CN111435264B - Server cabinet, tray provided with storage medium box and storage server - Google Patents

Abstract

The application discloses server rack includes: a cabinet, a tray, and a storage medium box; the tray is arranged on the cabinet body in a detachable manner; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box; the storage medium cartridge has a space in which a hard disk is placed. By adopting the server cabinet, the problem that the hard disk is extremely inconvenient to assemble and disassemble due to the fact that the plugging space is limited when the hard disk is assembled and disassembled in the prior art is solved.

Description

Server cabinet, tray provided with storage medium box and storage server

Technical Field

The application relates to the field of servers, in particular to a server cabinet, and simultaneously relates to a tray provided with a storage medium box.

Background

With the continuous development of networks, the service frequency of the server is also higher and higher, the working strength of the hard disk (such as a high-density hard disk) in the server is increased, the hard disk is easy to damage, and when the hard disk is damaged, a new hard disk needs to be replaced.

Under the prior art, the hard disk is tiled in the tray on the naked ground, and the space between the hard disks is less, and the plug space is limited when the staff carries out hard disk dismouting, leads to the dismouting hard disk very inconvenient.

Disclosure of Invention

The application provides a server cabinet, it receives the restriction to have solved the plug space when carrying out hard disk dismouting currently, leads to the very inconvenient problem of dismouting hard disk.

The application provides a server cabinet, including: a cabinet, a tray, and a storage medium box;

the tray is arranged on the cabinet body in a detachable manner;

the storage medium box is provided with a space for placing a storage medium; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box.

Optionally, the tray is provided with a plurality of storage medium boxes in parallel in a direction perpendicular to a direction in which the tray is drawn out of the cabinet.

Optionally, the method further comprises:

a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is returned to the set position by rotation, the sealing means is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

Optionally, the storage medium box has a storage medium placed therein, including:

at least one layer of storage medium is placed in each storage medium cartridge.

Optionally, a support structure is disposed on a side of the storage medium box; the support structure is used for fixedly supporting the storage medium box when the storage medium box rotates to the dismounting position.

Optionally, the support structure is an elastic support structure.

Optionally, the storage medium box is provided with elastic support structures on both sides.

Optionally, a handle for taking out the storage medium is arranged on the storage medium.

Optionally, the sealing device includes at least one of: a brush and elastic rubber.

Optionally, the storage medium includes a 25W high power hard disk.

The present application also provides a tray mounted with a storage medium cartridge, comprising:

at least two storage medium boxes are arranged on the tray;

a space for placing a storage medium is arranged in the storage medium box; a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is rotated back to the set position, the sealing device is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

Optionally, the sealing device includes at least one of: a brush and elastic rubber.

The present application also provides a high density storage server comprising a plurality of storage media cartridges, each storage media cartridge comprising a plurality of storage media;

a space for placing a storage medium is arranged in the storage medium box; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box.

Optionally, a support structure is disposed on a side of the storage medium box; the support structure is used for fixedly supporting the storage medium box when the storage medium box rotates to the dismounting position.

Compared with the prior art, the application has the following advantages:

the application provides a server cabinet, including: a cabinet, a tray, and a storage medium box; the tray is arranged on the cabinet body in a detachable manner; the storage medium box is provided with a space for placing a storage medium; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box. By adopting the server cabinet, the problem that the hard disk is inconvenient to assemble and disassemble in the existing server cabinet is solved.

In the preferred scheme, a telescopic sealing device is arranged between two adjacent storage medium boxes, so that the problem that the existing hard disk can not be subjected to hot plug maintenance during maintenance is solved.

Drawings

Fig. 1 is a schematic view of a server cabinet according to a first embodiment of the present application.

Fig. 2 is a schematic view of a support structure according to a first embodiment of the present application.

Fig. 3 is a schematic diagram of a hard disk placement of a tray pulled out from a cabinet according to a first embodiment of the present application.

Fig. 4 is a schematic view of a tray according to the first embodiment of the present application rotated to a mounting and dismounting position after being pulled out from a cabinet.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be embodied in many other forms than those herein described, and those skilled in the art will readily appreciate that the present invention may be similarly embodied without departing from the spirit or essential characteristics thereof, and therefore the present invention is not limited to the specific embodiments disclosed below.

A first embodiment of the present application provides a server cabinet, which is described in detail below with reference to fig. 1, 2, and 3.

