CN213957979U - Isolated switching matrix reinforcing server - Google Patents

Abstract

The utility model provides an keep apart switching matrix and consolidate server, including the server main part, the server main part sets up to bilayer structure from top to bottom, bilayer structure is used for installing switching unit and service unit respectively from top to bottom, it is mutual through data connection between service unit and the switching unit. The utility model discloses a bilayer structure from top to bottom, upper strata installation exchange unit, lower floor's installation service unit, compact structure, it is small. The utility model discloses under the prerequisite of assurance system stability, the switch sets up to layering integral type structure from top to bottom with the server, has satisfied the requirement of the on-vehicle adverse circumstances of special type on portability and integration, in addition, takes multiple radiating mode, and the radiating effect is good.

Description

Isolated switching matrix reinforcing server

Technical Field

The utility model relates to a consolidate server technical field, in particular to keep apart switching matrix and consolidate server.

Background

At present, the special vehicle-mounted electronic industry is developing towards integration and miniaturization, in order to meet the requirement of integration and miniaturization of electronic products, advanced electronic products with small volume and more complete functions and convenient carrying need to be manufactured, and therefore the electronic products need to be compact in structure and multiple functional modules are integrated together. Especially, the vehicle-mounted electronic product has narrow space, unsmooth heat dissipation and bumping, so that the electronic product has higher requirements on compactness, shock resistance and dust prevention.

The exchange and the server play an important role in data processing and information exchange in the electronic industry. Most of switches and servers in the existing electronic products are independent and are connected by external cables, so that the requirements of special vehicle-mounted severe environments cannot be met in portability and integration.

Based on the above, a reinforcing server for the isolation switching matrix with stable structure and good heat dissipation is researched.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model aims at providing an keep apart switching matrix and consolidate server through set up bilayer structure in the server main part, places server unit and switching unit respectively, has reached advantages such as compact structure, radiating effect are good.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides an keep apart switching matrix and consolidate server, includes the server main part, the server main part sets up bilayer structure from top to bottom, bilayer structure is used for installation switching unit and service unit respectively from top to bottom, carry out the interaction through data connection between service unit and the switching unit.

Furthermore, the switching unit comprises a switching unit main board, a switching unit power supply, a heat dissipation block, a switching unit fan system and an external switching module interface, wherein the switching unit power supply, the switching unit fan system and the external switching module interface are all connected with corresponding sockets on the switching unit main board in a hot plugging mode, and the heat dissipation block is arranged on the switching unit main board and used for dissipating heat of the switching unit main board.

Furthermore, the switching unit power supply comprises two groups of module power supplies, and the two groups of module power supplies are respectively fixed on corresponding interfaces on the main board of the switching unit in a hot plugging mode and are used for independently providing power supplies.

Furthermore, the exchange unit fan system comprises at least one air inlet fan and corresponding air outlet holes, and the exchange unit air inlet fan and the air outlet holes are respectively arranged on two end faces of the upper exchange unit and used for forming a heat dissipation air channel for components inside the exchange unit.

Furthermore, air inlet fan sets fan control mainboard, air inlet fan all links to each other with the fan control mainboard that corresponds through the wiring, fan control mainboard is pegged graft on the exchange unit mainboard.

Furthermore, the radiating block is a cross radiating block, radiating holes are formed in the periphery of the cross radiating block, a plurality of grooves and radiating channels are formed in the top and the inside of the cross radiating block respectively, and corresponding radiating copper pipes are wound and fixed on the grooves and the radiating channels.

Furthermore, the switching unit further comprises a management mainboard and a filter, wherein the management mainboard and the filter are connected with corresponding sockets on the switching unit mainboard in a hot plugging mode, and the management mainboard is provided with a management network port and is connected with the service unit through the management network port.

Furthermore, the service unit comprises a service unit mainboard, a CPU, a redundant power supply, a hard disk, a memory bank and a service unit fan, wherein the CPU, the redundant power supply, the hard disk, the memory bank and the service unit fan are all connected with corresponding interfaces on the service unit mainboard in a hot plugging mode, and a CPU heat dissipation fan is arranged on the CPU.

Furthermore, the hard disk comprises a system hard disk and a storage hard disk, and the system hard disk and the storage hard disk are connected with corresponding interfaces on the service unit mainboard in a hot plugging mode.

Furthermore, the bayonet socket both sides that the DRAM corresponds set L type fixed block, L type fixed block is used for carrying out spacing fixed to the bayonet socket of installation DRAM, the service unit fan includes at least one inlet fan and at least one fan of giving vent to anger, inlet fan, the fan of giving vent to anger set up respectively on lower floor service unit both ends face and are used for forming the radiating air duct to the inside subassembly of service unit.

