CN112947703A

CN112947703A - Server hard disk rack

Info

Publication number: CN112947703A
Application number: CN202110236453.4A
Authority: CN
Inventors: 袁佳金; 李小政; 唐雪飞
Original assignee: Shandong Yingxin Computer Technology Co Ltd
Current assignee: Shandong Yingxin Computer Technology Co Ltd
Priority date: 2021-03-03
Filing date: 2021-03-03
Publication date: 2021-06-11

Abstract

The invention discloses a server hard disk rack. The hard disk rack includes: the upper hard disk frame is provided with a space for accommodating the first hard disk, and one end of the upper hard disk frame is detachably provided with a first back plate for inserting the first hard disk along the horizontal direction; a lower hard disk frame fixed below the upper hard disk frame and having a space for accommodating a plurality of lower hard disk subframes; the lower hard disk sub-frame is detachably connected with the lower hard disk frame, has a space for accommodating the second hard disk, is fixedly and detachably provided with a second back plate for inserting the second hard disk along the vertical direction at one end, and the size of the first hard disk is larger than that of the second hard disk. The server hard disk frame provided by the invention realizes that the size of a case is not changed and hard disks with different sizes are compatible, and meanwhile, the lower hard disk sub-frame is detachably connected with the lower hard disk frame, so that the hard disks with relatively smaller sizes are conveniently maintained independently, and the problem that a back plate is difficult to disassemble and assemble and wires are difficult to arrange when the lower space is smaller is effectively solved.

Description

Server hard disk rack

Technical Field

The invention relates to the technical field of servers, in particular to a server hard disk rack.

Background

The large amount of data stored in the hard disk is an essential part for the normal operation of the server, in a server product, different clients and even the same client may have different hard disk configuration requirements, if one needs a 2.5-inch hard disk, another needs a 3.5-inch hard disk, and another needs both a 2.5-inch hard disk and a 3.5-inch hard disk, however, because the length and the size of the two hard disks are not the same, it is difficult for the chassis with the same length to be compatible.

At present, a traditional server product such as 4U (Unit is abbreviated as U, and is the external size of the server) only supports the chassis length of a 2.5-foot hard disk, and in order to be able to support a 3.5-inch hard disk in an expanded manner, the existing implementation manner is as follows: the first mode is to embed a 3.5-inch hard disk in a 2.5-inch hard disk case on the basis of the length of the case, but the case needs to be uncovered for maintenance when the built-in hard disk is maintained by the scheme, so that the maintenance is difficult; the second way is to back a 3.5-inch hard disk, but the existing server configuration usually has a large expansion requirement for PCIe (Peripheral Component Interconnect express, which is a high-speed serial computer expansion bus standard) and the like, the back-mounted hard disk will occupy the expandable number of PCIe and the like, and the number of hard disks that can be placed is usually small due to a power supply, an IO interface and the like, and the back-mounted hard disk is troublesome to maintain due to wire management and the like; the third way is to put the 3.5 inch disk in front, which will result in the case length being lengthened due to the increase of the hard disk length, and may result in the new development needed due to the fact that the existing cabinet and slide rail environments cannot be reused, resulting in the increase of the development cost.

Disclosure of Invention

In view of the above, there is a need to provide a server hard disk rack that can support different hard disk configurations without changing the length of the chassis.

The upper hard disk frame is provided with a space for accommodating the first hard disk, and one end of the upper hard disk frame is detachably provided with a first back plate for inserting the first hard disk along the horizontal direction;

the lower hard disk frame is fixed below the upper hard disk frame and is provided with a space for accommodating a plurality of lower hard disk subframes;

the lower hard disk sub-frame is detachably connected with the lower hard disk frame, has a space for accommodating a second hard disk, is fixedly and detachably provided with a second back plate for inserting the second hard disk along the vertical direction at one end, and the size of the first hard disk is larger than that of the second hard disk.

