CN218413359U - Big data cloud storage server - Google Patents

Abstract

The utility model discloses a big data cloud storage server, in particular to the technical field of big data, which comprises a server body, wherein mounting plates are arranged on the left side and the right side of the server body; inserting the square blocks into the corresponding openings II and the openings I in sequence to fix the built-in strips, then turning the movable strips back to the original positions and loosening the inserting strips, so that the inserting strips rebound to the original positions through springs and are movably embedded into the movable strips again, and the server body and the mounting plate can be fixed together; the inserting strips are pushed outwards, the inner ends of the inserting strips are separated from the movable strips, the movable strips are rotated to enable the movable strips not to block the square blocks, then the square blocks are sequentially pulled out from the second opening and the first opening, the built-in strips can be pushed inwards to be pulled out from the bayonets, and the server body can be quickly detached to solve the problems that an existing big data cloud storage server is difficult to adapt to and install in cabinets of different sizes and difficult to detach quickly.

Description

Big data cloud storage server

Technical Field

The utility model relates to a big data technology field especially relates to a big data cloud storage server.

Background

The big data cloud storage server is a computing service device capable of providing a big data cloud storage function, and the big data cloud storage server can perform data query, update, transaction management and indexing.

The application of "a big data server" with an authorization notice number of CN212541203U provides the following technical scheme: including the server body and protection machanism, the surface side of the outer surface side of slot guide plate and the surface side of quarter butt are connected, the surface side of quarter butt and the surface side welding of trolley, the surface side of quarter butt and the surface side welding of parting bead, the surface bottom of cover shell and the surface upper portion of gasket are connected, the utility model discloses a mutually supporting of cover shell, frame, mounting isotructure is used, so the server body is lived to the parcel that can be fine when using, plays corresponding guard action, has reduced the damage that dust or foreign object collision brought, again because the slot guide plate, heat dissipation strip, draw the use of mutually supporting of isotructure, so can be very convenient when using take out the server, reduced the trouble in the operation, improved work efficiency, so can know from this, the device possesses the advantage that facilitates the use and can protect the server. This kind of big data server is difficult to be suitable for and installs in the chassis of unidimensional not, and the later stage also is difficult to quick dismantlement when needs are dismantled and is unloaded.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a big data cloud storage server to it is difficult to be suitable for the problem of installing in not unidimensional quick-witted case and being difficult to dismantle fast to solve current big data cloud storage server.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a big data cloud storage server, includes the server body, the right side all is provided with the mounting panel about the server body, the server body outside all is provided with installation component, installation component is used for the erection joint server body and mounting panel.

Furthermore, the mounting component comprises four top frames, built-in strips, square blocks, movable strips, springs, square sleeves and inserting strips, the number of the top frames is four, the four top frames are fixed on the left side and the right side of the upper end and the lower end of the server body respectively, the four built-in strips are inserted into the four top frames respectively, openings II are communicated with the outer sides of the built-in strips, and the four square blocks are inserted into the four openings II respectively.

Furthermore, the movable strips are provided with two movable strips which are respectively connected to the upper side and the lower side of the server body in a rotating mode through rotating shafts, the square sleeve is provided with four movable strips which are respectively fixed to the outer sides of the top frames, the four insertion strips are respectively inserted into the four square sleeves, the four springs are respectively sleeved on the outer portions of the four insertion strips, and the outer ends of the springs are fixed to the inner ends of the square sleeves.

Furthermore, the bayonet socket matched with the built-in strip is all seted up to the inboard upper and lower extreme of mounting panel, a plurality of evenly distributed's mounting hole has all been link up in the middle of the mounting panel inboard.

Furthermore, a plurality of uniformly distributed first openings are formed in the top of the top frame in a penetrating mode, and four square blocks penetrate through one second opening on the same side of the square block.

Furthermore, the outer end of the square block is against the inner ends of the movable strips on the same side of the square block, and the inner ends of the four inserting strips are movably embedded into the left end and the right end of each movable strip respectively.

