CN103398224B - A kind of structure for arranging wires - Google Patents

Abstract

The embodiment of the present application discloses a kind of structure for arranging wires, comprise the first fixed block, the second fixed block and chain, and chain by least two both-side openings and the chain link of hollow be spliced to form, one end of first fixed block is connected with one end of chain, and described one end of second fixed block is connected with the other end of chain; And, adjacent opening side between arbitrary neighborhood two chain links is flexibly connected by rotating shaft, cable is contained in the hollow space of chain formation by the space made full use of shared by chain link, improve the integration density of server, be beneficial to the position of planning cable, and avoid cable and server other form touch interior, collide the potential safety hazard produced.And the backboard of adjacent two described chain links is positioned at the same side, when chain is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links of chain side, the rotation angle controlling two described chain links is limited within the scope of 180 degree, avoid the rotation of two adjacent unordered confusions of chain link, make the movement locus of chain controlled.

Description

A kind of structure for arranging wires

Technical field

The present invention relates to electronic technology field, be specifically related to a kind of structure for arranging wires.

Background technique

During server correlation technique realizes, support that live inserting and pulling is the important need of improving performance of server.Live inserting and pulling is warm swap, the function realized is for allowing user in not shutdown system, non-interrupting service and when need not cut off the electricity supply, take out and change the hardware devices such as hard disk, power supply or the board damaged, thus improve system to the timely recovery capability of disaster, expansivity and flexibility, the inrush current excessive impact etc. to hardware device when can also reduce switching on and shutting down.Wherein, in hot plug technology, to need by structure for arranging wires by cable parcel or be fixed up, rub with other in hot plug process to avoid cable, collide and consequently damage cable.

Existing structure for arranging wires is in turn connected to form travel(l)ing rest for utilizing multiple X-type chain link, using the main body as structure for arranging wires, wherein the center of X-type chain link arranges rotating shaft, can change to make the angle of travel(l)ing rest X-type chain link when being subject to external force, and then pass through the length of the Angulation changes travel(l)ing rest changing X-type chain link, thus change the moving direction of the cable of colligation on travel(l)ing rest, realize the stretching of cable.The space that X-type chain link in this structure for arranging wires takies is comparatively large, and then reduces the level of integration of wire cable layout.

Summary of the invention

The embodiment of the present application provides a kind of structure for arranging wires, improves the integration density of server, realizes the movement locus controllability of structure for arranging wires.

First aspect, a kind of structure for arranging wires that the embodiment of the present application provides, comprise the first fixed block 110, second fixed block 120 and chain 130, and described chain 130 by least two both-side openings and the chain link 140 of hollow be spliced to form, one end of described first fixed block 110 is connected with one end 130a of described chain 130, and one end of described second fixed block 120 is connected with the other end 130b of described chain 130; And the adjacent opening side between arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft;

When described chain 130 is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links 140 of described chain 130 side.

Based on first aspect, in the implementation that the first is possible, described both-side opening and the chain link 140 of hollow comprise:

Top board 141, the base plate 142 relative with described top board 141, backboard 143 and the header board 144 relative with described backboard 143, described top board 141, backboard 143, base plate 142 and header board 144 form the chain link 140 of a both-side opening and hollow.

Based on the first possible implementation of first aspect, in the implementation that the second is possible, the adjacent opening side between described arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft and comprises:

In adjacent opening side between described arbitrary neighborhood two chain links 140, an opening side is flexibly connected by the hole of rotating shaft with another opening side.

Based on the third possible implementation of first aspect, in the implementation that the third is possible, described top board 141, described backboard 143, described base plate 142 and described header board 144 form a both-side opening and the chain link 140 of hollow comprises:

The first side wall 141a of described top board 141 is sidelines that described top board 141 is connected with described backboard 143, the first side wall 142a of described base plate 142 is sidelines that described backboard 143 is connected with described base plate 142, second sidewall 141b of described top board 141 is sidelines that described top board 141 is connected with described header board 144, second sidewall 142b of described base plate 142 is sidelines that described header board 144 is connected with described base plate 142, wherein, the described the first side wall 141a of described top board 141 is relative with the described second sidewall 141b of described top board 141, the described the first side wall 142a of described base plate 142 is relative with the described second sidewall 142b of described base plate 142, the described 3rd sidewall 141c of described top board 141 is relative with the described 4th sidewall 141d of described top board 141, the described 3rd sidewall 142c of described base plate 142 is relative with the described 4th sidewall 142d of described base plate 142, the described 3rd sidewall 141c of described the top board 141 and described 3rd sidewall 142c of described base plate 142 is positioned at an opening side of described chain link 140, the described 4th sidewall 141d of described the top board 141 and described 4th sidewall 142d of described base plate 142 is positioned at another opening side of described chain link 140, to form the chain link 140 of a both-side opening and hollow.

