CN111026238A - Hard disk frame, control frame and storage system - Google Patents
Hard disk frame, control frame and storage system Download PDFInfo
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- CN111026238A CN111026238A CN201911025872.2A CN201911025872A CN111026238A CN 111026238 A CN111026238 A CN 111026238A CN 201911025872 A CN201911025872 A CN 201911025872A CN 111026238 A CN111026238 A CN 111026238A
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- 238000010586 diagram Methods 0.000 description 3
- 230000002349 favourable effect Effects 0.000 description 3
- 230000017525 heat dissipation Effects 0.000 description 3
- 238000003079 width control Methods 0.000 description 3
- 238000013500 data storage Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/18—Packaging or power distribution
- G06F1/183—Internal mounting support structures, e.g. for printed circuit boards, internal connecting means
- G06F1/187—Mounting of fixed and removable disk drives
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F13/00—Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
- G06F13/14—Handling requests for interconnection or transfer
- G06F13/16—Handling requests for interconnection or transfer for access to memory bus
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F13/00—Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
- G06F13/38—Information transfer, e.g. on bus
- G06F13/40—Bus structure
- G06F13/4063—Device-to-bus coupling
- G06F13/4068—Electrical coupling
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Abstract
A hard disk frame is provided, which comprises a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk.
Description
Technical Field
The present application relates to the field of storage technologies, and in particular, to a hard disk frame, a control frame, and a storage system.
Background
The storage system is used as a carrier for providing data storage, and a large number of hard disks are required to be installed for providing large-capacity data storage. Hard disks are typically installed in hard disk frames in storage systems. There are two types of hard disks, 2.5 inch hard disk and 3.5 inch hard disk, which have only one interface. The existing hard disk frame only comprises a row of hard disk slots, and each hard disk slot comprises a hard disk connector. The existing storage system uses hard disk frames with different specifications for adapting to the two hard disks with different types, so that the adaptability of the hard disk frames is poor.
Disclosure of Invention
The application provides a hard disk frame, a control frame and a storage system, which can provide the same hard disk frame and are used for installing hard disks of different types and improving the adaptability of the hard disk frame.
In a first aspect, a hard disk frame is provided, where the hard disk frame includes a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; first hard disk connector is used for connecting the first interface of first hard disk, second hard disk connector is used for connecting the second interface of first hard disk is in this application scheme, and every hard disk slot in the hard disk frame contains two hard disk connectors, can connect the hard disk of double interface, has improved the suitability of hard disk frame.
Optionally, in an implementation manner, the first hard disk connector may be further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk. And the second hard disk and the third hard disk only comprise one interface. In the scheme of the application, each hard disk slot in the hard disk frame can be respectively connected with two hard disks with single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation manner, the specifications of the second hard disk and the third hard disk are the same. In this application, the second hard disk and the third hard disk have the same size.
Optionally, in an implementation manner, a sum of heights of the second hard disk and the third hard disk in the hard disk frame is equal to a height of the first hard disk in the hard disk frame.
Optionally, in an implementation manner, the first hard disk connector is further configured to communicate with a first control device, and the second hard disk connector is further configured to communicate with a second control device.
Optionally, in an implementation manner, the hard disk frame further includes a second hard disk slot, and a gap is formed between the first hard disk slot and the second hard disk slot. In this application scheme, the clearance between the hard disk slot is favorable to ventilating, improves the heat-sinking capability.
In a second aspect, a control box is provided, where the control box includes a first control device, a second control device, and a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; wherein,
the first control equipment is used for communicating with the first hard disk connector of each hard disk slot;
the second control equipment is used for communicating with the second hard disk connector of each hard disk slot;
the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk. In the scheme of the application, each hard disk slot in the hard disk frame comprises two hard disk connectors, the hard disk connectors can be connected with hard disks with double interfaces, and the hard disk slots can also be respectively connected with hard disks with two single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation manner, the first hard disk connector may be further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk. In the scheme of the application, each hard disk slot in the hard disk frame comprises two hard disk connectors, and the hard disks can be respectively connected with the hard disks with two single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation manner, the specifications of the second hard disk and the third hard disk are the same.
