CN220252519U - Server cabinet capable of adapting to various standard mainboards - Google Patents

Abstract

The utility model provides a server case capable of adapting to a plurality of standard mainboards, which comprises: the fan module and the power supply module are arranged at one end of the chassis base, and the front panel module is arranged at the other end of the chassis base; the chassis base is close to the left upper corner of one end of the front panel module and is provided with a reference stud, the reference stud is used as an origin, a first row of studs and a second row of studs are sequentially arranged below the reference stud, and a first column of studs and a second column of studs are sequentially arranged on the right side of the reference stud. The utility model can meet the installation and fixing requirements of various standard mainboards, enhance the material sharing property of the server case, and improve the compatibility and the assembly flexibility of the server case; on this basis, can also realize interface module class effectively and keep away a design, can install and fix multiple different front panels to with mainboard looks adaptation.

Description

Server cabinet capable of adapting to various standard mainboards

Technical Field

The present utility model relates to a server chassis, and more particularly, to a server chassis capable of adapting to multiple standard mainboards.

Background

Due to the advantages of high integration, high computing power and the like, the server chassis is widely applied to the application fields of the Internet, the Internet of things, cloud service and the like. In order to adapt to the demands of different computing capacities in various server cabinets at present, different server cabinets are often adopted according to different mainboards, heat dissipation modules, memories and interfaces, and mounting hole sites of the server cabinets are arranged in a targeted mode.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a server case which can be adapted to various standard mainboards, so that the material sharing property of products is enhanced, and the compatibility and the assembly flexibility of the server case are improved.

In this regard, the present utility model provides a server chassis capable of adapting to multiple standard mainboards, including: the fan module and the power supply module are arranged at one end of the chassis base, and the front panel module is arranged at the other end of the chassis base; the chassis base is close to the left upper corner of one end of the front panel module and is provided with a reference stud, the reference stud is used as an origin, a first row of studs and a second row of studs are sequentially arranged below the reference stud, and a first column of studs and a second column of studs are sequentially arranged on the right side of the reference stud.

The utility model is further improved in that the vertical distance between the first row of studs and the reference stud is 154-155 mm, and the vertical distance between the second row of studs and the first row of studs is 157-158 mm.

The utility model is further improved in that the horizontal distance between the first row of studs and the reference stud is 124-125 mm, and the horizontal distance between the second row of studs and the reference stud is 281-282 mm.

The utility model further improves that the second row of studs is close to the first stud of the front panel module, and the distance between the second row of studs and the front panel module is larger than 30mm.

The utility model further improves the structure of the novel high-strength steel wire rope, which comprises a main board, wherein the main board is provided with a reference mounting hole, a first row of mounting holes, a second row of mounting holes, a first column of mounting holes and a second column of mounting holes, and the positions of the reference mounting hole, the first row of mounting holes, the second row of mounting holes, the first column of mounting holes and the second column of mounting holes respectively correspond to the positions of the reference stud, the first row of stud, the second row of stud, the first column of stud and the second column of stud.

The utility model is further improved in that the PCIE module and the interface module are arranged on the main board, the PCIE module and the interface module are arranged on one side of the first row of mounting holes close to the front panel module, and the positions of the interface module are staggered with the positions of the reference mounting holes, the first row of mounting holes and the second row of mounting holes respectively.

In a further improvement of the present utility model, the interface module is disposed at a side of the second row of mounting holes near the front panel module.

The utility model further improves that the main board is also provided with a main board module and a memory bar module, the main board module and the memory bar module are arranged between the first row of mounting holes and the second row of mounting holes, the main board module comprises a single main board module and a double main board module, and the memory bar module is symmetrically arranged at two sides of the main board module.

The utility model further improves that the chassis base is also provided with a front panel mounting hole, the front panel mounting hole is respectively arranged on the bottom surface and the two side surfaces of the chassis base, and the position of the front panel mounting hole is arranged at one end of the reference stud far away from the fan module.

The front panel module comprises a first front panel, a second front panel, a third front panel and a fourth front panel, wherein the first front panel, the second front panel, the third front panel and the fourth front panel are detachably arranged at the front end of the chassis base through the front panel mounting holes respectively.

