CN203734951U

CN203734951U - Server cabinet wiring device, server cabinet device and cloud computing data center

Info

Publication number: CN203734951U
Application number: CN201420067996.3U
Authority: CN
Inventors: 曾宪龙; 张海涛; 李典林; 周海涛; 伍贻頔
Original assignee: Tencent Cyber Tianjin Co Ltd
Current assignee: Tencent Cyber Tianjin Co Ltd
Priority date: 2014-02-17
Filing date: 2014-02-17
Publication date: 2014-07-23
Anticipated expiration: 2024-02-17

Abstract

The utility model discloses a server cabinet wiring device, a server cabinet device and a cloud computing data center, and belongs to the field of computers and communication. The device comprises a supporting frame and a first modular wiring device; one or more first server cabinet is arranged at one side of the supporting frame; the height of the supporting frame is more than the height of the one or more first server cabinet; the first modular wiring device is arranged at the top part of the supporting frame; and the first modular wiring device is located above the one or more first server cabinet. Thus, on-demand arrangement of the server cabinet wiring device can be quickly realized, and resources are saved.

Description

Server cabinet routing device, server machine cabinet device and cloud computing data center

Technical field

The utility model relates to computer and the communications field, particularly a kind of server cabinet routing device, server machine cabinet device and cloud computing data center.

Background technology

Along with the develop rapidly of computer technology and the foundation of many large-scale cloud computing data centers, it is more and more higher that the intensity of electronic equipment also becomes, and the equipment such as server are directly installed in server cabinet conventionally.In order to ensure that server can normally move and ensure that server and the external world communicate, and need to be connected to server on network by cable.And the server that the data center of cloud computing at present comprises is more, cause the cable in machine room more, more in disorder, there is potential safety hazard, so how to make the cable in machine room arrange it is neatly one of problem of required consideration while setting up cloud computing data center.

Cloud computing data center comprises server cabinet cooling device, server cabinet and server cabinet routing device.Owing to there being at present many services device rack cooling device, for different server cabinet cooling devices, the putting position of server cabinet is also different, so in the time setting up cloud computing data center, first in machine room, place server cabinet cooling device, place server cabinet according to the position of server cabinet cooling device again, finally server cabinet routing device is fixed on the ceiling of server machine cabinet device top by connecting rod.By the fixing cable being connected with server cabinet of server cabinet routing device, can make the cable in machine room arrange neat.

Due in the time setting up cloud computing data center, server cabinet routing device is fixed on server cabinet above ceiling on, if certain server cabinet does not use, the server cabinet routing device of this server cabinet top may be always idle, so wasted resource.In addition, after server cabinet routing device is fixing, server cabinet just cannot be adjusted flexibly position according to actual demand in machine room.

Utility model content

In order to solve the problem of prior art, the utility model provides a kind of server cabinet routing device, server machine cabinet device and cloud computing data center.Described technical scheme is as follows:

First aspect, provides a kind of server cabinet routing device, comprising: support frame and the first modularization routing device;

One side of described support frame is discharged one or more first server racks, the height of described support frame is greater than the height of described one or more first server racks, described the first modularization routing device is arranged on the top of described support frame, and described the first modularization routing device is positioned at the top of described one or more first server racks.

Second aspect, provides a kind of server machine cabinet device, comprising: one or more first server racks and the server cabinet routing device as described in first aspect.

The third aspect, a kind of server machine cabinet device is provided, comprise: the server cabinet routing device described in first server rack, second server rack and first aspect, described first server rack is positioned at the below of described the second framework, and described second server rack is positioned at the below of the 3rd framework.

Fourth aspect, provides a kind of cloud computing data center, comprises at least one server machine cabinet device as described in second aspect or the third aspect.