Optionally, in an implementation manner, a sum of heights of the second hard disk and the third hard disk in the hard disk frame is equal to a height of the first hard disk in the hard disk frame.
Alternatively, in one implementation,
the hard disk frame further comprises a second hard disk slot, and a gap is reserved between the first hard disk slot and the second hard disk slot. In this application scheme, the clearance between the hard disk slot is favorable to ventilating, improves the heat-sinking capability.
In a third aspect, a storage system is provided, which includes a first control device, a second control device, and a hard disk frame; the hard disk frame comprises a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; wherein,
the first control device is used for communicating with a first hard disk connector of the first hard disk slot in the hard disk frame;
the second control device is used for communicating with a second hard disk connector of the first hard disk slot in the hard disk frame;
the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk.
Optionally, in an implementation manner, the first hard disk connector may be further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk. And the second hard disk and the third hard disk only comprise one interface.
Optionally, in an implementation manner, the specifications of the second hard disk and the third hard disk are the same.
Optionally, in an implementation manner, a sum of heights of the second hard disk and the third hard disk in the hard disk frame is equal to a height of the first hard disk in the hard disk frame.
Optionally, in an implementation manner, the hard disk frame includes a second hard disk slot, and a gap is formed between the first hard disk slot and the second hard disk slot.
In a fourth aspect, the present application provides a hard disk frame, where the hard disk frame includes a first row of hard disk slots and a second row of hard disk slots, the number of the hard disk slots included in the first row of hard disk slots is the same as that of the hard disk slots included in the second row of hard disk slots, and the hard disk slots in the same positions as those of the first row of hard disk slots and those of the second row of hard disk slots are aligned in a longitudinal direction of the hard disk frame, and each hard disk slot includes a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk connector is positioned in the first hard disk slot, and the second hard disk connector is positioned in the second hard disk slot; the first hard disk slot belongs to a first row of hard disk slots, and the second hard disk slot belongs to a second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots. In the scheme of the application, the hard disk frame can be connected with the hard disks with double interfaces and can also be respectively connected with the hard disks with two single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation manner, the first hard disk connector may also be used to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; the second hard disk and the third hard disk only comprise one interface; in the scheme of the application, the hard disk frame can be respectively connected with two hard disks with single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation manner, the specifications of the second hard disk and the third hard disk are the same. In this application, the second hard disk and the third hard disk have the same size.
Optionally, in an implementation manner, a sum of heights of the second hard disk and the third hard disk in the hard disk frame is equal to a height of the first hard disk in the hard disk frame.
Optionally, in an implementation manner, the first hard disk connector is further configured to communicate with a first control device, and the second hard disk connector is further configured to communicate with a second control device.
Optionally, in an implementation, there is a gap between the plurality of hard disk slots. In this application scheme, the clearance between the hard disk slot is favorable to ventilating, improves the heat-sinking capability.
In a fifth aspect, a control frame is provided, where the control frame includes a first control device, a second control device, a first row of hard disk slots and a second row of hard disk slots, where the number of hard disk slots included in the first row of hard disk slots is the same as that of the second row of hard disk slots, and the hard disk slots at the same positions as those of the first row of hard disk slots and the second row of hard disk slots are aligned in a longitudinal direction of the hard disk frame, and each hard disk slot includes a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk slot belongs to a first row of hard disk slots, and the second hard disk slot belongs to a second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots; the first control equipment is used for communicating with the first hard disk connector; the second control device is used for communicating with the second hard disk connector. In the scheme of the application, the control frame can be connected with the hard disks with double interfaces or respectively connected with the hard disks with two single interfaces, so that the adaptability of the hard disk frame is improved.
Optionally, in an implementation, the first hard disk connector may be further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; the second hard disk and the third hard disk only comprise one interface; the first hard disk connector is located in the first hard disk slot, and the second hard disk connector is located in the second hard disk slot.