Compared with the prior art, the utility model discloses the beneficial effect who realizes:

the built-in strip is pushed outwards, so that the built-in strip is gradually close to the mounting plate and is correspondingly inserted into the bayonet, the second opening corresponds to the first opening, then the square block is sequentially inserted into the second opening and the first opening, so that the built-in strip is fixed, the movable strip is turned back to the original position and is released, the cutting strip rebounds to the original position through the spring and is movably embedded into the movable strip again, and the server body can be fixed together with the mounting plate and is suitable for being installed in boxes with different sizes; the cutting is pushed to the outer side, the inner end of the cutting is separated from the movable strip, the movable strip is rotated again to enable the movable strip not to block the square blocks, then the square blocks are sequentially pulled out from the second opening and the first opening, the built-in strip can be pushed to the inner side, the built-in strip is pulled out from the bayonet, and the server body can be quickly disassembled to solve the problems that an existing big data cloud storage server is difficult to adapt to and install in chassis with different sizes and is difficult to quickly disassemble.

Drawings

FIG. 1 is an overall view of the present invention;

FIG. 2 is a schematic top view of the inner strip of the present invention;

fig. 3 is a schematic top view of the top frame of the present invention;

fig. 4 is an inner side schematic view of the mounting plate of the present invention.

In the figure: 1-server body, 101-top frame, 102-built-in bar, 103-opening I, 104-opening II, 105-square block, 106-movable bar, 107-spring, 108-square sleeve, 109-cutting bar, 2-mounting plate, 201-bayonet and 202-mounting hole.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution: a big data cloud storage server comprises a server body 1, wherein mounting plates 2 are arranged on the left side and the right side of the server body 1, mounting components are arranged outside the server body 1, and the mounting components are used for mounting and connecting the server body 1 and the mounting plates 2;

the mounting component comprises four top frames 101, built-in strips 102, square blocks 105, movable strips 106, springs 107, square sleeves 108 and inserting strips 109, the number of the top frames 101 is four, the four top frames 101 are respectively fixed on the left side and the right side of the upper end and the lower end of the server body 1, the number of the built-in strips 102 is four, the built-in strips are respectively inserted into the four top frames 101, the outer sides of the built-in strips 102 are respectively provided with two openings 104 in a penetrating manner, and the number of the square blocks 105 is four, and the four square blocks are respectively inserted into the four second openings 104;

the number of the movable strips 106 is two, the movable strips are respectively connected to the upper side and the lower side of the server body 1 in a rotating mode through rotating shafts, four square sleeves 108 are arranged and are respectively fixed on the outer sides of the top frames 101, four inserting strips 109 are arranged and are respectively inserted into the four square sleeves 108, four springs 107 are arranged and are respectively sleeved outside the four inserting strips 109, and the outer ends of the springs 107 are fixed with the inner ends of the square sleeves 108;

bayonets 201 matched with the built-in strips 102 are formed in the upper end and the lower end of the inner side of the mounting plate 2, and a plurality of uniformly distributed mounting holes 202 penetrate through the middle of the inner side of the mounting plate 2;

the outer end of the square 105 is against the inner end of the movable strip 106 on the same side, and the inner ends of the four inserting strips 109 are respectively movably embedded into the left end and the right end of the two movable strips 106;

during installation, a screw can be firstly inserted into the installation hole 202, the installation plate 2 is installed in the case, and then the inserting strip 109 can be pushed outwards, so that the inner end of the inserting strip 109 is separated from the movable strip 106, therefore, the movable strip 106 is not limited any more, and the movable strip 106 can be rotated immediately, so that the movable strip 106 is not blocked by the square 105 any more;

a plurality of uniformly distributed first openings 103 are formed in the top of the top frame 101 in a penetrating manner, and four blocks 105 respectively penetrate through one second opening 104 on the same side of the top frame;

then, the block 105 is sequentially pulled out from the opening two 104 and the opening one 103, the built-in strip 102 is not fixed any more, then the built-in strip 102 is pushed outwards, the built-in strip 102 is gradually close to the mounting plate 2 and is correspondingly inserted into the bayonet 201, the opening two 104 corresponds to the position of the opening one 103, then the block 105 is sequentially inserted into the opening two 104 and the opening one 103, the built-in strip 102 is fixed, the movable strip 106 is rotated back to the original position, the inserting strip 109 is released, the inserting strip 109 is rebounded to the original position through the spring 107 and is movably inserted into the movable strip 106 again, the server body 1 and the mounting plate 2 can be fixed together, and the server body is suitable for being mounted in cabinets with different sizes;

