CN216491427U - Data center server casing assembly with protective structure - Google Patents
Data center server casing assembly with protective structure Download PDFInfo
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- CN216491427U CN216491427U CN202122656012.8U CN202122656012U CN216491427U CN 216491427 U CN216491427 U CN 216491427U CN 202122656012 U CN202122656012 U CN 202122656012U CN 216491427 U CN216491427 U CN 216491427U
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- casing
- data center
- center server
- protective structure
- cavity
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Abstract
The utility model discloses a data center server casing assembly with a protection structure, which comprises a casing and a rear cover plate, wherein pillars are respectively arranged between the top and the bottom of four corners inside the casing, mounting pieces are arranged between the pillars and the inner wall of the casing, the top and the bottom outside the pillars are respectively sleeved with a circular ring in a sliding manner, inner embedded grooves are respectively arranged inside two sides of the casing, and upper concave blocks are arranged at the top ends inside the inner embedded grooves. This data center server machine shell assembly with protective structure is through being provided with the pillar respectively between the top and the bottom at four turnings in the casing inboard, presses the connecting plate of top and bottom two departments, makes the ring that its is connected slide towards the fixed block at center in the outside of pillar, with four strutting respectively push the inside corners of casing and lock with the installation piece, expanding spring forces the connecting plate to reset, this thing relies on again to support shells inner wall with the pressfitting board with the buffer spring of wait welded, the problem that inner structure is slightly weak has been solved.
Description
Technical Field
The utility model relates to the technical field of server shells, in particular to a data center server shell assembly with a protection structure.
Background
The server is used as a computer for managing data information, is responsible for receiving, calculating and transmitting signals, is a large-scale service device, does not stop after long-term work, is used as an external shell for containing parts of the object, and also needs to reinforce and support an internal frame structure when protecting corners as much as possible, so that electronic accessories are prevented from being crushed or damaged by collision, the evacuation of internal heat is guaranteed to be smooth, and the server can run and work stably.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a data center server shell assembly with a protection structure, so as to solve the problem of weak internal structure in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a data center server casing assembly with protective structure, includes casing and back shroud, be provided with the pillar between the top and the bottom at four turnings of casing inboard respectively, install the installation piece between the inner wall of pillar and casing, the ring has been cup jointed with the bottom in the top in the pillar outside is sliding respectively, the inside of casing both sides is provided with interior caulking groove respectively, the inside top of interior caulking groove is provided with concave block, the inside bottom of interior caulking groove is provided with down concave block, the fixed welding of one end of casing has the back shroud, the outside of back shroud is provided with six groups of cavitys.
Preferably, the center department welding of pillar has the fixed block, the welding has expanding spring respectively between ring and the fixed block, expanding spring symmetric distribution is at the top and the bottom of fixed block.
Preferably, be fixed with the connecting plate between one side of ring, the one end of connecting plate is provided with the pressboard, the equidistant welding has multiunit buffer spring between pressboard and the connecting plate.
Preferably, one side of the inside of cavity is provided with the multiunit bleeder vent, the jack is left to the inside opposite side of cavity, sliding connection has the dust guard between the inside both sides of cavity, the volume of dust guard is less than the inside volume of cavity, the dust guard slides perpendicularly from top to bottom in the inside of cavity.
Preferably, transverse grooves are respectively reserved between the top end of the inner portion of the rear cover plate and the two sides of the bottom end of the inner portion of the rear cover plate, limiting blocks are movably arranged in the transverse grooves, pull rods are welded between the outer sides of the limiting blocks, the limiting blocks are movably connected between the inner portions of the rear cover plate and brush rollers, and the limiting blocks horizontally slide in the transverse grooves.
Preferably, go up the concave piece and form the movable groove respectively with the both ends between the lower concave piece, the both ends of going up the inboard bottom of concave piece have the screw rod through axle sleeve movable mounting respectively, the center department welding of screw rod has the drive block, the both ends of concave piece inside are provided with the screw thread respectively and revolve the groove down.