In a sixth aspect, a storage system is provided, which includes a first control device, a second control device, and a plurality of hard disk frames; each hard disk frame in the plurality of hard disk frames comprises a first row of hard disk slots and a second row of hard disk slots, the number of the hard disk slots in the first row of hard disk slots is the same as that of the hard disk slots in the second row of hard disk slots, the hard disk slots in the same positions of the first row of hard disk slots and the second row of hard disk slots are longitudinally aligned in the hard disk frame, and each hard disk slot comprises a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk slot belongs to a first row of hard disk slots, and the second hard disk slot belongs to a second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots. The first control equipment is used for communicating with the first hard disk connector of the first hard disk slot in each hard disk frame; the second control device is used for communicating with the second hard disk connector of the second hard disk slot in each hard disk frame.
Optionally, in an implementation, the first hard disk connector may be further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; the second hard disk and the third hard disk only comprise one interface; the first hard disk connector is located in the first hard disk slot, and the second hard disk connector is located in the second hard disk slot.
In a seventh aspect, a hard disk frame is provided, where the hard disk frame includes a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; the first hard disk connector is used for connecting an interface of a first hard disk; the second hard disk connector is used for connecting an interface of a second hard disk. Wherein, the first hard disk and the second hard disk only comprise one interface.
Optionally, in an implementation manner, the first hard disk and the second hard disk have the same specification. In the scheme of the application, the first hard disk and the second hard disk have the same size.
Optionally, in an implementation manner, the first hard disk connector is further configured to communicate with a first control device, and the second hard disk connector is further configured to communicate with a second control device.
In an eighth aspect, based on the hard disk frame in the seventh aspect, the invention further provides a storage system.
Ninth, based on the seventh, the invention also provides a control frame.
In a tenth aspect, the present application provides a hard disk frame, where the hard disk frame includes a first row of hard disk slots and a second row of hard disk slots, the number of the hard disk slots included in the first row of hard disk slots is the same as that of the hard disk slots included in the second row of hard disk slots, and the hard disk slots in the same positions as those of the first row of hard disk slots and those of the second row of hard disk slots are aligned in a longitudinal direction of the hard disk frame, and each hard disk slot includes a hard disk connector; the first hard disk connector is used for connecting an interface of a second hard disk; the second hard disk connector is used for connecting an interface of a third hard disk; the second hard disk and the third hard disk only comprise one interface; in the scheme of the application, the hard disk frame can be respectively connected with two hard disks with single interfaces, so that the adaptability of the hard disk frame is improved.
In an eleventh aspect, based on the hard disk frame in the tenth aspect, the invention further provides a storage system.
In a twelfth aspect, the invention further provides a control box based on the tenth aspect.
Drawings
FIG. 1 is a front view of a rigid disk frame according to an embodiment of the present invention;
FIG. 2 is a formal diagram of a hard disk slot according to an embodiment of the present invention;
FIG. 3 is a side view of a hard disk slot and a hard disk according to an embodiment of the present invention;
FIG. 4 is a side view of a hard disk slot and a hard disk according to an embodiment of the present invention;
FIG. 5 is a diagram illustrating a hard disk specification according to an embodiment of the present invention;
FIG. 6 is a front view of a rigid disk frame in accordance with an embodiment of the present invention;
FIG. 7 is a diagram illustrating an arrangement of hard disk slots in a hard disk frame according to an embodiment of the present invention;
FIG. 8 is a hard disk slot official view according to an embodiment of the present invention;
FIG. 9 is a side view of a hard disk slot and a hard disk according to an embodiment of the present invention;
FIG. 10 is a side view of a hard disk slot and a hard disk according to an embodiment of the present invention;
FIG. 11 is a rear view of a control block according to an embodiment of the invention.
Detailed Description
To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.
