CN104375560A - Server and backplate thereof - Google Patents

Abstract

Disclosed are a server and a backplate thereof. The server comprises a mainframe plate, a central processing module and a storing device, the central processing module is arranged on the mainframe plate, the storing device comprises a load-bearing cabinet, multiple hard disks contained in the load-bearing cabinet, and the backplate fixed on one side of the load-bearing cabinet, the backplate is formed by splicing multiple sub backplates which are parallel, each sub backplate is provided with at least one inserting groove, and each inserting groove is used for being docked with the corresponding hard disk.

Description

Servomechanism and backboard thereof

Technical field

The present invention relates to a kind of servomechanism, particularly a kind of servomechanism with storage device and backboard thereof.

Background technology

Please refer to Fig. 1, illustrate the stereographic map of existing servomechanism 1.Servomechanism 1 comprises a backboard 14 of housing 10, motherboard 11, central processing module 12, multiple hard disc 13 and monoblock.Motherboard 11 is arranged within housing 10.Central processing module 12 is arranged at motherboard 11.Hard disc 13 is arranged at the side of housing 10, and monoblock backboard 14 to be fixed in housing 10 and between motherboard 11 and hard disc 13.Monoblock backboard 14 can be electrically connected with motherboard 11 and hard disc 13.But, no matter hard disc 13 demand number, the size of monoblock backboard 14 and fixing cannot change is all for the tolerance of hard disc 13.When by when changing size and the tolerance for hard disc 13 of monoblock backboard 14, except redesigning and changing except monoblock backboard 14, will having no other way.So cause the arrangements of components in servomechanism 1 dumb.And, also backboard 14 cannot be applied in the servomechanism 1 of different size.

Summary of the invention

Because above problem, the object of the invention is to propose a kind of servomechanism and backboard thereof, the hard disc used for various quantity docks.

The present invention discloses a kind of servomechanism, comprises a motherboard, a central processing module and a storage device.Central processing module is arranged at motherboard.Storage device comprises a carrying cabinet, is placed in multiple hard disc of carrying cabinet and is fixed on a backboard of the side carrying cabinet.Backboard is spliced to form by parallel multiple sub-backboard.Each sub-backboard is all provided with at least one slot.Slot is for docking with corresponding hard disc.

Wherein, adjacent sub-backboard aligns and electrically docks.

Wherein, adjacent sub-backboard is electrically docked with female connectors by public connector.

Wherein, sub-backboard is between motherboard and hard disc, and the direction of docking perpendicular to each hard disc and corresponding each slot and motherboard.

Wherein, adjacent sub-backboard holds mutually.

Wherein, one first adjacent sub-backboard and one second sub-backboard is comprised in sub-backboard.First sub-backboard comprises one first assembling side and is arranged at one first expansion connectivity port of the first assembling side.Second sub-backboard comprises to assemble adjacent one second the assembling side and be arranged at one second of the second assembling side and expand connectivity port in side with first.Second expansion connectivity port and first is expanded connectivity port and is connected, and the second expansion connectivity port is installed in the first expansion connectivity port.

The present invention also discloses a kind of backboard, is spliced to form by parallel multiple sub-backboard.Each sub-backboard is all provided with at least one slot.Slot is for docking with a corresponding hard disc, and adjacent sub-backboard aligns and electrically docks.

Wherein, adjacent sub-backboard is electrically docked with female connectors by public connector.

Wherein, adjacent sub-backboard holds mutually.

Wherein, one first adjacent sub-backboard and one second sub-backboard is comprised in sub-backboard.First sub-backboard comprises one first assembling side and is arranged at one first expansion connectivity port of the first assembling side, second sub-backboard comprises to assemble adjacent one second the assembling side and be arranged at one second of the second assembling side and expand connectivity port in side with first, second expansion connectivity port and first is expanded connectivity port and is connected, and the second expansion connectivity port is installed in the first expansion connectivity port.