A first embodiment of the present application provides a server cabinet, including: a cabinet, a tray, and a storage medium box;

the tray is arranged on the cabinet body in a detachable manner;

a space for placing a storage medium is arranged in the storage medium box; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box.

The storage medium may be a solid state disk, for example, a SSD (Solid State Drives) solid state disk based on NVMe protocol. The storage medium may also be a mechanical hard disk.

The server cabinet provided in the first embodiment of the present application will be described below by taking a hard disk as a storage medium.

As shown in fig. 1, the server cabinet includes: 1-1 parts of cabinet, 1-2 parts of tray, 1-3 parts of hard disk box, 1-4 parts of hard disk box and 1-5 parts of hard disk box.

The tray 1-2 is arranged on the cabinet body 1-1 in a detachable manner; when the hard disk needs to be replaced, the tray 1-2 can be pulled out of the cabinet body 1-1, and the tray is pushed into the cabinet body 1-1 after the hard disk is replaced.

The tray 1-2 is provided with a plurality of hard disk cartridges in parallel in a direction perpendicular to a direction in which the tray is drawn out of the cabinet 1-1. The hard disk box 1-3, the hard disk box 1-4 and the hard disk box 1-5 are respectively arranged on the tray 1-2, the first end 1-4-1 of the hard disk box 1-4 is used as a fixed end, the hard disk box 1-4 is fixed on the tray 1-2, and the second end 1-4-2 of the hard disk box 1-4 can rotate to a set angle by taking the first end as an axis; the rotation manners of the hard disk cartridge 1-3 and the hard disk cartridge 1-5 are similar to those of the hard disk cartridge 1-4, and will not be described here again. The hard disk box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the hard disk box is positioned at the mounting and dismounting position, the hard disk can be pulled out from the hard disk box; the hard disk cartridge has a space for placing a hard disk. At least one layer of hard disk may be placed in each hard disk cartridge. As shown in fig. 3, two layers of hard disks are placed in each hard disk cartridge, and in implementation, the number of layers for placing the hard disks can be set according to requirements.

Under the prior art, the hard disk is tiled in the tray on the bare ground, and the plug space is limited when the staff carries out hard disk dismouting, leads to the dismouting hard disk extremely inconvenient, and this application carries out the dismouting of hard disk again after with hard disk cartridge rotation, has solved the problem that the plug space received the restriction when carrying out hard disk dismouting, and the staff can very easily dismouting to the hard disk.

In order to enable the hard disk box to be stably supported when the hard disk box rotates to the dismounting position, a supporting structure can be arranged on the side face of the hard disk box; the supporting structure is used for fixedly supporting the hard disk box when the hard disk box rotates to the dismounting position. The support structure may be a flexible support structure. Other support structures may be used.

As shown in fig. 2, a schematic view of a support structure is shown. The supporting structure rotates the rod 2-1-1, the shaft 2-1-2 and the chute 2-1-3. When the hard disk box is laid flat, the rotating rod 2-1-1 and the sliding groove 2-1-3 are horizontally arranged; when the hard disk box rotates, the rotating rod 2-1-1 rotates around the shaft 2-1-2 in the sliding groove 2-1-3, and when the bottom of the rotating rod 2-1-1 contacts with the fixed block 2-2 arranged at the bottom of the tray, the hard disk box rotates to the dismounting position, and the hard disk box is supported by the supporting structure.

In order to increase the stability, an elastic support structure may be provided on both sides of the hard disk cartridge, respectively.

Under the prior art, in order to integrate more hard disks in a limited space, namely high density hard disk storage, a plurality of rows of hard disks need to be placed in the air flow direction, when the internal hard disk maintenance of hot plug is needed, the cooling air flow channel is destroyed after the hard disk tray is pulled out, so that the problem of overtemperature is caused. Further, in order to support hot plug maintenance of the hard disk, the problem of overtemperature caused by damage of a cooling air flow channel after the hard disk tray is pulled out is solved, and a telescopic sealing device is arranged between two adjacent hard disk boxes; when the hard disk box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating hard disk box to form a sealing channel; when the hard disk cartridge is returned to the set position by rotating, the sealing means is contracted to contact the rotating hard disk cartridge, forming a sealed passage. As shown in fig. 1, 3 and 4, the black lines are sealing devices. The Hot plug (Hot plug or Hot Swap) is to plug in a live way, and the Hot plug function allows a user to take out and replace damaged parts such as a hard disk, a power supply or a board card under the condition that the system is not closed and the power supply is not cut off, so that the timely recovery capability, expansibility, flexibility and the like of the system to disasters are improved.

