CN215341074U - Drawer type server mainboard module connected through slide rail and server thereof - Google Patents

Abstract

The utility model provides a drawer type server mainboard module connected by a slide rail and a server thereof, wherein the server mainboard module comprises: the intelligent storage module comprises a module frame, a calculation module, a storage module, a first sliding rail, a second sliding rail and a middle partition plate, wherein the calculation module is arranged on one side of the module frame, the middle partition plate is arranged between the calculation module and the storage module, the first sliding rail and the second sliding rail are arranged on one side or two sides of the storage module, and the storage module passes through the first sliding rail and the second sliding rail which are arranged on the other side of the module frame in a sliding mode. According to the utility model, the storage module is drawer-type arranged beside the computing module by means of the slide rails on one side or two sides, so that the convenience of installation and maintenance of products can be effectively improved, the stability and the reliability are strong, the installation requirements of more hard disks can be conveniently met, and a good foundation is provided for improving the performance of a server and simplifying the maintenance work.

Description

Drawer type server mainboard module connected through slide rail and server thereof

Technical Field

The present disclosure relates to a server motherboard module, and more particularly to a drawer-type server motherboard module connected by a slide rail, and a server including the server motherboard module.

Background

With the rapid development of enterprise informatization, the demand of various industries on servers is increasing at present, and in the space of a limited machine room, such as a 4U server, the size of the server is standard and fixed and is generally installed in a server cabinet, the cabinet server has advantages compared with a tower server in the aspects of saving energy cost, maintaining cost, environmental cost and the like because of flexible configuration and high calculation density, and the advantages provide wide development space for the construction of large and medium-sized information systems for the servers with the size of 4U and the like; however, the server installed in the server cabinet needs to consider how to reasonably plan and design so as to improve the installation and maintenance convenience of the server, and to realize installation of more hard disks as much as possible so as to improve the product performance of the server.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a drawer server motherboard module capable of improving convenience of installation and maintenance and improving performance, and further provide a server including the drawer server motherboard module.

To this end, the present invention provides a drawer-type server motherboard module connected by a slide rail, comprising: the intelligent storage module comprises a module frame, a calculation module, a storage module, a first sliding rail, a second sliding rail and a middle partition plate, wherein the calculation module is arranged on one side of the module frame, the middle partition plate is arranged between the calculation module and the storage module, the first sliding rail and the second sliding rail are arranged on one side or two sides of the storage module, and the storage module passes through the first sliding rail and the second sliding rail which are arranged on the other side of the module frame in a sliding mode.

The utility model has the further improvement that a mainboard and a first hard disk are arranged in the computing module, the mainboard is vertically arranged in the computing module, and the first hard disk is arranged between the mainboard and the middle partition plate.

The utility model is further improved in that the storage module is provided with a hard disk backboard and a second hard disk, the hard disk backboard is arranged at the bottom of the storage module, and the second hard disk is vertically arranged on the hard disk backboard.

The utility model has the further improvement that the number of the second hard disks is more than two, and the more than two second hard disks are symmetrically inserted into the hard disk back plate.

The utility model has the further improvement that the storage module is symmetrically provided with twelve or thirty-six hard disk slots.

The utility model has the further improvement that the first slide rail is arranged at one end of the middle partition plate close to the pull-out side of the storage module, the second slide rail is arranged at one end of the module frame close to the pull-out side of the storage module, and the first slide rail and the second slide rail are both arranged at the middle upper parts of the two sides of the storage module; or the first slide rail and the second slide rail are arranged at one end of the middle partition plate close to the pull-out side of the storage module.

The utility model has the further improvement that the utility model also comprises a connecting piece, wherein one end of the connecting piece is connected to the mainboard of the computing module, and the other end of the connecting piece is connected to the tail part of the storage module.

The utility model has the further improvement that the storage module further comprises a baffle plate, wherein one end of the baffle plate is arranged on one side of the middle partition plate close to the storage module and is fixedly connected with one end of the middle partition plate far away from the pull-out side of the storage module.

The utility model is further improved in that the other end of the baffle is fixedly connected with one end of the module frame far away from the pull-out side of the storage module.

The utility model also provides a server, which comprises a server case and the drawer type server mainboard module connected through the sliding rail, wherein the drawer type server mainboard module is arranged in the server case in a sliding manner.

Compared with the prior art, the utility model has the beneficial effects that: through the mode of the first slide rail and the second slide rail which are the single-side or two-side slide rails, the drawer type server mainboard module is well arranged beside the computing module in a sliding mode, the installation and maintenance convenience degree of a product can be effectively improved, the mode realized through the slide rails is more stable and reliable, the installation requirements of more hard disks can be conveniently met, and a good basis is provided for improving the performance of the server and simplifying the maintenance work.

