CN203554857U - Industrial computer cabinet and bidirectional sliding rail structure thereof - Google Patents

Abstract

The utility model relates to an industrial computer cabinet and a bidirectional sliding rail structure thereof. The industrial computer cabinet comprises a cabinet body, a drawer base and a pair of bidirectional sliding rail assembly; the cabinet body is provided with a containing space, and also includes a first opening and a second opening which are communicated with two opposite sides of the containing space; the drawer base is arranged in the containing space; each bidirectional sliding rail assembly comprises a first sliding rail member, a second sliding rail member and at least one rolling wheel; the first sliding rail member is provided with at least one sliding rail; the rolling wheel is arranged on the second sliding rail member and rotates along the sliding rail; and the first sliding is fixed with one cabinet body and one drawer base, and the second sliding rail member is fixed with remaining cabinet bodies and drawer bases, so that the drawer base slides relatively to the cabinet body and can be drawn out from one first opening and one second opening. According to the utility model, the purpose of improving use convenience of the industrial computer cabinet is realized.

Description

Industrial computer rack and bidirectional sliding rail structure thereof

Technical field

The utility model is relevant for a kind of computer cabinet, espespecially a kind of industrial computer rack and bidirectional sliding rail structure thereof.

Background technology

Traditional industry computer cabinet has a cabinet and is arranged on the plural drawout chassis in cabinet, to allow the equipment of industrial computer, as the devices such as server, arithmetic unit in groups or classified storage in each drawout chassis, and then facilitate administrative staff to manage.

Between above-mentioned cabinet and each drawout chassis, a slide track component is installed, this slide track component comprises one first slide rail part and one second slide rail part, one the first slide rail part and the second slide rail part are fixed on cabinet, another the first slide rail part and the second slide rail part are fixed on drawout chassis, the first slide rail part is provided with a slide rail, the second slide rail part is equiped with a ball, ball rotates along slide rail, and make drawout chassis with respect to cabinet, slide and can extract out in the same direction, with the equipment of aspect industrial computer, keep in repair or arrange.

Yet, because ball comprises a holder and a ball, holder is provided with for the accommodating circular groove of ball, ball amplexiforms and rolls in circular groove along slide rail, but the weight of industrial computer equipment is heavy, so usually cause ball stressed excessive, cause the frictional force between ball and circular groove to increase, cause ball to roll, and lose the effect of ball.In addition, each drawout chassis only can be extracted out in the same direction, causes using quite not convenient.

Utility model content

The purpose of this utility model, be to provide a kind of industrial computer rack and bidirectional sliding rail structure thereof, it utilizes roller be installed on the second slide rail part and rotate along slide rail, and make drawout chassis slide with respect to cabinet and can select one first opening and the extraction of the second opening, and roller stress is when excessive, drawout chassis also can slide smooth and easy, to reach the ease of use that improves industrial computer rack.

In order to achieve the above object, the utility model provides a kind of bidirectional sliding rail structure, comprising:

One two-way slide track component, comprises:

One first slide rail part, is provided with at least one slide rail;

One second slide rail part, to configuring by the first slide rail part; And

At least one roller, is installed on this second slide rail part and rotates along this slide rail, and this first slide rail part and this second slide rail part slide relative to one another; And

At least one stopping element, is connected between this first slide rail part and this second slide rail part and to should the first slide rail part and this second slide rail part backstop location.

Further, wherein this second slide rail part is provided with at least one perforation, this roller comprises a screw rod, circle wheel and a nut, this circle wheel is sheathed on this screw rod, this nut is to the configuration of should boring a hole, the end of this screw rod wears boring a hole and locks with this nut, and this circle wheel is connected to this slide rail and rotates along this slide rail.

Further, wherein this first slide rail part is extended with a concave shape extension towards this second slide rail part direction, and is formed with at least one sidewall in a side of this concave shape extension, and this slide rail is formed on this sidewall.

Further, wherein the quantity of slide rail is two, this the first slide rail part is extended with two concave shape extensions of upper and lower arrangement towards this second slide rail part direction, and be formed with a relative sidewall in a side of this concave shape extension respectively, respectively this slide rail is formed on respectively on this sidewall, the quantity of roller is most, respectively this pair of rollers should two sidewalls and with upper and lower row side by side and the mode that is spaced be installed on this second slide rail part.

Further, wherein this stopping element comprises one first stop part and one second stop part;

This first stop part includes one first fastener and one first shackle member;

This second stop part includes one second fastener and one second shackle member;

This first slide rail part is connected with this first fastener and this second fastener respectively with one of them of this second slide rail part;

This first slide rail part and this second slide rail part another one are wherein connected with this first shackle member and this second shackle member respectively;

This first fastener and this first shackle member be backstop location mutually, and this second fastener and this second shackle member be backstop location mutually.

