CN220474336U - Big data storage structure device - Google Patents

Abstract

The utility model belongs to the technical field of data storage, in particular to a big data storage structure device, which comprises a box body, a cover plate hinged to the top of the box body, a base plate fixedly arranged on the bottom surface of the interior of the box body, and a clamping assembly arranged in the box body and used for fixing a hard disk, wherein the clamping assembly comprises a vertical plate, an air cushion, a connecting plate, an inner profile plate and a sucker; through setting up the clamping component, a plurality of sucking discs of both sides can be firm hold the hard disk, and increase the elastic space between two risers through the air cushion, can do benefit to certain shock attenuation space, and because of the side of the outstanding sucking disc of side of interior profile board, and the side is wear-resisting structure, can consolidate the firmness of placing the hard disk bottom, cooperation adjusting part and coupling assembling, can adjust the position of riser wantonly, adjust the space of placing, and the concatenation length of adjustable riser, more have the flexibility, and cooperate the protection subassembly, can give the protection at its top of hard disk, thereby provide the omnidirectional protection for the hard disk matrix.

Description

Big data storage structure device

Technical Field

The utility model belongs to the technical field of data storage, and particularly relates to a big data storage structure device.

Background

The big data storage device uses hard disk as storage medium, and the computers exchange big data, and the hard disk stores information and needs to store the information.

With the development of storage technology, data is stored in a manner of a hard disk matrix, which is also called RAID, and is sometimes referred to as a disk array for short, simply, a plurality of independent hard disks, i.e. physical hard disks, are combined in different manners to form a hard disk group, so that higher storage performance than a single hard disk is provided and a data backup technology is provided. Accordingly, more and more businesses choose to use a hard disk matrix to store data.

On the one hand, the hard disk matrix does not have good shock absorption and good clamping stability when being stored, and has certain limitation; on the other hand, because the type and the number of the hard disk groups are different in actual use, the existing storage device cannot adjust the placement space according to the size of the storage device and does not perform omnibearing protection on the top of the storage device.

In order to solve the above-mentioned problem, a big data storage structure device is proposed in the present application.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides a big data storage structure device which has the characteristics of stable clamping, adjustable placement space and good protection for the top.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a big data storage structure device, is in including box and articulated the apron at box top, the fixed backing plate that is provided with in inside bottom surface of box still is including setting up the inside clamping assembly that plays fixed hard disk of box, clamping assembly includes riser, air cushion, connecting plate, interior profile board and sucking disc, a plurality of riser sliding connection is in the inside of box, air cushion and connecting plate are fixed connection in proper order the side of riser, interior profile board fixed connection is in the bottom surface of riser, a plurality of the sucking disc is fixed to be set up the side of connecting plate.

In the big data storage structure device of the present utility model, preferably, a silicone plate is fixedly adhered to the upper surface of the pad, and the bottom surface of the inner profile plate is in contact with the surface of the silicone plate.

As the preferred big data storage structure device, the clamping assembly further comprises a trapezoid block, supporting springs and damping springs, wherein the trapezoid block is fixedly arranged on the inner side wall of the inner profile plate, a plurality of the supporting springs are fixedly connected to the inside of the trapezoid block, and a plurality of the damping springs are fixedly arranged in the connecting plate at equal intervals.

As a preferable big data storage structure device, the inner profile plate is formed by connecting a bending plate and a vertical plate end to end, and the side surface of the bending plate protrudes out of the end surface of the sucker.

Preferably, the big data storage structure device further comprises an adjusting component arranged on the rear end face of the vertical plate;

the adjusting component comprises a sliding block, a plugboard, a buckle plate and a fixing piece, wherein the sliding block is fixedly connected to the rear end face of the vertical plate, a sliding groove is formed in the rear surface of the inside of the box body, the sliding block is slidably connected to the inside of the sliding groove, a connecting groove is formed in the rear surface of the sliding groove in a communicating mode, the plugboard is slidably connected to the inside of the connecting groove, the buckle plate is fixedly arranged on the rear surface of the plugboard, the buckle plate is in sliding connection with the box body through a through groove, and the fixing piece is symmetrically arranged at two ends of the buckle plate.

Preferably, the big data storage structure device of the present utility model further comprises a cushion layer and a wear-resistant layer, wherein the cushion layer is adhered and fixed on the rear surface of the plugboard, and the wear-resistant layer is fixedly arranged inside the chute.

As a preferable mode of the big data storage structure device, the adjusting component further comprises an inserting block, the inserting block is fixedly arranged on the rear surface of the sliding block, a plurality of caulking grooves are formed in the front surface of the inserting plate, and the inserting block is matched with the caulking grooves.