According to servomechanism of the present invention and backboard thereof, be spliced to form backboard by multiple sub-backboard, to adjust the quantity of the hard disc that backboard docks flexibly.Therefore when user will adjust the quantity of hard disc in servomechanism, the quantity of sub-backboard also can be changed to adjust the docking tolerance of backboard for hard disc.When user runs into the different servomechanism of specification, also can by the quantity of the sub-backboard in adjustment backboard and arrangement mode, to coordinate various servomechanism.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 illustrates the stereographic map of existing servomechanism;

Fig. 2 illustrates the stereographic map of the servomechanism according to embodiments of the invention;

Fig. 3 A illustrates the side view of the backboard of Fig. 2;

Fig. 3 B illustrates the side view of the backboard according to another embodiment of the present invention;

Fig. 4 A, Fig. 4 B and Fig. 4 C illustrate the side view of the backboard according to another embodiment of the present invention;

Fig. 5 illustrates the side view of the backboard according to another embodiment of the present invention;

Fig. 6 illustrates the side view of the backboard according to another embodiment of the present invention;

Fig. 7 illustrates the side view of the backboard according to another embodiment of the present invention.

Wherein, Reference numeral

1 servomechanism

10 housings

11 motherboards

12 central processing modules

13 hard discs

14 backboards

2 servomechanisms

20 housings

21 motherboards

22 central processing modules

23 hard discs

230 storage devices

231 carrying cabinets

24,44,44 ', 44 ", 54,64,74 backboards

241,242,243,244,245,246,247,248 sub-backboards

2411,2421,2431,2441,2451,2461,2471,2481 bodies

2411a, 2421a, 2431a, 2451a, 2461a, 2471a first assembles side

2411b, 2421b, 2431b, 2441b second assembles side

2412,2422,2432,2442,2452,2462,2472,2482 slots

2413,2423,2433,2453,2463,2,473 first expand connectivity port

2413 ', 2423 ', 2433 ', 2453 ', 2463 ', 2473 ' first expands connectivity port

2414,2424,2434,2,444 second expand connectivity port

2414 ', 2424 ', 2434 ', 2444 ' second expands connectivity port

2421c, 2431c, 2441c, 2461c, 2471c, 2481c the 3rd assembles side

2425,2435,2445,2465,2475,2485 the 3rd expand connectivity port

2425 ', 2435 ', 2445 ', 2465 ', 2475 ', 2485 ' the 3rd expands connectivity port

2451d, 2461d, 2471d, 2481d the 4th assembles side

2456,2466,2476,2486 the 4th expand connectivity port

2456 ', 2466 ', 2476 ', 2486 ' the 4th expands connectivity port

441,441 ', 441 ", 541,542,641,642,741 sub-backboards

4411,5411,5421,6411,6421,7411 bodies

4412,5412,5422,6412,6422,7412 slots

4413,4413 ', 4413 " connectivity port is expanded

5411a, 6411a, 6421a, 7411a first assembles side

5413,6413,6423,7,413 first expand connectivity port

5421b, 6411b, 6421b, 7411b second assembles side

5424,6414,6424,7,414 second expand connectivity port

7411c the 3rd assembles side

7415 the 3rd expand connectivity port

7411d the 4th assembles side

7416 the 4th expand connectivity port

D direction

Embodiment

Below detailed features of the present invention and advantage is described in embodiments in detail, its content is enough to that tool in any this area is known usually, and the knowledgeable understands technology contents of the present invention and implements according to this, and content, right and the accompanying drawing disclosed by this instructions, in any this area, tool knows that the knowledgeable can understand the object and advantage that the present invention is correlated with easily usually.Following embodiment further describes viewpoint of the present invention, but non-to limit category of the present invention anyways.