Compared with the prior art, the utility model has the beneficial effects that: a reference stud is arranged at the left upper corner of the chassis base, which is close to one end of the front panel module, the reference stud is taken as an origin, a first row of studs and a second row of studs are sequentially arranged below the reference stud, and a first column of studs and a second column of studs are sequentially arranged on the right side of the reference stud, so that a stud installation assembly similar to matrix arrangement is formed through the reference stud, the first row of studs, the second row of studs, the first column of studs and the second column of studs, so that the installation and fixing requirements of various standard mainboards are met, the material sharing property of the server chassis is enhanced, and the compatibility and the assembly flexibility of the server chassis are improved; on this basis, can also realize interface module class etc. effectively and keep away the position design, can install and fix multiple different front panels to with multiple standard mainboard looks adaptation. Therefore, the utility model not only can enhance the compatibility of the product, but also can further meet the personalized design and flexible configuration requirements of the product.

Drawings

FIG. 1 is a schematic top view of one embodiment of the present utility model;

FIG. 2 is a schematic diagram of an exploded construction of one embodiment of the present utility model;

FIG. 3 is a schematic diagram of a motherboard according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of another motherboard according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a motherboard according to another embodiment of the present utility model;

FIG. 6 is a schematic partial structure of another embodiment of the present utility model;

FIG. 7 is a schematic view of another embodiment of the present utility model;

fig. 8 is a schematic structural view of a front panel module according to another embodiment of the utility model.

The attached drawings are identified: 1-a chassis base; 101-a reference stud; 102-first row of studs; 103-second row of studs; 104-first row of studs; 105-second row of studs; 106-front panel mounting holes; 2-a fan module; 3-a power module; 4-a front panel module; 401-a first front panel; 402-a second front panel; 403-a third front panel; 404-a fourth front panel; 5-a main board; 501-a reference mounting hole; 502-first row of mounting holes; 503-second row of mounting holes; 504-first column of mounting holes; 505-second row of mounting holes; 506-PCIE module; 507-interface module; 508-a motherboard module; 509-memory bank module.

Detailed Description

In the description of the present utility model, if an orientation description such as "upper", "lower", "front", "rear", "left", "right", etc. is referred to, it is merely for convenience of description and simplification of the description, and does not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the utility model. If a feature is referred to as being "disposed," "secured," "connected," or "mounted" on another feature, it can be directly disposed, secured, or connected to the other feature or be indirectly disposed, secured, connected, or mounted on the other feature.

In the description of the utility model, if reference is made to "a number", it means more than one; if "a plurality" is referred to, it means more than two; if "greater than", "less than", "exceeding" are referred to, they are understood to not include the present number; references to "above," "below," "within," and "within" are to be construed as including the present number. If reference is made to "first," "second," etc., it is to be understood that the same or similar technical feature names are used only for distinguishing between them, and it is not to be understood that the relative importance of a technical feature is implied or indicated, or that the number of technical features is implied or indicated, or that the precedence of technical features is implied or indicated.

Preferred embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 5, the present embodiment provides a server chassis capable of adapting to multiple standard mainboards, including: the fan module 2 and the power module 3 are arranged at one end of the chassis base 1, and the front panel module 4 is arranged at the other end of the chassis base 1; the upper left corner of the chassis base 1, which is close to one end of the front panel module 4, is provided with a reference stud 101, a first row of studs 102 and a second row of studs 103 are sequentially arranged below the reference stud 101 by taking the reference stud 101 as an origin, and a first column of studs 104 and a second column of studs 105 are sequentially arranged on the right side of the reference stud 101.

The motherboard 5 in this embodiment refers to a standard motherboard, i.e. a single CPU motherboard or a dual CPU motherboard with a length of 304-305 mm and a height of 335-337 mm, and the motherboard 5 of this standard size is widely used, but because of different configurations of the different configured motherboards 5, the dimensions of the motherboard will be slightly different, and if each motherboard 5 is configured with a special server chassis, the production cost will be high.