Based on the third possible implementation of first aspect, in the 4th kind of possible implementation, described top board 141 also comprises: the described 3rd sidewall 141c of described top board 141 is along formation first extension part 171 that stretches out perpendicular to the direction of the described 3rd sidewall 141c of top board 141, and the upper surface of described first extension part 171 is provided with the first rotating shaft 175 of vertically described first extension part 171;

Described base plate 142 also comprises: the described 3rd sidewall 142c of described base plate 142 is along formation the 3rd extension part 173 that stretches out perpendicular to the direction of the described 3rd sidewall 142c of described base plate 142, and the lower surface of described 3rd extension part 173 is provided with perpendicular to described 3rd extension part 173 and second rotating shaft 176 coaxial with described first rotating shaft 175;

Described top board 141 also comprises: the described 4th sidewall 141d of described top board 141 is along formation second extension part 172 that stretches out perpendicular to the direction of the described 4th sidewall 141d of described top board 141, and described second extension part 172 is provided with the first through hole 177;

Described base plate 142 also comprises: the described 4th sidewall 142d of described base plate 142 is along formation the 4th extension part 174 that stretches out perpendicular to the direction of the described 4th sidewall 142d of described base plate 142, and described 4th extension part 174 is provided with second through hole 178 coaxial with described first through hole 177;

Wherein, described first rotating shaft 175 and described second rotating shaft 176 are positioned at an opening side of described chain link 140, and described first through hole 177 and described second through hole 178 are positioned at another opening side of described chain link 140;

One opening side of the adjacent opening side between described arbitrary neighborhood two chain links 140 by rotating shaft and another opening side hole be flexibly connected and comprise:

Described first rotating shaft 175 of a chain link 140 in the described chain link 140 of described arbitrary neighborhood two is adjacent with the opening side at the opening side at described second rotating shaft 176 place and described first through hole 177 of another chain link 140 and described second through hole 178 place, described first rotating shaft 175 of a chain link 140 between described arbitrary neighborhood two chain links 140 and described second rotating shaft 176 are each passed through described first through hole 177 of another link 140 and described second through hole 178, with make an opening side of the adjacent opening side between described arbitrary neighborhood two chain links 140 by rotating shaft and another opening side hole be flexibly connected.

Based on the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, described header board 144 also comprises:

Described header board 144 is provided with breach 180.

Based on the 5th kind of possible implementation of first aspect, in the 6th kind of possible implementation, the top edge 180a of described breach 180 tiltedly extends the first swash plate 181 to the lower limb 180b of described breach 180, and described first swash plate 181 is positioned at the hollow space of described chain link 140.

Based on the 5th kind of possible implementation of first aspect, in the 7th kind of possible implementation, the lower limb 180b of described breach 180 tiltedly extends the second swash plate to the top edge 180a of described breach 180, and described second swash plate is positioned at the hollow space of described chain link 140.

Based on the first possible implementation of first aspect to any one the possible implementation in the 7th kind of possible implementation, in the 8th kind of possible implementation, described first fixed block 110 also comprises: the other end of described first fixed block 110 arranges the first clamping mechanism.

Based on the 8th kind of possible implementation of first aspect, in the 9th kind of possible implementation, described second fixed block 120 also comprises: the other end of described second fixed block 120 arranges the second clamping mechanism.

Based on the 9th kind of possible implementation of first aspect, in the tenth kind of possible implementation, described structure for arranging wires also comprises: the second fixed block 120 is fixedly attached to the hot-plug construction of server, first fixed block 110 is fixing on the server, is positioned at the point midway of hot-plug construction stroke on server.

The present embodiment achieves a kind of structure for arranging wires, comprise the first fixed block 110, second fixed block 120 and chain 130, and described chain 130 by least two both-side openings and the chain link 140 of hollow be spliced to form, one end of described first fixed block 110 is connected with one end 130a of described chain 130, and one end of described second fixed block 120 is connected with the other end 130b of described chain 130; And, adjacent opening side between arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft, cable is contained in the hollow space of described chain formation by the space made full use of shared by chain link 140, improve the integration density of server, stop the placement that cable is unordered in a jumble, be beneficial to the position of planning cable, cable is avoided to expose and other form touch, collision in server, the phenomenon that causes the working life of cable low occurs, and reduce cable with server other form touch interior, collide the potential safety hazard produced.And the backboard 143 of described adjacent two described chain links 140 is positioned at the same side, when described chain 130 is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links 140 of described chain 130 side, stop relatively rotating to make described two adjacent described chain links 140, the rotation angle then controlling two described chain links 140 is limited within the scope of 180 degree, avoid the rotation of two adjacent unordered confusions of chain link 140, make the movement locus of chain controlled, be beneficial to the rational deployment of structure for arranging wires, and then improve the integration density of server, and the controlled potential safety hazard can avoiding causing with other structural frictions in server or collision or knotting of movement locus.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technological scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

A kind of structure for arranging wires structural drawing that Fig. 1 a provides for the embodiment of the present invention;

The link configuration schematic diagram that Fig. 1 b provides for the embodiment of the present invention;

