CN104345840A - Server - Google Patents

Abstract

The invention discloses a server which comprises a rack, a main board, a bearing frame, two frame bodies and two interface clamps, wherein the rack is provided with a base plate and a top plate; the main board is mounted on the base plate; the bearing frame is mounted on the base plate; the frame bodies are mounted on the bearing frame; the interface clamps are mounted on the frame bodies and are electrically connected to the main board; each interface card comprises a clamp body and an assembly part; each clamp body is electrically connected to the main board; each clamp body is provided with a top surface and faces the top plate; each assembly part is mounted on the corresponding clamp body and comprises a first buckling plate and a second buckling plate; each first buckling plate and each second buckling plate are respectively positioned on two opposite sides of each clamp body; each second buckling part partially protrudes out of the top surface; the first buckling plate of one interface clamp is buckled with the second buckling part of the other interface clamp, so the height summation of the two interface clamps is smaller than the space between the base plate and the top plate.

Description

Servomechanism

Technical field

The present invention relates to a kind of electronic installation, particularly a kind of servomechanism.

Background technology

Servomechanism is the core computer for serving each computing machine in network system, the functions such as the disk that network user can be provided to need and print service, simultaneously also can for the every resource in each user side each other share web environment.The basic framework of servomechanism is roughly the same with general personal computer, be made up of parts such as central processing unit (CPU), memory body (Memory) and I/O (I/O) equipment, and connected by bus (Bus), connect central processing unit and memory body by north bridge chips, and connect input-output apparatus etc. by South Bridge chip.Servomechanism approximately experienced by three evolution process by casing structure: from early stage tower case to the rack emphasizing to manage concentratedly, again to the blade servomechanism of high density account form.

At this for rack server, rack server is the servomechanism of a kind of outward appearance according to unified standard design, coordinates the unified use of rack.Can say that rack is a kind of tower servomechanism of optimizing structure, its design aim is mainly in order to reduce taking of servomechanism space as far as possible.A lot of specialized network equipment is all the structure adopting rack, and it mostly is flat, just as drawer.Such as switch, router, hardware firewall these.The height of rack server is 19 inches, and height, in units of U (1U equals 1.75 inches and equals 44.45 millimeters), has the servomechanism of several standard of 1U to 7U usually.Wherein common with the servomechanism of 1U height.

The inner space of 1U servomechanism is less, can increase the quantity of installing element in servomechanism, then need the utilization rate effectively promoting servomechanism inner space if wish.But the interface card of general requirements (meeting the specification of PCI Local Bus Specification), because there being the restriction in specification, cannot being folded and establish two interface cards, and then effectively cannot utilize the inner space of servomechanism in 1U servomechanism.Therefore, in order to promote servomechanism inner space, some dealer is customized by interface card, makes multiple interface cards to be effectively stacked in servomechanism.But the cost of customized interface card is generally cost far above the interface card of general requirements (meeting the specification of PCI Local Bus Specification) and affects the purchase intention of Ge Jia manufacturer.Therefore, how effectively utilizing the inner space of servomechanism, will be one of the problem that should set about of designer.

Summary of the invention

The object of the present invention is to provide a kind of servomechanism, use the inner space effectively utilizing servomechanism.

Servomechanism disclosed by the present invention, comprises a frame, a motherboard, a carrier, two support bodys and two first interface cards.Frame has a relative base plate and a top board.Motherboard is installed in base plate.Carrier is installed in base plate separably.Two support bodys are detachably installed in carrier.Two first interface cards are installed in support body respectively, and are electrically connected at motherboard drawablely.Each first interface card comprises a card and an assembly.Card is electrically connected at motherboard drawablely.Card has an end face, and towards top board.Assembly is installed in card, and assembly comprises one first buckle plate and one second buckle plate.First buckle plate lays respectively at the relative both sides of card with the second buckle plate, and the part of the first buckle plate protrudes end face with the part of the second buckle plate.Wherein one of two first interface cards are stacked at another of two first interface cards, and the first buckle plate of one of two first interface cards engages another the second buckle plate of two first interface cards, and two end face attach each other, with make the height of two first interface cards sum up be less than the spacing of base plate to top board.

