CN104679182A - Server - Google Patents

Abstract

The invention discloses a server. The server comprises a mainframe box, a fan module and an air director; the mainframe box has a top plate and a bottom plate opposite to each other, and a first lateral plate and a second lateral plate opposite to each other, the first lateral plate and second lateral plate are located between the top plate and bottom plate, and the top plate, bottom plate, first lateral plate and second lateral plate form a holding space; the fan module can move relative to the mainframe box so as to form a storage position and a drawing position, at the storage position, the fan module is located in the holding space, and at the drawing position, the fan module is located outside the mainframe box, and a gap remains between the fan module and the mainframe box; the air director is movably arranged at the mainframe box; when the fan module moves to the drawing position from the storage position, the air director moves to the outside of the mainframe box from the inside of the mainframe box so as to cover the gap between the fan module and the mainframe box.

Description

Servomechanism

Technical field

The present invention relates to a kind of servomechanism, particularly a kind of servomechanism with wind scooper.

Background technology

Along with the raising of number of electronic components in servomechanism, the heat energy that its electronic component produces also can significantly increase.Therefore, it is necessary for increasing servomechanism internal fan module fan quantity.But when need change when single fan failure in blower module, it is necessary for being pulled out in the mainframe box of servomechanism by blower module.But, once blower module is pulled out in mainframe box, blower module and mainframe box must produce an interval, and this interval is caused airflow reflux and air-flow cannot be flowed in the mainframe box of servomechanism, and then cause the electronic element radiating in mainframe box abnormal and affect the normal operation of electronic component.

Therefore, under the normal operation not affecting electronic component, solve blower module and cause the problem of airflow reflux to be necessary because producing interval during autonomous cabinet pull-out.

Summary of the invention

The object of the present invention is to provide a kind of servomechanism, use and solve when blower module need be changed because of radiating efficiency decline problem that airflow reflux causes.

The servomechanism of one embodiment of the invention, comprises a mainframe box, a blower module and a wind scooper.Mainframe box has a relative top board and a base plate, one first relative side plate and one second side plate, and the first side plate and the second side plate are between top board and base plate, and top board, base plate, the first side plate and the second side plate form an accommodation space.Blower module is arranged at accommodation space drawablely.Blower module has the reception position be accommodated in mainframe box, and autonomous cabinet is extracted out and keeps a withdrawn position in a gap with mainframe box.Wind scooper is arranged at mainframe box movably.When blower module is moved to withdrawn position from reception position, wind scooper is outer to mainframe box by mainframe box intrinsic displacement and gap that is that cover between blower module and mainframe box.

Servomechanism disclosed by the invention described above, because blower module is arranged at the accommodation space of mainframe box movably, and by being arranged at the existence of wind scooper of mainframe box movably, when making the reception position of the autonomous cabinet of blower module be moved to withdrawn position, wind scooper by the interlock of blower module by mainframe box intrinsic displacement to outside mainframe box, and then can cover the gap when fan need be replaced between blower module and mainframe box.Thus, significantly can lower the chance of air-flow from the gap outflow between mainframe box and blower module by covering of wind scooper, and then promote the flow of air-flow inflow mainframe box and make the radiating effect that the electronic component in servomechanism reaches good.

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 STRUCTURE DECOMPOSITION figure of servomechanism according to an embodiment of the invention;

Fig. 2 is the STRUCTURE DECOMPOSITION figure of the wind scooper of servomechanism according to an embodiment of the invention;

Fig. 3 is the partial enlarged drawing of the upper outlet body of wind scooper according to an embodiment of the invention;

Fig. 4 is that blower module is positioned at the schematic diagram of reception position according to an embodiment of the invention;

Fig. 5 is that blower module is positioned at the schematic diagram of withdrawn position according to an embodiment of the invention;

Fig. 6 is the side view of the second guide rail and wind inducing covers when blower module is positioned at reception position according to an embodiment of the invention;

Fig. 7 is the side view of first stage when blower module is positioned at withdrawn position according to an embodiment of the invention;

Fig. 8 is the side view of subordinate phase when blower module is positioned at withdrawn position according to an embodiment of the invention;

Fig. 9 is the side view of phase III when blower module is positioned at withdrawn position according to an embodiment of the invention.