Further, wherein,

The left and right end of this first slide rail part has respectively a first end and one second end;

The left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end;

This first fastener is consisted of a shell fragment that is arranged on this first end, the draw-in groove that this first shackle member is offered by the 4th end is formed, this second fastener is consisted of a shell fragment that is arranged on this second end, and the draw-in groove that this second shackle member is offered by the 3rd end is formed.

Further, wherein, respectively this shell fragment projection has a convex stretch section, this the first slide rail part is provided with the fluting being installed with for this convex stretch section, respectively this draw-in groove is the saturating groove of a convex, and the left and right ora terminalis of the saturating groove of this convex is extended with two arrived tabletings towards the direction away from this shell fragment, the ora terminalis of this convex stretch section is to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting, at least this shell fragment projection of one has a positioning convex portion, and this first slide rail part is provided with the groove for this positioning convex portion location.

Further, wherein the left and right end of this first slide rail part has respectively a first end and one second end, the left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end, the draw-in groove that this first fastener is offered by this first end is formed, this first shackle member is consisted of a shell fragment that is arranged on the 4th end, this second fastener is consisted of a shell fragment that is arranged on this second end, and the draw-in groove that this second shackle member is offered by the 3rd end is formed.

Further, wherein respectively this draw-in groove is the saturating groove of a convex, an and left side for the saturating groove of this convex, right-hand member edge is extended with two arrived tabletings towards the direction away from this shell fragment, respectively this shell fragment projection has a convex stretch section, this the first slide rail part and this second slide rail part are provided with the fluting being installed with for this convex stretch section, the ora terminalis of this convex stretch section can be to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting, this shell fragment projection of one has a positioning convex portion, this the second slide rail part is provided with the groove for this positioning convex portion location.

Further, wherein the left and right end of this first slide rail part has respectively a first end and one second end, the left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end, the draw-in groove that this first fastener is offered by this first end is formed, this first shackle member is consisted of a shell fragment that is arranged on the 4th end, the draw-in groove that this second fastener is offered by this second end is formed, and this second shackle member is consisted of a shell fragment that is arranged on the 3rd end.

Further, wherein respectively this shell fragment projection has a convex stretch section, this the second slide rail part is provided with the fluting being installed with for this convex stretch section, respectively this draw-in groove is the saturating groove of a convex, and the left and right ora terminalis of the saturating groove of this convex is extended with two arrived tabletings towards the direction away from this shell fragment, the ora terminalis of this convex stretch section can be to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting.

The utility model also provides a kind of industrial computer rack, comprising:

One cabinet, has an accommodation space and one first opening and one second opening that are communicated in these relative both sides of accommodation space;

One drawout chassis, is arranged in this accommodation space; And

A pair of bidirectional sliding rail structure as previously discussed, be connected between the both sides of this cabinet and this drawout chassis, one of them of this cabinet and this drawout chassis and this first slide rail part are fixed, another and this second slide rail part of this cabinet and this drawout chassis is fixed, and this drawout chassis slides and can extract out by this first opening or this second opening with respect to this cabinet.

Further, wherein this cabinet has two frames that are disposed at respectively these accommodation space both sides, and respectively this first slide rail part is fixed on this drawout chassis, and respectively this second slide rail part is fixed on this frame.

Further, wherein each this bidirectional sliding rail assembly more comprises a prolongation slide rail part, this extends slide rail part tool separative two and extends frame, this prolongation frame of one is fixed on this frame of one, another this prolongation frame is fixed on another this frame, and the two ends of this second slide rail part are fixed on this two prolongation frame and are crossed between this two prolongations frame.

Further, wherein this cabinet has at least two frames that are disposed at respectively these accommodation space both sides, and respectively this first slide rail part is fixed on this frame, and respectively this second slide rail part is fixed on this drawout chassis.

Further, wherein each this bidirectional sliding rail assembly more comprises a prolongation slide rail part, this extends slide rail part tool separative two and extends frame, this prolongation frame of one is fixed on this frame of one, another this prolongation frame is fixed on another this frame, and the two ends of this first slide rail part are fixed on this two prolongation frame and are crossed between this two prolongations frame.

The utility model also has following effect:

The first, roller is installed on the second slide rail part and rotates along slide rail, and make drawout chassis slide with respect to cabinet and can select one first opening and the extraction of the second opening, user the industrial computer equipment of contiguous the first opening and the second opening on drawout chassis first can be taken out, to alleviate the burden of maintenance or readjusting operations, and then promote the ease of use of industrial computer rack.