In one embodiment, the upper hard disk frame comprises an upper hard disk base, an upper hard disk cover and a first back plate slideway;

the upper hard disk base is provided with a bottom surface and two side surfaces, and two ends of the upper hard disk upper cover are fixedly connected with the two side surfaces of the upper hard disk base;

the first backboard slideway is fixed on the inner side of the side face of the base of the server case, the first backboard slideway is arranged in the vertical direction, and the first backboard is inserted into the first backboard slideway.

In one embodiment, the upper hard disk frame further comprises two adapting fixing frames;

the two switching fixing frames are respectively fixed outside two side faces of the upper hard disk base and respectively protrude outwards to form fixing faces, and the fixing faces are in contact with the side wall of the server base.

In one embodiment, the upper hard disk frame further comprises a plurality of upper hard disk support plates arranged between the upper hard disk base and the upper hard disk upper cover;

the upper hard disk supporting plates are parallel to the side faces of the upper hard disk base and fixedly connected with the upper hard disk base and the upper hard disk upper cover, and a plurality of first hard disk slideways in the horizontal direction are arranged on two sides of each upper hard disk supporting plate at equal intervals.

In one embodiment, the lower hard disk frame comprises a lower hard disk base and a lower hard disk upper cover;

the lower hard disk upper cover is fixedly connected with one side, far away from the upper hard disk upper cover, of the upper hard disk base, the lower hard disk base is provided with a bottom surface and two side surfaces, and the two sides of the lower hard disk base are fixedly connected with the two ends of the lower hard disk upper cover respectively.

In one embodiment, the lower hard disk frame further comprises a plurality of lower hard disk support plates which are arranged between the lower hard disk base and the lower hard disk upper cover at equal intervals;

the lower hard disk supporting plates are parallel to the side faces of the lower hard disk base and are fixedly connected with the lower hard disk base and the lower hard disk upper cover.

In one embodiment, the lower hard disk sub frame comprises a lower hard disk sub frame base, a lower hard disk sub frame upper cover, a hand-turning screw and a bolt screw;

the lower hard disk sub frame base is provided with a bottom surface and two side surfaces, the two side surfaces of the lower hard disk sub frame base are respectively and fixedly connected with two ends of the lower hard disk sub frame upper cover, and a plurality of second hard disk slideways in the horizontal direction are arranged on the opposite surfaces of the lower hard disk sub frame base and/or the lower hard disk sub frame upper cover at equal intervals;

the hand-turning screw is arranged on the outer side of the upper cover of the lower hard disk sub frame, and hand-turning screw fixing holes which are in inserted fit with the hand-turning screw are formed in the upper cover of the lower hard disk sub frame and the second back plate;

and the lower hard disk base is provided with a limiting hole matched with the bolt screw, and the bolt screw is inserted into the limiting hole and the corresponding limiting hole of the lower hard disk frame base.

In one embodiment, a plurality of notches are formed in one end, close to the first back plate, of the upper hard disk base, the upper hard disk cover and the lower hard disk cover.

In one embodiment, a positioning column is arranged on one side, close to the second back plate, of the lower hard disk sub-frame base, and a positioning hole matched with the positioning column is arranged on the second back plate.

In one embodiment, the first hard disk has a size of 3.5 inches, and the second hard disk has a size of 2.5 inches.

The server hard disk rack is characterized in that an upper hard disk frame provides a containing space for a first hard disk, one end of the upper hard disk frame is detachably provided with a first back plate used for inserting the first hard disk along the horizontal direction, a lower hard disk frame arranged below the upper hard disk frame is adopted to provide a containing space for a plurality of lower hard disk subframes, the lower hard disk subframes are detachably connected with the lower hard disk frame, the lower hard disk subframes are constructed to have a space for containing a second hard disk, one end of the lower hard disk subframe is fixedly and detachably provided with a second back plate used for inserting the second hard disk along the vertical direction, so that the upper layer space is adopted for containing the hard disk with a relatively larger size, the lower layer space is adopted for containing the hard disk with a relatively smaller size, the hard disk with different sizes is compatible without changing the size of a case, and the lower hard disk subframe is detachably connected with the lower hard disk frame to facilitate the pulling-out independent, effectively solved when lower space is less dismouting backplate and the difficult problem of reason line.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other embodiments can be obtained by using the drawings without creative efforts.

