CN220235162U - Flexible configuration server back window structure - Google Patents

Abstract

The utility model belongs to the technical field of server cabinets, and particularly relates to a flexibly configured server back window structure, which comprises a cabinet base, a rear IO zone, a first back window and a second back window, wherein the first back window and the second back window can be respectively arranged in the rear IO zone, disassembly structures are arranged on the first back window and the second back window, the first back window and the second back window can be disassembled from the rear IO zone through the disassembly structures, the first back window comprises a first fixing buckle, a first clamping groove and a full-height clamping groove, two full-height clamping grooves are arranged, and the two full-height clamping grooves are symmetrically distributed on the first back window in parallel. The aim is that: different combination assembly designs of the fixed rear window structural member and various detachable rear window structural members are adopted to meet the configuration requirement of more combined functional modules on the same chassis.

Description

Flexible configuration server back window structure

Technical Field

The utility model belongs to the technical field of server cabinets, and particularly relates to a flexibly configured server back window structure.

Background

Servers are an important component in electronic devices, which are devices that provide computing services. Since the server needs to respond to the service request and perform processing, the server has the capability of assuming the service and securing the service. According to the different types of services provided by the server, the server is divided into a file server, a database server, an application server, a WEB server and the like. The main components of the server include a processor, a hard disk, a memory, a system bus and the like, which are similar to those of a general computer architecture, but have higher requirements in terms of processing capacity, stability, reliability, security, expandability, manageability and the like. Today, a large amount of IT equipment is centrally located in the chassis of a data center. These data centers include servers, storage, switches, and a large number of racks and other infrastructure of each type.

At present, the architecture of the universal server basically adopts a front hard disk and a rear flexibly configured PCIE standard card or hard disk, and the design of the rear functional module area becomes a key point that most server manufacturers mutually show competitiveness and differentiation. For the design of the back window of the server, a fixed back window mode is mostly adopted in the market at present, that is, the configuration area and the number of each functional module in the back window part of a single chassis are basically fixed, the back window area is fixedly divided into a plurality of IO areas, and the number of PCIE standard cards or hard disks which can be configured in each area is fixed, so that if the configuration specification and the number of the back window area need to be improved, a newly designed chassis needs to be replaced, thereby increasing the production and maintenance cost and having poorer configuration flexibility.

Disclosure of Invention

In view of this, the present utility model provides a flexibly configured rear window structure of a server, which aims to adapt to the configuration requirements of more combined functional modules on the same chassis by different combined assembly designs of a fixed rear window structural member and various detachable rear window structural members.

The technical scheme adopted by the utility model is as follows:

the utility model provides a server back window structure of nimble configuration, includes chassis base, rearmounted IO district, first back window and second back window, its characterized in that, first back window and second back window can install respectively in rearmounted IO district, and all are equipped with the dismantlement structure on first back window and the second back window, through the dismantlement structure, make first back window and second back window can follow and postpone in the IO district and dismantle.

As the preferable technical scheme, the first rear window comprises a first fixing buckle, a first clamping groove and a full-height clamping groove, wherein two full-height clamping grooves are formed, and the two full-height clamping grooves are symmetrically distributed on the first rear window in parallel.

Further, the second rear window comprises a second fixing buckle, a second clamping groove, a full-height clamping groove and half-height clamping grooves, wherein the half-height clamping grooves are formed in two, and the second rear window is divided into three areas through the full-height clamping grooves and the half-height clamping grooves, namely the full-height clamping grooves and the two half-height clamping grooves in sequence from left to right.

Further, a case upper cover is arranged at the top of the case base, wherein the case upper cover is sleeved above the case base, a plurality of clamping hooks are arranged on the inner side of the case upper cover, and the clamping hooks are clamped in the first clamping groove and the second clamping groove.

Further, the chassis base comprises a fixed rear window, a rear IO zone and a power supply cage, wherein the fixed rear window, the rear IO zone and the power supply cage are fixed on the chassis base in a riveting mode and the like, and a battery module is arranged in the power supply cage.

As the preferable technical scheme, the rear IO zone is positioned in the fixed rear window, wherein the fixed rear window comprises screw hole nail positions and positioning blocks, the positioning blocks are distributed at two ends of the fixed rear window, and the screw hole nail positions are arranged on the positioning blocks.

Further, a flexible card inserting area is arranged at the bottom of the chassis base, and a hot plug structure is arranged in the flexible card inserting area.

Furthermore, the first fixing buckle and the second fixing buckle can be clamped with the positioning block, and the first rear window and the second rear window can be fixed in the rear IO zone through external screws through screw holes and screw positions.

Further, the dismounting structure comprises a first fixing buckle and a second fixing buckle.