Please refer to Fig. 2 and Fig. 3 A, Fig. 2 illustrates the stereographic map of the servomechanism 2 according to embodiments of the invention, and Fig. 3 A illustrates the side view of the backboard 24 of Fig. 2.In the present embodiment, servomechanism 2 comprises housing 20, motherboard 21, central processing module 22 and a storage device 230.Motherboard 21 is arranged within housing 20.Central processing module 22 is arranged at motherboard 21.Storage device 230 is arranged at the side of housing 20, and comprises a carrying cabinet 231, be placed in multiple hard discs 23 of carrying cabinet 231 and be fixed on the backboard 24 of side of carrying cabinet 231.Backboard 24 can be electrically connected with motherboard 21.In the present embodiment, backboard 24 is spliced to form by parallel eight sub-backboards 241,242,243,244,245,246,247,248, but is not limited thereto.In other embodiments, backboard 24 can be spliced to form with the sub-backboard of various varying number.Each body 2411,2421,2431,2441,2451,2461,2471,2481 of each sub-backboard 241,242,243,244,245,246,247,248 is all provided with two slots 2412,2422,2432,2442,2452,2462,2472,2482 and multiple air vent, but is not limited thereto.In other embodiments, each body 2411,2421,2431,2441,2451,2461,2471,2481 also can be provided with the slot 2412,2422,2432,2442,2452,2462,2472,2482 of more than or three.Each slot 2412,2422,2432,2442,2452,2462,2472,2482 is for docking with corresponding hard disc 23.Sub-backboard 241,242,243,244,245,246,247,248 is between motherboard 21 and hard disc 23, and the direction D docked perpendicular to each hard disc 23 and corresponding each slot 2412,2422,2432,2442,2452,2462,2472,2482 and motherboard 21.

As shown in Figure 3A, the first sub-backboard 241 also comprises one first expansion connectivity port 2413 and one second expansion connectivity port 2414.The body 2411 of the first sub-backboard 241 has one first adjacent assembling side 2411a and one second and assembles side 2411b.In first sub-backboard 241, the first expansion connectivity port 2413 is arranged at the first assembling side 2411a and can is such as female connectors, and the second expansion connectivity port 2414 is arranged at the second assembling side 2411b and can is such as public connector.

Second sub-backboard 242 also comprises one first and expands expansion connectivity port, connectivity port 2423,1 second 2424 and one the 3rd expansion connectivity port 2425.The body 2421 of the second sub-backboard 242 has one first assembling side 2421a, assembles side 2421b adjacent to one second of the first assembling side 2421a and assembles side 2421a relative to first and assembles one the 3rd assembling side 2421c of side 2421b adjacent to second.In second sub-backboard 242, first expansion connectivity port 2423 is arranged at the first assembling side 2421a and can is such as female connectors, second expansion connectivity port 2424 is arranged at the second assembling side 2421b and can is such as public connector, and the 3rd expansion connectivity port 2425 is arranged at the 3rd assembling side 2421c and can is such as public connector.Second sub-backboard 242 and the first sub-backboard 241 align.It is adjacent that 3rd assembling side 2421c of the second sub-backboard 242 and first of the first sub-backboard 241 assembles side 2411a.It is male that the 3rd of second sub-backboard 242 expands connectivity port 2425() electrically dock and be mutually fastened in first of the first sub-backboard 241 and expand connectivity port 2413(mother).

3rd sub-backboard 243 comprises one first and expands expansion connectivity port, connectivity port 2433,1 second 2434 and one the 3rd expansion connectivity port 2435.The body 2431 of the 3rd sub-backboard 243 has one first assembling side 2431a, one second assembling side 2431b and the 3rd assembles side 2431c.In 3rd sub-backboard 243, first expansion connectivity port 2433 is arranged at the first assembling side 2431a and can is such as female connectors, second expansion connectivity port 2434 is arranged at the second assembling side 2431b and can is such as public connector, and the 3rd expansion connectivity port 2435 is arranged at the 3rd assembling side 2431c and can is such as public connector.3rd sub-backboard 243 and the second sub-backboard 242 align.It is adjacent that 3rd assembling side 2431c of the 3rd sub-backboard 243 and first of the second sub-backboard 242 assembles side 2421a.It is male that the 3rd of 3rd sub-backboard 243 expands connectivity port 2435() electrically dock and be mutually fastened in first of the second sub-backboard 242 and expand connectivity port 2423(mother).