In the utility model embodiment, because each group server cabinet all can a corresponding server cabinet routing device, and modularization routing device is positioned at the top of server cabinet, the cable can be fixing by modularization routing device being connected with the server in the server cabinet of its below, the problem of having avoided the position that must determine server cabinet could fix chute afterwards.In addition, in the utility model embodiment, in the time that certain group server cabinet need to use and need server cabinet routing device, this server cabinet routing device is pushed to the position that this group server cabinet is corresponding, can realize rapidly deployment server rack routing device as required.In the time that certain group server cabinet does not use,, not to this group server cabinet deploying servers rack routing device, save resource.And in the time that server cabinet need to be adjusted the position of server cabinet according to actual demand, also can adjust neatly server cabinet routing device, improve the flexibility of the position adjustment of server cabinet routing device.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of a kind of server machine cabinet device of providing of the utility model embodiment;

Fig. 2 is the structural representation of the first support frame of providing of the utility model embodiment;

Fig. 3 is the structural representation of a kind of the first framework of providing of the utility model embodiment;

Fig. 4 is the structural representation of the second support frame of providing of the utility model embodiment;

Fig. 5 is the structural representation of the third support frame of providing of the utility model embodiment;

Fig. 6 is the structural representation of the 4th kind of support frame providing of the utility model embodiment;

Fig. 7 is the structural representation of the 5th kind of support frame providing of the utility model embodiment;

Fig. 8 is the structural representation of a kind of modularization routing device of providing of the utility model embodiment;

Fig. 9 is the structural representation of the another kind of server machine cabinet device that provides of the utility model embodiment;

Figure 10 is the structural representation of the 6th kind of support frame providing of the utility model embodiment;

Figure 11 is the structural representation of the another kind of modularization routing device that provides of the utility model embodiment;

Figure 12 is the structural representation of a kind of cloud computing data center that provides of the utility model embodiment.

In accompanying drawing, the list of parts of each label representative is as follows:

1: support frame, 2: the first modularization routing devices, 3: first server rack, 31: through wires hole,

11: the first frameworks, 12: the second frameworks,

111: the first rectangle frames, 112: the second rectangle frames, 113: the first montants,

1111: the first cross bars, 1112: the second cross bars, 1113: the first vertical poles, 1114: the second vertical poles,

1121: the three cross bars, 1122: the four cross bars, 1123: the three vertical poles, 1124: the four vertical poles,

1125: the first supporting surfaces, 1126: the second supporting surfaces, 1127: the three supporting surfaces, 1128: the four supporting surfaces,

114: the first shroudings, 115: the second shroudings, 116: the three shroudings, 117: reinforcement,

121: the five cross bars, 122: the six cross bars, 123: the five vertical poles, 124: the six vertical poles,

21: forceful electric power chute, 22: light current chute, 23: optical fiber duct,

211: the seven vertical poles, 212: the eight vertical poles, 213: the seven cross bars,

221: the nine vertical poles, 222: the ten vertical poles, 223: the eight cross bars,

231: Wire channel in building, 232: inserting slot,

13: the three frameworks, 4: the second modularization routing devices, 5: second server rack,

131: the nine cross bars, 132: the ten cross bars, 133: the 11 vertical poles, 134: the 12 vertical poles,

6: roller, 7: support adjusting bolt.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model execution mode is described in further detail.

Embodiment mono-

The utility model embodiment provides a kind of server cabinet routing device, and this server cabinet routing device is applied in server machine cabinet device as shown in Figure 1, and this server machine cabinet device comprises server cabinet routing device and first server rack 3;

Wherein, server cabinet routing device, comprising: support frame 1 and the first modularization routing device 2;

One side of support frame 1 is discharged one or more first server racks 3, the height of support frame 1 is greater than the height of one or more first server racks 3, the first modularization routing device 2 is arranged on the top of support frame 1, and the first modularization routing device 2 is positioned at the top of one or more first server racks 3.

Because first server rack 3 is positioned at a side of support frame 1, and the first modularization routing device 2 is arranged on the top of support frame 1, so, every group of server cabinet has corresponding server cabinet routing device for its fixed cable, avoided determining the problem that could fix routing device after the position of server cabinet.In addition, in the machine room of this cloud computing data center, if some server cabinets have just started not use, do not need, to those server cabinet deploying servers rack routing devices, to have saved resource.And in the time which server cabinet uses, then to which server cabinet deploying servers rack routing device, can realize rapidly as required and disposing.And need to adjust the position of server cabinet according to actual demand time, also can adjust neatly the position of server cabinet routing device, improve the flexibility of the position adjustment of server cabinet routing device.

Wherein, by cable fixing above server cabinet routing device, through wires hole 31 from first server rack 3 passes and is connected on the server in first server rack 3, can ensure the normal operation of the server in first server rack 3, and ensure that server and the external world in first server rack 3 communicate.