The second,, because roller comprises screw rod and circle wheel, circle wheel being sheathed on screw rod, thus drawout chassis load-bearing overweight under, while justifying take turns stressed larger, circle is taken turns still bolt rotary relatively, to maintain the rolling action of roller, and then the stability in use of reinforcement industrial computer rack.

The 3rd, each stopping element comprises the first stop part and the second stop part, the first stop part includes the first fastener and the first shackle member, the second stop part includes the second fastener and the second shackle member, the first fastener and the second fastener jointly select one the first slide rail part and the second slide rail part connects, the first shackle member and the second shackle member jointly select one first last slide rail part and the second slide rail part connects, the first fastener and the first shackle member be backstop location mutually, the second fastener and the second shackle member be backstop location mutually, make drawout chassis when the first opening or the extraction of the second opening, can prevent drawout chassis pull excessively or drawout chassis be subject to weight traction and the situation that departs from cabinet occurs, to reach the structural stability that increases industrial computer rack.

Four, the quantity of slide rail is two, each first slide rail part is extended with two concave shape extensions of upper and lower arrangement towards the second slide rail part direction, and be formed with relative sidewall in a side of each concave shape extension, each slide rail is formed on each sidewall, the quantity of roller is plural number, each pair of rollers answer two sidewalls and with upper and lower row side by side and the mode that is spaced be installed on the second slide rail part, with allow each roller average force and stressed evenly, and increase the slip effect between roller and slide rail.

Five, each bidirectional sliding rail assembly more comprises prolongation slide rail part, make bidirectional sliding rail assembly can coordinate the cabinet of various sizes to use, and allow between bidirectional sliding rail assembly and cabinet locking stable and stressed evenly, to reach bidirectional sliding rail assembly, there is the scope of application and well structural strength widely.

Accompanying drawing explanation

Fig. 1 is the three-dimensional combination figure of the utility model industrial computer rack.

Fig. 2 is the three-dimensional combination figure of the utility model bidirectional sliding rail assembly.

Fig. 3 is the three-dimensional exploded view of the utility model bidirectional sliding rail assembly.

Fig. 4 is the sectional perspective schematic diagram of the utility model bidirectional sliding rail assembly.

Fig. 5 is another sectional perspective schematic diagram of the utility model bidirectional sliding rail assembly.

Fig. 6 is the use view of the utility model bidirectional sliding rail assembly.

Fig. 7 is another use view of the utility model bidirectional sliding rail assembly.

Fig. 8 is the another use view of the utility model bidirectional sliding rail assembly.

Fig. 9 is the three-dimensional exploded view of another embodiment of the utility model bidirectional sliding rail assembly.

Figure 10 is the generalized section of another embodiment of the utility model bidirectional sliding rail assembly.

Figure 11 is the three-dimensional exploded view of the another embodiment of the utility model bidirectional sliding rail assembly.

In figure, 10 ... industrial computer rack

1 ... cabinet

11 ... accommodation space

12 ... the first opening

13 ... the second opening

14 ... frame

2 ... drawout chassis

3 ... bidirectional sliding rail assembly

31 ... the first slide rail part

311 ... slide rail

312 ... concave shape extension

313 ... sidewall

32 ... the second slide rail part

321 ... perforation

33 ... roller

331 ... screw rod

332 ... circle wheel

333 ... nut

34 ... first end

35 ... the second end

36 ... the 3rd end

37 ... the 4th end

38 ... groove

39 ... fluting

4 ... stopping element

41 ... the first stop part

411 ... the first fastener

412 ... the first shackle member

42 ... the second stop part

421 ... the second fastener

422 ... the second shackle member

5 ... extend slide rail part

51 ... extend frame

6 ... shell fragment

61 ... positioning convex portion

62 ... convex stretch section

7 ... draw-in groove

71 ... the saturating groove of convex

72 ... arrived tableting.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, so that those skilled in the art can better understand the utility model being implemented, but illustrated embodiment is not as to restriction of the present utility model.

Please refer to Fig. 1 to Fig. 8, the utility model provides a kind of industrial computer rack and bidirectional sliding rail structure thereof, this industrial computer rack 10 mainly comprises a cabinet 1, a drawout chassis 2 and a pair of bidirectional sliding rail structure, and each bidirectional sliding rail structure comprises two-way slide track component 3 and an at least one stopping element 4.