Has the advantages that: the utility model discloses a bilayer structure from top to bottom, upper strata installation exchange unit, lower floor's installation service unit, compact structure, it is small. The utility model discloses under the prerequisite of assurance system stability, the switch sets up to layering integral type structure from top to bottom with the server, has satisfied the requirement of the on-vehicle adverse circumstances of special type on portability and integration, in addition, takes multiple radiating mode, and the radiating effect is good.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a cross-sectional view of an upper and lower double-layer structure of an isolated switching matrix reinforcement server according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a switching unit of an isolated switching matrix reinforcement server according to an embodiment of the present invention;

fig. 3 is a top view of a switching unit of an isolated switching matrix reinforcement server according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a service unit of an isolated switching matrix reinforcement server according to an embodiment of the present invention.

Description of reference numerals:

1-server body, 11-switching unit, 110-switching unit mainboard, 111-switching unit power supply, 112-radiating block, 113-switching unit fan system, 114-external switching module interface, 115-fan control mainboard, 116-management mainboard, 117-filter, 12-service unit, 120-service unit mainboard, 121-CPU, 122-redundant power supply, 123-hard disk, 124-service unit fan, 125-L type fixed block.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

The utility model provides an keep apart switching matrix and consolidate server, includes server main part 1, server main part 1 sets up to upper and lower bilayer structure, upper and lower bilayer structure is used for installing exchange unit 11 and service unit 12 respectively, interact through data connection between service unit 12 and the exchange unit 11.

It should be noted that, in this embodiment, an upper and lower double-layer structure is adopted, the exchange unit is installed on the upper layer, and the service unit is installed on the lower layer, so that the structure is compact and the volume is small.

In a specific example, the switch unit 11 includes a switch unit main board 110, a switch unit power supply 111, a heat dissipation block 112, a switch unit fan system 113, and an external switch module interface 114, where the switch unit power supply 111, the switch unit fan system 113, and the external switch module interface 114 are all connected to corresponding sockets on the switch unit main board 110 in a hot plug manner, and the heat dissipation block 112 is installed on the switch unit main board 110 for dissipating heat from the switch unit main board 110.

This embodiment dispels the heat to the exchange unit through exchange unit fan system and radiating block, and the radiating effect is good, and is fixed compact structure through the mode of hot plug.

In a specific example, the switch unit power 111 includes two sets of module power, and the two sets of module power are respectively fixed to corresponding sockets on the switch unit motherboard 110 in a hot plug manner for independently providing power.

The embodiment is provided with two sets of module power supplies, so that the power supply stability of the switching unit is improved.

In a specific example, the exchange unit fan system 113 includes at least one air inlet fan and corresponding air outlet holes, where the air inlet fan and the air outlet holes are respectively disposed on two end surfaces of the upper exchange unit for forming a heat dissipation air channel for components inside the exchange unit.

It should be noted that, the air inlet fan and the air outlet hole of the embodiment are oppositely arranged on the two end surfaces of the upper layer to form the heat dissipation air duct, so that the heat dissipation efficiency of the exchange unit is improved.

In a specific example, the intake fan is provided with a fan control main board 115, the intake fan is connected with the corresponding fan control main board 115 through a wire, and the fan control main board 115 is plugged on the exchange unit main board 110.

The light and the wind speed of the air inlet fan of the embodiment can be adjusted.

In a specific example, the heat dissipation block 112 is a cross-shaped heat dissipation block, heat dissipation holes are formed around the cross-shaped heat dissipation block, a plurality of grooves and heat dissipation channels are respectively formed in the top and the inside of the cross-shaped heat dissipation block, and corresponding heat dissipation copper pipes are wound and fixed on the grooves and the heat dissipation channels.

The radiating block of this embodiment is the cross radiating block through design processing to cooperation heat dissipation copper pipe, recess and heat dissipation channel have improved the radiating efficiency of radiating block.

In a specific example, the switch unit 11 further includes a management motherboard 116 and a filter 117, the management motherboard 116 and the filter 117 are connected to corresponding sockets on the switch unit motherboard 110 in a hot plug manner, and the management motherboard 116 is provided with a management port and is connected to the service unit 12 through the management port.

The management mainboard of the embodiment can well establish the connection between the service unit and the switching unit and improve the interaction capacity of the service unit and the switching unit; the filter can filter the interactive signals.

In a specific example, the service unit 12 includes a service unit motherboard 120, a CPU 121, a redundant power supply 122, a hard disk 123, a memory bank, and a service unit fan 124, where the CPU 121, the redundant power supply 122, the hard disk 123, the memory bank, and the service unit fan 124 are all connected to corresponding sockets on the service unit motherboard 120 in a hot-plug manner, and a CPU heat dissipation fan is disposed on the CPU 121.

This embodiment dispels the heat to the service unit through service unit fan and CPU radiator fan, and the radiating effect is good, and is fixed compact structure through the mode of hot plug.