Wherein, as depicted in figs. 1 and 2, support frame 1 comprises: the first framework 11 and the second framework 12;

One side of the first framework 11 is discharged one or more first server racks 3, the second framework 12 is fixedly mounted on the top of the first framework 11, the second framework 12 is positioned at the top of one or more first server racks 3, and the first modularization routing device 2 is arranged on the second framework 12.

Because a side of the first framework 11 is discharged one or more first server racks 3, the second framework 12 is positioned at the top of one or more first server racks 3, and cable need to pull down from the second framework, through the through wires hole on first server rack 3, so the height of the first framework 11 is greater than the height of first server rack 3.

In the utility model embodiment, the width that the first framework 11 can be set equates with the width of the second framework 12, the width that the first framework 11 also can be set is greater than the width of the second framework 12, and the width that the first framework 11 can also be set is less than the width of the second framework 12.Preferably, the width that the first framework 11 is set equates with the width of the second framework 12.

For the second framework 12 being fixedly mounted on to the top of the first framework 11, can the second framework 12 be fixedly mounted on by bolt to the top of the first framework 11.Certainly, can also in other way the second framework 12 be fixedly mounted on to the top of the first framework 11, at the utility model embodiment, the mode that the second framework 12 is fixedly mounted on to the top of the first framework 11 be not specifically limited.

Further, as shown in Figure 2, the first framework 11 comprises: the first rectangle frame 111, the second rectangle frame 112 and four the first montants 113.One end of four the first montants 113 is connected with four drift angles of the first rectangle frame 111 respectively, and the other end of four the first montants 113 is connected with four drift angles of the second rectangle frame 112 respectively, the first rectangle frame 111 be positioned at the second rectangle frame 112 directly over.

Wherein, the height of four the first montants 113 equates, and the height of four the first montants 113 is greater than the height of first server rack 3.

Wherein, as shown in Figure 3, the first rectangle frame 111 comprises: the first cross bar 1111, the second cross bar 1112, the first vertical pole 1113 and the second vertical pole 1114.One end of the first cross bar 1111 is connected with one end of the first vertical pole 1113, the other end of the first vertical pole 1113 is connected with one end of the second cross bar 1112, the other end of the second cross bar 1112 is connected with one end of the second vertical pole 1114, and the other end of the second vertical pole 1114 is connected with the other end of the first cross bar 1111.

Wherein, the shape of the second rectangle frame 112 and size can with the shape of the first rectangle frame 111 and equal and opposite in direction.Certainly, the shape of the second rectangle frame 112 and size also can and vary in size with the shape of the first rectangle frame 111.Preferably, in order to ensure the stability of the first framework 11, the equal and opposite in direction of the size of the second rectangle frame 112 and the first rectangle frame 111, and the second rectangle frame 112 can comprise: the 3rd cross bar 1121, the 4th cross bar 1122, the 3rd vertical pole 1123, the 4th vertical pole 1124, the first supporting surface 1125, the second supporting surface 1126, the 3rd supporting surface 1127 and the 4th supporting surface 1128.One end of the 3rd cross bar 1121 is connected with one end of the first supporting surface 1125, and the other end of the first supporting surface 1125 is connected with one end of the 3rd vertical pole 1123; The other end of the 3rd vertical pole 1123 is connected with one end of the second supporting surface 1126, and the other end of the second supporting surface 1126 is connected with one end of the 4th cross bar 1122; The other end of the 4th cross bar 1122 is connected with one end of the 3rd supporting surface 1127, and the other end of the 3rd supporting surface 1127 is connected with one end of the 4th vertical pole 1124; The other end of the 4th vertical pole 1124 is connected with one end of the 4th supporting surface 1128, and the other end of the 4th supporting surface 1128 is connected with the other end of the 3rd cross bar 1121.

Wherein, supporting surface is a pentagonal flat board, and this supporting surface can obtain according to the flat board of a square, removes the wedge angle of two on-right angle shapes on the flat board of square, and face is supported.The two ends that connect right-angle side and hypotenuse in supporting surface form the two ends of supporting surface.