Another visual direction structural representation of the chain link that Fig. 1 c provides for the embodiment of the present invention;

The cooperation schematic diagram of the adjacent link that Fig. 1 d provides for the embodiment of the present invention;

Extreme angles schematic diagram during the adjacent link rotation that Fig. 1 e provides for the embodiment of the present invention;

The application schematic diagram of the structure for arranging wires that Fig. 1 f provides for the embodiment of the present invention;

The structure for arranging wires motion schematic diagram that Fig. 1 g provides for the embodiment of the present invention;

The structural drawing of a kind of first fixed block that Fig. 2 a provides for the embodiment of the present invention;

The structural drawing of a kind of second fixed block that Fig. 2 b provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technological scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

Refer to Fig. 1 a to Fig. 1 g, a kind of structure for arranging wires structural drawing that Fig. 1 a provides for the embodiment of the present invention; The link configuration schematic diagram that Fig. 1 b provides for the embodiment of the present invention; Another visual direction structural representation of the chain link that Fig. 1 c provides for the embodiment of the present invention; The cooperation schematic diagram of the adjacent link that Fig. 1 d provides for the embodiment of the present invention; Extreme angles schematic diagram during the adjacent link rotation that Fig. 1 e provides for the embodiment of the present invention; The application schematic diagram of the structure for arranging wires that Fig. 1 f provides for the embodiment of the present invention; The structure for arranging wires motion schematic diagram that Fig. 1 g provides for the embodiment of the present invention.As shown in Figure 1a, the structure for arranging wires that the present embodiment provides comprises the first fixed block 110, second fixed block 120 and chain 130, and chain 130 by least two both-side openings and the chain link 140 of hollow be spliced to form, one end of first fixed block 110 is connected with one end 130a of chain 130, and one end of the second fixed block 120 is connected with the other end 130b of chain 130; And the adjacent opening side between arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft, when chain 130 is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links 140 of chain 130 side.

During specific implementation, chain 130 comprises at least two chain links 140 as shown in Fig. 1 b or Fig. 1 c, as shown in Figure 1 b with shown in Fig. 1 c, each chain link 140 comprises chain link first end 150 and chain link second end 160, wherein chain link first end 150 is the opening side 150 in the both-side opening of chain link 140, and chain link second end 160 is another opening side 160 in the both-side opening of chain link 140.As shown in Figure 1a, the chain link first end 150 of a chain link 140 in two chain links 140 adjacent in chain 130 is connected with chain link second end 160 of another chain link, with the part making the chain link 140 of two both-side openings and hollow be spliced to form chain 130, and then at least two chain links 140 are made to be spliced to form chain 130 successively.And first one end of fixed block 110 be connected with one end 130a of chain 130, one end of the second fixed block 120 is connected with the other end 130b of chain 130, forms the structure for arranging wires that the present embodiment provides.If the chain link first end 150 being positioned at the chain link 140 of one end 130a of chain 130 is in not-connected status, chain link second end 160 being then positioned at the chain link 140 of the other end 130b of chain 130 can be in not-connected status, the chain link first end 150 being positioned at the chain link 140 of one end 130a of chain 130 is connected with one end of the first fixed block 110, and chain link second end 160 being positioned at the chain link 140 of the other end 130b of chain 130 is connected with the second fixed block 120.

Specifically as shown in fig. 1b and fig. lc, in the present embodiment, both-side opening and the chain link 140 of hollow comprises top board 141, the base plate 142 relative with top board 141, backboard 143 and the header board 144 relative with backboard 143, top board 141, backboard 143, base plate 142 and header board 144 form the chain link 140 of a both-side opening and hollow.

As the optional mode of execution of one, the adjacent opening side between arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft and comprises:

In adjacent opening side between arbitrary neighborhood two chain links 140, an opening side is flexibly connected by the hole of rotating shaft with another opening side.Namely an opening side of a chain link 140 of arbitrary neighborhood two chain links 140 arranges axle, the opening side providing holes of another chain link 140 adjacent with the opening side arranging axle of this chain link 140, is connected by rotating shaft with the adjacent opening side realized between adjacent two chain links 140.

As the optional mode of execution of one, two opening side of the first chain link in two adjacent chain links can arrange axle respectively, two opening side be connected in another chain link of the first chain link can distinguish providing holes, the opening side arranging axle by the first chain link is connected to the opening side of another chain link providing holes, realizes adjacent link and is flexibly connected by rotating shaft.

As the optional mode of execution of one, two opening side of the first chain link in two adjacent chain links can arrange axle respectively, be connected to an opening side providing holes of two opening side in another chain link of the first chain link, another opening side arranges axle, the opening side arranging axle by the first chain link is connected to the opening side of another chain link providing holes, realizes adjacent link and is flexibly connected by rotating shaft.

As the optional mode of execution of one, two opening side of the first chain link in two adjacent chain links can distinguish providing holes, be connected to an opening side providing holes of two opening side of another chain link of the first chain link, another opening side arranges axle, be connected to another by the opening side of the first chain link providing holes and be connected to the opening side that axle is set, realize adjacent link and be flexibly connected by rotating shaft.