Fig. 1 is an exploded view of a server hard disk rack provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an upper hard disk frame and a lower hard disk frame according to yet another embodiment of the present invention;

fig. 3 is a schematic partial structure diagram of a lower hard disk sub-frame according to another embodiment of the present invention;

FIG. 4 is a front view of a server chassis capable of supporting 3.5-inch hard disks and expanding 2.5-inch hard disks according to an embodiment of the present invention;

FIG. 5 is a top view of a server chassis capable of supporting 3.5-inch hard disks and having 2.5-inch hard disks according to an embodiment of the present invention;

fig. 6 is a partial side view of a server chassis capable of supporting 3.5-inch hard disks and expanding 2.5-inch hard disks according to another embodiment of the present invention.

[ description of reference ]

1: an upper hard disk frame; 11: an upper hard disk base; 12: an upper hard disk cover is arranged; 13: a first backplane slide; 14: the fixed frame is connected in a switching way; 15: a hard disk support plate is arranged; 16: a first hard disk slide;

2: a first hard disk;

3: a first back plate;

4: a lower hard disk frame; 41: a lower hard disk base; 42: an upper cover of the lower hard disk; 43: a hard disk support plate is arranged; 44: a limiting hole;

5: a lower hard disk sub-frame;

51: a lower hard disk sub-frame base; 52: a lower hard disk sub-frame upper cover; 53 turning the screw by hand; 54: a bolt screw; 55: a positioning column;

6: a second hard disk;

7: a second back plate; 71: locating hole

8: a server chassis base;

9: a main board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments of the present invention are described in further detail with reference to the accompanying drawings.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it should be noted that "first" and "second" are merely for convenience of description and should not be construed as limitations of the embodiments of the present invention, and they are not described in any more detail in the following embodiments.

In one embodiment, referring to fig. 1, the present invention provides a server hard disk rack, including:

the hard disk comprises an upper hard disk frame 1, wherein the upper hard disk frame 1 is provided with a space for accommodating a first hard disk 2, and one end of the upper hard disk frame is detachably provided with a first back plate 4 for inserting the first hard disk 3 along the horizontal direction;

the lower hard disk frame 4 is fixed below the upper hard disk frame 1, and is provided with a space for accommodating a plurality of lower hard disk subframes 5;

the lower hard disk sub-frame 5 is detachably connected with the lower hard disk frame 3, has a space for accommodating a second hard disk 6, and is fixedly and detachably provided with a second back plate 7 for inserting the second hard disk 5 along the vertical direction, wherein the size of the first hard disk is larger than that of the second hard disk.

In another embodiment, please refer to fig. 1 and fig. 2, the upper hard disk frame 1 includes an upper hard disk base 11, an upper hard disk cover 12, and a first backplane slide 13.

The upper hard disk base 11 is provided with a bottom surface and two side surfaces, and two ends of the upper hard disk cover 12 are fixedly connected with the two side surfaces of the upper hard disk base 11.

The first backboard slideway 13 is fixed on the inner side of the side face of the server case base 8, the first backboard slideway 13 is arranged along the vertical direction, and the first backboard is inserted on the first backboard slideway 13.

In yet another embodiment, the upper hard disk frame 1 shown in fig. 2 further includes two adaptor fixtures 14;

the two adapting fixing frames 14 are respectively fixed outside two side surfaces of the upper hard disk base 11 and respectively protrude outwards to form fixing surfaces, and the fixing surfaces are in contact with the side walls of the server base.

In another embodiment, the upper hard disk frame 1 shown in fig. 2 further includes a plurality of upper hard disk support plates 15 disposed between the upper hard disk base 11 and the upper hard disk cover 12;

the upper hard disk support plates 15 are parallel to the side faces of the upper hard disk base 11 and fixedly connected with the upper hard disk base 11 and the upper hard disk upper cover 12, and a plurality of first hard disk slideways 16 in the horizontal direction are respectively arranged on two sides of each upper hard disk support plate 15 at equal intervals.