The sealing device is a telescopic device, and can adopt a device with telescopic performance such as a hairbrush, elastic rubber and the like. As shown in fig. 4, the sealing device adopts elastic rubber, when the Middle (Middle) hard disk cartridge rotates to the dismounting position, the elastic rubber stretches to contact with the rotating hard disk cartridge to form a sealing channel, and the front, middle and rear hard disk cartridges continuously keep sealing of the channel, so that air flow short circuit caused by air leakage is avoided, heat dissipation of the front hard disk is influenced, and hot plug of the hard disk is realized; when the hard disk cartridge is returned to the set position by rotating, the sealing means is contracted to contact the rotating hard disk cartridge, forming a sealed passage.

In the prior art, a server cabinet generally adopts an NVMe high-density hard disk for storage, and NVMe is a Non-volatile memory host controller interface specification (Non-Volatile Memory express) and is a logic device interface specification. The existing method for replacing the hard disk comprises the following steps: the hard disk arranged on the tray is exposed, when the hard disk needs to be replaced, the tray needs to be pulled out of the server cabinet, then the hard disk is replaced, and when the hard disk is replaced, other hard disks cannot dissipate heat due to the fact that the other hard disks are exposed, so that a power supply needs to be cut off, and hot plug maintenance is not supported. Adopt the scheme of this application, when needing to change the hard disk, rotate hard disk cartridge, support it in dismouting position department through supporting mechanism, sealing device (fig. 1, 3, fig. 4 black position) between the hard disk cartridge can seal around with hard disk cartridge simultaneously, avoid the air leak to cause the air current short circuit, influence preceding hard disk heat dissipation, solved high-power consumption (be greater than more than 10W hard disk maintenance time and be less than 10 min) hard disk (for example, 25W high-power consumption hard disk) plug maintenance time too short problem.

In order to facilitate taking out the hard disk from the hard disk cartridge, a handle for taking out the hard disk may be further provided on the hard disk.

A second embodiment of the present application provides a tray mounted with a storage medium cartridge, including:

at least two storage medium boxes are arranged on the tray;

a space for placing a storage medium is arranged in the storage medium box; a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is rotated back to the set position, the sealing device is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

The storage medium may be a solid state disk, for example, a SSD (Solid State Drives) solid state disk based on NVMe protocol. SSDs based on NVMe protocol can support hot plug maintenance.

Under the prior art, in order to integrate more hard disks in a limited space, namely high density hard disk storage, a plurality of rows of hard disks need to be placed in the air flow direction, when the internal hard disk maintenance of hot plug is needed, the cooling air flow channel is destroyed after the hard disk tray is pulled out, so that the problem of overtemperature is caused. In order to support hot plug maintenance of a hard disk, solve the problem of overtemperature caused by damage of a cooling air flow channel after a hard disk tray is pulled out, a telescopic sealing device is arranged between two adjacent hard disk boxes; when the hard disk box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating hard disk box to form a sealing channel; when the hard disk cartridge is returned to the set position by rotating, the sealing means is contracted to contact the rotating hard disk cartridge, forming a sealed passage. As shown in fig. 1, 3 and 4, the black lines are sealing devices. The Hot plug (Hot plug or Hot Swap) is to plug in a live way, and the Hot plug function allows a user to take out and replace damaged parts such as a hard disk, a power supply or a board card under the condition that the system is not closed and the power supply is not cut off, so that the timely recovery capability, expansibility, flexibility and the like of the system to disasters are improved.

The sealing device is a telescopic device, and can adopt a device with telescopic performance such as a hairbrush, elastic rubber and the like. As shown in fig. 4, the sealing device adopts elastic rubber, when the Middle (Middle) hard disk cartridge rotates to the dismounting position, the elastic rubber stretches to contact with the rotating hard disk cartridge to form a sealing channel, and the front, middle and rear hard disk cartridges continuously keep sealing of the channel, so that air flow short circuit caused by air leakage is avoided, heat dissipation of the front hard disk is influenced, and hot plug of the hard disk is realized; when the hard disk cartridge is returned to the set position by rotating, the sealing means is contracted to contact the rotating hard disk cartridge, forming a sealed passage.