Servomechanism disclosed by the invention described above, each interface card firmly can be installed in base plate respectively by two caulking grooves and carrier, and allow the two first interface card mutual dislocation be stacked, and allow the first clamping part of a wherein first interface card be sticked in the second clamping part of another first interface card and to make the overall height of two interface cards be superimposed be less than spacing between base plate and top board.By this, can fold in the same level position of servomechanism and establish two first interface cards, and then effectively utilize the inner space of servomechanism.

In addition, because two first interface cards are all assembled on carrier, therefore can assemble simultaneously or separate at least two interface cards when carrier being assembled in base plate or removing on base plate, to promote its assembling and removal efficiency.

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 is the schematic perspective view of a part for servomechanism according to an embodiment of the invention;

Fig. 2 A is the carrier of Fig. 1 and the decomposing schematic representation of base plate;

Fig. 2 B is the carrier of Fig. 2 A and the decomposing schematic representation of each interface card;

Fig. 3 is the floor map of Fig. 1;

Fig. 4 is the combined schematic perspective views of the two first interface cards of Fig. 1;

Fig. 5 A to Fig. 5 D is the assembling schematic diagram of the servomechanism of Fig. 1.

Wherein, Reference numeral

10 servomechanisms

100 frames

110 base plates

120 top boards

200 motherboards

210 locking parts

300 carriers

310 cover plates

320 side walls

330 walls

331 wear groove

400 support bodys

410 first plates

420 second plates

500 first interface cards

510 cards

511 end faces

512 sides

513 fronts

520 assemblies

521 first clamping parts

522 second clamping parts

523 draw-in grooves

600 second interface cards

700 the 3rd interface cards

810 first switching circuit boards

820 second switching circuit boards

900 locking parts

Embodiment

Below in conjunction with accompanying drawing, structural principle of the present invention and principle of work are described in detail:

Please refer to Fig. 1 to Fig. 4, Fig. 1 is the schematic perspective view of a part for servomechanism according to an embodiment of the invention, Fig. 2 A is the decomposing schematic representation of the carrier of Fig. 1 and base plate, Fig. 2 B is the carrier of Fig. 2 A and the decomposing schematic representation of each interface card, Fig. 3 is the floor map of Fig. 1, and Fig. 4 is the combined schematic perspective views of the two first interface cards of Fig. 1.Above-mentioned servomechanism 10 is take height as the servomechanism of 1U is example.

The servomechanism 10 of the present embodiment comprises frame 100, motherboard 200, carrier 300, two support body 300, two first interface card 500,1 second interface card 600, the 3rd interface card 700,2 first switching circuit board 810, second switching circuit board 820 and two locking parts 900.But the quantity of interface card and be not used to limit the present invention, in other embodiments, the quantity of interface card also can be less than three or more than five.

Frame 100 has relative base plate 110 and a top board 120, and two assembling framves 130.At a distance of a spacing d between base plate 110 and top board 120.In the present embodiment, this spacing d is 1U (equals 1.75 English inch or 4.445 centimeters).Two assembling framves 130 are separated from one another, and are located at base plate 110.Two assembling framves 130 respectively have a caulking groove 131.

Motherboard 200 is installed in base plate 110.Motherboard 200 comprises two locking parts 210.

Carrier 300 is installed in base plate 110 separably.Carrier 300 comprises cover plate 310, side wall 320 and a wall 330.Side wall 320 and wall 330 are located at the same face of cover plate 310 respectively, and keep a spacing each other.Wall 330 has wears groove 331.

Two support bodys 400 are installed in carrier 300 respectively.Specifically, each support body 400 comprises one first plate 410 and one second plate 420 be connected.First plate 410 is towards cover plate 310.Second plate 420 extends towards base plate 110 from the side of the first plate 410.Two support bodys 400 are locked in two locking parts 210 of motherboard 200 respectively by two locking parts 900.The locking part 900 of the present embodiment is screw.