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

1. through the dismantlement structure, the user can change first rear window and second rear window through the dismantlement structure, makes rearmounted IO district can be assembled with the rear window subassembly combination of difference, realizes the function module configuration demand of adaptation more combinations on same quick-witted case.

2. When the first back window is installed, the server back window can respectively support the configuration of 2 groups of full-height cards through two full-height card slots, so that the purpose that a rear IO zone can simultaneously support a plurality of full-height PCIE standard cards is achieved. When the second rear window is installed, the server rear window can respectively support the configuration of 1 group of full-height cards and 2 groups of half-height cards through the full-height card slot and the half-height card slot, so that the rear IO area can simultaneously support one group of full-height PCIE standard cards and 2 groups of half-height PCIE standard cards, the assembly flexibility of the chassis is improved, and the universality of the chassis is further improved.

Drawings

The utility model will now be described by way of example and with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of a flexibly configured server back window structure according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a chassis base provided in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a first rear window and a second rear window according to an embodiment of the present disclosure;

fig. 4 is a schematic view of a mounting structure of a first rear window according to an embodiment of the present application;

fig. 5 is a schematic view of a mounting structure of a second rear window according to an embodiment of the present application.

A chassis base-1; the upper cover of the case is-2; a hook-3; screw hole nail position-4; a rear IO zone-5; a flexible card insertion area-6; a power source cage-7; a battery module-8; a positioning block-9; a first rear window-10; a first fixing buckle-11; a first clamping groove-12; a second rear window-13; a second clamping groove-14; a second fixing buckle-15; full height card slot-16; half height card slot-17.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. 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

Referring to fig. 1-5, the present application discloses a flexibly configured server back window structure, including:

the rear IO zone comprises a chassis base 1, a rear IO zone 5, a first rear window 10 and a second rear window 13, wherein the first rear window 10 and the second rear window 13 can be respectively arranged in the rear IO zone 5, and the first rear window 10 and the second rear window 13 are respectively provided with a disassembly structure, so that the first rear window 10 and the second rear window 13 can be disassembled from the rear IO zone 5 through the disassembly structure; in the prior art, aiming at the design of a rear window of a server, a fixed rear window mode is mostly adopted in the market at present, namely, the configuration area and the number of each functional module of the rear window part of a single chassis are basically fixed, the rear window area is fixedly divided into a plurality of IO areas, and the number of PCIE standard cards or hard disks which can be configured in each area is fixed, so that if the configuration specification and the number of the rear window areas need to be improved, a newly designed chassis needs to be replaced, thereby increasing the production and maintenance cost and having poorer configuration flexibility.

The embodiment provides an improvement scheme, specifically, including chassis base 1, rearmounted IO district 5, first back window 10 and second back window 13, its characterized in that, first back window 10 and second back window 13 can install respectively in rearmounted IO district 5, and all are equipped with the dismantlement structure on first back window 10 and the second back window 13, through the dismantlement structure, make first back window 10 and second back window 13 can dismantle from in the rearmounted IO district 5.

The working principle is as follows: through the dismantlement structure, the user can change first rear window 10 and second rear window 13 through the dismantlement structure, makes rearmounted IO district 5 can be assembled with the rear window subassembly combination of difference, realizes the functional module configuration demand of adaptation more combinations on same quick-witted case.

Example two

Referring to fig. 3-5, based on the first embodiment, the present embodiment provides an implementation manner of the first rear window 10 and the second rear window 13, specifically, the first rear window 10 includes a first fixing buckle 11, a first clamping groove 12 and a full height clamping groove 16, where two full height clamping grooves 16 are provided, and the two full height clamping grooves 16 are symmetrically distributed on the first rear window 10 in parallel, and the second rear window 13 includes a second fixing buckle 15, a second clamping groove 14, a full height clamping groove 16 and a half height clamping groove 17, where the half height clamping groove 17 is provided with two, and the second rear window 13 is divided into three areas, namely a full height clamping groove 16 and two half height clamping grooves 17 from left to right in sequence.

The working principle is as follows: when the first back window 10 is installed, the server back window can support the configuration of 2 groups of full-height cards through two full-height card slots 16, so that the back IO zone 5 can simultaneously support a plurality of full-height PCIE standard cards. When the second rear window 13 is installed, the server rear window can support the configuration of 1 group of full-height cards and 2 groups of half-height cards through the full-height card slot 16 and the half-height card slot 17, so that the rear IO zone 5 can simultaneously support one group of full-height PCIE standard cards and 2 groups of half-height PCIE standard cards, the assembly flexibility of the chassis is improved, and the universality of the chassis is further improved.

