CN113609064B - 4U node type server convenient to adapt to different widths and configurations - Google Patents

Abstract

The invention provides a 4U node type server which is convenient to adapt to different widths and configurations, comprising: the server comprises a server case, a case partition board and a master control node, wherein the master control node comprises a first master control node, a second master control node and a third master control node, the case partition board is arranged in the middle of the server case, a first installation component and a second installation component are respectively arranged on a bottom plate and a top plate of the server case, any one of the first master control node, the second master control node and the third master control node is arranged at one end, close to a front panel, of the server case in a drawing mode, and the first installation component and the second installation component are detachably arranged below and above the master control node. The invention has wide application range and strong shared performance, can improve the flexible application degree of the 4U node type server, reduce the research and development period of products and improve the general performance of the products.

Description

4U node type server convenient to adapt to different widths and configurations

Technical Field

The present invention relates to a 4U server, and more particularly, to a 4U node server that is convenient to adapt to different widths and configurations.

Background

In the server, U refers to the size specification of the server (blade), 4U represents the size of 4.45cm×4, the 4U server is widely applied to various industries, and a server case with standard size is adopted, but for different application environments and specific requirements thereof, the requirements of the computing function and the storage function required by the 4U server are different, the existing practice is to design products with different performances in a targeted manner, each product needs to be designed and improved adaptively from the server case to an internal module, so that the research and development period of the product is longer, and the sharing performance of the product materials is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing the 4U node type server which is wide in application range and strong in common performance, is convenient to adapt to different widths and configurations, and aims to improve the flexible application degree of the 4U server, reduce the research and development period of products and improve the general performance of the 4U node type server.

In this regard, the present invention provides a 4U node server that facilitates adapting to different widths and configurations, comprising: the server comprises a server case, a case partition board and a master control node, wherein the master control node comprises a first master control node, a second master control node and a third master control node, the case partition board is arranged in the middle of the server case, a first installation component and a second installation component are respectively arranged on a bottom plate and a top plate of the server case, any one of the first master control node, the second master control node and the third master control node is arranged at one end, close to a front panel, of the server case in a drawing mode, and the first installation component and the second installation component are detachably arranged below and above the master control node.

The invention further improves that the first installation component comprises a first installation groove and a first guide bar, wherein the first installation groove is concavely arranged at the bottom of the server case, the first guide bar is detachably installed in the first installation groove, and the installation surface of the first guide bar is not higher than the plane of the bottom plate of the server case.

The invention further improves that the second mounting component comprises a second mounting groove and a second guide bar, wherein the second guide bar is detachably mounted in the second mounting groove, and the lower plane of the second guide bar protrudes out of the lower plane of the top plate of the server case.

The invention further improves that the left side and the right side of the chassis partition plate are symmetrically provided with three first guide bars and second guide bars respectively, the number of the first main control nodes is eight, and the eight first main control nodes are arranged on the two sides of the chassis partition plate in parallel through the first guide bars and the second guide bars respectively.

The invention further improves that the left side and the right side of the chassis partition plate are respectively symmetrically provided with a first guide bar and a second guide bar, the number of the second main control nodes is four, and the four second main control nodes are respectively arranged on the two sides of the chassis partition plate in parallel through the first guide bars and the second guide bars.

According to the invention, a hoist hole is formed in the first mounting groove, and the first guide bar is connected with the hoist hole of the first mounting groove through an I-shaped nail.

The invention is further improved in that the second main control node and the third main control node comprise a main control module, a U-shaped partition board and a storage module, the U-shaped partition board is arranged between the main control module and the storage module, and a cable of the main control module passes through the U-shaped partition board to be connected to the storage module.

The invention is further improved in that the second main control node and the third main control node further comprise tank chains, the tank chains penetrate through the U-shaped partition boards, and cables of the main control modules are arranged in the tank chains.

The invention further improves that a limiting rivet column is arranged at the bottom of the server case, and the limiting rivet column is arranged at one end of the main control node, which is far away from the front panel of the server case.

The invention is further improved in that a lever pull-assisting handle is arranged at one end of the main control node, which is close to the front panel of the server case.

Compared with the prior art, the invention has the beneficial effects that: any one of the first main control node, the second main control node and the third main control node can be arranged at one end of the server case, which is close to the front panel, and the first main control node, the second main control node and the third main control node can be assembled quickly by installing and replacing the first main control node, the second main control node and the third main control node through the first installation component and the second installation component.

Drawings

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

FIG. 2 is a schematic perspective view of an embodiment of the present invention at another angle;

FIG. 3 is a schematic cross-sectional view of a second master node according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a second master node according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a first guide bar according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a second guide bar according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of another embodiment of the present invention;

FIG. 8 is a schematic perspective view of another embodiment of the present invention at another angle;

FIG. 9 is a schematic perspective view of a further embodiment of the present invention;

fig. 10 is a schematic perspective view of another embodiment of the present invention at another angle.