Therefore, the mounting studs of the chassis base 1 and the positions thereof are optimally designed in the embodiment so as to meet the assembly and compatibility requirements of various standard mainboards. The server chassis of this embodiment is preferably an edge computing server chassis having a width dimension of 444 mm. More specifically, as shown in fig. 1, in this embodiment, a vertical distance H1 between the first row of studs 102 and the reference stud 101 is 154-155 mm, preferably 154.94mm; the vertical distance H2 between the second row of studs 103 and the first row of studs 102 is 157-158 mm, preferably 157.48mm. In this embodiment, the horizontal distance L1 between the first row of studs 104 and the reference stud 101 is 124-125 mm, preferably 124.46mm; the horizontal distance L2 between the second row of studs 105 and the reference stud 101 is 281-282 mm, preferably 281.94mm. Through the limitation of the technical features, the chassis base 1 can adapt to the assembly requirements of various standard mainboards, and effectively avoid the positions of all modules in the mainboard 5 and avoid influencing the module layout of the mainboard 5.

Therefore, in this embodiment, a stud mounting assembly similar to a matrix arrangement can be formed by the reference stud 101, the first row stud 102, the second row stud 103, the first column stud 104 and the second column stud 105, so as to meet the mounting and fixing requirements of multiple standard mainboards 5, enhance the material sharing of the server chassis, and improve the compatibility and the assembly flexibility of the server chassis.

More preferably, as shown in fig. 1, the second row of studs 105 in the embodiment is close to the first stud of the front panel module 4, that is, the stud in the upper right corner shown in fig. 1, and the distance D1 between the second row of studs and the front panel module 4 is greater than 30mm, and the distance D1 is preferably 36-37 mm, so that not only a good avoidance design can be realized, but also the assembly reliability of the main board 5 can be ensured. That is, the distance between the second column of studs 105 and the front panel module 4 is greater than the distance between the reference studs 101 and the front panel module 4, so as to reserve an assembly space for the interface module 507 corresponding to the front panel module 4, thereby avoiding blocking the interface.

As shown in fig. 3 to 5, the present embodiment further includes a main board 5, where a reference mounting hole 501, a first row mounting hole 502, a second row mounting hole 503, a first column mounting hole 504, and a second column mounting hole 505 are provided on the main board 5, and positions of the reference mounting hole 501, the first row mounting hole 502, the second row mounting hole 503, the first column mounting hole 504, and the second column mounting hole 505 correspond to positions of the reference stud 101, the first row stud 102, the second row stud 103, the first column stud 104, and the second column stud 105, respectively, so that different main boards can be assembled into the server chassis according to actual needs.

As shown in fig. 3 to 5, in this embodiment, a PCIE module 506 and an interface module 507 are disposed on the motherboard 5, where the PCIE module 506 and the interface module 507 are disposed on a side of the first row of mounting holes 502 close to the front panel module 4, and positions of the interface module 507 are respectively staggered with positions of the reference mounting holes 501, the first column of mounting holes 504 and the second column of mounting holes 505, and the interface module 507 is disposed on a side of the second column of mounting holes 505 close to the front panel module 4, so as to reasonably utilize a space above the first row of mounting holes 502 and avoid a stud mounting position.

As shown in fig. 3 to 5, in this embodiment, the motherboard 5 is further provided with a motherboard module 508 and a memory bank module 509, the motherboard module 508 and the memory bank module 509 are disposed between the first row of mounting holes 502 and the second row of mounting holes 503, the motherboard module 508 includes a single motherboard module and a dual motherboard module, and the memory bank module 509 is symmetrically disposed on two sides of the motherboard module 508, so as to adapt to different application requirements through reasonable layout design. It should be noted that, among the three different motherboards 5 listed in this embodiment, the motherboard module 508 and the memory bank module 509 are disposed between the first row of mounting holes 502 and the second row of mounting holes 503, so that more space can be reserved above the first row of mounting holes 502 to meet the assembly requirements of multiple PCIE cards, and in this embodiment, the PCIE module 506 preferably includes 10 PCIE cards.

As shown in fig. 6 to 8, in the present embodiment, the chassis base 1 is further provided with a front panel mounting hole 106, the front panel mounting hole 106 is respectively disposed on the bottom surface and two side surfaces of the chassis base 1, and the position of the front panel mounting hole 106 is disposed at one end of the reference stud 101 away from the fan module 2. The front panel module 4 is detachably mounted to the chassis base 1 through the front panel mounting hole 106, and is far away from the fan module 2, so as to adapt to different front panels according to different designs of the main board 5.