Specifically, for example, taking an existing server chassis of 4U specification as an example, three upper hard disk support plates 15 may be used to divide the chassis into four small spaces equally, and in order to facilitate placing of a larger number of hard disks, the first hard disks may be placed in a horizontal stacking manner, for example, three first hard disk slideways are provided on each upper hard disk support plate 15, so that three first hard disks may be sequentially placed in each divided small space from bottom to top, and each first hard disk can be individually drawn out and inserted along the respective slideway, and thus the upper hard disk frame can allow a maximum of 12 first hard disks to be placed while maintaining the size of the chassis.

In yet another embodiment, as shown in fig. 1 and 2, the lower hard disk frame 3 includes a lower hard disk base 41 and a lower hard disk upper cover 42;

the lower hard disk upper cover 42 and the upper hard disk base 11 are fixedly connected on one side far away from the upper hard disk upper cover, the lower hard disk base 41 is provided with a bottom surface and two side surfaces, and two sides of the lower hard disk base 41 are fixedly connected with two ends of the lower hard disk upper cover 42 respectively.

In another embodiment, please continue to be shown in fig. 1 and fig. 2, the lower hard disk frame 3 further includes a plurality of lower hard disk support plates 43 disposed between the lower hard disk base 41 and the lower hard disk upper cover 42 at equal intervals;

the lower hard disk support plates 43 are parallel to the side surfaces of the lower hard disk base 41 and are fixedly connected with the lower hard disk base 41 and the lower hard disk upper cover 42.

In yet another embodiment, as shown in fig. 1 and fig. 3, the lower hard disk sub frame includes a lower hard disk sub frame base 51, a lower hard disk sub frame upper cover 52, a hand screw 53, and a latch screw 54.

The lower hard disk sub frame base 51 is provided with a bottom surface and two side surfaces, the two side surfaces of the lower hard disk sub frame base 51 are respectively and fixedly connected with two ends of the lower hard disk sub frame upper cover 52, and a plurality of second hard disk slideways along the horizontal direction are arranged on the opposite surfaces of the lower hard disk sub frame base 51 and/or the lower hard disk sub frame upper cover 52 at equal intervals.

The hand-turning screw 53 is arranged on the outer side of the upper cover 52 of the lower hard disk sub-frame, and hand-turning screw fixing holes which are matched with the hand-turning screw 53 in an inserting manner are formed in the upper cover 52 of the lower hard disk sub-frame and the second back plate.

The lower hard disk base 41 is provided with a limit hole 44 matched with the bolt screw 54, and the bolt screw 54 is inserted into the limit hole 44 and a corresponding limit hole on the lower hard disk frame base.

In another embodiment, in order to facilitate the inspection of the installation status of the lower hard disk, a plurality of notches are formed at one end of the upper hard disk base 11, the upper hard disk cover 12 and the lower hard disk cover 42 close to the first backplane.

Preferably, as shown in fig. 3, in order to facilitate the installation and accurate positioning of the second back plate, a positioning column 55 is disposed on one side of the lower hard disk sub-frame base 51 close to the second back plate, and a positioning hole 71 matched with the positioning column is disposed on the second back plate, for example, the positioning hole may be a gourd hole.

Preferably, the size of the first hard disk is 3.5 inches, and the size of the second hard disk is 2.5 inches.