As the optional mode of execution of one, the opening side 150 in two opening side of chain link 140 can arrange axle, and another opening side 160 can providing holes.In another chain link 140 be connected with this chain link 140, an opening side 150 can arrange axle, another opening side 160 can arrange emptying aperture, the opening side 150 arranging axle by a chain link 140 is connected to an opening side 160 of another chain link 140 providing holes, realizes adjacent link 140 and is flexibly connected by rotating shaft.

As the optional mode of execution of one, top board 141, backboard 143, base plate 142 and header board 144 form a both-side opening and the chain link 140 of hollow comprises:

The first side wall 141a of described top board 141 is sidelines that described top board 141 is connected with described backboard 143, the first side wall 142a of described base plate 142 is sidelines that described backboard 143 is connected with described base plate 142, second sidewall 141b of described top board 141 is sidelines that described top board 141 is connected with described header board 144, second sidewall 142b of described base plate 142 is sidelines that described header board 144 is connected with described base plate 142, wherein, the first side wall 141a of top board 141 is relative with the second sidewall 141b of top board 141, the first side wall 142a of base plate 142 is relative with the second sidewall 142b of base plate 142, 3rd sidewall 141c of top board 141 is relative with the 4th sidewall 141d of top board 141, 3rd sidewall 142c of base plate 142 is relative with the 4th sidewall 142d of base plate 142, 3rd sidewall 141c of top board 141 and the 3rd sidewall 142c of base plate 142 is positioned at an opening side of chain link 140, 4th sidewall 141d of top board 141 and the 4th sidewall 142d of base plate 142 is positioned at another opening side of chain link 140, to form the chain link 140 of a both-side opening and hollow.

In the present embodiment, base plate 142 to be positioned at below top board 141 and parallel with top board 141, and header board 144 is parallel with backboard 143, and perpendicular to top board 141 and base plate 142.In the present embodiment as shown in Fig. 1 a and Fig. 1 d, in chain 130, the backboard 143 of two chain links 140 of arbitrary neighborhood is positioned at the same side.

As the optional mode of execution of one, top board 141 also comprises: the 3rd sidewall 141c of top board 141 is provided with the first rotating shaft 175 of vertical first extension part 171 along the upper surface of formation first extension part 171, first extension part 171 that stretches out perpendicular to the direction of the 3rd sidewall 141c of top board 141.

And, base plate 142 also comprises: the 3rd sidewall 142c of base plate 142 is provided with perpendicular to the 3rd extension part 173 and second rotating shaft 176 coaxial with the first rotating shaft 175 along the lower surface of formation the 3rd extension part the 173, three extension part 173 that stretches out perpendicular to the direction of the 3rd sidewall 142c of base plate 142.

And top board 141 also comprises: the 4th sidewall 141d of top board 141 is provided with the first through hole 177 along formation second extension part 172, second extension part 172 that stretches out perpendicular to the direction of the 4th sidewall 141d of top board 141.

And base plate 142 also comprises: the 4th sidewall 142d of base plate 142 is provided with second through hole 178 coaxial with the first through hole 177 along formation the 4th extension part the 174, four extension part 174 that stretches out perpendicular to the direction of the 4th sidewall 142d of base plate 142.

Wherein, the first rotating shaft 175 and the second rotating shaft 176 are positioned at another opening side 160 that opening side 150, first through hole 177 of chain link 140 and the second through hole 178 are positioned at chain link 140.

In the present embodiment, the upper surface of the first extension part 171 is lower than the upper surface of top board 141, the lower surface of the second extension part 172 is higher than the lower surface of top board 141, and the 3rd the lower surface of extension part 173 higher than the lower surface of base plate 142, the upper surface of the 4th extension part 174 is lower than the upper surface of base plate 142.

As shown in Figure 1 d, in the present embodiment, the first extension part 171 with the first rotating shaft 175 and the 3rd extension part 173 with the second rotating shaft 176 form the chain link first end 150 of chain link 140, an i.e. opening side 150 of chain link 140, wherein, the second rotating shaft 176 is not because angle display is shown in Fig. 1 d, and specific implementation can see Fig. 1 c, and the mark of also not shown second rotating shaft 176 in Fig. 1 d, specifically also can see Fig. 1 c.And, in the present embodiment, the second extension part 172 forming the first through hole 177 and the 4th extension part 174 forming the second through hole 178 form chain link second end 160 of chain link 140, i.e. another opening side 160 of chain link 140, wherein, the second through hole 178 is not because angle display is shown in Fig. 1 d, and specific implementation can see Fig. 1 b, and the mark of also not shown second through hole 178 in Fig. 1 d, specifically also can see Fig. 1 b.Therefore, the connecting method of arbitrary neighborhood two chain links 140 is chain link second end 160 that the chain link first end 150 of a chain link 140 is connected to another chain link 140, namely the first rotating shaft 175, second rotating shaft 176 of the chain link first end 150 of one of them chain link 140 is each passed through the first through hole 177 and the second through hole 178 of chain link second end 160 of another chain link 140, to form the structure for arranging wires that the present embodiment provides.When chain 130 is straightened, the neighboring edge contact of the backboard 143 of adjacent two chain links 140.First through hole 177 of the first rotating shaft 175 of a chain link 140 namely in arbitrary neighborhood two chain links 140 and the opening side at the second rotating shaft 176 place and another chain link 140 is adjacent with the opening side at the second through hole 178 place, first rotating shaft 175 of a chain link 140 between arbitrary neighborhood two chain links 140 and the second rotating shaft 176 are each passed through the first through hole 177 and the second through hole 178 of another link 140, with make an opening side of the adjacent opening side between arbitrary neighborhood two chain links 140 by rotating shaft and another opening side hole activity connect joint.