Wherein, Reference numeral

1 servomechanism

10 mainframe boxes

11 top boards

12 base plates

13 first side plates

14 second side plates

15 accommodation spaces

16 guide members

20 blower modules

21 fans

22 outside frameworks

23 first sides

24 second sides

30 guide assemblies

31 first guide rails

32 second guide rails

321 limit sliding chutes

3211 first ends

3212 second ends

40 wind scoopers

41 upper outlet bodies

411 first plates

412 second plates

4111 first perforatings

4112 first openings

4121 flanges

41211 first ends

41212 second ends

4122 holders

4123 second perforatings

413 linings

4124 second openings

42 wind-guiding plates

421 main frame bodies

422 the 3rd side plates

423 the 4th side plates

4221 locating parts

4222 guide wheels

4223 first grades of walls

4224 second gear walls

G gap

D1 first distance

D2 second distance

D3 the 3rd distance

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, Fig. 1 is the STRUCTURE DECOMPOSITION figure of servomechanism according to an embodiment of the invention.

The servomechanism 1 of the present embodiment comprises mainframe box 10, blower module 20, guide assembly 30 and a wind scooper 40.

Mainframe box 10 comprises relative top board 11 and a base plate 12, one first relative side plate 13 and one second side plate 14, first side plate 13 and the second side plate 14 are between top board 11 and base plate 12, and top board 11, base plate 12, first side plate 13 and the second side plate 14 form an accommodation space 15.Guide assembly 30 comprises 4 first guide rail 31 and 4 second guide rails 32.4 first guide rails 31 are arranged at the first side plate 13 and the second side plate 14 of mainframe box 10 respectively, and every first side plate 13 and every second side plate 14 have 2 first guide rails 31 respectively.In the present embodiment, the first guide rail 31 and the second guide rail 32 quantity are respectively for four, but not as limit, those who are familiar with this art can carry out quantitative adjustment according to the actual requirements.

Mainframe box 10 more comprises multiple guide member 16, and guide member 16 is arranged at the top board 11 of mainframe box 10.In the present embodiment, guide member 16 is the guide rods for elongated, but not as limit.

Blower module 20 more comprises multiple fan 21 and an outside framework 22, and the outside framework 22 of blower module 20 has one first relative side 23 and one second side 24.Multiple fan 21 is arranged in outside framework 22, and the quantity of multiple fan 21 is also not used to limit the present invention.2 second guide rails 32 are arranged at the first side 23 and the second side 24 of the outside framework 22 of blower module 20 respectively, and 2 second guide rails 32 have a limit sliding chutes 321 respectively.Each limit sliding chutes 321 has relative first end 3211 and one second end 3212.

2 second guide rails 32 on blower module 20 are arranged at 2 first guide rails 31 in mainframe box 10 respectively, to make blower module 20 can be movable relative to mainframe box 10.Specifically, blower module 20 can mainframe box 10 movable and tool one reception position (as shown in Figure 4) and a withdrawn position (as shown in Figure 6) relatively.When blower module 20 is in reception position, blower module 20 is positioned at accommodation space 15, and when blower module 20 is in withdrawn position, blower module 20 is positioned at outside mainframe box 10 and keeps a clearance G with mainframe box 10.

Please refer to Fig. 2, Fig. 2 is the STRUCTURE DECOMPOSITION figure of the wind scooper of servomechanism according to an embodiment of the invention.Wind scooper 40 comprises upper outlet body 41 and a wind-guiding plate 42.Upper outlet body 41 more comprises the ora terminalis that one first plate 411 and one second plate 412, first plate 411 are erected in the second plate 412.