Two first interface cards 500 are installed in two support bodys 400 respectively by 2 first switching circuit boards 810.Respectively drawablely two first interface cards 500 are located at 2 first switching circuit boards 810.2 first switching circuit boards 810 are detachably installed in 2 second plates 420.Specifically, first interface card 500 comprises card 510 and an assembly 520.Electronic component and circuit board (not illustrating) is provided with in card 510.Card 510 is electrically connected at switching circuit board 810 drawablely.Card 510 has end face 511, side 512 and the front 513 be connected with each other.End face 511 is towards cover plate 310.Front 513 is towards caulking groove 131.Assembly 520 is installed in card 510, and is adjacent to front 513.Assembly 520 comprises one first clamping part 521 and one second clamping part 522.First clamping part 521 lays respectively at the relative both sides of card 510 with the second clamping part 522.First clamping part 521 extends along the bearing of trend in front 513.Second clamping part 522 laterally 512 bearing of trend extend.Second clamping part 522 has a draw-in groove 523, and the part of draw-in groove 523 protrudes end face 511.2 second clamping parts 522 are sticked in two caulking grooves 131 respectively.

In addition, two cards 510 are electrically located at 2 first switching circuit boards 810 respectively drawablely, and respectively drawablely 2 first switching circuit boards 810 are electrically located at motherboard 200.

Second interface card 600 is installed in carrier 300, and is positioned at the side of two first interface cards 500.3rd interface card 700 is installed in carrier 300, and the second interface card 600 is between the 3rd interface card 700 and two first interface cards 500.Specifically, the second interface card 600 and the 3rd interface card 700 are installed on carrier 300 by the second switching circuit board 820.Second switching circuit board 820 is installed in wall 330 and has two electrical slots 821, and respectively towards relative two directions, wherein an electrical slot 821 is arranged in groove 331.Second interface card 600 and the 3rd interface card 700 are electrically located at two electrical slots 821 respectively.In the present embodiment, structure and the first interface card 500 of the second interface card 600 and the 3rd interface card 700 are different, therefore repeat no more.

Servomechanism 10 in the assembled state time, because two first interface cards 500 are assembled in support body 400 respectively, and 2 second clamping part 422 of first interface card be sticked in the caulking groove 131 of two assembling framves 130 respectively, therefore two first interface cards 500 can be made firmly to be installed on base plate 110.It should be noted that the height owing to originally meeting the first interface card 510 of the specification of PCI Local Bus Specification is h (as shown in Figure 3), and overall height when two first interface cards 510 are superimposed is 2h.Thus, should be installed between base plate 110 and top board 120 when two first interface cards 510 are superimposed with each other.But because two first interface cards 500 to misplace ornaments by the present embodiment, first clamping part 521 of second first interface card 500 and the draw-in groove 523 of first interface card 500 are fastened, and makes the second clamping part 522 part of second first interface card 500 overlapping with the card 510 of first interface card 500.Thus, the overall height of two first interface cards 500 can be made from 2h to be reduced to the H (as shown in Figure 3) of the spacing d be less than between base plate 110 and top board 120, and then the inner space making to hold two first interface cards 500 between base plate 110 and top board 120 simultaneously and effectively utilize servomechanism 10.

Next the method that first interface card 500, second interface card 600 and the 3rd interface card 700 are dismantled from servomechanism 10 is described in the lump.See also Fig. 3, Fig. 4, Fig. 5 A to Fig. 5 D.Fig. 5 A to Fig. 5 D is the dismounting schematic diagram of the servomechanism of Fig. 1.

First, as shown in Figure 5A, because two first interface card 500, second interface cards 600 and the 3rd interface card 700 are all installed in carrier 300.So, when carrier 300 is pulled down, can two first interface card 500, second interface cards 600 and the 3rd interface card 700 from host plate 200 be separated, to increase the right removal efficiency of each interface card simultaneously.

Then, as shown in Fig. 5 B and Fig. 5 C, first the support body 400 from the distant first interface card 500 of cover plate 310 and correspondence is pulled down, and the support body 400 of the first interface card 500 and correspondence that are adjacent to cover plate 310 is pulled down, to vacate enough withdrawal spaces for the second interface card 600.

Then, as shown in Figure 5 D, along the direction indicated by arrow a, the second interface card 600 is pulled down from the second switching circuit board 820, and along the direction indicated by arrow b, the 3rd interface card 700 is pulled down from the second switching circuit board 830.Then, then the second switching circuit board 820 is pulled down from wall 330, then complete the dismounting of each interface card.