In the present embodiment, the chain link first end 150 being positioned at the chain link 140 of one end 130a of chain 130 is in not-connected status, chain link second end 160 being positioned at the chain link 140 of the other end 130b of chain 130 is in unused state, the concrete mode that the chain link first end 150 being then positioned at the chain link 140 of one end 130a of chain 130 is connected with one end of the first fixed block 110 is the first via hole 111 and the second via hole 112 that the first rotating shaft 175 of the chain link first end 150 of the chain link 140 of one end 130a being positioned at chain 130 and the second rotating shaft 176 are each passed through the first fixed block 110, the structure of concrete first fixed block 110 can refer to Fig. 2 a.And the concrete mode that is connected with one end of the second fixed block 120 of chain link second end 160 of chain link 140 of the other end 130b being positioned at chain 130 is that the first through hole 177 of chain link second end 160 of the chain link 140 of the other end 130b being positioned at chain 130 and the second through hole 178 are passed by the rotating shaft 121 of the second fixed block 120 respectively, the structure of concrete second fixed block 120 can refer to Fig. 2 b.Wherein, as shown in Figure 2 b, the rotating shaft 121 of the second fixed block 120 can be two rotating shafts 121 being each passed through the first through hole 177 and the second through hole 178, in other embodiments, the rotating shaft 121 of the second fixed block 120 also can one simultaneously through the rotating shaft of the first through hole 177 and the second through hole 178, to connect the first through hole 177 and the second through hole 178, specific implementation form is not by the restriction of the present embodiment.

In the present embodiment, as shown in fig. 1b and fig. lc, the lower surface of the first extension part 171 and the lower surface of top board 141 maintain an equal level, the upper surface of the second extension part 172 and the upper surface of top board 141 maintain an equal level, and the upper surface of the first extension part 171 is identical with the height of the lower surface of upper surface to the second extension part 172 of the second extension part 172 to the height of the upper surface of top board 141.And, the upper surface of the 3rd extension part 173 and the upper surface of base plate 142 maintain an equal level, the lower surface of the 4th extension part 174 and the lower surface of base plate 142 maintain an equal level, and the lower surface of the 3rd extension part 173 is identical to the height of the upper surface of base plate 142 with the upper surface of the 4th extension part 174 to the height of the lower surface of base plate 142.In the present embodiment, the length of the first side wall 141a of top board 141 is greater than the length of the second sidewall, the length of the first side wall 142a of base plate 142 is greater than the length of the second sidewall, and the length of the first side wall 141a of top board 141 is identical with the length of the first side wall 142a of base plate 142, the length of the second sidewall 141b of top board 141 is identical with the length of the second sidewall 142b of base plate 142.

In the present embodiment, the length setting of the first side wall 141a of top board 141 and the first side wall 142a of base plate 142 suitably then can ensure the stability of structure for arranging wires, the length of the second sidewall 141b of top board 141 and the second sidewall 142b of base plate 142 is less than the length of the first side wall 141a of top board 141 and the first side wall 142a of base plate 142, then can ensure the flexible rotating of structure for arranging wires, and when the second sidewall of adjacent two chain links 140 rotate in opposite directions cause the second sidewall 141b of the top board 141 of two adjacent chain links 140 to contact time, two adjacent chain links 140 are then stoped to rotate in opposite directions, to control the rotation angle of chain link 140, and then the movement locus of chain 130 can be controlled.Specifically as shown in fig. le, Fig. 1 e shows extreme angles when adjacent two chain links 140 rotate in opposite directions, namely extreme angles when adjacent two chain links 140 rotate in opposite directions is formed when the side edge of the second sidewall 141b of the top board 141 of adjacent two chain links 140 is touched, and can be decided the size of extreme angles when adjacent two chain links 140 rotate in opposite directions by the length of the second sidewall 141b and the first side wall 141a that determine top board 141.Or in other embodiments, the size of extreme angles when adjacent two chain links 140 rotate in opposite directions can be decided by the length of the second sidewall 142b and the first side wall 142a that determine base plate 142, stop bit design principle is similar with the present embodiment, specifically repeats no more.Or in other embodiments, while determining the second sidewall 141b of top board 141 and the length of the first side wall 141a, determine that the second sidewall 142b of base plate 142 and the length of the first side wall 142a are to decide the size of extreme angles when adjacent two chain links 140 rotate in opposite directions, stop bit design principle is similar with the present embodiment, specifically repeats no more.