Preferably, the bottom of the screw is embedded in the thread groove, and the end of the screw penetrates through the lower concave block to support the shell.
Compared with the prior art, the utility model has the beneficial effects that: the data center server shell assembly with the protection structure not only realizes the enhancement of the internal structural strength of the shell, the anti-collision protection of the corner of the shell, but also realizes the cleaning of the jack and the ventilation groove;
(1) the struts are respectively arranged between the tops and the bottoms of four corners on the inner side of the shell, the connecting plates at the top end and the bottom end are pressed, so that the connected circular rings slide towards the fixed block at the center on the outer sides of the struts, the four supports are respectively pushed into the corners in the shell and locked by the mounting pieces, the connecting plates are forced to reset by the telescopic springs, and the inner wall of the shell is supported by the pressing plates by virtue of the buffer springs welded among the struts, so that the shell is prevented from being crushed by foreign matters;
(2) the inner embedded grooves are respectively arranged in the two sides of the shell, the upper concave blocks are respectively arranged at the tops of the inner embedded grooves on the two sides, the corresponding lower concave blocks are respectively inserted at the bottoms of the inner embedded grooves, fingers are inserted into the movable grooves formed between the upper concave blocks and the lower concave blocks, the screw rod is shifted, the part, covered by the threads, of the outer part of the screw rod is all embedded in the thread rotary groove of the lower concave block, then the corners of the shell are protected by the upper concave blocks and the locked lower concave blocks, the excessive part can also support the shell, and the bottom of the object is prevented from being filled with water;
(3) through being provided with six groups of cavitys in the outside of back shroud, the inside of back shroud is provided with six groups and treats jack and the several bleeder vent of installing the socket, and the dust guard of taking out in the cavity promotes the pull rod about the trend of cross slot, drives the brush roller through the stopper of connecting and cleans the jack earlier, later carries out the grafting of data line again, resets each dust guard in order to guarantee that bleeder vent and jack are not infected with for the dust when idle.
Drawings
FIG. 1 is a schematic front sectional view of the present invention;
FIG. 2 is a schematic rear view of the cross-sectional structure of the present invention;
FIG. 3 is a schematic rear view of a cross-sectional structure of a cavity according to the present invention;
FIG. 4 is a schematic diagram of a front cross-sectional view of a concave block according to the present invention.
In the figure: 1. a housing; 2. pressing the plywood; 3. a buffer spring; 4. a concave block; 5. a fixed block; 6. a concave block is arranged; 7. a pillar; 8. a connecting plate; 9. a rear cover plate; 10. a tension spring; 11. an embedded groove is formed; 12. mounting a sheet; 13. a circular ring; 14. air holes are formed; 15. a jack; 16. a transverse groove; 17. a cavity; 18. a dust-proof plate; 19. a limiting block; 20. a brush roller; 21. a pull rod; 22. screwing a groove; 23. a screw; 24. a drive block; 25. a movable groove.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1: referring to fig. 1-4, a data center server casing assembly with a protection structure comprises a casing 1 and a rear cover plate 9, pillars 7 are respectively arranged between the top and the bottom of four corners inside the casing 1, a mounting piece 12 is arranged between the pillars 7 and the inner wall of the casing 1, a circular ring 13 is respectively sleeved on the top and the bottom of the outside of the pillars 7 in a sliding manner, inner embedded grooves 11 are respectively arranged inside two sides of the casing 1, upper concave blocks 6 are arranged on the top ends inside the inner embedded grooves 11, lower concave blocks 4 are arranged at the bottom ends inside the inner embedded grooves 11, the rear cover plate 9 is fixedly welded at one end of the casing 1, and six groups of cavities 17 are arranged outside the rear cover plate 9
The welding of the center department of pillar 7 has fixed block 5, has expansion spring 10 between ring 13 and the fixed block 5 respectively, and expansion spring 10 symmetric distribution is fixed with connecting plate 8 in the top and the bottom of fixed block 5 between one side of ring 13, and the one end of connecting plate 8 is provided with compressed particleboard 2, and the welding of waiting between compressed particleboard 2 and the connecting plate 8 has multiunit buffer spring 3.
