CN108712844A - Can sequential movements server slide rail - Google Patents

Abstract

A kind of sliding rail technical field can sequential movements server slide rail, including：Interior sliding rail is equipped with the first, second, and third stuck point of protrusion in inner surface, and three stuck points are divided to two groups of settings up and down；Middle sliding rail is installed with interior sliding rail；The middle sliding rail is provided with locking mechanism；External slide rail is installed with middle sliding rail；The external slide rail is equipped with the four, the 5th and the 6th stuck point of protrusion in inner surface, and three stuck points are divided to two groups of settings up and down；In two stuck points of the two groups of stuck points up and down with group setting, the stuck point that locking mechanism is first touched on sliding rail pull-out direction is equipped with guiding surface；Individually be arranged in groups a stuck point is equipped with guiding surface；The locking mechanism includes up and down portion, and the up and down portion is detached from orderly pull-out and the push-in for realizing sliding rail with each stuck point touching on outer, interior sliding rail to external slide rail and interior slide direction protrusion.The present invention can realize orderly pull-out and the push-in of three section sliding rails, be simple in structure and convenient in use.

Description

Can sequential movements server slide rail

Technical field

The present invention relates to a kind of technology in sliding rail field, it is specifically a kind of can sequential movements server slide rail.

Background technology

Common server slide rail device is described outer using three section rail structures, including external slide rail, middle sliding rail and interior sliding rail Sliding rail is fixed in rack, and the interior sliding rail is fixed on the both sides of server, and the middle sliding rail is set to outer cunning as bearing rail Between rail and interior sliding rail, with the scope of activities of Extension Services device, and allow the interior sliding rail and middle sliding rail along outer cunning The axis direction of rail slidably reciprocates relative to the external slide rail, to pull out or withdraw server.

Server slide rail on the market can not achieve orderly pull-out and the push-in of sliding rail mostly at present, lead to its service life It is limited, and fluency deficiency is pushed and pulled, influence user experience；Server as described in open (bulletin) number CN102781197B patents Although sliding rail can realize orderly pull-out and the push-in of three section sliding rails, there are still complicated, difficulty of processing is big, production cost The problems such as high.

Invention content

The present invention be directed to deficiencies of the prior art, it is proposed that it is a kind of can sequential movements server slide rail, energy Orderly pull-out and the push-in for enough realizing three section sliding rails, are simple in structure and convenient in use.

The present invention is achieved by the following technical solutions：

The present invention includes：

Interior sliding rail is equipped with the first stuck point, the second stuck point and the third stuck point of protrusion in inner surface, and three stuck points divide Lower two groups of settings；

Middle sliding rail is installed with interior sliding rail；The middle sliding rail is provided with locking mechanism；

External slide rail is installed with middle sliding rail；The external slide rail is equipped with the 4th stuck point, the 5th stuck point of protrusion in inner surface With the 6th stuck point, three stuck points are divided to two groups of settings up and down；

In upper and lower two groups of stuck points a stuck point individually in groups, other two stuck point with setting is organized, gone up in interior sliding rail, The quantity setting different with the upper and lower quantity of two groups of stuck points in external slide rail of lower two groups of stuck points；Two stuck points with group setting In, the stuck point that locking mechanism is first touched on sliding rail pull-out direction is equipped with guiding surface；It is described to be individually arranged in groups One stuck point is equipped with guiding surface；

The locking mechanism includes upper and lower movable part, and the upper and lower movable part is raised to external slide rail and interior slide direction, Orderly pull-out and the push-in for realizing sliding rail are detached from each stuck point touching on external slide rail, interior sliding rail.

For the inner surface of the interior sliding rail and external slide rail is both with respect to middle sliding rail.

Upper and lower movable part dystopy on sliding rail pull-out direction is arranged, and a movable part protrudes from another movable part； Movable part relatively outstanding is oppositely arranged with an independent groups of stuck point on two stuck points, interior sliding rail of same group on external slide rail, The movable part received in relatively is oppositely arranged with an independent groups of stuck point on two stuck points, external slide rail of same group on interior sliding rail.

The locking mechanism is equipped with fixed part, and upper and lower movable part is integrally formed with fixed part；The fixed part passes through weldering It connects, rivet or punching press is fixed on middle sliding rail.

Preferably, the upper and lower movable part uses hook structure.

The present invention is additionally provided with distal end unlocking mechanism, when sliding rail is drawn out to range, sliding rail and by middle cunning in first unlocking Rail is pushed into external slide rail, you can removes machine box for server, it is possible to reduce cabinet the space occupied in installation and disassembly process makes Terminal client can install more cabinets in identical place, reduce cost.