4th sub-backboard 244 comprises one second and expands connectivity port 2444 and one the 3rd expansion connectivity port 2445.The body 2441 of the 4th sub-backboard 244 has one second assembling side 2441b and the 3rd and assembles side 2441c.In 4th sub-backboard 244, the second expansion connectivity port 2444 is arranged at the second assembling side 2441b and can is such as public connector, and the 3rd expansion connectivity port 2445 is arranged at the 3rd assembling side 2441c and can is such as public connector.4th sub-backboard 244 and the 3rd sub-backboard 243 align.It is adjacent that 3rd assembling side 2441c of the 4th sub-backboard 244 and first of the 3rd sub-backboard 243 assembles side 2431a.It is male that the 3rd of 4th sub-backboard 244 expands connectivity port 2445() electrically dock and be mutually fastened in first of the 3rd sub-backboard 243 and expand connectivity port 2433(mother).

5th sub-backboard 245 comprises one first and expands connectivity port 2453 and one the 4th expansion connectivity port 2456.The body 2451 of the 5th sub-backboard 245 has one first assembling side 2451a and one the 4th assembling side 2451d adjacent to the first assembling side 2451a.In 5th sub-backboard 245, the first expansion connectivity port 2453 is arranged at the first assembling side 2451a and can is such as female connectors, and the 4th expansion connectivity port 2456 is arranged at the 4th assembling side 2451d and can is such as female connectors.5th sub-backboard 245 and the first sub-backboard 241 align.It is adjacent that 4th assembling side 2451d of the 5th sub-backboard 245 and second of the first sub-backboard 241 assembles side 2411b.It is female that the 4th of 5th sub-backboard 245 expands connectivity port 2456() electrically docking and be mutually fastened in second of the first sub-backboard 241 to expand connectivity port 2414(male).

6th sub-backboard 246 comprises one first and expands expansion connectivity port, connectivity port 2463, the 3rd 2465 and one the 4th expansion connectivity port 2466.The body 2461 of the 6th sub-backboard 246 has one first assembling side 2461a, assembles side 2461c and assemble one the 4th of side 2461c adjacent to the first assembling side 2461a and the 3rd assemble side 2461d relative to one the 3rd of the first assembling side 2461a.In 6th sub-backboard 246, first expansion connectivity port 2463 is arranged at the first assembling side 2461a and can is such as female connectors, 3rd expansion connectivity port 2465 is arranged at the 3rd assembling side 2461c and can is such as public connector, and the 4th expansion connectivity port 2466 is arranged at the 4th assembling side 2461d and can is such as female connectors.6th sub-backboard 246 and the second sub-backboard 242 and the 5th sub-backboard 245 align.It is adjacent that 3rd assembling side 2461c of the 6th sub-backboard 246 and first of the 5th sub-backboard 245 assembles side 2451a.It is male that the 3rd of 6th sub-backboard 246 expands connectivity port 2465() electrically dock and be mutually fastened in first of the 5th sub-backboard 245 and expand connectivity port 2453(mother).It is adjacent that 4th assembling side 2461d of the 6th sub-backboard 246 and second of the second sub-backboard 242 assembles side 2421b.It is female that the 4th of 6th sub-backboard 246 expands connectivity port 2466() electrically docking and be mutually fastened in second of the second sub-backboard 242 to expand connectivity port 2424(male).

7th sub-backboard 247 comprises one first and expands expansion connectivity port, connectivity port 2473, the 3rd 2475 and one the 4th expansion connectivity port 2476.The body 2471 of the 7th sub-backboard 247 has one first assembling side 2471a, one the 3rd assembling side 2471c and the 4th assembles side 2471d.In 7th sub-backboard 247, first expansion connectivity port 2473 is arranged at the first assembling side 2471a and can is such as female connectors, 3rd expansion connectivity port 2475 is arranged at the 3rd assembling side 2471c and can is such as public connector, and the 4th expansion connectivity port 2476 is arranged at the 4th assembling side 2471d and can is such as female connectors.7th sub-backboard 247 and the 3rd sub-backboard 243 and the 6th sub-backboard 246 align.It is adjacent that 3rd assembling side 2471c of the 7th sub-backboard 247 and first of the 6th sub-backboard 246 assembles side 2461a.It is male that the 3rd of 7th sub-backboard 247 expands connectivity port 2475() electrically dock and be mutually fastened in first of the 6th sub-backboard 246 and expand connectivity port 2463(mother).It is adjacent that 4th assembling side 2471d of the 7th sub-backboard 247 and second of the 3rd sub-backboard 243 assembles side 2431b.It is female that the 4th of 7th sub-backboard 247 expands connectivity port 2476() electrically docking and be mutually fastened in second of the 3rd sub-backboard 243 to expand connectivity port 2434(male).

