CN201820165U - Rack server - Google Patents

Abstract

The utility model relates to a rack server comprising a cabinet, at least one case, at least one movable baffle and at least two elastic pieces, wherein the cabinet is provided with a plurality of sliding rails and two side frames opposite to each other; the sliding rails are arranged on the side frames and divide the cabinet into at least one module slot; the case is suitable for leaning against two opposite sides of the sliding rails and is arranged in the module slot in a sliding way; the movable baffle is arranged on the cabinet; and the elastic pieces are rotatably pivoted on the side frames and connected between two ends of the movable baffle and the side frames respectively. When the case is inserted into the module slot, the movable baffle rotates to the interior of the module slot and then is opened; and when the case is retreated from the module slot, the movable baffle covers the interior of the module slot. The rack server is better in radiating efficiency.

Description

The frame servomechanism

Technical field

The utility model relates to a kind of servomechanism (server), relates in particular to a kind of frame servomechanism (rack server).

Background technology

The development of computer servomechanism in recent years, the vertical type servomechanism that takes up space greatly again from traditional volume, develop into gradually that (U refers in particular to the thickness of rack servomechanism in the servomechanism field, 1U=4.445cm) main frame of height is placed the rack servomechanism (RackServer) of rack unified management with several 1U.

In general, motherboard in the rack servomechanism is to be mounted slidably in rack, based on this notion, can be with whole storage device servo-drive system (Storage Server) as being a big rack, but and the drawer of the storage device of a plurality of horizontal positioned can be installed in this rack.These drawers are provided with the motherboard that is connected with storage device, and for transmission signals, this motherboard is provided with a plurality of connectors, connect with another motherboard (or card extender) to make things convenient for motherboard, so as to increasing multiplex's property of servomechanism, reach the usefulness of high computing.

Yet, when the element on the drawer need be safeguarded or break down and need keep in repair the time, must earlier this drawer along continuous straight runs be hauled out in rack, and in maintenance good or replace another new element after, again this drawer is pushed in the rack.In this process, when this drawer is hauled out rack, can vacate a space in the rack, at this moment, from then on the hot-air at rack rear flow to the place ahead of rack in the space, and makes the temperature in rack the place ahead raise, and then influences the radiating effect in the integrating cabinet.Above-mentioned factor meeting disturbing flow flowing in rack, and then reduce the radiating efficiency of rack.Therefore, think deeply the problem that heat dissipation how to promote the frame servomechanism just becomes the required solution of related personnel.

The utility model content

The utility model provides a kind of frame servomechanism, and it has preferable radiating efficiency.

The utility model proposes a kind of frame servomechanism, it comprises a rack, at least one cabinet, at least one shifting board and at least two elastic components.Rack has a plurality of slide rails and dual side-edge frame respect to one another, and wherein slide rail is arranged on the side frame and with rack and is divided at least one module slot.Cabinet is suitable for the relative dual-side of breasting slide rail and is slidedly arranged in the module slot.Shifting board is disposed on the rack.Elastic component rotatably is hubbed on the side frame, and is connected between the side frame of the two ends of shifting board and rack.When cabinet was inserted in the module slot, shifting board was opened to the rotation of the inside of module slot.Cabinet withdraws from when the module slot, and shifting board hides module slot inside.

In an embodiment of the present utility model, above-mentioned shifting board comprises a turning axle and a catch, and elastic component connects the two ends and the side frame of turning axle, and catch connects turning axle.

In an embodiment of the present utility model, above-mentioned elastic component is fixed on the side frame.

In an embodiment of the present utility model, when above-mentioned cabinet is inserted in the module slot, one end of cabinet props up shifting board, so that shifting board rotates one first angle to the inside of module slot, and make elastic component produce the elastic deformation of reversing (twisting elastic deformation).

In an embodiment of the present utility model, the first above-mentioned angle is less than or equal to 90 degree.

In an embodiment of the present utility model, above-mentioned cabinet withdraws from when the module slot, and elastic component produces the restoring force that reverses, so that shifting board rotates one second angle to the outside of module slot, and the inside of covering module slot.

In an embodiment of the present utility model, the second above-mentioned angle is less than or equal to 90 degree.

In an embodiment of the present utility model, each above-mentioned elastic component is a torsionspring.

In an embodiment of the present utility model, above-mentioned cabinet comprises a base plate, a rear panel and pair of side plates.Side plate is arranged on the base plate in parallel with each other, and rear panel is connected between the side plate, to define a spatial accommodation.