In another embodiment, to facilitate understanding of the technical solution of the present invention, the following description is given by taking a 4U server capable of supporting 3.5-inch hard disks and expanding the specification of 2.5-inch hard disks as an example, and please refer to fig. 4, 5 and 6, where a specific server hard disk rack includes:

upper hard disk frame 1: the hard disk frame comprises an upper hard disk base, an upper hard disk upper cover, a switching fixing support and three upper hard disk supporting plates, wherein the three upper hard disk supporting plates divide the upper hard disk frame into four subspaces, and 3 3.5-inch hard disks can be horizontally stacked in each space. The upper hard disk base is provided with an operation clearance gap and can be used for inspecting the installation state below the upper hard disk base, the top of the upper hard disk base is provided with a hanging nail hole and a blind rivet hole which are used for fixing the upper hard disk frame to the chassis base of the server chassis, the three upper hard disk support plates 15 are provided with slideway structures so that the hard disks can be stacked for being conveniently inserted and pulled out, the upper hard disk upper cover is used for fixing the 3.5 hard disk frame base and the 3.5 hard disk frame left and right slideways, and the two sides of the upper hard disk upper cover are provided with blind rivets which are used for fixing the upper hard disk frame to the chassis base; the switching fixed bolster riveting is in 3.5 hard disk frame base both sides for with go up hard disk frame fixed to chassis base. 3.5 the hard disk backboard is designed to be detachable and is fixed by the first backboard slideway and the screw hole of the case.

Lower hard disk frame 4: the hard disk drive is used for installing 3 lower hard disk sub-frames of 2.5 inches, and each lower hard disk frame comprises a lower hard disk base, two lower hard disk support plates and a lower hard disk upper cover. The lower hard disk base is used for installing a lower hard disk support plate and fixing an upper cover of a lower hard disk, the bottom of the lower hard disk base comprises a limiting hole for realizing the front and back limiting of the lower hard disk sub-frame by inserting a bolt screw of the lower hard disk sub-frame, and the bottom and two sides of the lower hard disk base are provided with rivet holes for fixing the lower hard disk frame to the chassis base; the two lower hard disk support plates are used for supporting the strength of the hard disk frame and limiting the 8 hard disk frames; the lower hard disk upper cover is used for limiting the lower hard disk sub-frame in the lower 2.5 hard disk frame and supporting the upper 3.5 hard disk frame.

The lower hard disk sub-frame: the hard disk assembly is used for installing 8 2.5-inch hard disks, the lower hard disk sub-frame comprises a lower hard disk sub-frame base and a lower hard disk sub-frame upper cover, the lower hard disk sub-frame base comprises a back plate limiting structure, a 2.5-inch hard disk slideway and a bolt screw, the back plate limiting structure is used for front installation limiting of 8 disks of back plates (namely second back plates), the 2.5-inch hard disk slideway is used for limiting of 2.5-inch hard disks, and the bolt screw is used for limiting of the lower hard disk sub-frame in the front-back direction on the lower hard disk frame; the upper cover of the lower hard disk subframe comprises a fixing hole structure and a hard disk slideway, wherein the fixing hole structure comprises an I-shaped nail and a quarter hand-turning screw, the I-shaped nail is used for mounting the 2.5-disk back plate for preliminary limit, and the fixing hole structure of the quarter hand-turning screw is used for fixing the quarter hand-turning screw on the 2.5-disk back plate, so that the complete fixing limit of the 8-disk back plate is realized;

8 disks of back plate: 2.5 dish backplate supports 8 2.5 inch hard disks, 2.5 dish backplate area two calabash holes and a quarter hand turn screw, the calabash hole is used for the backplate installation spacing, and the quarter hand turn screw is used for the fixed of hand position operation and backplate.

A server case base: the server case base is used for fixing an upper hard disk frame and a lower hard disk frame, and the inner side wall of the server case base is fixedly provided with 12 left and right slideways of 3.5 hard disk back plates (namely a first back plate), and the slideways are used for installing and fixing the 12 3.5 hard disk back plates.

In the implementation process, the installation mode of the server hard disk frame is as follows:

step one, mounting an upper hard disk frame

1. Riveting the first hard disk slideway and fixing the first hard disk slideway to the upper hard disk base;

2. riveting the left and right transfer fixing brackets to the upper hard disk base;

2. and riveting and fixing the upper hard disk cover.