The distal end unlocking mechanism includes connected operation portion and solution lock section；The operation portion is arranged in middle sliding rail and outer cunning Between rail, operation portion end is located at middle sliding rail and pulls out end of travel, and operation portion front end is connected with solution lock section；The solution lock section setting Between middle sliding rail and interior sliding rail, the solution lock section is equipped with unlock inclined-plane, and the unlock inclined-plane is opened when offseting with movable part Movable part makes movable part be detached from stuck point with sliding rail in being pushed into.

The distal end unlocking mechanism is fixed on by riveting or snapping connection on middle sliding rail.

Preferably, the distal end unlocking mechanism is additionally provided with elastomer, realizes automatically reseting for distal end unlocking mechanism；The bullet Property body one end is fixedly connected with middle sliding track body or locking mechanism, and the other end is connected with the operation portion of distal end unlocking mechanism.

It is further preferred that the operation portion is equipped with drag hook in front end, the locking mechanism is equipped with drag hook on fixed part, The both ends of elastomer are fixedly connected with two drag hook respectively, can maximally reduce the size of elastomer, are conducive to middle sliding rail Structure design.

Preferably, the elastomer uses resetting spring.

Technique effect

Compared with prior art, multigroup stuck point is arranged in the present invention on external slide rail and interior sliding rail, and corresponding on middle sliding rail Locking mechanism is set, can realize sequential movements and the locking of sliding rail, stuck point and locking mechanism setting are simple, advantageously reduce life Produce cost；In addition, the distal end unlocking mechanism of setting can reduce the operation requirement to space when operating personnel push and pull server, carry The convenience of height operation.

Description of the drawings

Fig. 1 is 1 detonation configuration figure of embodiment；

Fig. 2 is interior sliding rail stuck point positional structure enlarged drawing in Fig. 1；

Fig. 3 is middle track portion schematic enlarged-scale view in Fig. 1；

Fig. 4 is external slide rail stuck point positional structure enlarged drawing in Fig. 1；

Fig. 5 is locking mechanism structural schematic diagram in Fig. 1；

Fig. 6 a are the positional structure that interior sliding rail and middle sliding rail pull out preceding locking mechanism and interior sliding rail stuck point together in embodiment 1 Figure；

Fig. 6 b are locking mechanism and external slide rail stuck point when middle sliding rail and interior sliding rail are drawn out to extreme position together in embodiment 1 Position assumption diagram；

Fig. 6 c are locking mechanism and interior sliding rail stuck point when middle sliding rail and interior sliding rail are drawn out to extreme position together in embodiment 1 Position assumption diagram；

Fig. 7 a be in embodiment 1 in interior sliding rail push-in before sliding rail locking mechanism and external slide rail stuck point position assumption diagram；

Fig. 7 b be in embodiment 1 in interior sliding rail push-in when sliding rail to extreme position locking mechanism and interior sliding rail stuck point position Structure chart；

Fig. 7 c be in embodiment 1 in interior sliding rail push-in when sliding rail to extreme position locking mechanism and external slide rail stuck point position Structure chart；

Fig. 8 a are distal end unlocking mechanism structural schematic diagram in embodiment 1；

Fig. 8 b are distally to unlock schematic diagram in embodiment 1；

Fig. 6 a, 6b, 6c, 7a, 7b, 7c are not related to distal end and unlock operation, therefore distal end unlocking mechanism is omitted in figure；

In figure：Interior sliding rail 1, middle sliding rail 2, external slide rail 3, distal end unlocking mechanism 4, the first stuck point 11, the second stuck point 12, third Stuck point 13, drag hook 14, locking mechanism 21, the 4th stuck point 31, the 5th stuck point 32, the 6th stuck point 33, operation portion 41, solution lock section 42, Resetting spring 43, the first guiding surface 111, third guiding surface 131, upper grab 211, lower grab 212, fixed part the 213, the 5th Guiding surface 321, the 6th guiding surface 331, unlock inclined-plane 421.

Specific implementation mode

Below in conjunction with the accompanying drawings and specific implementation mode the present invention will be described in detail.

Embodiment 1

As shown in Figure 1, the present embodiment includes：

Interior sliding rail 1, inner surface be equipped with protrusion the first stuck point 11, the second stuck point 12 and third stuck point 13, three Stuck point is divided to two groups of settings up and down, as shown in Figure 2；

Middle sliding rail 2 is installed with interior sliding rail 1；The middle sliding rail 2 is provided with locking mechanism 21, as shown in Figure 3；

External slide rail 3 is installed with middle sliding rail 2；The external slide rail 3 inner surface be equipped with protrusion the 4th stuck point 31, the Five stuck points 32 and the 6th stuck point 33, three stuck points are divided to two groups of settings up and down, as shown in Figure 4；

Each stuck point touching on the locking mechanism 21 and external slide rail 3, interior sliding rail 1 be detached from realize sliding rail it is orderly pull out and Push-in.