A third embodiment of the present application provides a high-density storage server including a plurality of storage medium cartridges, each storage medium cartridge including a plurality of storage media;

a space for placing a storage medium is arranged in the storage medium box; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box.

A support structure is arranged on the side surface of the storage medium box; the support structure is used for fixedly supporting the storage medium box when the storage medium box rotates to the dismounting position.

The storage medium may be a solid state disk, for example, a SSD (Solid State Drives) solid state disk based on NVMe protocol, or a mechanical hard disk.

The detailed description of the third embodiment of the present application may refer to the relevant parts of the first embodiment of the present application, and will not be repeated here.

Under the prior art, the hard disk is tiled in the tray on the bare ground, and the plug space is limited when the staff carries out hard disk dismouting, leads to the dismouting hard disk extremely inconvenient, and the dismouting of hard disk is carried out again after this application third embodiment is rotatory with the hard disk cartridge, has solved the problem that the plug space received the limitation when carrying out hard disk dismouting, and the staff can very easily carry out the dismouting to the hard disk.

While the preferred embodiment has been described, it is not intended to limit the invention thereto, and any person skilled in the art may make variations and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be defined by the claims of the present application.

In one typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include volatile memory in a computer-readable medium, random Access Memory (RAM) and/or nonvolatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of computer-readable media.

Computer readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer readable media, as defined herein, does not include non-transitory computer readable media (transmission media), such as modulated data signals and carrier waves.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Claims (13)

1. A server enclosure, comprising: a cabinet, a tray, and a storage medium box;

the tray is arranged on the cabinet body in a detachable manner;

a space for placing a storage medium is arranged in the storage medium box; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box;

a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is returned to the set position by rotation, the sealing means is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

2. The server cabinet of claim 1, wherein the tray has a plurality of storage media cartridges disposed thereon in parallel in a direction perpendicular to a direction in which the tray is drawn away from the cabinet.

3. The server cabinet of claim 2, wherein the storage media cartridge has a storage media disposed therein, comprising:

at least one layer of storage medium is placed in each storage medium cartridge.

4. The server cabinet of claim 1, wherein the storage media cartridge is provided with a support structure on a side thereof; the support structure is used for fixedly supporting the storage medium box when the storage medium box rotates to the dismounting position.

5. The server cabinet of claim 4, wherein the support structure is a resilient support structure.

6. The server cabinet of claim 5, wherein the storage media cartridge is provided with a resilient support structure on both sides.

7. The server cabinet of claim 1, wherein a handle for removing the storage medium is provided on the storage medium.

8. The server cabinet of claim 1, wherein the sealing means comprises at least one of: a brush and elastic rubber.

9. The server cabinet of claim 1, wherein the storage medium comprises a 25W high power hard disk.

10. A tray to which a storage medium cartridge is mounted, comprising:

at least two storage medium boxes are arranged on the tray;

a space for placing a storage medium is arranged in the storage medium box; a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is rotated back to the set position, the sealing device is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

11. The tray of claim 10, comprising: the sealing device comprises at least one of the following: a brush and elastic rubber.

12. A high density storage server comprising a plurality of storage media cartridges, each storage media cartridge comprising a plurality of storage media;

a space for placing a storage medium is arranged in the storage medium box; the storage medium box is arranged on the tray, the first end of the storage medium box is a fixed end, the storage medium box is fixed on the tray, and the second end of the storage medium box can rotate to a set angle by taking the first end as an axis; the storage medium box can be respectively positioned at a positioning position before rotation and a mounting and dismounting position after rotation, and when the storage medium box is positioned at the mounting and dismounting position, the storage medium can be extracted from the storage medium box;

a telescopic sealing device is arranged between two adjacent storage medium boxes; when the storage medium box rotates to the dismounting position, the sealing device stretches to be in contact with the rotating storage medium box to form a sealing channel; when the storage medium cartridge is returned to the set position by rotation, the sealing means is retracted into contact with the rotating storage medium cartridge, forming a sealed passageway.

13. The high density storage server of claim 12, wherein the storage media cartridge is provided with a support structure on a side thereof; the support structure is used for fixedly supporting the storage medium box when the storage medium box rotates to the dismounting position.