CN215987126U - Server mainboard with optimized space design - Google Patents

Abstract

The utility model provides a server mainboard with optimized space design, which comprises: the interface module is arranged at one end, close to a rear panel of the chassis, of the mainboard body, and comprises a USB interface module, a first network interface module and a second network interface module, wherein the first network interface module is arranged above the USB interface module; the second network port module comprises at least two RJ45 network interfaces and is arranged at one side of the USB interface module; the PCIE card slot module is characterized in that the mainboard body is arranged at one end close to the rear panel of the case and is arranged at one side of the interface module far away from the edge of the mainboard body. The utility model fully utilizes the space in the vertical direction to realize the stacking design of different interfaces, saves the space of the mainboard body occupied by the interface module, and provides favorable conditions for function expansion and performance improvement on the basis of not increasing the size of a product.

Description

Server mainboard with optimized space design

Technical Field

The present invention relates to a server motherboard, and more particularly, to a server motherboard with optimized space design.

Background

A server is a type of computer that runs faster, is more heavily loaded, and is more expensive than a regular computer. The server provides computing or application services for other clients (such as terminals like PC, smart phone and ATM, and even large equipment like train system) in the network. The server has high-speed CPU computing capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility. According to the services provided by the server, generally, the server has the capability of bearing the capabilities of responding to service requests, bearing the services and guaranteeing the services, so that the number of internal components is very large, the structure is very complicated, and if the performance of the server needs to be improved on the basis of not increasing the size of a product, the space design of the server needs to be optimized.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide a server mainboard which optimizes the space design on the basis of not increasing the product size and further provides favorable conditions for function expansion and performance improvement.

To this end, the present invention provides a server motherboard with optimized space design, including: the interface module is arranged at one end, close to a rear panel of the chassis, of the mainboard body, and comprises a USB interface module, a first network interface module and a second network interface module, wherein the first network interface module is arranged above the USB interface module; the second network port module comprises at least two RJ45 network interfaces and is arranged at one side of the USB interface module; the PCIE card slot module is characterized in that the mainboard body is arranged at one end close to the rear panel of the case and is arranged at one side of the interface module far away from the edge of the mainboard body.

In a further improvement of the present invention, the USB interface module includes at least two USB interfaces stacked vertically, and the at least two RJ45 network interfaces of the second network interface module are stacked vertically on one side of the USB interface module.

The utility model has the further improvement that the area of the interface module close to the PCIE card slot module is also provided with any one or more of an M.2 connector, a rear USB interface of the chassis, a rear VGA interface of the chassis, an encryption module interface and a TPM connector.

The utility model is further improved in that the device also comprises a serial port communication port and a VGA interface, wherein the serial port communication port and the VGA interface are vertically stacked beside the second network port module.

The utility model is further improved in that the interface device comprises a first interface mounting rack, the first network port module and the USB interface module are arranged in the first interface mounting rack in a layered mode, and the first network port module comprises a local area network port and/or a BMC (baseboard management controller) special management network port.

The utility model further improves the structure that the structure also comprises a second interface mounting rack, and the at least two RJ45 network interfaces are arranged in the second interface mounting rack in a back-to-back layered mode.

The further improvement of the utility model is that the system also comprises a BMC reset port, and the BMC reset port is arranged at one side of the first network port module, which is close to the edge of the mainboard body.

The utility model has the further improvement that the PCIE card slot module comprises a PCIE card fixing piece and more than two PCIE cards, and every two adjacent PCIE cards are arranged at one end of the mainboard body close to the rear panel of the case side by side at intervals of 19.12 mm-20.32 mm through the PCIE card fixing piece.

The utility model has the further improvement that the utility model also comprises a CPU module, a memory module and a radiator, wherein the CPU module is arranged at one end of the interface module, which is far away from the rear panel of the case, and the radiator is arranged between the CPU module and the interface module; the memory modules are symmetrically arranged on two sides of the CPU module.

A further improvement of the present invention is that the fin direction of the heat sink is parallel to the memory bar direction of the memory module.

Compared with the prior art, the utility model has the beneficial effects that: the interface module is arranged at one end of the mainboard body close to the rear panel of the case, and a first network port module of the interface module is arranged above the USB interface module; the second network port module comprises at least two RJ45 network interfaces and is arranged at one side of the USB interface module; and then make full use of the space in the vertical direction has realized the design of piling up of different interfaces, has saved the space of the mainboard body that interface module need occupy, on this basis, PCIE card slot module the mainboard body is close to the one end of quick-witted case rear panel, and set up in the interface module keeps away from the one side at mainboard body border, and such design can make full use of quick-witted case rear panel realize fixing and setting of PCIE card, and, because the design of piling up of different interfaces, can also reserve out sufficient space, and then can set up as much as possible PCIE card or other high-speed interfaces to on the basis that does not increase product size, through optimizing its space design, provide the advantage for function extension and performance promotion.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic side view of an embodiment of the present invention;

FIG. 3 is a schematic top view of an embodiment of the present invention;

fig. 4 is a schematic perspective view of another embodiment of the present invention.