Preferably, the big data storage structure device of the utility model further comprises a connecting component connected to the end face of the vertical plate;

the connecting assembly comprises a inserted bar, a convex bar, a connecting spring and a clamping block, wherein one end of the vertical plate is provided with a groove, the top end of the groove is communicated with a slot, the convex bar is fixedly arranged on the vertical plate and far away from one end of the groove, the top end of the convex bar is provided with a cylindrical groove, the connecting spring is fixedly connected in the cylindrical groove, the inserted bar is slidably connected in the cylindrical groove, and the connecting spring is fixedly connected with the connecting spring, the bottom surface of the convex bar is provided with a clamping groove, and the clamping block is fixedly arranged on the inner bottom surface of the groove.

The big data storage structure device of the utility model preferably further comprises a protection component fixedly arranged inside the cover plate;

the protection component comprises a U-shaped plate, an inner plate, protection plates, elastic plates and elastic columns, wherein a plurality of U-shaped plates are fixedly arranged in the box body, the inner plates are symmetrically and fixedly arranged on the inner side walls of the U-shaped plates, the elastic columns are fixedly connected with the bottom surfaces of the U-shaped plates at equal intervals, the protection plates are fixedly arranged at the bottom ends of the elastic columns, and the elastic plates are embedded in the middle positions of the protection plates.

Compared with the prior art, the utility model has the beneficial effects that:

through setting up the clamping component, a plurality of sucking discs of both sides can firmly hold the hard disk, and increase the elastic space between two risers through the air cushion, can do benefit to certain shock attenuation space, and because of the side of the outstanding sucking disc of side of interior profile board, and the side is wear-resisting structure, can consolidate the firmness of placing the bottom hard disk, cooperation adjusting part and coupling assembling, can adjust the position of riser wantonly, adjust the space of placing, and the concatenation length of adjustable riser, more flexibility, and cooperation protection subassembly can give the protection at its top of hard disk, thereby for hard disk group, that is hard disk matrix provides all-round protection.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

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

FIG. 2 is a perspective exploded view of the U-shaped plate and shield of the present utility model;

FIG. 3 is a view showing the connection of the riser, trapezoidal block and suction cup in the present utility model;

FIG. 4 is a top plan view of the housing and adjustment assembly of the present utility model;

FIG. 5 is a perspective view of the wear layer and chute of the present utility model;

FIG. 6 is a split view of a slider and a card of the present utility model;

FIG. 7 is a split view of the riser and rib of the present utility model;

in the figure:

10. a case; 11. a cover plate; 12. a backing plate; 13. a silicone plate;

20. a protection component; 21. a U-shaped plate; 22. an inner plate; 23. a protection plate; 24. an elastic plate; 25. an elastic column;

30. a clamping assembly; 31. a riser; 32. an air cushion; 33. a connecting plate; 34. an inner profile plate; 35. a trapezoid block; 36. a suction cup; 37. a support spring; 38. a damping spring;

40. an adjustment assembly; 41. a slide block; 42. a chute; 43. a connecting groove; 44. inserting plate; 45. a cushion layer; 46. a buckle plate; 47. a fixing member; 48. a wear-resistant layer; 49. and (5) inserting blocks.

50. A connection assembly; 51. a rod; 52. a groove; 53. a convex strip; 54. a connecting spring; 55. a clamping groove; 56. and (5) clamping blocks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1, 3 and 4;

the utility model provides a big data storage structure device, including box 10 and the apron 11 of articulated at the box 10 top, the fixed backing plate 12 that is provided with in inside bottom surface of box 10 still includes the clamping component 30 that sets up and play fixed hard disk in the box 10 is inside, clamping component 30 includes riser 31, air cushion 32, connecting plate 33, interior profile plate 34 and sucking disc 36, a plurality of riser 31 sliding connection is in the inside of box 10, air cushion 32 and connecting plate 33 fixed connection in proper order is in the side of riser 31, interior profile plate 34 fixed connection is in the bottom surface of riser 31, a plurality of sucking discs 36 are fixed to be set up in the side of connecting plate 33.

In this embodiment: when placing and depositing the hard disk, can open apron 11, place the hard disk between two risers 31, the bottom contact backing plate 12 of hard disk, because of the elasticity material, can give the bottom protection of hard disk, and the lower extreme that two interior profile plates 34 can press from both sides tight hard disk of cooperation, do benefit to holistic centre gripping stability, when the hard disk slides in between two risers 31, can extrude the sucking disc 36 of connecting plate 33, make a plurality of sucking discs 36 of both sides can firm suction hard disk, and increase the elastic space between two risers 31 through air cushion 32, can do benefit to certain shock attenuation space, combine above-mentioned, provide good shock attenuation for the hard disk matrix, avoid when carrying or remove box 10, appear damaging the condition of box 10 because of rocking.