Fig. 1 is a front view of a hard disk frame according to an embodiment of the present invention, which includes a hard disk frame 101 and a plurality of hard disk slots 102. As shown in fig. 2, which is a front view of the hard disk slot 102, the hard disk slot includes a first hard disk connector 1021 and a second hard disk connector 1022. Specifically, in an implementation manner, the hard disk slot 102 may be directly and fixedly connected to the hard disk frame 101 without a backplane, which may save cost and facilitate heat dissipation. Gaps are reserved between the hard disk slots 102, and heat dissipation capacity is further improved. The hard disk slot 102 may be connected to a first hard disk. Specifically, as shown in fig. 3, a first hard disk connector 1021 of the hard disk slot 102 may be used to connect to a first interface 1031 of the hard disk 103, and a second hard disk connector 1022 of the hard disk slot 102 may be used to connect to a second interface 1032 of the hard disk 103. The hard disk 103 shown in fig. 3 includes a first interface 1031 and a second interface 1032. In the hard disk frame provided in the embodiment of the present invention, each hard disk slot includes two hard disk connectors, which are respectively used for connecting different interfaces of the same hard disk 103. In a specific implementation, the hard disk 103 may present the same storage space through two interfaces, and when one hard disk connector or hard disk interface fails, the hard disk 103 may still provide storage service to the outside, thereby providing reliability of hard disk access. In another implementation, the hard disk 103 may present different storage spaces through two interfaces, thereby improving the utilization of the storage space of the hard disk. For example, the hard disk 103 may provide two logical hard disks through two interfaces, each logical hard disk containing an independent storage space.
In conjunction with the hard disk frame provided in the embodiment of the present invention shown in fig. 1 and fig. 4, the first hard disk connector 1021 of the hard disk slot may be used to connect to the interface 1041 of the hard disk 104, and the second hard disk connector 1022 of the hard disk slot may be used to connect to the interface 1051 of the hard disk 105. Hard disk 104 and hard disk 105 each have only one interface. The specifications of hard disk 104 and hard disk 105 are the same. Further, as shown in fig. 5, the sum of the heights of the hard disk 104 and the hard disk 105 in the hard disk frame is equal to the height of the hard disk 103 in the hard disk frame.
The same hard disk frame shown in fig. 1 in the embodiment of the invention can be used for installing hard disks with double interfaces and also can be used for installing hard disks with single interfaces, so that the adaptability of the hard disk frame is improved.
With reference to the hard disk frame shown in fig. 1 and fig. 2, one implementation of the hard disk frame may also be used to install the hard disk 103 and the hard disk 104 simultaneously, that is, a part of the hard disk slots 102 is used to install the hard disk 103, and each of the other part of the hard disk slots 102 is installed with two hard disks 104.
Referring to the hard disk frame shown in fig. 1, an embodiment of the present invention further provides a control frame, where the control frame further includes a first control device and a second control device on the basis of the hard disk frame shown in fig. 1. The first control device is configured to communicate with the first hard disk connector 1021 of the hard disk slot 102, and the second control device is configured to communicate with the second hard disk connector 1022 of the hard disk slot 102, so as to implement storage access.
On the basis of the hard disk frames shown in fig. 1, an embodiment of the present invention further provides a storage system, where the storage system includes a first control device, a second control device, and a plurality of hard disk frames shown in fig. 1, the first control device communicates with the first hard disk connector 1021 of the hard disk slot 102 in each hard disk frame, and the second control device communicates with the second hard disk connector 1022 of the hard disk slot 102 in each hard disk frame.
On the basis of the hard disk frames shown in fig. 1, an embodiment of the present invention further provides a storage system, which includes the control frame provided in the embodiment of the present invention and one or more hard disk frames, where a first control device communicates with the first hard disk connector 1021 of the hard disk slot 102 in each hard disk frame, and a second control device communicates with the second hard disk connector 1022 of the hard disk slot 102 in each hard disk frame.