Servomechanism disclosed by the invention described above, each interface card firmly can be installed in base plate respectively by two caulking grooves and carrier, and allow the two first interface card mutual dislocation be stacked, and allow the first clamping part of a wherein first interface card be sticked in the second clamping part of another first interface card and to make the overall height of two interface cards be superimposed be less than spacing between base plate and top board.By this, can fold in the same level position of servomechanism and establish two first interface cards, and then effectively utilize the inner space of servomechanism.

In addition, because two first interface cards, the second interface card and the 3rd interface card are all assembled on carrier, therefore can assemble simultaneously or separate multiple interface cards when carrier being assembled in base plate or removing on base plate, to promote its assembling and removal efficiency.

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, comprises:

One frame, has a relative base plate and a top board;

One motherboard, is installed in this base plate;

One carrier, can be installed in this base plate discretely;

Two support bodys, can be installed in this carrier respectively discretely; And

Two first interface cards, are installed in this support body respectively, and can be electrically connected at this motherboard with detaching, and each this first interface card comprises:

One card, can be electrically connected at this motherboard with detaching, this card has an end face, and towards this top board; And

One assembly, is installed in this card, and this assembly comprises one first clamping part and one second clamping part, and this first clamping part lays respectively at the relative both sides of this card with this second clamping part, and the part of this second clamping part protrudes this end face;

Wherein one of this two first interfaces card is stacked at another of this two first interfaces card, and this first clamping part of one of this two first interfaces card engages another this second clamping part of this two first interfaces card, and this first clamping part and this second clamping part overlap, to make this two end face attach each other, and the height of this two first interfaces card sum total is less than the spacing of this base plate to this top board.

2. servomechanism according to claim 1, it is characterized in that, each this second clamping part comprises a draw-in groove, and this draw-in groove protrudes this end face, and this first clamping part of one of this two first interfaces card is sticked in this draw-in groove of another this second clamping part of this two first interfaces card.

3. servomechanism according to claim 2, it is characterized in that, this frame more comprises two assembling framves, separated from one another, and be located at this base plate, this two assemblings frame respectively has a caulking groove, this card has a connected side and a front, this side and this front are connected with this end face, this is just facing to this caulking groove, and this assembly is adjacent to this front, and this first clamping part extends along the bearing of trend in this front, and this second clamping part extends along the bearing of trend of this side, this 2 second clamping part of this two first interfaces card is sticked in this two caulking groove respectively.

4. servomechanism according to claim 1, it is characterized in that, this carrier more comprises a cover plate and a side wall, this side wall is located at this cover plate, one of this two support body is installed in this cover plate, another of this two support body is installed in this side wall, and this two first interfaces card is installed in this two support body respectively, and this two first interfaces card is stacked each other and establishes.

5. servomechanism according to claim 4, it is characterized in that, more comprise 2 first switching circuit boards, this 2 first switching circuit board can be installed in this two support body respectively discretely, and this 2 first switching circuit board can be located at this motherboard with detaching respectively, this two first interfaces card can be located at this 2 first switching circuit board respectively with detaching.

6. servomechanism according to claim 5, it is characterized in that, each this support body comprises one first connected plate and one second plate, this first plate is towards this cover plate, this second plate extends towards this base plate from the side of this second plate, and this 2 first switching circuit board is located at this 2 second plate respectively.

7. servomechanism according to claim 6, is characterized in that, this first plate of one of this two support body can be incorporated into this cover plate discretely, and another this second plate of this two support body can be incorporated into this side wall discretely.

8. servomechanism according to claim 1, is characterized in that, more comprises one second first interface card, is installed in this carrier, and is positioned at the side of this two first interfaces card.

9. servomechanism according to claim 8, is characterized in that, more comprises one the 3rd interface card, is installed in this carrier, and this second interface card is between the 3rd interface card and this two first interfaces card.

10. servomechanism according to claim 9, it is characterized in that, more comprise one second switching circuit board, respectively comprise an electrical slot in relative both sides, this carrier more comprises a cover plate and a wall, and this wall is located at this cover plate, and have and wear groove, this second switching circuit board is located at this wall, and one of this two electrical slot is positioned at this and wears groove, and this second interface card and the 3rd interface card can be electrically connected at this two electrical slot respectively with detaching.