8th sub-backboard 248 comprises one the 3rd and expands connectivity port 2485 and one the 4th expansion connectivity port 2486.The body 2481 of the 8th sub-backboard 248 has one the 3rd assembling side 2481c and the 4th and assembles side 2481d.In 8th sub-backboard 248, the 3rd expansion connectivity port 2485 is arranged at the 3rd assembling side 2481c and can is such as public connector, and the 4th expansion connectivity port 2486 is arranged at the 4th assembling side 2481d and can is such as female connectors.8th sub-backboard 248 and the 4th sub-backboard 244 and the 7th sub-backboard 247 align.It is adjacent that 3rd assembling side 2481c of the 8th sub-backboard 248 and first of the 7th sub-backboard 247 assembles side 2471a.It is male that the 3rd of 8th sub-backboard 248 expands connectivity port 2485() electrically dock and be mutually fastened in first of the 7th sub-backboard 247 and expand connectivity port 2473(mother).It is adjacent that 4th assembling side 2481d of the 8th sub-backboard 248 and second of the 4th sub-backboard 244 assembles side 2441b.It is female that the 4th of 8th sub-backboard 248 expands connectivity port 2486() electrically docking and be mutually fastened in second of the 4th sub-backboard 244 to expand connectivity port 2444(male).

Eight sub-backboards 241,242,243,244,245,246,247,248.Above is spliced to form backboard 24 each other.User can according to the hard disc 23 quantity demand of servomechanism 2, the quantity of the sub-backboard 241,242,243,244,245,246,247,248 in adjustment backboard 24.Above-mentioned expansion connectivity port does not limit it for public connector or female connectors.As long as electrically docking and when mutually holding, expand connectivity port can one be public connector, another is female connectors.What is more, itself can there be male portion and female portion in single expansion connectivity port.Can correspond to each other male portion and female portion of different expansion connectivity port electrically docks and mutually holds.

Please refer to Fig. 3 B, illustrate the side view of the backboard 24 ' according to another embodiment of the present invention.The backboard 24 ' of the present embodiment is roughly similar to backboard 24 shown in Fig. 3 A.Different is, in backboard 24 ' second expands connectivity port 2414 ', 2424 ', 2434 ', 2444 ' and the 3rd expands connectivity port 2425 ', 2435 ', 2445 ', 2465 ', 2475 ', 2485 ' (and can be such as the expansion connectivity port of public connector originally) can change the structure of golden finger into, in backboard 24 ' first expands connectivity port 2413 ', 2423 ', 2433 ', 2453 ', 2463 ', 2473 ' and the 4th expands connectivity port 2456 ', 2466 ', 2476 ', 2486 ' (can be namely such as the expansion connectivity port of female connectors originally) can change the inserting slot construction of corresponding golden finger into.

Below introduce the embodiment that backboard can be spliced to form by the sub-backboard of various quantity.

Please refer to Fig. 4 A, Fig. 4 B and Fig. 4 C, illustrate the backboard 44,44 ', 44 according to another embodiment of the present invention " side view.As shown in Figure 4 A, backboard 44 comprises a sub-backboard 441, and sub-backboard 441 comprises body 4411, two slot 4412 and and expands connectivity port 4413.Slot 4412 is arranged at body 4411, expands the side that connectivity port 4413 is arranged at body 4411, and can be such as public connector.When the servomechanism 2 shown in Fig. 2 user required for hard disc 23 negligible amounts time, can the sub-backboard of requirement be spliced according to demand and form backboard.When the demand of hard disc 23 is few, also can only with the backboard 44 of a sub-backboard 441 as servomechanism 2.In addition, as shown in Figure 4 B, in a sub-backboard 441 ' of backboard 44 ', the structure that connectivity port 4413 ' can be such as golden finger is expanded.As shown in Figure 4 C, backboard 44 " a sub-backboard 441 " in, expand connectivity port 4413 " can be such as the inserting slot construction of female connectors or corresponding golden finger.