As shown in fig. 6, a front view of a hard disk frame according to an embodiment of the present invention includes a hard disk frame 601, a first row of hard disk slots and a second row of hard disk slots, where each row of hard disk slots is fixedly connected to the hard disk frame, and a specific fixing manner of the present invention is not limited thereto. The first row of hard disk slots and the second row of hard disk slots contain the same number of hard disk slots 602. The hard disk slots in the same position of the first row of hard disk slots and the second row of hard disk slots are longitudinally aligned in the hard disk frame, namely are positioned in the same column. For example, as shown in fig. 7, the hard disk slot 602a in the first row of hard disk slots and the hard disk slot 602b in the second row of hard disk slots belong to the same hard disk slot, and the hard disk slot 602a and the hard disk slot 602b are aligned in the longitudinal direction of the hard disk frame, that is, the hard disk slot 602a and the hard disk slot 602b are located in the same column. As shown in fig. 8, each hard disk slot 602 includes a hard disk connector 6021; the embodiment of the present invention is described by taking the hard disk slots 602a and 602b as an example. As shown in fig. 9, the hard disk connector 6021a of the hard disk slot 602a is used for connecting the first interface 1031 of the hard disk 103, and the hard disk connector 6021b of the hard disk slot 602b is used for connecting the second interface 1032 of the hard disk 103. As shown in fig. 10, the hard disk connector 6021a of the hard disk slot 602a may also be used to connect to the interface 1041 of the hard disk 104, and the hard disk connector 6021b of the hard disk slot 602b may also be used to connect to the interface 1051 of the hard disk 105. Hard disk 104 and hard disk 105 each contain only one interface. Further, the specifications of the hard disk 104 and the hard disk 105 are the same. Further, as shown in fig. 5, the sum of the heights of the hard disk 104 and the hard disk 105 in the hard disk frame is equal to the height of the hard disk 103 in the hard disk frame. The hard disk frame shown in the embodiment of the invention can be connected with hard disks with double interfaces, and can also be respectively connected with two hard disks with single interfaces, thereby providing the adaptability of the hard disk frame.
In the hard disk frame shown in fig. 6 provided in the embodiment of the present invention, one implementation may also be used to install the hard disk 103 and the hard disk 104 simultaneously, that is, a part of the hard disk slots 602 is used to install the hard disk 103, and each of the other part of the hard disk slots 602 is used to install two hard disks 104. In the hard disk slots 602 for installing the hard disk 103, two hard disk slots located in the same column in the hard disk frame need to be connected to the hard disk 103 at the same time.
Referring to the hard disk frame shown in fig. 6, an embodiment of the present invention further provides a control frame, where the control frame further includes a first control device and a second control device on the basis of the hard disk frame shown in fig. 6. The first control device is used for communicating with the hard disk connectors of the first row of hard disk slots 602, and the second control device is used for communicating with the hard disk connectors of the second row of hard disk slots 602, so that storage access is realized.
On the basis of the hard disk frames shown in fig. 6, an embodiment of the present invention further provides a storage system, where the storage system includes a first control device, a second control device, and a plurality of hard disk frames shown in fig. 6, the first control device communicates with the hard disk connectors of the first row of hard disk slots 602 in each hard disk frame, and the second control device communicates with the hard disk connectors of the second row of hard disk slots 602 in each hard disk frame.
On the basis of the hard disk frames shown in fig. 6, an embodiment of the present invention further provides a storage system, which includes the control frame provided in the embodiment of the present invention and one or more hard disk frames, where the first control device communicates with the hard disk connectors of the first row of hard disk slots 602 in each hard disk frame, and the second control device communicates with the hard disk connectors of the second row of hard disk slots 602 in each hard disk frame.
The above embodiments of the present invention further include a power supply for supplying power to the control device and the hard disk slot. The hard disk in the embodiment of the present invention may be a mechanical disk or a solid state disk, and the like, which is not limited in the embodiment of the present invention.