As shown in Figure 1, cabinet 1 has an accommodation space 11 and one first opening 12 and one second opening 13 that are communicated in accommodation space 11 relative both sides, and cabinet 1 has two frames 14 that are disposed at respectively accommodation space 11 both sides; In addition, drawout chassis 2 is arranged in accommodation space 11.Wherein, the quantity of drawout chassis 2 can be one or plural, and the quantity of relatively paired bidirectional sliding rail assembly 3 also can be one or plural, but not as restriction.

As shown in Figures 2 to 5, this is connected between the both sides of cabinet 1 and drawout chassis 2 to bidirectional sliding rail assembly 3, each bidirectional sliding rail assembly 3 comprises one first slide rail part 31, one second slide rail part 32 and at least one roller 33, the first slide rail part 31 selects one cabinet 1 and drawout chassis 2 is fixing, the second slide rail part 32 selects a last cabinet 1 and drawout chassis 2 is fixing, the first slide rail part 31 is provided with at least one slide rail 311, roller 33 is installed on the second slide rail part 32 and rotates along slide rail 311, so that the first slide rail part 31 and the second slide rail part 32 slide relative to one another, and then make drawout chassis 2 slide with respect to cabinet 1 and can select one first opening 12 and the second opening 13 extractions.

In addition, each first slide rail part 31 is extended with a concave shape extension 312 towards the second slide rail part 32 directions, and the side in concave shape extension 312 is formed with at least one sidewall 313, and slide rail 311 is formed on sidewall 313; Be described in detail as follows, the quantity of the slide rail 311 of the present embodiment is two, the quantity of concave shape extension 312 is two and presents upper and lower arrangement on the first slide rail part 31, and the side in each concave shape extension 312 is formed with a relative sidewall 313, the quantity of roller 33 is plural number, corresponding two sidewalls 313 of each roller 33 and with upper and lower row side by side and the mode that is spaced be installed on the second slide rail part 32.

Wherein, each first slide rail part 31 is fixed on drawout chassis 2, each second slide rail part 32 is fixed on frame 14, and the left and right end of each the first slide rail part 31 has respectively a first end 34 and one second end 35, and the left and right end of each the second slide rail part 32 has respectively one the 3rd end 36 and one the 4th end 37.

Moreover, each second slide rail part 32 is provided with at least one perforation 321, roller 33 comprises a screw rod 331, circle wheel 332 and one nut 333, circle wheel 332 is sheathed on screw rod 331, corresponding perforation 321 configurations of nut 333, the corresponding perforation 321 of end of screw rod 331 wears and nut 333 lockings, and roller 33 is fixed on the second slide rail part 32, and circle wheel 332 is connected to slide rail 311 also and slide rail 311 generations relatively move, and order circle wheel 332 is along slide rail 311 rotations.

In addition, each bidirectional sliding rail assembly 3 more comprises a prolongation slide rail part 5, extend slide rail part 5 tools separative two and extend frame 51, one extends frame 51 and is fixed on one frame 14, the two ends that another prolongation frame 51 is fixed on another frame 14, the second slide rail parts 32 are fixed on two prolongation framves 51 and are crossed between two prolongation framves 51.

As shown in Figures 2 to 4, this is connected between the first slide rail part 31 and the second slide rail part 32 to stopping element 4 and corresponding the first slide rail part 31 and the second slide rail part 32 backstop location.

Further illustrate as follows, each stopping element 4 comprises one first stop part 41 and one second stop part 42, the first stop part 41 includes one first fastener 411 and one first shackle member 412, the second stop part 42 includes one second fastener 421 and one second shackle member 422, the first fastener 411 and the second fastener 421 jointly select one the first slide rail part 31 and the second slide rail part 32 connects, the first shackle member 412 and the second shackle member 422 jointly select one first last slide rail part 31 and the second slide rail part 32 connects, the first fastener 411 and the first shackle member 412 be backstop location mutually, the second fastener 421 and the second shackle member 422 be backstop location mutually.

Wherein, the first fastener 411 is consisted of a shell fragment 6 that is arranged on first end 34, the draw-in groove 7 that the first shackle member 412 is offered by the 4th end 37 is formed, the second fastener 421 is consisted of a shell fragment 6 that is arranged on the second end 35, and the draw-in groove 7 that the second shackle member 422 is offered by the 3rd end 36 is formed.

In addition, 6 projections of one shell fragment have a positioning convex portion 61 and a convex stretch section 62, another shell fragment 6 only projection has a convex stretch section 62, the fluting 39 that the second slide rail part 32 is provided with a groove 38 of locating for positioning convex portion 61 and is installed with for convex stretch section 62, each draw-in groove 7 is the saturating groove 71 of a convex, an and left side for the saturating groove 71 of convex, right-hand member edge is extended with two arrived tabletings 72 towards the direction away from shell fragment 6, the ora terminalis of convex stretch section 62 can the saturating groove 71 of corresponding convex ora terminalis backstop location, and convex stretch section 62 can be compressed by arrived tableting 72, with guiding convex stretch section 62, can carry out more smoothly the start of shell fragment.