Step two, mounting the lower hard disk frame

1. Fixing the two lower hard disk support plates to the lower hard disk base;

2. fixing the upper cover of the lower hard disk to the lower hard disk base and the lower hard disk support plate;

step three, lower hard disk subframe

Integrally riveting and installing the first step and the second step to the base of the server case

Step four, installing the mainboard

And installing the mainboard into the base member of the server case and fixing the mainboard.

Step five, mounting the sub-frame of the lower hard disk

1. Lower hard disk sub-frame upper cover and lower hard disk sub-frame base riveting

2. 8 2.5 back plates (namely second back plates) are arranged in the lower hard disk sub-frame, and quarter hand-turning screws are locked

3. The cables such as power lines, signal lines and the like of 8 2.5-disk back plates are inserted

4. And respectively installing the 3 lower hard disk subframes into the lower hard disk frame, locking bolt screws and arranging cables.

Step six, 3.5 installation of hard disk backboard and left and right slide ways

Respectively locking the slideways (namely the first backboard slideways) of the 3.5 hard disk backboard to the two sides of the base of the server case

Step seven, 3.5 installation of hard disk backboard (i.e. second backboard)

And fixing the 3.5 hard disk back plate to the 3.5 hard disk back plate bracket, then integrally inserting the 3.5 hard disk back plate bracket into the slideway of the 3.5 hard disk back plate, and locking the 3.5 hard disk back plate by using screws after the hard disk back plate is installed in place.

Step eight, mounting the 3.5 hard disk and the 2.5 hard disk

And directly inserting the 3.5 hard disk and the 2.5 hard disk into corresponding hard disk slots respectively, and performing reverse operation according to the steps during disassembly and maintenance.

According to the server hard disk rack, the 3.5 hard disks and the 2.5 hard disks are arranged in the front of the chassis together, the 3.5 hard disk water is placed in the upper 2U space, the 2.5 hard disks are placed in the lower 2U space, the problem that the maintenance space of a 2.5 hard disk backboard and a cable in the lower 2U space is insufficient is solved through the lower 3 pull-out lower hard disk sub-frames, the modular matching of hard disk frames is realized by the number of the lower 2.5-inch hard disks after the requirement on 12 3.5-inch large disks is realized, the expansion to 24 hard disks is supported to the maximum extent, and the maximization of hard disk configuration is realized. Therefore, the compatibility of a 3.5 large hard disk is realized on the basis of the short case length of a 2.5 hard disk, the product compatibility is improved, the space of the server is fully utilized, and the configuration flexibility of the hard disk of the server is improved.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A server disk rack, comprising:

2. The hard disk rack of claim 1, wherein the upper hard disk frame comprises an upper hard disk base, an upper hard disk cover, and a first backplane slide;

3. The hard disk rack according to claim 2, wherein the upper hard disk frame further comprises two adapter holders;

4. The hard disk shelf of claim 2, wherein the upper hard disk frame further comprises a plurality of upper hard disk support plates disposed between the upper hard disk base and the upper hard disk cover;

5. The hard disk rack of claim 2, wherein the lower hard disk frame comprises a lower hard disk base and a lower hard disk upper cover;

6. The hard disk rack of claim 5, wherein the lower hard disk frame further comprises a plurality of lower hard disk support plates arranged between the lower hard disk base and the lower hard disk upper cover at equal intervals;

7. The hard disk shelf of claim 5, wherein the lower hard disk sub-frame comprises a lower hard disk sub-frame base, a lower hard disk sub-frame upper cover, a hand screw, and a plug screw;

8. The hard disk rack of claim 5, wherein a plurality of notches are formed at one ends of the upper hard disk base, the upper hard disk cover and the lower hard disk cover close to the first back plate.

9. The hard disk rack of claim 7, wherein a positioning column is arranged on one side of the lower hard disk sub-frame base close to the second back plate, and a positioning hole matched with the positioning column is arranged on the second back plate.

10. The hard disk rack of claim 1, wherein the first hard disk has a size of 3.5 inches and the second hard disk has a size of 2.5 inches.