As shown in fig. 1-7;

further, the method comprises the steps of;

in an alternative embodiment: the upper surface of the backing plate 12 is fixedly adhered with a silica gel plate 13, and the bottom surface of the inner contour plate 34 is contacted with the surface of the silica gel plate 13.

In this embodiment: since the silicone plate 13 has good elasticity and wear resistance, it is advantageous to increase friction and cushioning between the hard disk and the pad 12 so as to provide comprehensive protection.

Further, the method comprises the steps of;

in an alternative embodiment: the clamping assembly 30 further comprises a trapezoid block 35, supporting springs 37 and damping springs 38, wherein the trapezoid block 35 is fixedly arranged on the inner side wall of the inner profile plate 34, the supporting springs 37 are fixedly connected to the inside of the trapezoid block 35, and the damping springs 38 are fixedly arranged in the connecting plate 33 at equal intervals.

In this embodiment: through the cooperation of trapezoidal piece 35 and supporting spring 37, the inside clamping force of reinforcing interior profile plate 34 is convenient for stabilize the centre gripping, and a plurality of damping spring 38 can give connecting plate 33 elasticity, can enlarge the centre gripping space of hard disk between two risers 31.

It should be noted that: the trapezoid block 35 is made of rubber, and has elasticity which can give the constraint force of the inner profile plate 34 to the hard disk, so that the stability of the lower end of the hard disk is facilitated.

It should be noted that: the connecting plate 33 is made of plastic with certain elasticity, plays a role of supporting the sucker 36, and does not influence the elasticity provided by the sucker.

Further, the method comprises the steps of;

in an alternative embodiment: the inner profile plate 34 is formed by connecting a bending plate and a vertical plate end to end, and the side surface of the bending plate protrudes out of the end surface of the sucker 36.

In this embodiment: the side surface of the inner contour plate 34 protrudes out of the side surface of the sucker 36, and the side surface is of a wear-resistant structure, so that the firmness of placing the bottom hard disk can be enhanced.

Further, the method comprises the steps of;

in an alternative embodiment: an adjusting assembly 40 provided at the rear end face of the riser 31;

the adjusting component 40 comprises a sliding block 41, a plugboard 44, a buckle 46 and a fixing piece 47, wherein the sliding block 41 is fixedly connected to the rear end face of the vertical plate 31, a sliding groove 42 is formed in the rear surface of the interior of the box body 10, the sliding block 41 is slidably connected to the interior of the sliding groove 42, a connecting groove 43 is formed in the rear surface of the sliding groove 42 in a communicating mode, the plugboard 44 is slidably connected to the interior of the connecting groove 43, the buckle 46 is fixedly arranged on the rear surface of the plugboard 44, the buckle 46 is slidably connected with the box body 10 through a through groove, and the fixing piece 47 is symmetrically arranged at two ends of the buckle 46.

In this embodiment: when installing riser 31, can slide the inside of spout 42 with slider 41, be convenient for according to the demand, adjust riser 31's position, be the interval between two risers 31 promptly, after determining the position, through buckle 46 with picture peg 44 cooperation spread groove 43 to the inside extrusion of box 10, play the effect of locking slider 41 position, after the preliminary fixed, the position of accessible mounting 47 locking buckle 46 ensures the firm of slider 41 and riser 31, can put the space entirely, do benefit to the hard disk, and fully do benefit to the inside space of box 10, ensure the stability of depositing.

It should be noted that: the second spout 42 has been seted up to the inside front end of box 10, and riser 31 and the other end that keeps away from slider 41 are provided with second slider 41, and second spout 42 and second slider 41 looks adaptation, and second slider 41 is I shape structure, and above-mentioned structure reaches the gliding synchrony degree at stable riser 31 both ends.

It should be noted that: the fixing member 47 is formed by a threaded rod screwed to the bridging plate, and the threaded rod is screwed to the threaded hole of the case 10.

Further, the method comprises the steps of;

in an alternative embodiment: the adjustment assembly 40 further includes a cushion layer 45 and a wear layer 48, the cushion layer 45 being adhesively secured to the rear surface of the insert plate 44, the wear layer 48 being fixedly disposed within the chute 42.