Specifically, as shown in fig. 1, the connecting plates 8 at the top end and the bottom end are pressed to make the connected rings 13 slide toward the central fixing block 5 outside the pillars 7, the four pillars 7 are respectively pushed into the corners inside the housing 1 and locked by the mounting pieces 12, the expansion springs 10 force the connecting plates 8 to return, and the substance supports the inner wall of the housing 1 by the pressing plates 2 by virtue of the buffer springs 3 welded between the pillars, so that the housing 1 is prevented from collapsing for foreign substances.
Example 2: a plurality of groups of air holes 14 are formed in one side inside the cavity 17, an inserting hole 15 is formed in the other side inside the cavity 17, a dustproof plate 18 is connected between two sides inside the cavity 17 in a sliding mode, the size of the dustproof plate 18 is smaller than the internal volume of the cavity 17, the dustproof plate 18 vertically slides in the cavity 17 up and down, transverse grooves 16 are respectively reserved between two sides of the top end and the bottom end inside the rear cover plate 9, limiting blocks 19 are movably arranged inside the transverse grooves 16, pull rods 21 are welded between the outer sides of the limiting blocks 19, hairbrush rollers 20 are movably connected between the limiting blocks 19 and the inside of the rear cover plate 9, and the limiting blocks 19 do horizontal sliding motion in the transverse grooves 16;
specifically, as shown in fig. 1 and 4, the upper concave block 6 is respectively disposed on the top of the embedded grooves 11 on both sides, the bottom of the upper concave block is respectively inserted into the corresponding lower concave block 4, a finger is inserted into a movable groove 25 formed between the upper concave block and the lower concave block, the screw 23 is shifted to enable the part covered by the thread outside to be embedded in the thread turning groove 22 of the lower concave block 4, then the corner of the housing 1 is protected by the upper concave block 6 and the locked lower concave block 4, and the excessive part can also support the housing 1 to prevent the bottom of the object from entering water.
Example 3: two ends between the upper concave block 6 and the lower concave block 4 respectively form a movable groove 25, two ends of the inner bottom of the upper concave block 6 are respectively movably provided with a screw 23 through a shaft sleeve, the center of the screw 23 is welded with a driving block 24, two ends inside the lower concave block 4 are respectively provided with a thread spiral groove 22, the bottom of the screw 23 is embedded in the thread spiral groove 22, and the end of the screw 23 penetrates through the lower concave block 4 to support the shell 1;
specifically, as shown in fig. 1, 2 and 3, six sets of insertion holes 15 and a plurality of air holes 14 for installing the socket are arranged in the rear cover plate 9, the dust-proof plate 18 in the cavity 17 is drawn out to push the pull rod 21 left and right along the trend of the transverse groove 16, the brush roller 20 is driven by the connected limiting block 19 to clean the insertion holes 15 firstly, then the data lines are inserted, and when the rear cover plate is not used, the dust-proof plates 18 are reset to ensure that the air holes 14 and the insertion holes 15 are not contaminated by dust.