In the present embodiment, as shown in Figure 1a, between every two chain links 140, the structure stop bit design realized by the length of the first side wall 141a and the second sidewall that set top board 141, what ensure that adjacent chain link 140 relatively rotates angle (such as 30 degree) in an angular range.Namely as structure for arranging wires one end is fixed on server, namely the second fixed block 120 is fixed on the position of server hot-plug construction, its direction and the first fixed block 110 one-tenth 180 °, when the second fixed block 120 movement under force, can realize the controllability of the movement locus of cable.

And in the present embodiment, the distance of the first rotating shaft 175 to the first through hole 177, and second the distance of rotating shaft 176 to the second through hole 178 be the effective length of chain link 140, the effective length of chain link 140 cannot be too short, too short, cause splicing difficulty when splicing chain link 140 larger, if the effective length of chain link 140 is oversize, rotate dumb, therefore the effective length of chain link 140 can be the arbitrary numerical value in 15mm to 30mm, in the present embodiment, the significant degree of link is set to 22mm, in other embodiments, the effective length of chain link 140 can be 15mm, or 30mm, or 25mm, the way of realization of effective length of concrete chain link 140 is not by the restriction of the present embodiment.

As the optional mode of execution of one, as shown in fig. 1b and fig. lc, header board 144 is provided with breach 180, and the top edge 180a of breach 180 tiltedly extends the first swash plate 181, first swash plate 181 to the lower limb 180b of breach 180 and is positioned at the space that chain link 140 formed.Arrange breach 180 cable to be put in the structure for arranging wires spliced, while noting be used in splicing chain link 140, cable is passed chain link 140, improve the application flexibility of structure for arranging wires.And arranging of the first swash plate 181 can stop cable to drop out, while the application flexibility improving structure for arranging wires, improve the practicability of structure for arranging wires.

Refer to Fig. 1 f, what Fig. 1 f showed structure for arranging wires that the present embodiment provides and cable coordinates schematic diagram.As shown in Figure 1 f, cable, through the space of this structure for arranging wires inside, moves along with the motion of structure for arranging wires.Second fixed block 120 of structure for arranging wires is fixed on the server hot-plug construction that server needs live inserting and pulling, and the first fixed block 110 is fixed on server.When server needs the structure motion of live inserting and pulling, second fixed block 120 can move thereupon, first fixed block 110 is fixed, cable then moves with structure for arranging wires, the structure stop bit realized by the first side wall 141a of setting top board 141 and the length of the second sidewall 141b between every two chain links 140 is designed, not only can realize the controllability of the movement locus of cable, what ensure that adjacent chain link 140 relatively rotates angle (such as 30 degree) in an angular range, the hot-plug construction of Deterministic service device keeps computing in swapping process, the functions such as storage, namely the live inserting and pulling of mechanism is realized.

Refer to Fig. 1 g, Fig. 1 g shows the movement locus of structure for arranging wires in hot plug process that the present embodiment provides.As shown in Figure 1 g, second fixed block 120 is fixedly attached to the hot-plug construction of server, first fixed block 110 is fixing on the server, be positioned at the point midway of hot-plug construction stroke on server, then the length of cable is about 50% of hot-plug construction motion parts pull-out stroke, during initial position, the first fixed block 110 is on the right of the second fixed block 120, second fixed block 120 is drawn out along with hot-plug construction, pull-out length is a half of hot-plug construction stroke, the aligned in position that the position at the first fixed block 110 place and the second fixed block 120 are in, when the second fixed block 120 is completely pulled out of along with hot-plug construction, second fixed block 120 is on the right of the first fixed block 110.

As the optional mode of execution of one, the material of the first swash plate is elastic material.

As the optional mode of execution of one, in other embodiments, header board 144 is provided with breach, and the lower limb of breach tiltedly extends the second swash plate to the top edge of breach, and the second swash plate is positioned at the space that chain link 140 is formed.

As the optional mode of execution of one, the material of the second swash plate is elastic material.

As the optional mode of execution of one, refer to Fig. 2 a, the structural drawing of a kind of first fixed block that Fig. 2 a provides for the embodiment of the present invention, as shown in Figure 2 a, the first fixed block 110 also comprises: the other end of the first fixed block 110 arranges the first clamping mechanism 113.