Detailed Description

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

As shown in fig. 1 to 3, this embodiment provides a server motherboard with optimized space design, including: the interface module comprises a mainboard body 1, an interface module and a PCIE card slot module 5, wherein the interface module is arranged at one end of the mainboard body 1 close to a rear panel of a case, the interface module comprises a USB interface module 2, a first network interface module 3 and a second network interface module 4, and the first network interface module 3 is arranged above the USB interface module 2; the second network port module 4 comprises at least two RJ45 network interfaces and is arranged on one side of the USB interface module 2; the PCIE card slot module 5 is arranged at one end, close to the rear panel of the case, of the mainboard body 1 and is arranged at one side, far away from the edge of the mainboard body 1, of the interface module.

In this embodiment, the motherboard body 1 is a main circuit board of a server motherboard, the interface module refers to a rear panel interface module, and the PCIE card slot module 5 is a slot module for setting a PCIE card; the first portal module 3 includes an local area network interface (IPMI LAN) and/or a BMC dedicated management portal.

In this embodiment, the interface module is arranged at one end of the main board body 1 close to the rear panel of the chassis, and the first network port module 3 of the interface module is arranged above the USB interface module 2; the second network port module 4 comprises at least two RJ45 network interfaces and is arranged on one side of the USB interface module 2; and then make full use of the space in the vertical direction has realized the design of piling up of different interfaces, has saved the required mainboard body 1's that occupies of interface module space, on this basis, PCIE card slot module 5 mainboard body 1 is close to the one end of quick-witted case rear panel, and set up in the interface module keeps away from the one side at mainboard body 1 border, and such design, can make full use of quick-witted case rear panel realize fixing and setting of PCIE card, and, because the design of piling up of different interfaces, can also reserve out sufficient space, and then can set up as much as possible PCIE card or other high-speed interfaces, so on the basis that does not increase the product size, through optimizing its space design, provide the advantage for function extension and performance promotion.

As shown in fig. 1, the USB interface module 2 of this embodiment includes at least two USB interfaces vertically stacked, and at least two RJ45 network interfaces of the second internet access module 4 are vertically stacked on one side of the USB interface module 2, so as to further utilize the vertical space of the server to set up a plurality of interfaces, which is convenient for function expansion and saves plane space.

As shown in fig. 1 and fig. 3, in the area of the interface module close to the PCIE card slot module 5, any one or more of an m.2 connector 6, a chassis rear USB interface 7 (FP USB 3.0), a chassis rear VGA interface 8 (FP VGA interface), an encryption module interface 9, and a TPM connector 18 are further provided, so that the area near the interface module and the PCIE card slot module 5 can be reasonably utilized, settings of multiple high-speed interfaces are realized, more interfaces are conveniently supported, and function expansion is realized.

As shown in fig. 1, the present embodiment further includes a serial communication port 10 and a VGA interface 11, where the serial communication port 10 and the VGA interface 11 are vertically stacked beside the second network port module 4, and then a plurality of interfaces can be further disposed by using a vertical space of the server, so as to facilitate function expansion and save a planar space.

As shown in fig. 1, the present embodiment includes a first interface mounting bracket 12, the first network port module 3 and the USB interface module 2 are disposed in the first interface mounting bracket 12 in a layered manner, that is, the first network port module 3 and the USB interface module 2 are vertically stacked by the first interface mounting bracket 12 and can be designed as an independent module, and in the production process, after the first network port module 3 and the USB interface module 2 are assembled by the first interface mounting bracket 12, the first network port module 3 and the USB interface module 2 are integrally mounted on the motherboard body 1, so that the assembly efficiency is improved, and the later maintenance is facilitated.

As shown in fig. 1, the present embodiment further includes a second interface mounting bracket 13, the at least two RJ45 network interfaces are arranged in the second interface mounting bracket 13 in a back-to-back manner, and the arrangement of the two RJ45 network interfaces in a back-to-back manner means that the upper and lower positions of two adjacent RJ45 network interfaces are reversed, as shown in fig. 2, so that the wiring is more facilitated, and the at least two RJ45 network interfaces are vertically stacked by the second interface mounting bracket 13 and can also be designed as an independent module, and after the at least two RJ45 network interfaces are assembled by the second interface mounting bracket 13 in the production process, the two RJ45 network interfaces are integrally mounted on the main board body 1, so that the assembly efficiency is improved, and the later maintenance is facilitated.