Preferably, as shown in Figure 3, the first framework 11 also comprises that one end of 117, four reinforcements 117 of four reinforcements is connected with four the first montants 113 respectively, and the 3rd cross bar 1121 and the 4th cross bar 1122 that the other end of four reinforcements 117 comprises with the second rectangle frame 112 are respectively connected respectively.

Because server when work in server machine cabinet device can distribute heat, and the heat distributing can affect the normal operation of server cabinet, so need to carry out cooling to server cabinet.At present server cabinet being carried out to cooling device comprises multiple, some cooling devices are the both sides that are arranged in machine room, between the floor of machine room and ground, there is passage, cooling device blows to cold wind in this passage, and cold wind blows to server machine cashier's office in a shop by the perforated tiles of server cabinet below by cold wind.And some cooling devices are the belows that is directly arranged in server cabinet, or be directly arranged in the top (for example, cooling device can be arranged in to the top of the first framework) of server cabinet.In the time that cooling device is arranged in the below of server cabinet, cold wind is to blow to server machine from the below of server cabinet cashier's office in a shop.In the time that cooling device is arranged in the top of server cabinet, cold wind is to blow to server machine from the top of server cabinet cashier's office in a shop.

Preferably, as shown in Figure 4, when the below of server cabinet blows to cold wind first server rack 3 when server cabinet being carried out to cooling device, because the first rectangle frame 111 exists space, and first there is gap between rectangle frame 111 and first server rack 3, in order to prevent that the cold wind that cooling device is produced by boasting from blowing away from the top of the first rectangle frame 111, and prevent that this cold wind from blowing away from the gap between the first rectangle frame 111 and first server rack 3, the first shrouding 114 need to be installed above the first rectangle frame 111, and on the second vertical pole 1114 comprising at the first rectangle frame 111, the second shrouding 115 is installed, the size of the first shrouding 114 is greater than the pore size of the first rectangle frame 111, the width of the second shrouding 115 is more than or equal to the gap width between first server rack 3 and the first rectangle frame 111.Wherein, the second shrouding 115 can be made up of two flat boards, and these two flat boards can fold.In the time that the width in the gap between first server rack 3 and the first rectangle frame 111 is less than or equal to a dull and stereotyped width, by these two flat plate foldings and install.In the time that the width in the gap between first server rack 3 and the first rectangle frame 111 is greater than a dull and stereotyped width, these two are dull and stereotypedly launched and installed.

Further, after the first shrouding 114 being installed above the first rectangle frame 111, the interface of fire-fighting and illumination etc. can be set on the first shrouding 114.

Preferably, as shown in Figure 5, in another embodiment of the present utility model, when the top of the first rectangle frame 111 blows to cold wind first server rack 3 when server cabinet being carried out to cooling device, owing to having gap between first server rack 3 and the first rectangle frame 111, blow down the cold wind coming and blow away from the gap between first server rack 3 and the first rectangle frame 111 in order to prevent cooling device, on second vertical pole 1114 that need to comprise at the first rectangle frame 111, the second shrouding 115 is installed, the width of the second shrouding 115 is more than or equal to the gap width between first server rack 3 and the first rectangle frame 111.Wherein, the second shrouding 115 can be made up of two flat boards, and these two flat boards can fold.In the time that the width in the gap between first server rack 3 and the first rectangle frame 111 is less than or equal to a dull and stereotyped width, by these two flat plate foldings and install.In the time that the width in the gap between first server rack 3 and the first rectangle frame 111 is greater than a dull and stereotyped width, these two are dull and stereotypedly launched and installed.

Preferably, as shown in Figure 6, in another embodiment of the present utility model, if server cabinet is the server cabinet with roller, and it is while cold wind being blown to from the floor of the below of the first framework 11 on first server rack 3 that server cabinet is carried out to cooling device, there is space in the top of the first rectangle frame 111 not only, and first store gap between rectangle frame 111 and first server rack 3, and between first server rack 3 and floor, also can there is gap, in order to prevent the loss of the cold wind that cooling device produces by boasting, the first shrouding 114 and the second shrouding 115 not only will be installed on the first rectangle frame, the 3rd shrouding 116 also need to be installed on the 4th vertical pole 1124, the height of the 3rd shrouding 116 is more than or equal to the chinky altitude between this first server rack 3 and floor.If first server rack 3 is the server cabinet with roller not, between first server rack 3 and floor, there is not gap, the 3rd shrouding 116 need to be installed on the 4th vertical pole 1124.