As the optional mode of execution of one, refer to Fig. 2 b, the structural drawing of a kind of second fixed block that Fig. 2 b provides for the embodiment of the present invention.As shown in Figure 2 b, the second fixed block 120 also comprises: the other end of the second fixed block 120 arranges the second clamping mechanism 122.In the present embodiment, the Main Function of the first fixed block 110 and the second fixed block 120 is fixing chains 130, and structure for arranging wires is fixed to the fixed structure place of hot-plug construction and server.Wherein, the first fixed block 110 is the same with the fixation principle of the second fixed block 120, and fixed-direction can be different, mainly see reason line application scenarios and determine.In the present embodiment, first fixed block 110 is connected by the first rotating shaft 175 of the first via hole 111 and the second via hole 112 and the chain link 140 of the end 130a of chain 130 and the second rotating shaft 176, and the second fixed block 120 is connected by the first through hole 177 of the rotating shaft 121 of himself and the chain link 140 of the other end 130b of chain 130 and the second through hole 178.First fixed block 110 also needs the fixed structure place being fixed to server by the clamping mechanism of himself simultaneously, then the second fixed block 120 needs to be fixed to hot-plug construction place by the clamping mechanism of himself, or in other embodiments, first fixed block 110 is fixed to hot-plug construction place by the clamping mechanism of himself, then the second fixed block 120 needs the fixed structure place being fixed to server by the clamping mechanism of himself, and the connecting object of concrete first fixed block 110 and the second fixed block 120 is not by the restriction of the present embodiment.Wherein, the clamping mechanism of the first fixed block 110 and the clamping mechanism of the second fixed block 120 are screw, in other embodiments, the clamping mechanism 110 of the first fixed block 110 and the clamping mechanism of the second fixed block 120 can be the clamping mechanisms of screw, rivet or other types, specifically not by the restriction of the present embodiment.

In sum, the present embodiment achieves a kind of structure for arranging wires, comprise the first fixed block 110, second fixed block 120 and chain 130, and described chain 130 by least two both-side openings and the chain link 140 of hollow be spliced to form, one end of described first fixed block 110 is connected with one end 130a of described chain 130, and one end of described second fixed block 120 is connected with the other end 130b of described chain 130; And, adjacent opening side between arbitrary neighborhood two chain links 140 is flexibly connected by rotating shaft, cable is contained in the hollow space of described chain formation by the space made full use of shared by chain link 140, improve the integration density of server, stop the placement that cable is unordered in a jumble, be beneficial to the position of planning cable, avoid the phenomenon that cable exposes and in server, other structural frictions or collision cause the working life of cable low to occur, and reduce the potential safety hazard that in cable and server, other structural frictions or collision produce.And the backboard 143 of described adjacent two described chain links 140 is positioned at the same side, when described chain 130 is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links 140 of described chain 130 side, stop relatively rotating to make described two adjacent described chain links 140, the rotation angle then controlling two described chain links 140 is limited within the scope of 180 degree, avoid the rotation of two adjacent unordered confusions of chain link 140, make the movement locus of chain controlled, be beneficial to the rational deployment of structure for arranging wires, and then improve the integration density of server, and the controlled potential safety hazard can avoiding causing with other structural frictions in server or collision or knotting of movement locus.

In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Such as, apparatus embodiments described above is only schematic, such as, the division of module or unit, be only a kind of logical function to divide, actual can have other dividing mode when realizing, such as multiple unit or module can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.In addition, it can be positioned at by the INDIRECT COUPLING of some interfaces, device, module or unit or communication that shown or discussed coupling each other or direct-coupling or communication are positioned at, and also can be electric, machinery or other form be positioned at.

The module illustrated as separating component or unit or can may not be and physically separate, parts as module or unit display can be or may not be physical module or unit, namely can be positioned at a place, or also can be distributed on multiple mixed-media network modules mixed-media or unit.Some or all of module wherein or unit can be selected according to the actual needs to realize the object of embodiment of the present invention scheme.

Above; be only the specific embodiment of the present invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; can expect amendment or the replacement of various equivalence easily, these amendments or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (10)

1. a structure for arranging wires, it is characterized in that, comprise the first fixed block (110), the second fixed block (120) and chain (130), and described chain (130) by least two both-side openings and the chain link of hollow (140) be spliced to form, one end of described first fixed block (110) is connected with one end (130a) of described chain (130), and one end of described second fixed block (120) is connected with the other end (130b) of described chain (130); And the adjacent opening side between arbitrary neighborhood two chain links (140) is flexibly connected by rotating shaft;

Wherein, described both-side opening and the chain link of hollow (140) comprising:

Top board (141), the base plate (142) relative with described top board (141), backboard (143) and the header board (144) relative with described backboard (143), described top board (141), backboard (143), base plate (142) and header board (144) form a both-side opening and the chain link of hollow (140), and the length of second sidewall (142b) of second sidewall (141b) of described top board (141) and base plate (142) is less than the length of the first side wall (141a) of top board (141) and the first side wall (142a) of base plate (142),

When described chain (130) is straightened, be positioned at the same side seamless link of arbitrary neighborhood two chain links (140) of described chain (130) side.

2. structure for arranging wires as claimed in claim 1, is characterized in that, the adjacent opening side between described arbitrary neighborhood two chain links (140) is flexibly connected by rotating shaft and comprises:

In adjacent opening side between described arbitrary neighborhood two chain links (140), an opening side is flexibly connected by the hole of rotating shaft with another opening side.