In an embodiment of the present utility model, above-mentioned frame servomechanism also comprises at least one module of substituting, and is disposed in the spatial accommodation, be suitable for along the side plate of cabinet towards or move into or shift out cabinet away from rear panel.

Based on above-mentioned, owing to the utlity model has the structural design of shifting board, therefore when cabinet withdraws from the module slot of rack, shifting board can hide module slot inside, flow to rack the place ahead with the thermal current of avoiding the rack rear, change the air-flow of the rack of flowing through whereby, to improve the heat dissipation of frame servomechanism integral body.

For above-mentioned feature and advantage of the present utility model can be become apparent, embodiment cited below particularly, and cooperate institute's accompanying drawing to be described in detail below.

Description of drawings

Figure 1A is the synoptic diagram of a kind of frame servomechanism of an embodiment of the present utility model.

Figure 1B is depicted as the local enlarged diagram of the side frame relative position of the shifting board of Figure 1A and rack.

Fig. 1 C is depicted as the synoptic diagram of the shifting board covering module slot inside of Figure 1A.

Fig. 1 D is depicted as the local enlarged diagram of the side frame relative position of the shifting board of Fig. 1 C and rack.

The main element symbol description:

100: the frame servomechanism; 110: rack;

112: slide rail; 114: side frame;

116: the module slot; 120: cabinet;

122: base plate; 124: rear panel;

126: side plate; 128: spatial accommodation;

130: shifting board; 132: turning axle;

134: catch; 140: elastic component;

150: can substitute module; A1: first angle;

A2: second angle; L1, L2: the direction of arrow.

Embodiment

Figure 1A is the synoptic diagram of a kind of frame servomechanism of an embodiment of the present utility model.Figure 1B is depicted as the local enlarged diagram of the side frame relative position of the shifting board of Figure 1A and rack.Please also refer to Figure 1A and Figure 1B, in the present embodiment, frame servomechanism 100 comprises a rack 110, at least one cabinet 120, at least one shifting board 130 and at least two elastic components 140.

Specifically, rack 110 has a plurality of slide rails 112 and dual side-edge frame 114 respect to one another, and wherein slide rail 112 is arranged on the side frame 114 and with rack 110 and is divided at least one module slot 116.Cabinet 120 is suitable for the relative dual-side of breasting slide rail 112 and is slidedly arranged in the module slot 116.More particularly, cabinet 120 comprises a base plate 122, a rear panel 124 and pair of side plates 126, its latus inframedium 126 is arranged on the base plate 122 in parallel with each other, and rear panel 124 is connected between the side plate 126, and base plate 122, rear panel 124 and side plate 126 define a spatial accommodation 128.

Moreover the frame servomechanism 100 of present embodiment also comprises at least one module 150 of substituting, and wherein can substitute module 150 and be disposed in the spatial accommodation 128, be suitable for along the side plate 126 of cabinet 120 towards or move into or shift out cabinet 120 away from rear panel 124.Wherein, can substitute module for example is the combination of a main board module, a hard disk module or at least one main board module and at least one hard disk module, is not limited at this.

Particularly, the design with shifting board 130 of present embodiment, its mid frame servomechanism 100 can utilize the design of shifting board 130 to stop that the air-flow at rack 110 rears flows into rack 110 the place aheads, can promote integral heat sink usefulness.Specifically, shifting board 130 is disposed on the rack 110, and shifting board 130 comprises a turning axle 132 and a catch 134, and catch 134 connects turning axles 132.Elastic component 140 rotatably is hubbed on the side frame 114 of rack 110, and be connected between the side frame 114 of the two ends of turning axle 132 of shifting board 130 and rack 110, wherein elastic component 140 is to be fixed on the side frame 114, and each elastic component 140 for example is a torsionspring.

The course of work that below will be directed between cabinet 120 and the shifting board 130 explains.Please at the same time with reference to Figure 1A and Figure 1B, when cabinet 120 is inserted in the module slot 116 of rack 110 along a direction of arrow L1, one end of cabinet 120 (meaning is a rear panel 124) props up shifting board 130, so that shifting board 130 rotates one first angle a1 from the position that was flat shape side frame 114 originally to the inside of the module slot 116 of rack 110, and make elastic component 140 produce the elastic deformation of reversing (twisting elastic deformation).Wherein, the first angle a1 is less than or equal to 90 degree.At this moment, shifting board 130 is opened to the rotation of the inside of module slot 116, and meaning is that shifting board 130 can present parallel or intimate flat shape configuration with cabinet 120 in fact.