As shown in figure 5, the locking mechanism 21 is equipped with fixed part 213, the fixed part 213 is riveted on middle sliding rail 2, institute It states fixed part 213 and is connected with upper grab 211 and lower grab 212 in the same end；The upper grab 211 and lower grab 212 are inwardly sliding Rail 1 and 3 direction of external slide rail protrusion, on external slide rail 3, interior sliding rail 1 each stuck point touching be detached from realize sliding rail it is orderly pull out and Push-in.

In the present embodiment, first stuck point 11 and the second stuck point 12, third stuck point 13 are setting up and down on the interior sliding rail 1, the One stuck point 11 is individually arranged in groups, and the second stuck point 12 and third stuck point 13 are successively arranged along sliding rail push-in direction with group, and described the One stuck point 11 is equipped with the first guiding surface 111, and the third stuck point 13 is equipped with third guiding surface 131；On the external slide rail 3 Four stuck points 31, the 5th stuck point 32 and the 6th stuck point 33 are setting up and down, and the 6th stuck point 33 is individually arranged in groups, the 4th stuck point 31 and Five stuck points 32 along sliding rail push-in direction with group successively be arranged, the 5th stuck point 32 be equipped with the 5th guiding surface 321, the described 6th Stuck point 33 is equipped with the 6th guiding surface 331；

Corresponding, on sliding rail pull-out direction, the upper grab 211 protrudes from the lower grab 212.

The process that the present embodiment sliding rail orderly pulls out is as follows：

1) sliding rail 2 and interior sliding rail 1 in first pulling out simultaneously；

Lower grab 212 is stuck between the second stuck point 12 and third stuck point 13, and interior sliding rail 1 can not be pulled out therefrom in sliding rail 2；It draws Dynamic sliding rail, after lower grab 212 and the second stuck point 12 offset, upper grab 211 is by the first guiding surface of the first stuck point 11 at this time 111 jack up in open configuration, and as shown in Figure 6 a, middle sliding rail 2 and interior sliding rail 1 pull out simultaneously at this time；

When middle sliding rail 2 is pulled to extreme position with interior sliding rail 1, lower grab 212 is oriented to oblique by the 6th of the 6th stuck point 33 the Face 331, which jacks up, is in open configuration；Upper grab 211 replys nature still in open configuration after slipping over the 5th stuck point 32 simultaneously State is blocked by the 4th stuck point 31, and middle sliding rail 2 can not continue to pull out, as shown in Figure 6 b；

2) it is further continued for pulling out interior sliding rail 3；

Sliding rail is pulled on, third stuck point 13 slips over the lower grab 212 in open configuration on interior sliding rail 3, and interior sliding rail 1 can 2 each stuck point of sliding rail continues to be drawn out to extreme position in disengaging, as fig. 6 c.

The process that the present embodiment sliding rail is orderly pushed into is as follows：

1) sliding rail 1 in being pushed into；

Upper grab 211 is blocked between the 4th stuck point 31 and the 5th stuck point 32, causes middle sliding rail 2 that can not be detached from external slide rail 1 And it is pushed into；Sliding rail is pushed, the lower grab 212 on middle sliding rail 2, which is jacked up to be in by the 6th guiding surface 331 of the 6th stuck point 33, to be opened Open state, as shown in Figure 7a, and upper grab 211 offsets with 32 inside of the 5th stuck point；During interior sliding rail 1 is pushed into this pushing course In sliding rail 2, until the jack-up of upper grab 211 is made upper grab 211 be in open configuration by the first guiding surface 111 of the first stuck point 11； It is pushed further into, third stuck point 13 slips over the lower grab 212 in open configuration, and interior sliding rail 1 is pushed into extreme position, such as Fig. 7 b It is shown；

2) at the same be pushed into sliding rail 2 and interior sliding rail 1；

It is pushed further into sliding rail, the upper grab 211 in open configuration slips over the 5th stuck point 32, as shown in Figure 7 c, middle sliding rail 2 It is detached from 1 each stuck point of external slide rail；Upper grab 211 and lower grab 212 reply nature later, and lower grab 212 is fallen second Between stuck point 12 and third stuck point 13, middle sliding rail 2 and interior sliding rail 1 can be pushed into extreme position together.

As shown in Fig. 1, Fig. 8 a and Fig. 8 b, the present embodiment is additionally provided with distal end unlocking mechanism 4, the distal end unlocking mechanism 4 It is fixed on middle sliding rail 2 by riveting, including connected operation portion 41 and solution lock section 42, solution lock section 42 is opposite with upper grab 211 Setting；The operation portion 41 is arranged between middle sliding rail 2 and external slide rail 3, and 41 end of operation portion is located at middle sliding rail and pulls out stroke end End, 41 front end of operation portion is connected with solution lock section 42；The solution lock section 42 is arranged between middle sliding rail 2 and interior sliding rail 1, the unlock Portion 42 is equipped with unlock inclined-plane 421, and the unlock inclined-plane 421, which opens grab 211 when offseting with upper grab 211, makes upper grab 211 are detached from the 4th stuck point 31 with sliding rail in push-in 2；

The mode linkage of unlocking portion 42 that the inside slide direction of finger is pulled can be used in the operation portion 41, by unlocking inclined-plane 421, which jack up upper grab 211, makes grab 211 be detached from the 4th stuck point 31 in open configuration, unclamps operation portion 41 later, realizes Middle sliding rail 2 unlocks and push-in.