In the embodiment of the present invention, as described above, in an implementation manner, the hard disk slot may be located on the backplane, and the first control device and the second control device communicate with the hard disk slot through the backplane. In another implementation mode, the hard disk slot can be installed on the cross beam, so that the number of the back plates is reduced, the ventilation inside the frame body is increased, and the heat dissipation capacity is improved. As described above, the embodiment of the present invention does not limit the specific installation manner of the hard disk slot. Regarding the specifications of the first control device and the second control device, as shown in the control box of fig. 11, the first control device and the second control device are full-width control devices, that is, the widths of the first control device and the second control device are the same as the inner width of the control box. The front view of the control frame shown in fig. 11 may refer to the structure of the hard disk frame in the embodiment of the present invention, and the embodiment of the present invention is not described herein again. In another implementation, the width of the first control device and the second control device is half-width control devices, i.e. the width of the first control device and the second control device is equal to half the width inside the control frame, so that in the same control frame, 4 half-width control devices can be installed.
The number of the hard disk slots in the hard disk frame and the control frame provided by the embodiment of the invention can be two or more.
Claims (29)
1. A hard disk frame is characterized in that the hard disk frame comprises a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk.
2. The hard disk frame of claim 1, wherein the first hard disk connector is further operable to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk. And the second hard disk and the third hard disk only comprise one interface.
3. The hard disk frame according to claim 2, wherein the specifications of the second hard disk and the third hard disk are the same.
4. The hard disk frame according to claim 2 or 3, wherein the sum of the heights of the second hard disk and the third hard disk in the hard disk frame is equal to the height of the first hard disk in the hard disk frame.
5. The hard disk frame of any of claims 1 to 4, wherein the first hard disk connector is further configured to communicate with a first control device and the second hard disk connector is further configured to communicate with a second control device.
6. The hard disk frame according to any one of claims 1 to 5, wherein the hard disk frame comprises a second hard disk slot, and a gap is formed between the first hard disk slot and the second hard disk slot.
7. A control frame is characterized in that the control frame comprises a first control device, a second control device and a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; wherein,
the first control device is used for communicating with a first hard disk connector of the first hard disk slot;
the second control device is used for communicating with a second hard disk connector of the first hard disk slot;
the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk.
8. The control box of claim 7, wherein the first hard disk connector is further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk. And the second hard disk and the third hard disk only comprise one interface.
9. The control box of claim 8, wherein the second hard disk and the third hard disk are of the same size.
10. The control box according to claim 8 or 9, wherein the sum of the heights of the second hard disk and the third hard disk in the hard disk frame is equal to the height of the first hard disk in the hard disk frame.
11. The control box of any one of claims 7 to 10, wherein the control box comprises a second hard disk slot, and a gap is formed between the first hard disk slot and the second hard disk slot.
12. A storage system, characterized in that the storage system comprises a first control device, a second control device and a hard disk frame; the hard disk frame comprises a first hard disk slot; the first hard disk slot comprises a first hard disk connector and a second hard disk connector; wherein,
the first control device is used for communicating with the first hard disk connector in the hard disk frame;
the second control device is used for communicating with the second hard disk connector in the hard disk frame;
the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk.
13. The storage system of claim 12, wherein the first hard disk connector is further operable to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; and the second hard disk and the third hard disk only comprise one interface.
14. The storage system of claim 13, wherein the second hard disk and the third hard disk are of the same size.
15. The storage system according to claim 13 or 14, wherein the sum of the heights of the second hard disk and the third hard disk in the hard disk frame is equal to the height of the first hard disk in the hard disk frame.
16. The storage system of any of claims 12 to 15, wherein the hard disk frame comprises a second hard disk slot, and a gap is formed between the first hard disk slot and the second hard disk slot.
17. A hard disk frame is characterized in that the hard disk frame comprises a first row of hard disk slots and a second row of hard disk slots, the number of the hard disk slots in the first row of hard disk slots is the same as that of the hard disk slots in the second row of hard disk slots, the hard disk slots in the same positions of the first row of hard disk slots and the second row of hard disk slots are longitudinally aligned in the hard disk frame, and each hard disk slot comprises a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk connector is positioned in the first hard disk slot, and the second hard disk connector is positioned in the second hard disk slot; the first hard disk slot belongs to the first row of hard disk slots, and the second hard disk slot belongs to the second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots.