More specifically, as shown in fig. 8, the front panel module 4 in this embodiment preferably includes a first front panel 401, a second front panel 402, a third front panel 403, and a fourth front panel 404, where the first front panel 401, the second front panel 402, the third front panel 403, and the fourth front panel 404 are detachably mounted at the front end of the chassis base 1 through the front panel mounting holes 106, the first front panel 401 is preferably used for adapting to a standard motherboard of a single CPU and 10 PCIE cards, the second front panel 402 is preferably used for adapting to a standard motherboard of a single CPU, 9 PCIE cards, and 1 left side cross-over PCIE card, the third front panel 403 is preferably used for adapting to a standard motherboard of a single CPU, 4 PCIE cards, and 1 right side cross-over PCIE card, and the fourth front panel 404 is preferably used for adapting to a standard motherboard of a single CPU, 3 PCIE cards, and 2 cross-over PCIE cards; of course, the front panel module 4 described above is only a specific example of a preferred embodiment for illustrating that different front panels may be adapted, and is not limited to only these four front panels.

Therefore, the present embodiment can also effectively realize the avoidance design of the interface module 507, and can mount and fix a plurality of different front panels so as to be adapted to a plurality of standard mainboards 5. The embodiment not only can enhance the compatibility of the product, but also can further meet the personalized design and flexible configuration requirements of the product.

The above embodiments are preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, which is defined by the appended claims, but rather by the following claims.

Claims (10)

1. A server chassis capable of adapting to multiple standard motherboards, comprising: the fan module and the power supply module are arranged at one end of the chassis base, and the front panel module is arranged at the other end of the chassis base; the chassis base is close to the left upper corner of one end of the front panel module and is provided with a reference stud, the reference stud is used as an origin, a first row of studs and a second row of studs are sequentially arranged below the reference stud, and a first column of studs and a second column of studs are sequentially arranged on the right side of the reference stud.

2. The server chassis of claim 1, wherein a vertical distance between the first row of studs and the reference stud is 154-155 mm, and a vertical distance between the second row of studs and the first row of studs is 157-158 mm.

3. The server chassis of claim 1, wherein a horizontal distance between the first row of studs and the reference stud is 124-125 mm, and a horizontal distance between the second row of studs and the reference stud is 281-282 mm.

4. A server chassis capable of adapting to multiple standard motherboards according to any one of claims 1 to 3, wherein the second row of studs is closer to the first stud of the front panel module than 30mm from the front panel module.

5. The server chassis of claim 4, further comprising a motherboard, wherein the motherboard is provided with a reference mounting hole, a first row mounting hole, a second row mounting hole, a first column mounting hole, and a second column mounting hole, wherein the positions of the reference mounting hole, the first row mounting hole, the second row mounting hole, the first column mounting hole, and the second column mounting hole correspond to the positions of the reference stud, the first row stud, the second row stud, the first column stud, and the second column stud, respectively.

6. The server chassis of claim 5, wherein PCIE modules and interface modules are disposed on the motherboard, the PCIE modules and the interface modules are disposed on a side of the first row of mounting holes near the front panel module, and positions of the interface modules are staggered from positions of the reference mounting holes, the first column of mounting holes, and the second column of mounting holes, respectively.

7. The server chassis of claim 6, wherein the interface module is disposed on a side of the second row of mounting holes adjacent to the front panel module.

8. The server chassis of claim 5, wherein the motherboard is further provided with a motherboard module and a memory bank module, the motherboard module and the memory bank module are disposed between the first row of mounting holes and the second row of mounting holes, the motherboard module comprises a single motherboard module and a dual motherboard module, and the memory bank module is symmetrically disposed on two sides of the motherboard module.

9. The server chassis of any of claims 1-3, wherein the chassis base is further provided with front panel mounting holes, the front panel mounting holes are respectively disposed on a bottom surface and two side surfaces of the chassis base, and the front panel mounting holes are disposed at an end of the reference stud away from the fan module.

10. The server chassis of claim 9, wherein the front panel module comprises a first front panel, a second front panel, a third front panel, and a fourth front panel, and the first front panel, the second front panel, the third front panel, and the fourth front panel are detachably mounted to the front end of the chassis base through the front panel mounting holes, respectively.