if the server body 1 needs to be detached, the inserting bar 109 can be pushed outwards to separate the inner end of the inserting bar 109 from the movable bar 106, then the movable bar 106 is rotated to stop the block 105, and then the block 105 is sequentially pulled out from the second opening 104 and the first opening 103, and then the built-in bar 102 can be pushed inwards to pull the built-in bar 102 out of the bayonet 201, so that the server body 1 can be rapidly detached.

The use process comprises the following steps: firstly, a screw is inserted into the mounting hole 202, the mounting plate 2 is mounted in the case, the slip 109 is pushed outwards so that the inner end of the slip 109 is separated from the movable slip 106, and thus the movable slip 106 is not limited any more, the movable slip 106 can be rotated immediately so that the movable slip 106 does not block the block 105, the block 105 is sequentially pulled out from the opening two 104 and the opening one 103, the built-in slip 102 is not fixed any more, then the built-in slip 102 can be pushed outwards so that the built-in slip 102 is gradually close to the mounting plate 2 and is correspondingly inserted into the bayonet 201, the opening two 104 corresponds to the position of the other opening one 103, then the block 105 is sequentially inserted into the corresponding opening two 104 and the opening one 103 so that the built-in slip 102 is fixed, then the movable slip 106 is turned back to the original position and released, so that the slip 109 is rebounded to the original position by the spring 107 and is movably inserted into the movable slip 106 again, the server body 1 and the mounting plate 2 are fixed together and are suitable for being mounted in cases with different sizes, when the server body 1 is dismounted, the movable slip 105 is removed from the bayonet 102, and the block 105 is pushed inwards and the block 105 and the built-in 102 is removed quickly.

Claims (6)

1. The utility model provides a big data cloud storage server, includes server body (1), its characterized in that: the server comprises a server body (1), and is characterized in that mounting plates (2) are arranged on the left side and the right side of the server body (1), mounting components are arranged outside the server body (1), and the mounting components are used for being connected with the server body (1) and the mounting plates (2).

2. The big data cloud storage server of claim 1, wherein: the mounting component comprises four top frames (101), built-in strips (102), square blocks (105), movable strips (106), springs (107), square sleeves (108) and inserting strips (109), the number of the top frames (101) is four, the four top frames (101) are respectively fixed on the left side and the right side of the upper end and the lower end of the server body (1), the four built-in strips (102) are respectively inserted into the four top frames (101), two openings (104) are respectively penetrated through the outer sides of the built-in strips (102), and the four square blocks (105) are respectively inserted into the four openings (104).

3. The big data cloud storage server of claim 2, wherein: the movable strips (106) are provided with two movable strips and are respectively connected to the upper side and the lower side of the server body (1) in a rotating mode through rotating shafts, the square sleeve (108) is provided with four movable strips and is respectively fixed to the outer side of the top frame (101), the inserting strips (109) are provided with four inserting strips and are respectively inserted into the four square sleeves (108), the springs (107) are provided with four springs and are respectively sleeved on the four outer portions of the inserting strips (109), and the outer ends of the springs (107) are fixed to the inner end of the square sleeve (108).

4. The big data cloud storage server of claim 3, wherein: the bayonet socket (201) matched with the built-in strip (102) is all seted up to lower extreme on mounting panel (2) inboard, mounting panel (2) inboard centre all link up has a plurality of evenly distributed's mounting hole (202).

5. The big data cloud storage server of claim 4, wherein: the top of the top frame (101) is provided with a plurality of uniformly distributed first openings (103) in a penetrating mode, and the four blocks (105) penetrate through one second opening (104) on the same side of the block.

6. The big data cloud storage server of claim 5, wherein: the outer end of the square block (105) is close to the inner end of the movable strip (106) on the same side, and the inner ends of the four inserting strips (109) are respectively and movably embedded into the left end and the right end of the two movable strips (106).

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