In addition, press positioning convex portion 61 and can drive convex stretch section 62 to depart from fluting 39, make convex stretch section 62 cannot with the mutual backstop of the saturating groove 71 of convex, and then allow the first slide rail part 31 skid off the second slide rail part 32, so that drawout chassis 2 is pulled out to cabinet 1.

The combination of the utility model bidirectional sliding rail structure, as shown in Figure 2 to Figure 3, it utilizes bidirectional sliding rail assembly 3 to comprise the first slide rail part 31, the second slide rail part 32 and roller 33, the first slide rail parts 31 and is provided with slide rail 311; Corresponding the first slide rail part 31 configurations of the second slide rail part 32; Roller 33 is installed on the second slide rail part 32 and rotates along slide rail 311, so that the first slide rail part 31 and the second slide rail part 32 slide relative to one another; Stopping element 4 is connected between the first slide rail part 31 and the second slide rail part 32 and corresponding the first slide rail part 31 and the second slide rail part 32 backstop location.

The combination of the utility model industrial computer rack 10, as shown in Figure 1 to Figure 3, it utilizes cabinet 1 to have accommodation space 11 and the first opening 12 and the second opening 13 that are communicated in accommodation space 11 relative both sides; Drawout chassis 2 is arranged in accommodation space 11; A pair of bidirectional sliding rail structure as above, this bidirectional sliding rail structure is connected between the both sides of cabinet 1 and drawout chassis 2, the first slide rail part 31 selects one cabinet 1 and drawout chassis 2 is fixing, the second slide rail part 32 selects a last cabinet 1 and drawout chassis 2 is fixing, and make drawout chassis 2 slide with respect to cabinet 1 and can select one first opening 12 and 13 extractions of this second opening.With this, roller 33 is installed on the second slide rail part 32 and rotates along slide rail 311, and make drawout chassis 2 slide with respect to cabinet 1 and can select one first opening 12 and the second opening 13 extractions, and roller 33 is stressed when excessive, drawout chassis 2 also can slide smooth and easy, to reach the ease of use that improves industrial computer rack 10.

The use state of the utility model industrial computer rack 10, as shown in Figure 6 to 8, roller 33 is installed on the second slide rail part 32 and rotates along slide rail 311, and make drawout chassis 2 slide with respect to cabinet 1 and can select one first opening 12 and the second opening 13 extractions, user the industrial computer equipment of contiguous the first opening 12 or the second opening 13 on drawout chassis 2 first can be taken out, the weight of bearing to alleviate drawout chassis 2, and then alleviate maintenance or the burden of readjusting operations, and then promote the ease of use of industrial computer rack 10.

In addition, because roller 33 comprises screw rod 331 and circle wheel 332, circle wheel 332 is sheathed on screw rod 331, under therefore drawout chassis 2 load-bearing are overweight, justify wheel 332 stressed larger time, circle wheel 332 still can rotate relative to screw rod 331, to maintain the rolling action of roller 33, and then the stability in use of reinforcement industrial computer rack 10.

Moreover, each stopping element 4 comprises the first stop part 41 and the second stop part 42, the first stop part 41 includes the first fastener 411 and the first shackle member 412, the second stop part 42 includes the second fastener 421 and the second shackle member 422, the first fastener 411 and the second fastener 421 jointly select one the first slide rail part 31 and the second slide rail part 32 connects, the first shackle member 412 and the second shackle member 422 jointly select one first last slide rail part 31 and the second slide rail part 32 connects, the first fastener 411 and the first shackle member 412 be backstop location mutually, the second fastener 421 and the second shackle member 422 be backstop location mutually, make drawout chassis 2 when the first opening 12 or the second opening 13 extraction, can prevent drawout chassis 2 pulls excessively or drawout chassis 2 be subject to weight traction and the situation that departs from cabinet 1 occurs, to reach the structural stability that increases industrial computer rack 10.

Further illustrate as follows, the left and right end of each the first slide rail part 31 has respectively first end 34 and the second end 35, the left and right end of each the second slide rail part 32 has respectively the 3rd end 36 and the 4th end 37, the first fastener 411 is consisted of the shell fragment 6 that is arranged on first end 34, the draw-in groove 7 that the first shackle member 412 is offered by the 4th end 37 is formed, the second fastener 421 is consisted of the shell fragment 6 that is arranged on the second end 35, and the draw-in groove 7 that the second shackle member 422 is offered by the 3rd end 36 is formed.

