the clamping groove; and a limiting block is arranged on the connecting lug.