In a specific example, the hard disk 123 includes a system hard disk and a storage hard disk, and the system hard disk and the storage hard disk are connected to corresponding sockets on the service unit motherboard 120 in a hot-plug manner.

The system hard disk and the storage hard disk of the embodiment are independently configured, so that the fault tolerance rate of the system is improved.

In a specific example, two sides of the socket corresponding to the memory bank are provided with an L-shaped fixing block 125, the L-shaped fixing block 125 is used for limiting and fixing the socket where the memory bank is installed, the service unit fan 124 includes at least one air inlet fan and at least one air outlet fan, and the air inlet fan and the air outlet fan are respectively disposed on two end surfaces of the lower service unit 12 and are used for forming a heat dissipation air duct for components inside the service unit 12.

The stability of the memory bank installation of this embodiment has been improved through L type fixed block, and in addition, the inlet fan of this embodiment forms the heat dissipation wind channel with the relative setting of outlet fan on the both ends face of lower floor, has improved service unit's radiating efficiency.

The switching unit power supply, the heat dissipation block, the switching unit fan, the external switching module interface, the CPU, the redundant power supply, the hard disk, the memory bank, and the service unit fan in the switching unit and the service unit of this embodiment are connected to the corresponding switching unit motherboard and the service unit motherboard through the interface, and are fixed by installing the reinforcing structure, thereby improving the stability of the system.

In addition, it should be noted that, most of the main improved components of the server main body of the embodiment are described in the above, and in addition, components (conventional components) such as a grounding pole, an air plug, a fuse, a switch, an indicator light, a dual-port USB, a hanging shaft, etc. are further provided, which are not described one by one here.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an keep apart switching matrix and consolidate server which characterized in that, includes the server main part, the server main part sets up to bilayer structure from top to bottom, bilayer structure is used for installing exchange unit and service unit respectively from top to bottom, carry out the interaction through data connection between service unit and the exchange unit.

2. The reinforcement server of claim 1, wherein the switching unit comprises a switching unit motherboard, a switching unit power supply, a heat sink, a switching unit fan system, and an external switching module interface, the switching unit power supply, the switching unit fan, and the external switching module interface are all connected to corresponding sockets on the switching unit motherboard in a hot-plug manner, and the heat sink is mounted on the switching unit motherboard for dissipating heat from the switching unit motherboard.

3. The isolated switching matrix consolidation server of claim 2, wherein the switching unit power supplies comprise two sets of modular power supplies, each of the two sets of modular power supplies being hot-pluggable and securable to a corresponding socket on the main board of the switching unit for providing power independently.

4. The reinforcement server of claim 2, wherein the switching unit fan system comprises at least one switching unit air inlet fan and corresponding air outlet holes, and the switching unit air inlet fan and the air outlet holes are respectively disposed on two end surfaces of the upper switching unit and are used for forming a heat dissipation air channel for components inside the switching unit.

5. The isolated switching matrix reinforcement server of claim 4, wherein the inlet fans are configured with fan control motherboards, and the inlet fans are connected to the corresponding fan control motherboard by wires, and the fan control motherboard is plugged into the switching unit motherboard.

6. The reinforcement server of claim 2, wherein the heat sink is a cross heat sink, the cross heat sink has heat dissipation holes around it, the top and the inside of the cross heat sink have a plurality of grooves and heat dissipation channels, and the grooves and the heat dissipation channels are wound with corresponding heat dissipation copper pipes.

7. The isolated switching matrix reinforcement server according to claim 2, wherein the switching unit further includes a management motherboard and a filter, the management motherboard and the filter are connected to corresponding sockets on the switching unit motherboard in a hot-plug manner, and the management motherboard is provided with a management port and connected to the service unit via the management port.

8. The reinforcement server of the isolation switching matrix according to claim 1, wherein the service unit includes a service unit motherboard, a CPU, a redundant power supply, a hard disk, a memory bank, and a service unit fan, the CPU, the redundant power supply, the hard disk, the memory bank, and the service unit fan are all connected to corresponding sockets on the service unit motherboard in a hot-plug manner, and a CPU cooling fan is provided on the CPU.

9. The isolated switching matrix reinforcement server of claim 8, wherein the hard disk comprises a system hard disk and a storage hard disk, and the system hard disk and the storage hard disk are connected to corresponding sockets on the service unit motherboard in a hot-plugging manner.

10. The reinforcement server of the isolation switch matrix according to claim 8, wherein L-shaped fixing blocks are disposed on two sides of the corresponding socket of the memory bank, the L-shaped fixing blocks are used for limiting and fixing the socket for installing the memory bank, the service unit fan includes at least one air inlet fan and at least one air outlet fan, and the air inlet fan and the air outlet fan are respectively disposed on two end faces of the lower service unit and are used for forming a heat dissipation air duct for components inside the service unit.

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