Please refer to Fig. 3 and arrange in pairs or groups Fig. 2, Fig. 3 are the partial enlarged drawing of the upper outlet body of wind scooper according to an embodiment of the invention.First plate 411 has multiple first perforating 4111, and the first perforating 4111 has multiple the first opening 4112 towards vertical direction, meaning i.e. the first opening 4112 is all towards Y direction.Second plate 412 has multiple holder 4122, and holder 4122 has multiple second perforating 4123, and the second perforating 4123 has multiple the second opening 4124 in the horizontal direction.In addition, the opening direction of 2 second adjacent openings 4124 is for contrary.For example, when the second opening 4124 of the second perforating 4123 of the second plate 412 upper fixed seat 4122 is towards positive X-direction, then the direction of other the second openings 4124 of this holder 4122 adjacent is all towards negative X-direction.It is noted that the quantity of first perforating 4111 of the present embodiment, holder 4122 and the second perforating 4123 is for four, but not as limit, those who are familiar with this art can adjust according to the actual requirements.

In the present embodiment, the first perforating 4111 and the second perforating 4123 are all used for wearing for the multiple guide members 16 on mainframe box 10 top board 11.Specifically, multiple guide members 16 on mainframe box 10 top board 11 wear multiple first perforatings 4111 on the first plate 411 of upper outlet body 41 respectively simultaneously, and multiple second perforatings 4123 of upper outlet body 41 second plate 412 upper fixed seat 4122, be arranged at mainframe box 10 movably to make wind scooper 40.

In addition, upper outlet body 41 more comprises multiple lining 413, lining 413 between guide member 16 and holder 4122, and between guide member 16 and the first perforating 4111.In the present embodiment, the quantity of the lining 413 of upper outlet body 41 is for eight, but not as limit.Lining 413 can lower upper outlet body 41 relatively mainframe box 10 slippage time friction, fall in mainframe box to prevent the iron filings produced because of friction force.

Please refer to Fig. 2.Wind-guiding plate 42 has relative two sides that main frame body 421, the 3rd side plate 422 and one the 4th side plate the 423, three side plate 422 and the 4th side plate 423 are erected in main frame body 421.3rd side plate 422 of wind-guiding plate 42 and the 4th side plate 423 have two locating part 4221 and two guide wheels 4222 respectively, and locating part 4221 and guide wheel 4222 are be arranged side by side.Further, two locating parts 4221 on the 3rd side plate 422 of wind-guiding plate 42 and the 4th side plate 423 are arranged in two limit sliding chutes 321 of 2 second guide rails 32 respectively.

In addition, in the present embodiment, the 3rd side plate 422 extends relative one first grade of wall 4223 and a second gear wall 4224 in one end of contiguous second plate 412, and first grade of wall 4223 and second gear wall 4224 are all perpendicular to the second plate 412.Structure as the 4th side plate 423 is roughly similar to the 3rd side plate 422, and meaning i.e. the 4th side plate 423 has first grade of wall 4223 and second gear wall 4224 too.

Mutually relative two ends of second plate 412 extend a flange 4121 respectively, and this two flanges 4121 lays respectively between first grade of wall 4223 of the 3rd side plate 422 and second gear wall 4224 and between first grade of wall 4223 of the 4th side plate 423 and second gear wall 4224.So, flange 4121 can relative displacement between first grade of wall 4223 and second gear wall 4224, to limit the activity displacement range of upper outlet body 41 relative to wind-guiding plate 42.

Please refer to Fig. 4 and Fig. 5.Fig. 4 is that blower module is positioned at the schematic diagram of reception position according to an embodiment of the invention.Fig. 5 is that blower module is positioned at the schematic diagram of withdrawn position according to an embodiment of the invention.When blower module 20 is positioned at reception position, wind scooper 40 is positioned at mainframe box 10.When blower module 20 is moved to withdrawn position from reception position, wind scooper 40 is outer to mainframe box 10 by mainframe box 10 intrinsic displacement and clearance G that is that cover between blower module 20 and mainframe box 10.Following Fig. 6 to Fig. 9 is for blower module 20 when reception position is moved to withdrawn position, and triphasic start relation is illustrated.