Drawings

FIG. 1 is a schematic cross-sectional view of one embodiment of the present invention;

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

FIG. 3 is a schematic diagram of the structure of one embodiment of the present invention in a pulled-out state;

fig. 4 is a schematic cross-sectional structure 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 fig. 3, this embodiment provides a drawer type server motherboard module connected by a slide rail, including: calculate module 1, storage module 2, first slide rail 3, second slide rail 4, median septum 5 and module frame 8, calculate module 1 set up in one side of module frame 8, median septum 5 set up in calculate between module 1 and the storage module 2, first slide rail 3 and second slide rail 4 set up in the unilateral or both sides of storage module 2, storage module 2 passes through first slide rail 3 and second slide rail 4 slide set up in the opposite side of module frame 8.

The computing module 1 in this example is a motherboard module assembly including a motherboard 101, the storage module 2 is a storage module assembly including a plurality of second hard disks 202, the second hard disks 202 are preferably hard disks of 3.5 inches, and the middle partition plate 5 is a partition plate structure between the computing module 1 and the storage module 2; the first slide rail 3 is also called a left slide rail, and refers to a slide rail assembly arranged on the left side of the storage module 2, and is preferably arranged on the middle partition plate 5, so as to realize the sliding connection between the storage module 2 and the middle partition plate 5; the second slide rail 4 is also called a right slide rail, and refers to a slide rail assembly arranged on the right side of the storage module 2, and is preferably arranged on the inner wall of the module frame 8, so as to realize the sliding connection between the storage module 2 and the module frame 8; the middle partition plate 5 is a partition plate used for realizing the isolated sliding connection between the computing module 1 and the storage module 2; the module frame 8 is a main body frame of the server mainboard module; the storage module 2 is slidably arranged between the middle partition plate 5 and the module frame 8 through the first slide rail 3 and the second slide rail 4 and beside the computing module 1, so that the storage module 2 can slide in a drawer type relative to the computing module 1, the structure in a pulled-out state is shown in fig. 3, the structure in a pushed-in state is shown in fig. 1 and 2, the convenience degree of installation and maintenance of the cabinet type server can be further promoted, and the space utilization is reasonable and efficient.

Preferably, as shown in fig. 1, the computing module 1 of this embodiment is provided with a motherboard 101 and a first hard disk 102, the motherboard 101 is vertically disposed in the computing module 1, the motherboard 101 is a main control circuit board, the first hard disk 102 is preferably a 2.5-inch hard disk, and the first hard disk 102 is disposed between the motherboard 101 and the middle partition plate 5, so as to meet the computing and calculating requirements of the motherboard module, and the vertical disposition mode can also effectively utilize the vertical space, and save the space required to be occupied.

As shown in fig. 2 and fig. 3, the storage module 2 in this embodiment is provided with a hard disk backplane 201 and a second hard disk 202, the hard disk backplane 201 is disposed at the bottom of the storage module 2, and the second hard disk 202 is vertically disposed on the hard disk backplane 201. The hard disk backplane 201 is a circuit board for plugging the second hard disk 202, the second hard disk 202 is preferably a 3.5-inch hard disk, the storage module 2 includes a plurality of independent hard disk slots, as shown in fig. 2, the storage module 2 is preferably symmetrically provided with preferably thirty-six hard disk slots 203, each hard disk slot 203 can be provided with one vertically-arranged second hard disk 202, and in a pulled-out state as shown in fig. 3, the installation and maintenance of the second hard disk 202 can be conveniently realized, and the occupied space is extremely small, so that, preferably, the number of the second hard disks 202 in this embodiment is more than two, and more than two second hard disks 202 are symmetrically plugged on the hard disk backplane 201; preferably, the storage module 2 may be symmetrically provided with thirty-six second hard disks 202, and each second hard disk 202 is independently plugged into the hard disk slot 203 of the storage module 2.

As shown in fig. 4, in addition to the double-side connection manner, in this embodiment, the first slide rail 3 and the second slide rail 4 may be disposed at one end of the middle partition plate 5 close to the pull-out side of the storage module 2, at this time, the storage module 2 is preferably symmetrically provided with twelve hard disk slots, each hard disk slot can be independently inserted with one second hard disk 202, and at this time, the storage module 2 can be inserted with twelve second hard disks 202 in an array manner.