The working principle is as follows: when the utility model is used, firstly, the connecting plates 8 at the top end and the bottom end are pressed to enable the connected circular rings 13 to slide towards the fixed block 5 at the center at the outer sides of the support columns 7, the four support columns 7 are respectively pushed into the corners inside the shell 1 and are locked by the mounting sheets 12, the telescopic springs 10 force the connecting plates 8 to reset, the object supports the inner wall of the shell 1 by the pressing plates 2 through the buffer springs 3 welded between the support columns to prevent the shell 1 from collapsing due to foreign objects, then the upper concave blocks 6 are respectively arranged at the tops of the inner embedded grooves 11 at the two sides, the corresponding lower concave blocks 4 are respectively inserted at the bottoms, fingers are inserted into the movable grooves 25 formed between the upper concave blocks and the lower concave blocks, the screw rods 23 are shifted to enable the parts covered by the external threads to be embedded in the thread rotary grooves 22 of the lower concave blocks 4, then the corners of the shell 1 are protected by the upper concave blocks 6 and the locked lower concave blocks 4, and the excessive parts can also support the shell 1, avoid this thing bottom to intake, continue to install electronic components, take out dust guard 18 in the cavity 17 and promote pull rod 21 about the trend of cross slot 16, drive brush roller 20 through the stopper 19 of connecting and clean jack 15 earlier, later carry out the grafting of data line again, reset each dust guard 18 when idle and in order to guarantee that bleeder vent 14 and jack 15 are not infected with for the dust.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (7)
1. The utility model provides a data center server casing assembly with protective structure, includes casing (1) and back shroud (9), its characterized in that: be provided with pillar (7) between the top and the bottom at four corners of casing (1) inboard respectively, install installation piece (12) between the inner wall of pillar (7) and casing (1), the top in pillar (7) outside has slided respectively with the bottom and has cup jointed ring (13), the inside of casing (1) both sides is provided with interior caulking groove (11) respectively, the inside top of interior caulking groove (11) is provided with concave block (6), the inside bottom of interior caulking groove (11) is provided with down concave block (4), the fixed welding of one end of casing (1) has back shroud (9), the outside of back shroud (9) is provided with six cavities (17).
2. The data center server enclosure assembly with a protective structure of claim 1, wherein: the welding of center department of pillar (7) has fixed block (5), it has expanding spring (10) to weld respectively between ring (13) and fixed block (5), expanding spring (10) symmetric distribution is in the top and the bottom of fixed block (5).
3. The data center server enclosure assembly with a protective structure of claim 1, wherein: be fixed with connecting plate (8) between one side of ring (13), the one end of connecting plate (8) is provided with compressed particleboard (2), the welding has multiunit buffer spring (3) between equal interval between compressed particleboard (2) and connecting plate (8).
4. The data center server enclosure assembly with a protective structure of claim 1, wherein: the utility model discloses a dustproof structure, including cavity (17), inside one side of cavity (17) is provided with multiunit bleeder vent (14), jack (15) are left to the inside opposite side of cavity (17), sliding connection has dust guard (18) between the inside both sides of cavity (17), the volume of dust guard (18) is less than the inside volume of cavity (17), dust guard (18) vertical slip about the inside of cavity (17).
5. The data center server enclosure assembly with a protective structure of claim 1, wherein: leave horizontal groove (16) between the inside top of back shroud (9) and the both sides of bottom respectively, the inside activity of horizontal groove (16) is provided with stopper (19), the welding has pull rod (21) between the outside of stopper (19), stopper (19) swing joint has brush roller (20) between the inside of back shroud (9), horizontal sliding motion is done in the inside of horizontal groove (16) in stopper (19).
6. The data center server enclosure assembly with a protective structure of claim 1, wherein: go up concave piece (6) and down both ends between concave piece (4) and form movable groove (25) respectively, go up the both ends of concave piece (6) inboard bottom and have screw rod (23) through axle sleeve movable mounting respectively, the center department welding of screw rod (23) has drive block (24), the both ends of concave piece (4) inside are provided with screw thread spiral groove (22) respectively down.
7. The data center server enclosure assembly with a protective structure of claim 6, wherein: the bottom of the screw rod (23) is embedded in the thread rotary groove (22), and the end head of the screw rod (23) penetrates through the concave block (4) to support the shell (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122656012.8U CN216491427U (en) | 2021-11-02 | 2021-11-02 | Data center server casing assembly with protective structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122656012.8U CN216491427U (en) | 2021-11-02 | 2021-11-02 | Data center server casing assembly with protective structure |
Publications (1)
Publication Number | Publication Date |
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CN216491427U true CN216491427U (en) | 2022-05-10 |
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CN202122656012.8U Active CN216491427U (en) | 2021-11-02 | 2021-11-02 | Data center server casing assembly with protective structure |
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CN (1) | CN216491427U (en) |
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2021
- 2021-11-02 CN CN202122656012.8U patent/CN216491427U/en active Active
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