The second framework 12 can be a rectangle frame, can be also a rectangular frame.As shown in Figure 7, the second framework 12 is a rectangle frame, for convenience, this rectangle frame is called to the 3rd rectangle frame 12.The 3rd rectangle frame 12 comprises: the 5th cross bar 121, the 6th cross bar 122, the 5th vertical pole 123 and the 6th vertical pole 124.One end of the 5th cross bar 121 is connected with one end of the 5th vertical pole 123, the other end of the 5th vertical pole 123 is connected with one end of the 6th cross bar 122, the other end of the 6th cross bar 122 is connected with one end of the 6th vertical pole 124, and the other end of the 6th vertical pole 124 is connected with the other end of the 5th cross bar 121.The 5th vertical pole 123 that the second framework 12 comprises is fixedly mounted on the second vertical pole 1114 that the first rectangle frame 111 of the first framework 11 comprises.

As shown in Figure 8, the first modularization routing device 2 comprises: forceful electric power chute 21, light current chute 22 and optical fiber duct 23;

Optical fiber duct 23, light current chute 22 and forceful electric power chute 21 be parallel being placed on the second framework 12 successively, optical fiber duct 23 is nearest from the through wires hole 31 of first server rack 3, forceful electric power chute 21 is nearest from the first framework 11, and light current chute 22 is between optical fiber duct 23 and forceful electric power chute 21.

Wherein, can fix the power line being connected with the server in first server rack 3 by forceful electric power chute 21, the holding wire being connected with the server in first server rack 3 can be fixed by light current chute 22, and the optical fiber being connected with the server in first server rack 3 can be fixed by optical fiber duct 23.

Because optical fiber is thin especially, and especially easily fracture, so optical fiber duct 23 is placed on to the side near the through wires hole 31 of first server rack 3, reduce the probability of fibercuts.Because forceful electric power line least easily ruptures, so forceful electric power chute 21 is placed on to the side near the first framework 11.

Wherein, forceful electric power chute 21 is identical with the shape of light current chute 22, and the size of forceful electric power chute 21 can be identical with the size of light current chute 22, also can be different.Forceful electric power chute 21 comprises: the 7th vertical pole 211, the 8th vertical pole 212 and multiple the 7th cross bar 213.One end of multiple the 7th cross bars 213 is connected with the 7th vertical pole 211 respectively, the other end of multiple the 7th cross bars 213 is connected with the 8th vertical pole 212 respectively, multiple the 7th cross bars 213 equal in length, between multiple the 7th cross bars 213, be parallel to each other, and mutually vertical between multiple the 7th cross bars 213 and the 7th vertical pole 211, and mutual vertical between multiple the 7th cross bar 213 and the 8th vertical pole 212.The 5th cross bar 121 that one end of forceful electric power chute 21 comprises with the second framework 12 is connected, and the 6th cross bar 122 that the other end of forceful electric power chute 21 comprises with the second framework 12 is connected.

Light current chute 22 comprises: the 9th vertical pole 221, the tenth vertical pole 222 and multiple the 8th cross bar 223.One end of multiple the 8th cross bars 223 is connected with the 9th vertical pole 221 respectively, the other end of multiple the 8th cross bars 223 is connected with the tenth vertical pole 222 respectively, multiple the 8th cross bars 223 equal in length, between multiple the 8th cross bars 223, be parallel to each other, and mutually vertical between multiple the 8th cross bars 223 and the 9th vertical pole 221, and mutual vertical between multiple the 8th cross bar 223 and the tenth vertical pole 222.The 5th cross bar 121 that one end of light current chute 22 comprises with the second framework 12 is connected, and the 6th cross bar 122 that the other end of light current chute 22 comprises with the second framework 12 is connected.

Wherein, optical fiber duct 23 comprises: Wire channel in building 231 and at least one inserting slot 232, and inserting slot 232 is corresponding one by one with the first server rack 3 of the second framework 12 belows;

At least one inserting slot 232 is installed in a side of Wire channel in building 231, and at least one inserting slot is between Wire channel in building 231 and the through wires hole 31 of first server rack 3.