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 10, this example provides a 4U node server that is convenient to adapt to different widths and configurations, including: the server case 1, case partition board 2 and master control node, the master control node includes first master control node 3, second master control node 4 and third master control node 5, case partition board 2 set up in the centre of server case 1, server case 1's bottom plate and roof are provided with first installation component and second installation component respectively, any one of first master control node 3, second master control node 4 and third master control node 5 pull formula set up in server case 1 is close to the one end of front panel, first installation component and second installation component detachably set up in master control node's below and top.

As shown in fig. 1 and fig. 2, the chassis partition board 2 in this embodiment is preferably a partition board vertically disposed in the middle of the server chassis 1, and the partition board not only can provide a guiding function for the drawing of the main control node, but also serves as a support board of the server chassis 1, so as to increase the strength of the 4U node server; the master control node refers to a node comprising a master control module 10, at least comprises a master control circuit board for realizing a computing board, and can also comprise a storage module 12 for installing a hard disk; as shown in fig. 1 and fig. 2, the first master control node 3 is a computing node only including the master control module 10, and at this time, 8 such master control modules 10 may be installed in parallel in the server chassis 1 to form a server with 4U8 nodes; as shown in fig. 7 to 10, the second master control node 4 and the third master control node 5 each include the master control module 10 and a storage module 12, in the second master control node 4 in fig. 3, 4, 7 and 8, 12 hard disks of 3.5 inches may be installed in the storage module 12, and 4 such master control modules 10 may be installed in parallel in the server chassis 1 to form a server of 4U4 nodes; in the second master control node 4 in fig. 9 and 10, 36 hard disks of 3.5 inches may be installed in the storage module 12, and 2 such master control modules 10 may be installed in parallel in the server chassis 1 to form a server of a 4U2 node.

In summary, any one of the first master control node 3, the second master control node 4 and the third master control node 5 in this example can be set up in the server machine case 1 is close to the one end of front panel in a pull mode, the installation and maintenance of the master control node can be realized more rapidly through the design of pull mode, the installation and the replacement of the master control node can be realized rapidly through the first installation component and the second installation component, this example is simple in structure, the application scope is wide and the sharing performance is strong, the master control nodes with different widths and configurations can be conveniently adapted to different computing requirements and storage requirements, the flexible application degree of the 4U node server can be effectively improved, the research and development period of products is reduced, and the general performance of the product is improved.

As shown in fig. 1, 7 and 9, the first mounting assembly of this example includes a first mounting groove 6 and a first guide bar 7, where the first mounting groove 6 is concavely disposed at the bottom of the server chassis 1, the first guide bar 7 is detachably mounted in the first mounting groove 6, and the mounting surface of the first guide bar 7 is not higher than the plane of the bottom plate of the server chassis 1, and it is worth mentioning that, by such a design, besides being capable of mounting different numbers of first guide bars 7 according to actual needs, the drawing operation of the master control node can be effectively avoided from being affected by the mounting of the first guide bars 7; the structural design of the first guide strip 7 is shown in fig. 5, the first mounting groove 6 is preferably provided with a hoist hole 61, the first guide strip 7 is connected with the hoist hole 61 of the first mounting groove 6 through an i-shaped nail, and then fixing is realized through fixing pieces such as screws, so that the mounting and the dismounting of the first guide strip 7 can be realized quickly; preferably, an upward blocking portion 71 is disposed on one side of the first guiding strip 7, so as to more effectively realize guiding and limiting effects.

As shown in fig. 2, 6, 8 and 10, the second mounting assembly of this example includes a second mounting groove 8 and a second guide bar 9, where the second guide bar 9 is detachably mounted in the second mounting groove 8, and a lower plane of the second guide bar 9 protrudes from a lower plane of a top plate of the server chassis 1; by the design, besides the guiding effect on the main control node, the limit of different main control nodes is further realized through the second guiding strip 9 protruding out of the lower plane of the top plate of the server case 1, so that the position deviation during the drawing operation is avoided, and the reliability of the product in the maintenance process is ensured; more preferably, as shown in fig. 6, the thickness of the two ends of the second guiding strip 9 is smaller than that of the middle, that is, the two ends are preferably arc transition ends, so that the guiding and guiding of the main control node can be more facilitated, and the main control node is prevented from being bumped.

As shown in fig. 1 and fig. 2, in this example, three first guide strips 7 and second guide strips 9 are symmetrically disposed on the left and right sides of the chassis partition board 2, the number of the first main control nodes 3 is eight, and eight first main control nodes 3 are respectively disposed on two sides of the chassis partition board 2 in parallel through the first guide strips 7 and the second guide strips 9, so as to form a server of 4U8 nodes, where the server is used in an application environment with high requirement on computing capability; as shown in fig. 7 and 8, in the same server chassis 1, if a first guide bar 7 and a second guide bar 9 are symmetrically disposed on the left and right sides of the chassis partition 2, the number of the second main control nodes 4 is four, and the four second main control nodes 4 are respectively disposed on two sides of the chassis partition 2 in parallel through the first guide bar 7 and the second guide bar 9, so as to form the aforementioned server with 4U4 nodes; if the server with 4U2 nodes is realized, as shown in fig. 9 and 10, the first guide bar 7 and the second guide bar 9 do not need to be installed, and the two third main control nodes 5 are only required to be installed through the server case 1 and the case partition board 2; therefore, the universal performance of the method is very strong, the node requirements of different widths and configurations can be adapted, and a flexible and reliable server product with short research and development period is effectively provided.