Please refer to Fig. 5, illustrate the side view of the backboard 54 according to another embodiment of the present invention.Backboard 54 comprises one first different and adjacent sub-backboard 541 and one second sub-backboard 542.First sub-backboard 541 comprises body 5411, two slot 5412 and one first and expands connectivity port 5413.In first sub-backboard 541, slot 5412 is arranged at body 5411, and the first expansion connectivity port 5413 is arranged at the first assembling side 5411a and can is such as female connectors.Second sub-backboard 542 comprises body 5421, two slot 5422 and one second and expands connectivity port 5424.In second sub-backboard 542, slot 5422 is arranged at body 5421, and the second expansion connectivity port 5424 is arranged at the second assembling side 5421b and can is such as public connector.

Different and adjacent second sub-backboard 542 and the first sub-backboard 541 align.It is adjacent that second assembling side 5421b of the second sub-backboard 542 and first of the first sub-backboard 541 assembles side 5411a.It is male that second of second sub-backboard 542 expands connectivity port 5424() electrically dock and be mutually fastened in first of the first sub-backboard 541 and expand connectivity port 5413(mother).

Please refer to Fig. 6, illustrate the side view of the backboard 64 according to another embodiment of the present invention.Backboard 64 comprises one first identical and adjacent sub-backboard 641 and one second sub-backboard 642 of specification.First sub-backboard 641 comprises body 6411, two slot 6412,1 first and expands connectivity port 6413 and one second expansion connectivity port 6414.Body 6411 has one first relative assembling side 6411a and one second assembling side 6411b.In first sub-backboard 641, slot 6412 is arranged at body 6411, first expansion connectivity port 6413 is arranged at the first assembling side 6411a and can is such as female connectors, and the second expansion connectivity port 6414 is arranged at the second assembling side 6411b and can is such as public connector.

Second sub-backboard 642 comprises body 6421, two slot 6422,1 first and expands connectivity port 6423 and one second expansion connectivity port 6424.Body 6421 has one first relative assembling side 6421a and one second assembling side 6421b.In second sub-backboard 642, slot 6422 is arranged at body 6421, first expansion connectivity port 6423 is arranged at the first assembling side 6421a and can is such as female connectors, and the second expansion connectivity port 6424 is arranged at the second assembling side 6421b and can is such as public connector.

The second sub-backboard 642 that specification is identical and the first sub-backboard 641 align.It is adjacent that second assembling side 6421b of the second sub-backboard 642 and first of the first sub-backboard 641 assembles side 6411a.It is male that second of second sub-backboard 642 expands connectivity port 6424() electrically dock and be mutually fastened in first of the first sub-backboard 641 and expand connectivity port 6413(mother).

Please refer to Fig. 7, illustrate the side view of the backboard 74 according to another embodiment of the present invention.Backboard 74 comprises the identical and adjacent multiple sub-backboard 741 of specification.Each sub-backboard 741 comprises body 7411, two slot 7412,1 first and expands expansion connectivity port, expansion connectivity port 7414, the 3rd, connectivity port 7413,1 second 7415 and one the 4th expansion connectivity port 7416.Body 7411 has one first assembling side 7411a, assembles one the 4th of side 7411c and assemble side 7411d adjacent to the one second assembling side 7411b of the first assembling side 7411a, relative to the first assembling side 7411a adjacent to the first assembling side 7411a and the 3rd adjacent to one the 3rd assembling side 7411c of the second assembling side 7411b, relative to the second assembling side 7411b.In each sub-backboard 741, slot 7412 is arranged at body 7411, first expansion connectivity port 7413 is arranged at the first assembling side 7411a and can is such as female connectors, second expansion connectivity port 7414 is arranged at the second assembling side 7411b and can is such as public connector, 3rd expansion connectivity port 7415 is arranged at the 3rd assembling side 7411c and can is such as public connector, and the 4th expansion connectivity port 7416 is arranged at the 4th assembling side 7411d and can is such as female connectors.