As shown in Fig. 3 and Fig. 8 b, the distal end unlocking mechanism 4 is additionally provided with resetting spring 43, real after losing external force unlock Now distal end unlocking mechanism 4 automatically resets；43 one end of the resetting spring is fixedly connected with the drag hook 14 on fixed part 213, separately One end is fixedly connected with the drag hook 14 of 41 front end of operation portion.

It is emphasized that：It the above is only presently preferred embodiments of the present invention, not the present invention made in any form Limitation, it is every according to the technical essence of the invention to any simple modification, equivalent change and modification made by above example, In the range of still falling within technical solution of the present invention.

Claims (9)

1. it is a kind of can sequential movements server slide rail, which is characterized in that including：

Interior sliding rail is equipped with the first stuck point, the second stuck point and the third stuck point of protrusion in inner surface, and three stuck points are divided to upper and lower two Group setting；

Middle sliding rail is installed with interior sliding rail；The middle sliding rail is provided with locking mechanism；

External slide rail is installed with middle sliding rail；The external slide rail is equipped with the 4th stuck point, the 5th stuck point and the of protrusion in inner surface Six stuck points, three stuck points are divided to two groups of settings up and down；

Individually in groups, other two stuck point is with organizing setting, upper and lower two in interior sliding rail for a stuck point in upper and lower two groups of stuck points The quantity setting different with the upper and lower quantity of two groups of stuck points in external slide rail of group stuck point；In two stuck points with group setting, position It is equipped with guiding surface in the stuck point that locking mechanism on sliding rail pull-out direction is first touched；Individually be arranged in groups a card Point is equipped with guiding surface；

The locking mechanism includes upper and lower movable part, and the upper and lower movable part is and outer to external slide rail and interior slide direction protrusion Orderly pull-out and the push-in of sliding rail are realized in the touching of each stuck point, disengaging on sliding rail, interior sliding rail.

2. according to claim 1 can sequential movements server slide rail, characterized in that the upper and lower work of the locking mechanism Dynamic portion dystopy on sliding rail pull-out direction is arranged, and a movable part protrudes from another movable part；Movable part relatively outstanding with With two stuck points of group, on interior sliding rail, individually a groups of stuck point is oppositely arranged on external slide rail, relatively in the movable part received with With individually a groups of stuck point is oppositely arranged on two stuck points of group, external slide rail on interior sliding rail.

3. according to claim 2 can sequential movements server slide rail, characterized in that the locking mechanism be equipped with fix Portion, upper and lower movable part are integrally formed with fixed part；The fixed part is fixed on by welding, riveting or punching press on middle sliding rail.

4. according to claim 3 can sequential movements server slide rail, characterized in that the upper and lower movable part is using card Hook structure.

5. according to described in any of the above-described claim can sequential movements server slide rail, which is characterized in that it is described sequentially to transport Dynamic server slide rail is provided with distal end unlocking mechanism, and the distal end unlocking mechanism includes connected operation portion and solution lock section；Institute It states operation portion to be arranged between middle sliding rail and external slide rail, operation portion end is located at middle sliding rail and pulls out end of travel, operation portion front end It is connected with solution lock section；For the solution lock section between middle sliding rail and interior sliding rail, the solution lock section is equipped with unlock inclined-plane, the unlock Inclined-plane, which opens movable part when offseting with movable part, makes movable part be detached from stuck point with sliding rail in being pushed into.

6. according to claim 5 can sequential movements server slide rail, characterized in that the distal end unlocking mechanism passes through riveting It connects or snaps connection and be fixed on middle sliding rail.

7. according to claim 5 can sequential movements server slide rail, characterized in that the distal end unlocking mechanism is additionally provided with Elastomer, described elastomer one end are fixedly connected with middle sliding track body or locking mechanism, the behaviour of the other end and distal end unlocking mechanism Make portion to be connected.

8. according to claim 7 can sequential movements server slide rail, characterized in that the operation portion front end be equipped with draw Hook, the locking mechanism are equipped with drag hook on fixed part, and the both ends of elastomer are fixedly connected with two drag hook respectively.

9. according to described in claim 7 or 8 can sequential movements server slide rail, characterized in that the elastomer is using resetting Spring.