Example III

Referring to fig. 2, fig. 4 and fig. 5, based on the first embodiment and the second embodiment, the present embodiment provides another preferred solution, specifically, a chassis upper cover 2 is disposed on the top of the chassis base 1, where the chassis upper cover 2 is sleeved above the chassis base 1, a plurality of hooks 3 are disposed on the inner side of the chassis upper cover 2, the hooks 3 are clamped inside the first clamping groove 12 and the second clamping groove 14, the rear IO area is located inside the fixed rear window, the fixed rear window includes screw hole nail positions 4 and a positioning block 9, the positioning block 9 is distributed at two ends of the fixed rear window, the screw hole nail positions 4 are disposed on the positioning block 9, the first fixing buckle 11 and the second fixing buckle 15 can be clamped with the positioning block 9, the first rear window 10 and the second rear window 13 can be fixed in the rear IO area 5 through external screws, and the dismounting structure includes the first fixing buckle 11 and the second fixing buckle 15.

The working principle is as follows: when the novel back window device is used, a user can fix the first back window 10 or the second back window 13 in the rear IO zone 5 by using an external screw, then the clamping hooks 3 at the bottom of the upper cover 2 of the case can be clamped in the first clamping grooves 12 or the second clamping grooves 14, so that the mounting strength of the first back window 10 and the second back window 13 is ensured, the first back window 10 and the second back window 13 are prevented from falling off, and the overall compactness of the case is further improved.

Example IV

Referring to fig. 1-2, based on the first, second and third embodiments, the present embodiment provides another preferred technical solution, specifically, the chassis base 1 includes a fixed rear window, a rear IO area 5 and a power cage 7, where the fixed rear window, the rear IO area 5 and the power cage 7 are all fixed on the chassis base 1 by riveting, etc., a battery module 8 is disposed in the power cage 7, a flexible card inserting area 6 is disposed at the bottom of the chassis base 1, and a hot plug structure is disposed in the flexible card inserting area 6.

In this embodiment, by setting the flexible card insertion area 6 and the hot plug structure, the hot plug maintenance of the flexible card insertion module can be realized, and the overall compatibility of the chassis is further improved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a server rear window structure of nimble configuration, includes quick-witted case base (1), rearmounted IO district (5), first rear window (10) and second rear window (13), a serial communication port, first rear window (10) and second rear window (13) can install respectively in rearmounted IO district (5), and all be equipped with the dismantlement structure on first rear window (10) and second rear window (13), through dismantling the structure, make first rear window (10) and second rear window (13) can dismantle from rearmounted IO district (5), first rear window (10) include first fixed knot (11), first draw-in groove (12) and full high draw-in groove (16), wherein, full high draw-in groove (16) are equipped with two, and two full high draw-in groove (16) parallel symmetrical distribution are on first rear window (10), second rear window (13) are including second fixed knot (15), second draw-in groove (14), full high draw-in groove (16) and half high draw-in groove (17), and half high draw-in groove (17) are left to right, half high draw-half draw-in groove (17) are left to half high draw-in groove (17) is in groove in order.

2. The flexible server rear window structure according to claim 1, wherein a case upper cover (2) is arranged at the top of the case base (1), the case upper cover (2) is sleeved above the case base (1), a plurality of hooks (3) are arranged on the inner side of the case upper cover (2), and the hooks (3) are clamped inside the first clamping groove (12) and the second clamping groove (14).

3. The flexible-configuration server rear window structure according to claim 1, wherein the chassis base (1) comprises a fixed rear window, a rear IO zone (5) and a power supply cage (7), wherein the fixed rear window, the rear IO zone (5) and the power supply cage (7) are all fixed on the chassis base (1) in a riveting mode, and a battery module (8) is arranged in the power supply cage (7).

4. A server back window structure with flexible configuration according to claim 3, wherein the back IO area (5) is located inside a fixed back window, the fixed back window comprises screw hole nails (4) and positioning blocks (9), the positioning blocks (9) are distributed at two ends of the fixed back window, and the screw hole nails (4) are arranged on the positioning blocks (9).

5. A flexibly configured server back window structure according to claim 3, wherein a flexible card insertion area (6) is provided at the bottom of the chassis base (1), and a hot plug structure is provided inside the flexible card insertion area (6).

6. The flexible server back window structure according to claim 1, wherein the first fixing buckle (11) and the second fixing buckle (15) can be clamped with the positioning block (9), and the first back window (10) and the second back window (13) can be fixed in the back IO zone (5) through external screws by screw holes and screw positions (4).

7. A flexible server back window structure according to claim 1, characterized in that the dismounting structure comprises a first fixing clasp (11) and a second fixing clasp (15).