Owing to for inserting slot 232, a less camber being set, the camber can alleviate optical fiber and directly pass and arrive first server rack 3 from Wire channel in building 231 is interior time, reduces the probability of fibercuts.

Wherein, Wire channel in building 231 is connected successively by four flat boards, forms the rectangular cylinder that a periphery seal and two ends are not sealed.

Further, the 5th cross bar 121 that one end of Wire channel in building 231 comprises with the second framework 12 is connected, the 6th cross bar 122 that the other end of Wire channel in building 231 comprises with the second framework 12 is connected, the 6th vertical pole 124 that one side of inserting slot 232 comprises with the second framework 12 is installed on Wire channel in building 231 and is overlapped, the wire hole of inserting slot 232 is suspended in the air.

Preferably, the length of the length of the length of forceful electric power chute 21, light current chute 22, optical fiber duct 23 equates with the width of the first framework 11.So, can realize the slitless connection of current server cabinet routing device and other server cabinet routing device.

Further, as shown in Figure 9, server cabinet routing device also comprises the second modularization routing device 4;

The second modularization routing device 4 is arranged on the top of support frame 1, and the opposite side of support frame 1 discharges one or more second server racks 5, and the second modularization routing device 4 is positioned at the top of one or more second server racks 5.

As shown in Figure 9 and Figure 10, support frame 1 also comprises: the 3rd framework 13;

The 3rd framework 13 is fixedly mounted on the top of the first framework 11, the opposite side of the first framework 11 discharges one or more second server racks 5, the 3rd framework 13 is positioned at the top of one or more second server racks 5, and the second modularization routing device 4 is arranged on the 3rd framework 13.

The fixing cable being connected with the server of second server rack 5 interior installations of the second modularization routing device 4 of installing by the 3rd framework 13 tops, the fixing cable of the second modularization routing device 4 is connected on the server of second server rack 5 interior installations, the server that has ensured the 5 interior installations of second server rack is normally worked, and ensures that server and the external world of the 5 interior installations of second server rack communicate.

The 3rd framework 13 can be a rectangle frame, can be also a rectangular frame.As shown in figure 10, the 3rd framework 13 is a rectangle frame, for convenience, this rectangle frame is called to the 4th rectangle frame 13.The 4th rectangle frame 13 comprises: the 9th cross bar 131, the tenth cross bar the 132, the 11 vertical pole the 133 and the 12 vertical pole 134.One end of the 9th cross bar 131 is connected with one end of the 11 vertical pole 133, the other end of the 11 vertical pole 133 is connected with one end of the tenth cross bar 132, the other end of the tenth cross bar 132 is connected with one end of the 12 vertical pole 134, and the other end of the 12 vertical pole 134 is connected with the other end of the 9th cross bar 131.The 12 vertical pole 134 that the 3rd framework 13 comprises is fixedly mounted on the first vertical pole 1113 that the first framework 11 comprises.

Wherein, can the 12 vertical pole 134 be fixedly mounted on the first vertical pole 1113 that the first framework 11 comprises by bolt, certainly, can also in other way the 12 vertical pole 134 be fixedly mounted on the first vertical pole 1113 that the first framework 11 comprises, the utility model embodiment is not specifically limited the mode of the first vertical pole 1113 that the 12 vertical pole 134 is fixedly mounted on to the first framework 11 and comprises.

Wherein, the first framework 11 can independently be produced and transport, and the second framework 12 also can independently be produced and transport, and the 3rd framework 13 also can independently be produced and transport, and the first framework 11, the second framework 12 and the 3rd framework 13 can carry out assembled connection at the scene, realize modularization and install.The modularization of modularization routing device is conducive to it is combined well with server cabinet, and the modularization assemble between modules routing device also facilitates construction and the maintenance of cloud computing data center greatly simultaneously.

Further, as shown in figure 11, server cabinet routing device also comprises four rolling 6;

Four rolling 6 is arranged on the bottom of the first framework 11.

Further, server cabinet routing device also comprises that four are supported adjusting bolt 7;

Four support adjusting bolts 7 are arranged on the bottom of the first framework 11.