The sub-backboard 741 that specification is identical is neat toward each other.It is female that first of the sub-backboard 741 of central authorities expands connectivity port 7413() electrically docking and be mutually fastened in the 3rd of the sub-backboard 741 on right side to expand connectivity port 7415(male).Second expansion connectivity port 7414(of the sub-backboard 741 of central authorities is male) electrically dock and be mutually fastened in the 4th of the sub-backboard 741 of upside and expand connectivity port 7416(mother).3rd expansion connectivity port 7415(of the sub-backboard 741 of central authorities is male) electrically dock and be mutually fastened in first of the sub-backboard 741 in left side and expand connectivity port 7413(mother).It is female that the 4th of the sub-backboard 741 of central authorities expands connectivity port 7416() electrically docking and be mutually fastened in second of the sub-backboard 741 of downside to expand connectivity port 7414(male).Therefore, when the size extending backboard 74 will be expanded, can be spliced to form each other by multiple sub-backboard 741.

In sum, servomechanism of the present invention and backboard thereof, be spliced to form backboard by multiple sub-backboard, to adjust the quantity of the hard disc that backboard docks flexibly.Therefore when user will adjust the quantity of hard disc in servomechanism, the quantity of sub-backboard also can be changed to adjust the docking tolerance of backboard for hard disc.When user runs into the different servomechanism of specification, also can by the quantity of the sub-backboard in adjustment backboard and arrangement mode, to coordinate various servomechanism.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the present invention.

Claims (10)

1. a servomechanism, is characterized in that, comprising:

One motherboard;

One central processing module, is arranged at this motherboard; And

One storage device, comprise a carrying cabinet, be placed in multiple hard disc of this carrying cabinet and be fixed on the backboard of side of this carrying cabinet, this backboard is spliced to form by parallel multiple sub-backboard, and respectively this sub-backboard is all provided with at least one slot, and respectively this slot is for docking with corresponding respectively this hard disc.

2. servomechanism according to claim 1, is characterized in that, this adjacent a little backboard aligns and electrically docks.

3. servomechanism according to claim 2, is characterized in that, this adjacent a little backboard is electrically docked with female connectors by public connector.

4. servomechanism according to claim 2, is characterized in that, this little backboard is between this motherboard and those hard discs, and the direction of docking perpendicular to respectively this hard disc and corresponding respectively this slot and this motherboard.

5. servomechanism according to claim 1, is characterized in that, this adjacent a little backboard holds mutually.

6. servomechanism according to claim 1, it is characterized in that, one first adjacent sub-backboard and one second sub-backboard is comprised in this little backboard, this first sub-backboard comprises one first assembling side and is arranged at one first expansion connectivity port of this first assembling side, this second sub-backboard comprises first assembles adjacent one second the assembling side and be arranged at this and second assemble one second of side and expand connectivity port in side with this, this second expands connectivity port and first expands connectivity port with this and connect, and this second expansion connectivity port is installed in this first expansion connectivity port.

7. a backboard, is spliced to form by parallel multiple sub-backboard, it is characterized in that, respectively this sub-backboard is all provided with at least one slot, and respectively this slot is for docking with a corresponding hard disc, and this adjacent a little backboard aligns and electrically docks.

8. backboard according to claim 7, is characterized in that, this adjacent a little backboard is electrically docked with female connectors by public connector.

9. backboard according to claim 7, is characterized in that, this adjacent a little backboard holds mutually.

10. backboard according to claim 7, it is characterized in that, one first adjacent sub-backboard and one second sub-backboard is comprised in this little backboard, this first sub-backboard comprises one first assembling side and is arranged at one first expansion connectivity port of this first assembling side, this second sub-backboard comprises first assembles adjacent one second the assembling side and be arranged at this and second assemble one second of side and expand connectivity port in side with this, this second expands connectivity port and first expands connectivity port with this and connect, and this second expansion connectivity port is installed in this first expansion connectivity port.