Again, each shell fragment 6 projection has convex stretch section 62, the second slide rail part 32 is provided with the fluting 39 being installed with for convex stretch section 62, each draw-in groove 7 is the saturating groove 71 of convex, and the left and right ora terminalis of the saturating groove 71 of convex is extended with arrived tableting 72 towards the direction away from shell fragment 6, the ora terminalis of convex stretch section 62 can the saturating groove 71 of corresponding convex ora terminalis backstop location, and convex stretch section 62 can be compressed by arrived tableting 72, with guiding convex stretch section 62, the start of shell fragment be can carry out more smoothly, and then backstop and the stationkeeping ability of stopping element 4 improved.

In addition, the quantity of slide rail 311 is two, each first slide rail part 31 is extended with two concave shape extensions 312 of upper and lower arrangement towards the second slide rail part 32 directions, and be formed with relative sidewall 313 in a side of each concave shape extension 312, each slide rail 311 is formed on each sidewall 313, the quantity of roller 33 is plural number, corresponding two sidewalls 313 of each roller 33 and with upper and lower row side by side and the mode that is spaced be installed on the second slide rail part 32, to allow each roller 33 average force and stressed even, and increase the slip effect between roller 33 and slide rail 311.

And, each bidirectional sliding rail assembly 3 more comprises prolongation slide rail part 5, extend slide rail part 5 tools separative two and extend frame 51, one extends frame 51 and is fixed on one frame 14, another extends frame 51 and is fixed on another frame 14, the two ends of the second slide rail part 32 are fixed on two prolongation framves 51 and are crossed between two prolongation framves 51, make bidirectional sliding rail assembly 3 can coordinate the cabinet 1 of various sizes to use, and allow between bidirectional sliding rail assembly 3 and cabinet 1 locking stable and stressed evenly, to reach bidirectional sliding rail assembly 3, there is the scope of application and well structural strength widely.

Please refer to shown in Fig. 9 to Figure 10, another embodiment of the utility model industrial computer rack 10, embodiment shown in the present embodiment and Fig. 1 to Fig. 8 is roughly the same, but the embodiment difference shown in the present embodiment and Fig. 1 to Fig. 8 is, the first slide rail part 31 and the second slide rail part 32 can oppositely be installed, and the structure of the first stop part 41 and the second stop part 42 also can optionally be adjusted.

Further illustrate as follows, each first slide rail part 31 is fixed on frame 14, and each second slide rail part 32 is fixed on drawout chassis 2; In addition, the two ends of the first slide rail part 31 can be fixed on two prolongation framves 51 and be crossed between two prolongation framves 51.

Moreover, the draw-in groove 7 that the first fastener 411 is offered by first end 34 forms, the first shackle member 412 is consisted of a shell fragment 6 that is arranged on the 4th end 37, the second fastener 421 is consisted of a shell fragment 6 that is arranged on the second end 35, and the draw-in groove 7 that the second shackle member 422 is offered by the 3rd end 36 is formed.

Wherein, each draw-in groove 7 is the saturating groove 71 of a convex, an and left side for the saturating groove 71 of convex, right-hand member edge is extended with two arrived tabletings 72 towards the direction away from shell fragment 6, 6 projections of one shell fragment have a positioning convex portion 61 and a convex stretch section 62, another shell fragment 6 only projection has a convex stretch section 62, the first slide rail part 31 and the second slide rail part 32 are provided with the fluting 39 being installed with for convex stretch section 62, the ora terminalis of convex stretch section 62 can the saturating groove 71 of corresponding convex ora terminalis backstop location, and convex stretch section 62 can be compressed by arrived tableting 72, with guiding convex stretch section 62, can carry out more smoothly the start of shell fragment.

In addition, the first slide rail part 31 is provided with the groove 38 for positioning convex portion 61 location, because pressing positioning convex portion 61, can drive convex stretch section 62 to depart from fluting 39, make convex stretch section 62 cannot with the mutual backstop of the saturating groove 71 of convex, and then allow the second slide rail part 32 skid off the first slide rail part 31, drawout chassis 2 is extracted out on cabinet 1 separated.

With this, although the first slide rail part 31 and the second slide rail part 32 of the present embodiment can oppositely be installed, and the structure of the first stop part 41 and the second stop part 42 also can optionally be adjusted, but its do not affect the utility model the effect wanting to reach, so the present embodiment possesses function and the effect identical with the embodiment shown in Fig. 1 to Fig. 8.