18. The hard disk frame of claim 17, wherein the first hard disk connector is further operable to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; and the second hard disk and the third hard disk only comprise one interface.
19. The hard disk frame according to claim 18, wherein the specifications of the second hard disk and the third hard disk are the same.
20. The hard disk frame of claim 18 or 19, wherein the sum of the heights of the second hard disk and the third hard disk in the hard disk frame is equal to the height of the first hard disk in the hard disk frame.
21. The hard disk frame of any of claims 17 to 20, wherein the first hard disk connector is further configured to communicate with a first control device and the second hard disk connector is further configured to communicate with a second control device.
22. The hard disk frame of any of claims 17 to 21, wherein there are gaps between the hard disk slots of the first row of hard disk slots and gaps between the hard disk slots of the second row of hard disk slots.
23. A control frame is characterized by comprising a first control device, a second control device, a first row of hard disk slots and a second row of hard disk slots, wherein the number of the hard disk slots in the first row of hard disk slots is the same as that of the hard disk slots in the second row of hard disk slots, the hard disk slots in the same positions of the first row of hard disk slots and the second row of hard disk slots are longitudinally aligned in a hard disk frame, and each hard disk slot comprises a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk connector is positioned in the first hard disk slot, and the second hard disk connector is positioned in the second hard disk slot; the first hard disk slot belongs to the first row of hard disk slots, and the second hard disk slot belongs to the second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots; the first control equipment is used for communicating with the first hard disk connector; the second control device is used for communicating with the second hard disk connector.
24. The control box of claim 23, wherein the first hard disk connector is further configured to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; and the second hard disk and the third hard disk only comprise one interface.
25. The control box of claim 24, wherein the second hard disk and the third hard disk are of the same size.
26. The control box of claim 24 or 25, wherein the sum of the heights of the second hard disk and the third hard disk in the hard disk frame is equal to the height of the first hard disk in the hard disk frame.
27. The control frame of any of claims 23 to 26, wherein there are gaps between the plurality of hard disk slots of the first row of hard disk slots and gaps between the plurality of hard disk slots of the second row of hard disk slots.
28. A storage system characterized by comprising a first control device, a second control device, and a plurality of hard disk frames; each hard disk frame in the plurality of hard disk frames comprises a first row of hard disk slots and a second row of hard disk slots, the number of the hard disk slots in the first row of hard disk slots is the same as that of the hard disk slots in the second row of hard disk slots, the hard disk slots in the same positions of the first row of hard disk slots and the second row of hard disk slots are longitudinally aligned in the hard disk frame, and each hard disk slot comprises a hard disk connector; the first hard disk connector is used for connecting a first interface of a first hard disk, and the second hard disk connector is used for connecting a second interface of the first hard disk; the first hard disk connector is positioned in the first hard disk slot, and the second hard disk connector is positioned in the second hard disk slot; the first hard disk slot belongs to the first row of hard disk slots, and the second hard disk slot belongs to the second row of hard disk slots; the position of the first hard disk slot in the first row of hard disk slots is the same as the position of the second hard disk slot in the second row of hard disk slots; the first control equipment is used for communicating with a first hard disk connector of a first hard disk slot in each hard disk frame; the second control device is used for communicating with the second hard disk connector of the second hard disk slot in each hard disk frame.
29. The storage system of claim 28, wherein the first hard disk connector is further operable to connect to an interface of a second hard disk; the second hard disk connector can also be used for connecting an interface of a third hard disk; and the second hard disk and the third hard disk only comprise one interface.
Priority Applications (1)
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PCT/CN2020/105679 WO2021027578A1 (en) | 2019-08-14 | 2020-07-30 | Hard disk frame, control frame, and storage system |
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CN201910750042 | 2019-08-14 | ||
CN201910750042X | 2019-08-14 |
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