3. structure for arranging wires as claimed in claim 2, it is characterized in that, described top board (141), described backboard (143), described base plate (142) and described header board (144) form a both-side opening and the chain link of hollow (140) comprising:

The first side wall (141a) of described top board (141) is the sideline that described top board (141) is connected with described backboard (143), the first side wall (142a) of described base plate (142) is the sideline that described backboard (143) is connected with described base plate (142), second sidewall (141b) of described top board (141) is the sideline that described top board (141) is connected with described header board (144), second sidewall (142b) of described base plate (142) is the sideline that described header board (144) is connected with described base plate (142), wherein, the described the first side wall (141a) of described top board (141) is relative with described second sidewall (141b) of described top board (141), the described the first side wall (142a) of described base plate (142) is relative with described second sidewall (142b) of described base plate (142), 3rd sidewall (141c) of described top board (141) is relative with the 4th sidewall (141d) of described top board (141), 3rd sidewall (142c) of described base plate (142) is relative with the 4th sidewall (142d) of described base plate (142), described 3rd sidewall (141c) of described top board (141) and described 3rd sidewall (142c) of described base plate (142) are positioned at an opening side of described chain link (140), described 4th sidewall (141d) of described top board (141) and described 4th sidewall (142d) of described base plate (142) are positioned at another opening side of described chain link (140), to form a both-side opening and the chain link of hollow (140).

4. structure for arranging wires as claimed in claim 3, is characterized in that,

Described top board (141) also comprises: described 3rd sidewall (141c) of described top board (141) is along formation first extension part (171) that stretches out perpendicular to the direction of described 3rd sidewall (141c) of top board (141), and the upper surface of described first extension part (171) is provided with first rotating shaft (175) of vertically described first extension part (171);

Described base plate (142) also comprises: described 3rd sidewall (142c) of described base plate (142) is along the formation the 3rd extension part (173) that stretches out perpendicular to the direction of described 3rd sidewall (142c) of described base plate (142), and the lower surface of described 3rd extension part (173) is provided with the second rotating shaft (176) perpendicular to described 3rd extension part (173) and coaxial with described first rotating shaft (175);

Described top board (141) also comprises: described 4th sidewall (141d) of described top board (141) is along formation second extension part (172) that stretches out perpendicular to the direction of described 4th sidewall (141d) of described top board (141), and described second extension part (172) is provided with the first through hole (177);

Described base plate (142) also comprises: described 4th sidewall (142d) of described base plate (142) is along the formation the 4th extension part (174) that stretches out perpendicular to the direction of described 4th sidewall (142d) of described base plate (142), and described 4th extension part (174) is provided with second through hole (178) coaxial with described first through hole (177);

Wherein, described first rotating shaft (175) and described second rotating shaft (176) are positioned at an opening side of described chain link (140), and described first through hole (177) and described second through hole (178) are positioned at another opening side of described chain link (140);

One opening side of the adjacent opening side between described arbitrary neighborhood two chain links (140) by rotating shaft and another opening side hole be flexibly connected and comprise:

Described first through hole (177) of described first rotating shaft (175) of a chain link (140) in described arbitrary neighborhood two described chain links (140) and the opening side at described second rotating shaft (176) place and another chain link (140) is adjacent with the opening side at described second through hole (178) place, described first rotating shaft (175) of a chain link (140) between described arbitrary neighborhood two chain links (140) and described second rotating shaft (176) are each passed through described first through hole (177) and described second through hole (178) of another link (140), with make an opening side of the adjacent opening side between described arbitrary neighborhood two chain links (140) by rotating shaft and another opening side hole be flexibly connected.

5. structure for arranging wires as claimed in claim 4, it is characterized in that, described header board (144) also comprises: described header board (144) is provided with breach (180).

6. structure for arranging wires as claimed in claim 5, it is characterized in that, the top edge (180a) of described breach (180) tiltedly extends the first swash plate (181) to the lower limb (180b) of described breach (180), and described first swash plate (181) is positioned at the hollow space of described chain link (140).

7. structure for arranging wires as claimed in claim 5, it is characterized in that, the lower limb (180b) of described breach (180) tiltedly extends the second swash plate to the top edge (180a) of described breach (180), and described second swash plate is positioned at the hollow space of described chain link (140).

8., as the structure for arranging wires as described in arbitrary in claim 1 to 7, it is characterized in that, described first fixed block (110) also comprises: the other end of described first fixed block (110) arranges the first clamping mechanism.

9. structure for arranging wires as claimed in claim 8, it is characterized in that, described second fixed block (120) also comprises: the other end of described second fixed block (120) arranges the second clamping mechanism.

10. structure for arranging wires as claimed in claim 9, it is characterized in that, also comprise: the second fixed block (120) is fixedly attached to the hot-plug construction of server, the first fixed block (110) is fixing on the server, is positioned at the point midway of hot-plug construction stroke on server.