Please refer to shown in Figure 11, the another embodiment of the utility model industrial computer rack 10, embodiment shown in the present embodiment and Fig. 1 to Fig. 8 is roughly the same, but the embodiment difference shown in the present embodiment and Fig. 1 to Fig. 8 is, the structure of the first stop part 41 and the second stop part 42 also can optionally be adjusted.

Further illustrate as follows, the left and right end of the first slide rail part 31 has respectively first end 34 and the second end 35, the left and right end of the second slide rail part 32 has respectively the 3rd end 36 and the 4th end 37, the draw-in groove 7 that the first fastener 411 is offered by first end 34 forms, the first shackle member 412 is consisted of a shell fragment 6 that is arranged on the 4th end 37, the draw-in groove 7 that the second fastener 421 is offered by the second end 35 is formed, and the second shackle member 422 is consisted of a shell fragment 6 that is arranged on the 3rd end 36.

Wherein, each shell fragment 6 projections have a convex stretch section 62, the second slide rail part 32 is provided with the fluting 39 being installed with for convex stretch section 62, each draw-in groove 7 is the saturating groove 71 of a convex, and the left and right ora terminalis of the saturating groove 71 of convex is extended with two arrived tabletings 72 towards the direction away from shell fragment 6, the ora terminalis of convex stretch section 62 can the saturating groove 71 of corresponding convex ora terminalis backstop location, and convex stretch section 62 can compress by arrived tableting 72, to guide convex stretch section 62, can carry out more smoothly the start of shell fragment.With this, although the structure of the first stop part 41 and the second stop part 42 also can optionally adjust, its do not affect the utility model the effect wanting to reach, so the present embodiment possesses function and the effect identical with the embodiment shown in Fig. 1 to Fig. 8.

The above embodiment is only the preferred embodiment for absolutely proving that the utility model is lifted, and protection range of the present utility model is not limited to this.Being equal to that those skilled in the art do on the utility model basis substitutes or conversion, all within protection range of the present utility model.Protection range of the present utility model is as the criterion with claims.

Claims (16)

1. a bidirectional sliding rail structure, is characterized in that, comprising:

One two-way slide track component, comprises:

One first slide rail part, is provided with at least one slide rail;

One second slide rail part, to configuring by the first slide rail part; And

At least one roller, is installed on this second slide rail part and rotates along this slide rail, and this first slide rail part and this second slide rail part slide relative to one another; And

At least one stopping element, is connected between this first slide rail part and this second slide rail part and to should the first slide rail part and this second slide rail part backstop location.

2. bidirectional sliding rail structure as claimed in claim 1, it is characterized in that, wherein this second slide rail part is provided with at least one perforation, this roller comprises a screw rod, circle wheel and a nut, this circle wheel is sheathed on this screw rod, this nut is to the configuration of should boring a hole, and the end of this screw rod wears boring a hole and locks with this nut, and this circle wheel is connected to this slide rail and rotates along this slide rail.

3. bidirectional sliding rail structure as claimed in claim 1, it is characterized in that, wherein this first slide rail part is extended with a concave shape extension towards this second slide rail part direction, and is formed with at least one sidewall in a side of this concave shape extension, and this slide rail is formed on this sidewall.

4. bidirectional sliding rail structure as claimed in claim 1, it is characterized in that, wherein the quantity of slide rail is two, this the first slide rail part is extended with two concave shape extensions of upper and lower arrangement towards this second slide rail part direction, and be formed with a relative sidewall in a side of this concave shape extension respectively, respectively this slide rail is formed on respectively on this sidewall, and the quantity of roller is most, respectively this pair of rollers should two sidewalls and with upper and lower row side by side and the mode that is spaced be installed on this second slide rail part.

5. bidirectional sliding rail structure as claimed in claim 1, is characterized in that, wherein this stopping element comprises one first stop part and one second stop part;

This first stop part includes one first fastener and one first shackle member;

This second stop part includes one second fastener and one second shackle member;

This first slide rail part is connected with this first fastener and this second fastener respectively with one of them of this second slide rail part;

This first slide rail part and this second slide rail part another one are wherein connected with this first shackle member and this second shackle member respectively;

This first fastener and this first shackle member be backstop location mutually, and this second fastener and this second shackle member be backstop location mutually.

6. bidirectional sliding rail structure as claimed in claim 5, is characterized in that, wherein,

The left and right end of this first slide rail part has respectively a first end and one second end;

The left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end;

This first fastener is consisted of a shell fragment that is arranged on this first end, the draw-in groove that this first shackle member is offered by the 4th end is formed, this second fastener is consisted of a shell fragment that is arranged on this second end, and the draw-in groove that this second shackle member is offered by the 3rd end is formed.