As shown in fig. 3, in this embodiment, the first slide rail 3 is disposed at one end of the middle partition plate 5 close to the pull-out side of the storage module 2, the second slide rail 4 is disposed at one end of the module frame 8 close to the pull-out side of the storage module 2, both the first slide rail 3 and the second slide rail 4 are disposed at the middle upper portions of both sides of the storage module 2, the pull-out side of the storage module 2 refers to one end of the storage module 2 for pulling out, and is generally disposed at one end close to the front panel of the server chassis, in this embodiment, the first slide rail 3 and the second slide rail 4 are disposed at one end of the storage module 2 for pulling out, so that the drawer-type operation can be conveniently realized, the installation and the maintenance are convenient, and meanwhile, the structural stability of the product can be improved by the design of the middle upper portions disposed at both sides of the storage module 2; an empty groove 501 is formed in one end, away from the pull-out side of the storage module 2, of the middle partition board 5, and an empty groove is formed in the middle of the empty groove 501; correspondingly, the present embodiment further preferably includes a connecting member 6, one end of the connecting member 6 is disposed on the main board 101 of the computing module 1, and the other end of the connecting member 6 preferably passes through the empty slot 501 and is disposed at the tail of the storage module 2. The advantage of such an arrangement is that the connecting member 6 takes the middle position of the main board 101 of the computing module 1 as a starting point, and the signal line is connected from there, and is connected to the hard disk backplane 201 through the design of the empty slot 501, so as to provide power for the second hard disk 202 and transmit signals, thereby optimizing the structural design, effectively saving space, ensuring the stability and reliability of the drawer type structure, and efficiently realizing the connection between the computing module 1 and the storage module 2.

As shown in fig. 3, the present embodiment further includes a baffle 7, wherein one end of the baffle 7 is disposed on one side of the middle partition 5 close to the storage module 2, and is fixedly connected to one end of the middle partition 5 away from the pull-out side of the storage module 2; the other end of the baffle 7 is fixedly connected with one end of the module frame 8 far away from the pull-out side of the storage module 2; with the arrangement, the storage module 2 can be limited in the pushing state, the module is protected from being damaged, and the stability and reliability of the module frame 8 can be enhanced.

The present invention further provides a server, including a server chassis and the drawer-type server motherboard module connected by the sliding rail as described above, wherein the drawer-type server motherboard module is slidably disposed in the server chassis, and more specifically, the server motherboard module is disposed on a side of the server chassis close to the front panel in a drawer-type manner, so as to simplify the installation and maintenance process by using the two-side sliding rail-type drawer structure.

In summary, in this embodiment, the storage module 2 is better arranged beside the computing module 1 in a drawer-type manner by the first slide rail 3 and the second slide rail 4, which are single-side or two-side slide rails, so that the convenience in installation and maintenance of products can be effectively improved, the slide rails are more stable and reliable in implementation manner, the installation requirements of more hard disks can be met, and a good basis is provided for improving the performance of the server and simplifying the maintenance work.

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. The utility model provides a drawer type server mainboard module through slide rail connection which characterized in that includes: the intelligent storage module comprises a module frame, a calculation module, a storage module, a first sliding rail, a second sliding rail and a middle partition plate, wherein the calculation module is arranged on one side of the module frame, the middle partition plate is arranged between the calculation module and the storage module, the first sliding rail and the second sliding rail are arranged on one side or two sides of the storage module, and the storage module passes through the first sliding rail and the second sliding rail which are arranged on the other side of the module frame in a sliding mode.

2. The slide-rail-connected drawer-type server motherboard module as recited in claim 1, wherein a motherboard and a first hard disk are disposed in the computing module, the motherboard is vertically disposed in the computing module, and the first hard disk is disposed between the motherboard and the middle partition plate.

3. The drawer-type server motherboard module connected by a sliding rail of claim 1, wherein the storage module is provided with a hard disk backplane and a second hard disk, the hard disk backplane is arranged at the bottom of the storage module, and the second hard disk is vertically arranged on the hard disk backplane.

4. The drawer-type server motherboard module connected by a sliding rail of claim 3, wherein the number of the second hard disks is two or more, and the two or more second hard disks are symmetrically inserted into the hard disk backplane.

5. The slide-rail-connected drawer-type server motherboard module as claimed in claim 4, wherein said storage module is symmetrically provided with twelve or thirty-six hard disk slots.

6. The slide-connected drawer server motherboard module as recited in any one of claims 1 to 5, wherein the first slide rail is disposed at an end of the middle partition board close to a pull-out side of the storage module, the second slide rail is disposed at an end of the module frame close to the pull-out side of the storage module, and the first slide rail and the second slide rail are disposed at a middle upper portion of two sides of the storage module; or the first slide rail and the second slide rail are arranged at one end of the middle partition plate close to the outlet side of the storage module.

7. The slide-rail-connected drawer server motherboard module as recited in claim 6, further comprising a connecting component, wherein one end of the connecting component is connected to the motherboard of the computing module, and the other end of the connecting component is connected to the tail of the storage module.

8. The slide-rail-connected drawer server main board module according to any one of claims 1 to 5, further comprising a baffle, wherein one end of the baffle is disposed on a side of the middle partition board close to the storage module and is fixedly connected to an end of the middle partition board away from a pull-out side of the storage module.

9. The slide-rail connected drawer server motherboard module as recited in claim 8, wherein the other end of said baffle is fixedly connected to an end of said module frame away from the pull-out side of the storage module.

10. A server, comprising a server chassis and the slide-connected drawer server motherboard module as claimed in any one of claims 1 to 9, wherein the drawer server motherboard module is slidably disposed in the server chassis.

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