First, please refer to Fig. 6, Fig. 6 is the side view of the second guide rail and wind inducing covers when blower module is positioned at reception position according to an embodiment of the invention.Because the structure of 2 second guide rails 32 of blower module 20 and the 3rd side plate 422 of wind-guiding plate 42 and the 4th side plate 423 is all identical, therefore be only illustrated for the 3rd side plate 422 of wind-guiding plate 42 below.When blower module 20 is positioned at reception position, the locating part 4221 be arranged on wind-guiding plate 42 the 3rd side plate 42 is positioned at the second end 3212 of the limit sliding chutes 321 of the second guide rail 32.

Then, start relation when being moved to withdrawn position for blower module by reception position is below illustrated.Please refer to Fig. 7, Fig. 7 be according to an embodiment of the invention blower module in the side view of the first stage of withdrawn position.When blower module 20 is moved to withdrawn position in reception position, the outside framework 22 of blower module 20 is drawn out one first distance D1 and 2 second guide rails 32 of blower module 20 is moved towards the direction away from mainframe box 10, and limit sliding chutes 321 intrinsic displacement of two locating parts 4221 laid respectively on wind-guiding plate 42 the 3rd side plate 422 and the 4th side plate 423 on 2 second guide rails 32.Therefore, when blower module 20 is drawn out to the first distance D1 in reception position, two locating parts 4221 by the limit sliding chutes 321 on 2 second guide rails 32 the second end 3212 displacement and against the first end 3211 to limit sliding chutes 321, make blower module 20 can start to drive the wind-guiding plate 42 of wind scooper 40 to move towards the direction away from mainframe box 10.

Then, please refer to Fig. 8, Fig. 8 be according to an embodiment of the invention blower module in the side view of the subordinate phase of withdrawn position.When blower module 20 is moved towards the direction away from mainframe box 10 by the first distance D1, the outside framework 22 of blower module 20 is pulled out one when being greater than the second distance D2 of the first distance D1, the 3rd side plate 422 in wind-guiding plate 42 is also towards the direction displacement away from mainframe box 10, meaning i.e. first grade of wall 4223 of the 3rd side plate 422 and second gear wall 4224, also towards the direction displacement away from mainframe box 10, make first grade of wall 4223 of the 3rd side plate 422 be resisted against the second plate 412 upper flange 4121 first end 41211 of upper outlet body 41.So, wind-guiding plate 42 is made can to start to drive upper outlet body 41 to move towards the direction away from mainframe box 10.

Finally, please refer to Fig. 9, Fig. 9 be according to an embodiment of the invention blower module in the side view of the phase III of withdrawn position.When blower module 20 continues to be moved towards the direction away from mainframe box 10 by second distance D2, and make the outside framework 22 of blower module 20 be drawn out one when being greater than the 3rd distance D3 of second distance D2, wind-guiding plate 42 drives upper outlet body 41 to move towards the direction away from mainframe box 10, finally makes wind-guiding plate 42 and upper outlet body 41 jointly cover clearance G between mainframe box 10 and blower module 20.

In sum, servomechanism disclosed by the present invention, because blower module is arranged at the accommodation space of mainframe box movably, and by being arranged at the existence of wind scooper of mainframe box movably, when making the reception position of the autonomous cabinet of blower module be moved to withdrawn position, wind scooper by the interlock of blower module by mainframe box intrinsic displacement to outside mainframe box, and then can cover the gap when fan need be replaced between blower module and mainframe box.Thus, significantly can lower the chance of air-flow from the gap outflow between mainframe box and blower module by covering of wind scooper, and then promote the flow of air-flow inflow mainframe box and make the radiating effect that the electronic component in servomechanism reaches good.