Fig. 1 C is depicted as the synoptic diagram of the shifting board covering module slot inside of Figure 1A.The local enlarged diagram of the side frame relative position of the shifting board of Fig. 1 C and rack shown in Fig. 1 D.Please also refer to Fig. 1 C and Fig. 1 D, when cabinet 120 withdraws from module slot 116 in rack 110 along a direction of arrow L2, elastic component 140 produces the restoring force that reverses, so that shifting board 130 rotates one second angle a2 by the configuration that presented parallel or intimate flat shape cabinet 120 originally to the outside of module slot 116, and the inside of covering module slot 116.Wherein, the second angle a1 is less than or equal to 90 degree.At this moment, shifting board 130 presents flat shape configuration with the side frame 114 of rack 110 in fact, to hide the inside of module slot 116.

In brief, the frame servomechanism 100 of present embodiment utilizes the design of shifting board 130 to form to stop the air-flow at rack 110 rears to flow into the place ahead of rack 110, wherein when cabinet 120 withdraws from rack 110, shifting board 130 is rotatable and hide module slot 116, so the air-flow at rack 110 rears can not flow into the place ahead of rack 110 because of withdrawing from of cabinet 120.In the time of in cabinet 120 is slidedly arranged on rack 110, shifting board 130 is opened to the rotation of the inside of module slot 116.Thus, can promote the heat dissipation of whole frame servomechanism 100 by the design of this shifting board 130.

In sum, owing to the utlity model has the structural design of shifting board, therefore when cabinet withdraws from the module slot of rack, shifting board can hide module slot inside, flow to rack the place ahead with the thermal current of avoiding the rack rear, change the air-flow of the rack of flowing through by this, to improve the heat dissipation of frame servomechanism integral body.

Though the utility model discloses as above with embodiment; but it is not in order to limit the utility model; any those skilled in the art; in not breaking away from spirit and scope of the present utility model; should do some suitable change and be equal to replacement, so protection domain of the present utility model should be as the criterion with the scope that claim was defined.

Claims (10)

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

One rack has a plurality of slide rails and dual side-edge frame respect to one another, and wherein those slide rails are arranged on those side frames and with this rack and are divided at least one module slot;

At least one cabinet is suitable for the relative dual-side of those slide rails of breasting and is slidedly arranged in this module slot;

At least one shifting board is disposed on this rack; And

At least two elastic components, rotatably be hubbed on those side frames, and be connected between those side frames of the two ends of this shifting board and this rack, when wherein this cabinet is inserted in this module slot, this shifting board is opened to the rotation of the inside of this module slot, this cabinet withdraws from when this module slot, and this shifting board hides this module slot inside.

2. frame servomechanism according to claim 1 is characterized in that, this shifting board comprises a turning axle and a catch, and those elastic components connect two ends and those side frames of this turning axle, and this catch connects this turning axle.

3. frame servomechanism according to claim 1 is characterized in that those elastic components are fixed on those side frames.

4. frame servomechanism according to claim 1, it is characterized in that when this cabinet was inserted in this module slot, an end of this cabinet propped up this shifting board, so that this shifting board rotates one first angle to the inside of this module slot, and make those elastic components produce the elastic deformation of reversing.

5. frame servomechanism according to claim 4 is characterized in that, this first angle is less than or equal to 90 degree.

6. frame servomechanism according to claim 1, it is characterized in that, this cabinet withdraws from when this module slot, and those elastic components produce the restoring force that reverses, so that this shifting board rotates one second angle and hides the inside of this module slot to the outside of this module slot.

7. frame servomechanism according to claim 6 is characterized in that, this second angle is less than or equal to 90 degree.

8. frame servomechanism according to claim 1 is characterized in that, respectively this elastic component is a torsionspring.

9. frame servomechanism according to claim 1 is characterized in that, this cabinet comprises:

One base plate;

One rear panel; And

Pair of side plates is arranged on this base plate in parallel with each other, and this rear panel is connected in this between the side plate, to define a spatial accommodation.

10. frame servomechanism according to claim 9 is characterized in that, also comprises at least one module of substituting, and is disposed in this spatial accommodation, be suitable for along this cabinet this to side plate towards or move into or shift out this cabinet away from this rear panel.

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