Therefore, through detachable first installation component and second installation component, this example can be nimble will arbitrary one kind of master control node pull formula in first master control node 3, second master control node 4 and the third master control node 5 set up in server machine case 1 is close to the one end of front panel, and then when the 4U server that needs to satisfy different computing power or storage capacity, only need through the cooperation of first installation component and second installation component, just can the express delivery assemble out the 4U node formula server of different functions, and is nimble, quick and reliable, the commonality is strong.

As shown in fig. 3 and fig. 4, the second master control node 4 in this example includes a master control module 10, a U-shaped partition 11 and a storage module 12, where the U-shaped partition 11 is disposed between the master control module 10 and the storage module 12, and a cable of the master control module 10 passes through the U-shaped partition 11 and is connected to the storage module 12, so that sliding connection between the master control module 10 and the storage module 12 can be well realized, and drawer-type installation and maintenance are convenient to realize; more preferably, the second main control node 4 further comprises a tank chain 13, the tank chain 13 penetrates through the U-shaped partition board 11, and a cable of the main control module 10 is arranged in the tank chain 13, so that when the drawing operation is realized, the cable moves along with the tank chain, the uninterrupted drawing operation can be effectively realized, and the problems of disordered wiring, unreliability and the like are avoided. Likewise, the structure of the third master control node 5 is identical to the structure of the second master control node 4, except that the number of hard disks included in the storage module is different. Preferably, the end of the second main control adding point 4 and the U-shaped partition 11 of the third main control node 5, which is far away from the front panel of the server case 1, is provided with a blocking strip 16, which is used for realizing the limiting function when the storage module 12 slides, so as to avoid excessive pushing-in position.

As shown in fig. 1, 7 and 9, in this example, a limiting rivet 14 is disposed at the bottom of the server chassis 1, and the limiting rivet 14 is disposed at one end of the main control node, which is far away from the front panel of the server chassis 1, so that the insertion depth of the main control node is limited by the limiting rivet 14, and other modules of the server are prevented from being damaged. In this example, the main control node is close to the one end of the front panel of the server case 1 is provided with a lever pull-assisting handle 15, and through the design of the lever pull-assisting handle, the time and labor can be saved when the main control node is pulled out, and the humanized design of the product is improved.

The foregoing is a further detailed description of the invention in connection with the preferred embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (10)

1. A 4U node server for facilitating adaptation to different widths and configurations, comprising: the server comprises a server case, a case partition board and a master control node, wherein the master control node comprises a first master control node, a second master control node and a third master control node, the case partition board is arranged in the middle of the server case, a first installation component and a second installation component are respectively arranged on a bottom plate and a top plate of the server case, any one of the first master control node, the second master control node and the third master control node is arranged at one end, close to a front panel, of the server case in a drawing mode, and the first installation component and the second installation component are detachably arranged below and above the master control node.

2. The 4U node server of claim 1, wherein the first mounting assembly includes a first mounting groove and a first guide bar, the first mounting groove is concavely disposed at the bottom of the server chassis, the first guide bar is detachably mounted in the first mounting groove, and a mounting surface of the first guide bar is not higher than a plane of a bottom plate of the server chassis.

3. The 4U node server of claim 2, wherein the second mounting assembly includes a second mounting slot and a second guide bar, the second guide bar being removably mounted in the second mounting slot and a lower plane of the second guide bar protruding from a lower plane of the server chassis top plate.

4. The 4U node server of claim 3, wherein three first guide bars and second guide bars are symmetrically disposed on left and right sides of the chassis partition, the number of the first master control nodes is eight, and eight first master control nodes are disposed on two sides of the chassis partition in parallel through the first guide bars and the second guide bars, respectively.

5. The 4U node server of claim 3, wherein a first guide bar and a second guide bar are symmetrically disposed on the left and right sides of the chassis partition, the number of the second master control nodes is four, and the four second master control nodes are disposed on two sides of the chassis partition in parallel through the first guide bar and the second guide bar, respectively.

6. The 4U node server of claim 2, wherein the first mounting groove is provided with a gourd hole, and the first guide bar is connected to the gourd hole of the first mounting groove by an i-pin.

7. The 4U node server of any one of claims 1-6, wherein the second and third master nodes each comprise a master module, a U-shaped partition and a storage module, the U-shaped partition is disposed between the master module and the storage module, and a cable of the master module is connected to the storage module through the U-shaped partition.

8. The 4U node server of claim 7, wherein the second and third master nodes further comprise tank chains, the tank chains passing through the U-shaped separator, and cables of the master module being disposed in the tank chains.

9. The 4U node server of any one of claims 1 to 6, wherein a limiting rivet is disposed at a bottom of the server chassis, and the limiting rivet is disposed at an end of the main control node away from a front panel of the server chassis.

10. The 4U node server of any one of claims 1-6, wherein the end of the master control node adjacent to the front panel of the server chassis is provided with a lever pull handle.