The BMC reset port 14 is further included in the embodiment, the BMC reset port 14 is arranged on one side, close to the edge of the mainboard body 1, of the first network port module 3, and then the setting of the BMC reset port 14 is achieved by utilizing the position of the edge of the mainboard body 1, so that the space is saved, and the wiring between the BMC reset port 14 and the BMC dedicated management network port is convenient to shorten.

The PCIE card slot module 5 in this embodiment includes a PCIE card fixing member (the PCIE card fixing member is a mounting member that fixes a PCIE card on the motherboard body 1, and is not shown in the present illustration) and more than two PCIE cards, where every two adjacent PCIE cards are arranged side by side at an interval of 19.12mm to 20.32mm at an end of the motherboard body 1 close to the chassis rear panel through the PCIE card fixing member, as shown in fig. 1, and further, it is able to implement reasonable space optimization through adjustment of an interval between every two adjacent PCIE cards, and is convenient to set more PCIE cards.

As shown in fig. 4, this embodiment may also be provided with another preferred embodiment, and further includes a CPU module 15, a memory module 16, and a heat sink 17 on the basis of the foregoing, where the CPU module 15 is disposed at one end of the interface module away from the rear panel of the chassis, the heat sink 17 is disposed between the CPU module 15 and the interface module, and the CPU module 15 is disposed at a position where the interface module is away from the rear panel of the chassis, so that a space beside the interface module can be reasonably utilized, and it is beneficial to shorten a wiring distance between the interface module and the CPU module 15, and meanwhile, a temperature rise is reduced by the arrangement of the heat sink 17 to meet a heat dissipation requirement thereof; the memory modules 16 are symmetrically disposed on two sides of the CPU module 15, which facilitates connection between the memory modules 16 and the CPU module 15 and layout design.

In this embodiment, the direction of the fins of the heat sink 17 is parallel to the direction of the memory bars of the memory module 16, so that the heat dissipation wind direction can be guided to discharge air conveniently, and the heat dissipation efficiency can be improved.

The above-mentioned embodiments are preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and the equivalent changes in shape and structure according to the present invention are within the protection scope of the present invention.

Claims (10)

1. A server board for optimizing a space design, comprising: the interface module is arranged at one end, close to a rear panel of the chassis, of the mainboard body, and comprises a USB interface module, a first network interface module and a second network interface module, wherein the first network interface module is arranged above the USB interface module; the second network port module comprises at least two RJ45 network interfaces and is arranged at one side of the USB interface module; the PCIE card slot module is characterized in that the mainboard body is arranged at one end close to the rear panel of the case and is arranged at one side of the interface module far away from the edge of the mainboard body.

2. The space-design-optimized server motherboard according to claim 1, wherein the USB interface module comprises at least two USB interfaces stacked vertically, and at least two RJ45 network interfaces of the second network interface module are stacked vertically on one side of the USB interface module.

3. The server board with optimized space design according to claim 1, wherein an m.2 connector, a USB interface behind a chassis, a VGA interface behind the chassis, an encryption module interface, and a TPM connector are further disposed in a region of the interface module close to the PCIE card slot module.

4. The server board for optimizing the spatial design according to any one of claims 1 to 3, further comprising a serial communication port and a VGA interface, wherein the serial communication port and the VGA interface are vertically stacked and disposed beside the second network port module.

5. The server mainboard with the optimized spatial design according to any one of claims 1 to 3, comprising a first interface mounting rack, wherein the first network port module and the USB interface module are arranged in the first interface mounting rack in a layered manner, and the first network port module comprises a local area network port and/or a BMC dedicated management network port.

6. The space-design-optimized server motherboard according to claim 5, further comprising a second interface mounting bracket, wherein said at least two RJ45 network interfaces are arranged in a back-to-back layered manner in said second interface mounting bracket.

7. The server motherboard with optimized spatial design according to claim 5, further comprising a BMC reset port, wherein the BMC reset port is disposed on a side of the first network port module close to the edge of the motherboard body.

8. The server board according to any one of claims 1 to 3, wherein the PCIE card slot module includes a PCIE card fixing member and more than two PCIE cards, and each two adjacent PCIE cards are arranged side by side at an interval of 19.12mm to 20.32mm at one end of the main board body close to the rear panel of the chassis through the PCIE card fixing member.

9. The server mainboard with the optimized space design according to any one of claims 1 to 3, further comprising a CPU module, a memory module and a heat sink, wherein the CPU module is arranged at one end of the interface module, which is far away from the rear panel of the case, and the heat sink is arranged between the CPU module and the interface module; the memory modules are symmetrically arranged on two sides of the CPU module.

10. The space-design-optimized server board according to claim 9, wherein the fin direction of the heat sink is parallel to the memory bar direction of the memory module.

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