In this embodiment: the cushion layer 45 and the wear-resistant layer 48 are made of silica gel, so that the wear resistance between the plugboard 44 and the box body 10 is improved, the plugboard 44 can extrude the elasticity of the sliding block 41, the position of the sliding block 41 and the position of the vertical plate 31 are more facilitated to be firm, the friction force between the sliding block 41 and the sliding groove 42 is increased through the wear-resistant layer 48, and the sliding stability of the sliding block 41 and the vertical plate 31 is facilitated.

It should be noted that: the notches in the end surfaces of the chute 42 and the second chute 42 facilitate the installation and removal of the plurality of risers 31 as shown in fig. 5.

Further, the method comprises the steps of;

in an alternative embodiment: the adjusting assembly 40 further comprises an insert 49, the insert 49 is fixedly arranged on the rear surface of the sliding block 41, a plurality of caulking grooves are formed in the front surface of the inserting plate 44, and the insert 49 is matched with the caulking grooves.

In this embodiment: when the inserting plate 44 is pulled outwards, the caulking groove is separated from the inserting block 49, so that the sliding block 41 can be arbitrarily slid, and when the inserting plate 44 is pushed inwards, the locking fixation of the sliding block 41 is enhanced by the matching of the inserting block 49 and the caulking groove.

Further, the method comprises the steps of;

in an alternative embodiment: further comprising a connection assembly 50 connected to the end face of the riser 31;

the connecting assembly 50 comprises a plug rod 51, a convex strip 53, a connecting spring 54 and a clamping block 56, wherein a groove 52 is formed in one end of the vertical plate 31, the top end of the groove 52 is communicated with a slot, the convex strip 53 is fixedly arranged at one end of the vertical plate 31 far away from the groove 52, a cylindrical groove is formed in the top end of the convex strip 53, a plurality of connecting springs 54 are fixedly connected in the cylindrical groove, the plug rod 51 is slidably connected in the cylindrical groove and fixedly connected with the connecting springs 54, a clamping groove 55 is formed in the bottom surface of the convex strip 53, and the clamping block 56 is fixedly arranged on the inner bottom surface of the groove 52.

In this embodiment: the protruding strip 53 of one of the vertical plates 31 is clamped into the groove 52 of the other vertical plate 31, at the moment, the inserting rod 51 is compressed by the connecting spring 54 to slide into the cylindrical groove, when the inserting rod is completely clamped, the connecting spring 54 is restored, the inserting rod 51 slides into the groove, meanwhile, the clamping groove 55 is matched with the clamping block 56, the firmness of the bottom of the protruding strip 53 and the other vertical plate 31 is enhanced, the two vertical plates 31 are combined, the two vertical plates 31 are conveniently spliced, and the whole length of the vertical plates 31 can be conveniently adjusted according to the requirement of a hard disk, so that the inserting rod is more flexible.

It should be noted that: the clamping block 56 is made of elastic materials, so that the clamping groove 55 can be conveniently clamped into the clamping block 56, and the friction force at the bottom of the raised line 53 is enhanced.

It should be noted that: the risers 31 may be spliced and then installed into the interior of the enclosure 10.

Further, the method comprises the steps of;

in an alternative embodiment: the protective component 20 is fixedly arranged inside the cover plate 11;

the protection component 20 comprises a U-shaped plate 21, an inner plate 22, a protection plate 23, an elastic plate 24 and elastic columns 25, wherein the U-shaped plates 21 are fixedly arranged in the box body 10, the inner side walls of the U-shaped plate 21 are symmetrically and fixedly arranged on the two inner plates 22, the elastic columns 25 are fixedly connected to the bottom surface of the U-shaped plate 21 at equal intervals, the protection plate 23 is fixedly arranged at the bottom end of the elastic column 25, and the elastic plate 24 is embedded in the middle position of the protection plate 23.

In this embodiment: through the U-shaped board 21 of falling U type, when apron 11 is closed, can give the omnidirectional parcel in top of hard disk, and the symmetry just is the inner panel 22 of sponge material, can strengthen the protection of hard disk both sides, and through elastic column 25 cooperation guard plate 23, provide elasticity activity space and shock attenuation effect to the top of hard disk, and play the effect at suppression hard disk top, do benefit to the firm of hard disk and box 10, increase shock attenuation effect through elastic plate 24, can give the protection at its top of hard disk to provide omnidirectional protection for the hard disk matrix.

It should be noted that: the single U-shaped plate 21 is connected with an elastic column 25, a protection plate 23 and an elastic plate 24, so that the hard disk at each place can be protected.