Moreover due to upper outlet body, the first opening direction vertically direction of the first perforating, the second opening direction of the second perforating is towards horizontal direction and the second adjacent opening direction is on the contrary.Thus, the degree of freedom of the left and right directions displacement of upper outlet body can be limited.

In addition, by the setting of lining, friction when sliding between guide member and upper outlet body can be lowered, and then reduce iron filings to produce and significantly reduce iron filings and fall into probability in mainframe box.

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 mainframe box, comprise a relative top board and a base plate, one first relative side plate and one second side plate, this first side plate and this second side plate are between this top board and this base plate, and this top board, this base plate, this first side plate and this second side plate form an accommodation space;

One blower module, be located at this mainframe box, and this blower module can this mainframe box be movable and have a reception position and a withdrawn position relatively, in this reception position, this blower module is positioned at this accommodation space, in this withdrawn position, it is outer and keep a gap with this mainframe box that this blower module is positioned at this mainframe box; And

One wind scooper, be arranged at this mainframe box actively, when this blower module is moved to this withdrawn position from this reception position, this this wind scooper of blower module interlock, this gap of covering between this blower module and this mainframe box to make this wind scooper outer to this mainframe box by this mainframe box intrinsic displacement.

2. servomechanism according to claim 1, it is characterized in that, this wind scooper comprises a upper outlet body and a wind-guiding plate, this wind-guiding plate has a main frame body, one the 3rd side plate and one the 4th side plate, 3rd side plate and the 4th side plate are erected in relative two sides of this main frame body, and this upper outlet body is arranged at the 3rd side plate and the 4th side plate actively.

3. servomechanism according to claim 2, it is characterized in that, this servomechanism more comprises a guide assembly, this guide assembly comprises 2 first guide rails and 2 second guide rails, those first guide rails are arranged at this first side plate and this second side plate of this mainframe box respectively, those second guide rails are arranged at relative two sides of this blower module respectively, and those second guide rails can be arranged at those first guide rails slippingly.

4. servomechanism according to claim 3, is characterized in that, those second guide rails have two limit sliding chutes respectively, and the 3rd side plate and the 4th side plate of this wind-guiding plate have two locating parts respectively, and those locating parts are arranged in those limit sliding chutes.

5. servomechanism according to claim 2, it is characterized in that, this mainframe box more comprises multiple guide member, be arranged at this top board, this upper outlet body more comprises one first plate and one second plate, this first plate is erected in this second plate, this first plate has multiple first perforating, and those first perforatings have multiple the first opening towards vertical direction, this second plate has multiple holder and those holders have multiple second perforating, and those second perforatings have multiple the second opening in the horizontal direction, those guide members wear those first perforatings and those the second perforatings respectively.

6. servomechanism according to claim 5, is characterized in that, the opening direction of adjacent two these the second openings is contrary.

7. servomechanism according to claim 6, is characterized in that, this upper outlet body more comprises multiple lining, those linings between this guide member and this holder, and between this guide member and this perforating.

8. servomechanism according to claim 6, it is characterized in that, a flange is extended in the side of this second plate, 3rd side plate of this wind-guiding plate extends one first grade of relative wall and a second gear wall in one end of this second plate contiguous, this flange between this first grade of wall and this second gear wall, to limit the activity displacement range of relative this wind-guiding plate of this second plate.

9. servomechanism according to claim 6, it is characterized in that, two flanges is extended respectively in the relative both sides of this second plate, 3rd side plate of this wind-guiding plate and the 4th side plate have one first grade of relative wall and a second gear wall respectively, those flanges lay respectively between those first grade of wall and those second gear walls, and the relative displacement between those first grade of wall and those second gear walls of those flanges.

10. servomechanism according to claim 2, is characterized in that, the 3rd side plate and the 4th side plate of this wind-guiding plate have multiple guide wheel, and those guide wheels can be arranged on those first guide rails respectively movably.