7. bidirectional sliding rail structure as claimed in claim 6, it is characterized in that, wherein, respectively this shell fragment projection has a convex stretch section, this the first slide rail part is provided with the fluting being installed with for this convex stretch section, respectively this draw-in groove is the saturating groove of a convex, an and left side for the saturating groove of this convex, right-hand member edge is extended with two arrived tabletings towards the direction away from this shell fragment, the ora terminalis of this convex stretch section is to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting, at least this shell fragment projection of one has a positioning convex portion, this the first slide rail part is provided with the groove for this positioning convex portion location.

8. bidirectional sliding rail structure as claimed in claim 5, it is characterized in that, wherein the left and right end of this first slide rail part has respectively a first end and one second end, the left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end, the draw-in groove that this first fastener is offered by this first end is formed, this first shackle member is consisted of a shell fragment that is arranged on the 4th end, this second fastener is consisted of a shell fragment that is arranged on this second end, and the draw-in groove that this second shackle member is offered by the 3rd end is formed.

9. bidirectional sliding rail structure as claimed in claim 8, it is characterized in that, wherein respectively this draw-in groove is the saturating groove of a convex, an and left side for the saturating groove of this convex, right-hand member edge is extended with two arrived tabletings towards the direction away from this shell fragment, respectively this shell fragment projection has a convex stretch section, this the first slide rail part and this second slide rail part are provided with the fluting being installed with for this convex stretch section, the ora terminalis of this convex stretch section can be to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting, this shell fragment projection of one has a positioning convex portion, this the second slide rail part is provided with the groove for this positioning convex portion location.

10. bidirectional sliding rail structure as claimed in claim 5, it is characterized in that, wherein the left and right end of this first slide rail part has respectively a first end and one second end, the left and right end of this second slide rail part has respectively one the 3rd end and one the 4th end, the draw-in groove that this first fastener is offered by this first end is formed, this first shackle member is consisted of a shell fragment that is arranged on the 4th end, the draw-in groove that this second fastener is offered by this second end is formed, and this second shackle member is consisted of a shell fragment that is arranged on the 3rd end.

11. bidirectional sliding rail structures as claimed in claim 10, it is characterized in that, wherein respectively this shell fragment projection has a convex stretch section, this the second slide rail part is provided with the fluting being installed with for this convex stretch section, respectively this draw-in groove is the saturating groove of a convex, and the left and right ora terminalis of the saturating groove of this convex is extended with two arrived tabletings towards the direction away from this shell fragment, the ora terminalis of this convex stretch section can be to ora terminalis backstop location that should the saturating groove of convex, and this convex stretch section can be compressed by this arrived tableting.

12. 1 kinds of industrial computer racks, is characterized in that, comprising:

One cabinet, has an accommodation space and one first opening and one second opening that are communicated in these relative both sides of accommodation space;

One drawout chassis, is arranged in this accommodation space; And

A pair of bidirectional sliding rail structure as described in claim 1 to 11 any one, be connected between the both sides of this cabinet and this drawout chassis, one of them of this cabinet and this drawout chassis and this first slide rail part are fixed, another and this second slide rail part of this cabinet and this drawout chassis is fixed, and this drawout chassis slides and can extract out by this first opening or this second opening with respect to this cabinet.

13. industrial computer racks as claimed in claim 12, is characterized in that, wherein this cabinet has two frames that are disposed at respectively these accommodation space both sides, and respectively this first slide rail part is fixed on this drawout chassis, and respectively this second slide rail part is fixed on this frame.

14. industrial computer racks as claimed in claim 13, it is characterized in that, wherein each this bidirectional sliding rail assembly more comprises a prolongation slide rail part, this extends slide rail part tool separative two and extends frame, this prolongation frame of one is fixed on this frame of one, another this prolongation frame is fixed on another this frame, and the two ends of this second slide rail part are fixed on this two prolongation frame and are crossed between this two prolongations frame.

15. industrial computer racks as claimed in claim 12, is characterized in that, wherein this cabinet has at least two frames that are disposed at respectively these accommodation space both sides, and respectively this first slide rail part is fixed on this frame, and respectively this second slide rail part is fixed on this drawout chassis.

16. industrial computer racks as claimed in claim 15, it is characterized in that, wherein each this bidirectional sliding rail assembly more comprises a prolongation slide rail part, this extends slide rail part tool separative two and extends frame, this prolongation frame of one is fixed on this frame of one, another this prolongation frame is fixed on another this frame, and the two ends of this first slide rail part are fixed on this two prolongation frame and are crossed between this two prolongations frame.

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