It should be noted that: the elasticity and the shock attenuation effect that above-mentioned production elastic construction gave the hard disk to produce are all less than the effect that gravity that hard disk group itself brought was placed, and then when can not appear the shock attenuation, the hard disk group rocks the condition repeatedly.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. Big data storage structure device, including box (10) and hinge apron (11) at box (10) top, its characterized in that: the inside bottom surface of box (10) is fixed to be provided with backing plate (12), still including setting up the inside centre gripping subassembly (30) that play fixed hard disk of box (10), centre gripping subassembly (30) include riser (31), air cushion (32), connecting plate (33), interior profile plate (34) and sucking disc (36), a plurality of riser (31) sliding connection are in the inside of box (10), air cushion (32) and connecting plate (33) are fixed connection in proper order the side of riser (31), interior profile plate (34) fixed connection is in the bottom surface of riser (31), a plurality of sucking disc (36) are fixed to be set up the side of connecting plate (33).

2. A big data storage structure as claimed in claim 1, wherein: the upper surface of the backing plate (12) is fixedly adhered with a silica gel plate (13), and the bottom surface of the inner profile plate (34) is contacted with the surface of the silica gel plate (13).

3. A big data storage structure as claimed in claim 1, wherein: the clamping assembly (30) further comprises a trapezoid block (35), supporting springs (37) and damping springs (38), wherein the trapezoid block (35) is fixedly arranged on the inner side wall of the inner profile plate (34), the supporting springs (37) are fixedly connected to the inside of the trapezoid block (35), and the damping springs (38) are fixedly arranged in the inside of the connecting plate (33) at equal intervals.

4. A big data storage structure as claimed in claim 1, wherein: the inner profile plate (34) is formed by connecting a bending plate and a vertical plate end to end, and the side surface of the bending plate protrudes out of the end surface of the sucker (36).

5. A big data storage structure as claimed in claim 1, wherein: the adjusting assembly (40) is arranged on the rear end face of the vertical plate (31);

the adjusting component (40) comprises a sliding block (41), an inserting plate (44), a buckle plate (46) and a fixing piece (47), wherein the sliding block (41) is fixedly connected to the rear end face of the vertical plate (31), a sliding groove (42) is formed in the rear surface of the inside of the box body (10), the sliding block (41) is slidably connected to the inside of the sliding groove (42), a connecting groove (43) is formed in the rear surface of the sliding groove (42) in a communicating mode, the inserting plate (44) is slidably connected to the inside of the connecting groove (43), the buckle plate (46) is fixedly arranged on the rear surface of the inserting plate (44), the buckle plate (46) is slidably connected to the box body (10) through a through groove, and the fixing piece (47) is symmetrically arranged at two ends of the buckle plate (46).

6. The big data storage structure of claim 5, wherein: the adjusting assembly (40) further comprises a cushion layer (45) and a wear-resistant layer (48), wherein the cushion layer (45) is fixedly adhered to the rear surface of the plugboard (44), and the wear-resistant layer (48) is fixedly arranged in the sliding groove (42).

7. The big data storage structure of claim 5, wherein: the adjusting assembly (40) further comprises an inserting block (49), the inserting block (49) is fixedly arranged on the rear surface of the sliding block (41), a plurality of caulking grooves are formed in the front surface of the inserting plate (44), and the inserting block (49) is matched with the caulking grooves.

8. A big data storage structure as claimed in claim 1, wherein: the connecting assembly (50) is connected to the end face of the vertical plate (31);

coupling assembling (50) are including inserted bar (51), sand grip (53), coupling spring (54) and fixture block (56), recess (52) have been seted up to the one end of riser (31), the top intercommunication of recess (52) has the slot, sand grip (53) are fixed to be set up riser (31) and keep away from the one end of recess (52), cylindrical groove has been seted up on the top of sand grip (53), a plurality of coupling spring (54) fixed connection is in the cylindrical inslot, inserted bar (51) sliding connection be in the cylindrical inslot, and with coupling spring (54) fixed connection, draw-in groove (55) have been seted up to the bottom surface of sand grip (53), fixture block (56) are fixed to be set up the inside bottom surface of recess (52).

9. A big data storage structure as claimed in claim 1, wherein: the protective component (20) is fixedly arranged in the cover plate (11);

the protection component (20) comprises a U-shaped plate (21), an inner plate (22), a protection plate (23), an elastic plate (24) and elastic columns (25), wherein a plurality of U-shaped plates (21) are fixedly arranged inside the box body (10), the inner plates (22) are symmetrically and fixedly arranged on the inner side wall of the U-shaped plate (21), the elastic columns (25) are fixedly connected with the bottom surface of the U-shaped plate (21) at equal intervals, the protection plate (23) is fixedly arranged at the bottom end of the elastic column (25), and the elastic plate (24) is embedded in the middle position of the protection plate (23).