Wherein, roller 6 be installed under server cabinet routing device and supported adjusting bolt 7, in the time that needs provide cable for server cabinet 6, adopting the roller under support frame can promote easily server cabinet routing device.Promoting in the process of server cabinet routing device, can regulate the height of support adjusting bolt 7 to be less than the height of roller 6.When server cabinet routing device is pushed to the position of server cabinet 6 correspondences, can regulates and support the height that the height of adjusting bolt 7 is greater than roller 6, to fix and horizontal positioned server cabinet routing device.

Wherein, in another embodiment of the present utility model, this server cabinet routing device also can be with roller.In the time that server cabinet routing device is not with roller, this server cabinet routing device can comprise that four are supported adjusting bolt 7, also can not comprise that four are supported adjusting bolt 7.Preferably, in order to ensure the stability of server cabinet routing device, this server cabinet routing device can not comprise that four are supported adjusting bolt 7.

In the utility model embodiment, because each group server cabinet all can connect a server cabinet routing device, and modularization routing device is positioned at the top of server cabinet, can provide cable for the server cabinet of its below by modularization routing device, avoid must determining the problem that chute could be fixed afterwards in the position of server cabinet.In addition, in the utility model embodiment, in the time that certain group server cabinet is brought into use and needs server cabinet routing device, this server cabinet routing device is pushed to the position that this group server cabinet is corresponding, can realize rapidly deployment server rack routing device as required.In the time that certain group server cabinet does not use,, not to this group server cabinet deploying servers rack routing device, save resource.And in the time that server cabinet is adjusted the position of server cabinet according to actual demand, also can adjust neatly server cabinet routing device, improve the flexibility of the position adjustment of server cabinet routing device.

Embodiment bis-

Referring to Fig. 1, the utility model embodiment provides a kind of server machine cabinet device, comprising: one or more first server racks 3 and server cabinet routing device;

As depicted in figs. 1 and 2, support frame 1 comprises: the first framework 11 and the second framework 12;

Wherein, as shown in Figure 8, the first modularization routing device 2 comprises: forceful electric power chute 21, light current chute 22 and optical fiber duct 23;

At least one inserting slot 232 is installed in a side of Wire channel in building 231, and at least one inserting slot 232 is between this Wire channel in building 231 and the through wires hole 31 of first server rack 3.

Preferably, the length of the length of the length of forceful electric power chute 21, light current chute 22, optical fiber duct 23 equates with the width of the first framework 11.

Further, as shown in Figure 9, this server cabinet routing device also comprises the second modularization routing device 4;

The 3rd framework 13 is fixedly mounted on the top of the first framework 11, the opposite side of the first framework discharges one or more second server racks 5, the 3rd framework 13 is positioned at the top of one or more second server racks 3, and the second modularization routing device 4 is arranged on the 3rd framework 13.

Four rolling 6 is arranged on the bottom of the first framework 11.

Embodiment tri-

As shown in Figure 9, the utility model embodiment provides a kind of server machine cabinet device, comprise: first server rack 3, second server rack 5 and server cabinet routing device, first server rack 3 is positioned at the below of the second framework 12, and second server rack 5 is positioned at the below of the 3rd framework 13

Support frame 1 comprises: the first framework 11 and the second framework 12;

Wherein, the first modularization routing device 2 comprises: forceful electric power chute 21, light current chute 22 and optical fiber duct 23;

At least one inserting slot 232 is installed in a side of Wire channel in building 231, and at least one inserting slot 232 is between Wire channel in building 231 and the through wires hole 31 of first server rack 3.

Further, this server cabinet routing device also comprises the second modularization routing device 4;

Further, support frame 1 also comprises: the 3rd framework 13;

The 3rd framework 13 is fixedly mounted on the top of the first framework 11, the opposite side of the first framework 11 discharges one or more second server racks 5, the 3rd framework 13 is positioned at the top of one or more second server racks 3, and the second modularization routing device 4 is arranged on the 3rd framework 13.

Further, server cabinet routing device also comprises four rolling 6;

Four rolling 6 is arranged on the bottom of the first framework 11.

Embodiment tetra-

Referring to Figure 12, the utility model embodiment provides a kind of cloud computing data center, comprises at least one server machine cabinet device or at least one server machine cabinet device as shown in embodiment tri-as shown in embodiment bis-.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims

1. a server cabinet routing device, is characterized in that, comprising: support frame and the first modularization routing device;

2. device as claimed in claim 1, is characterized in that, described support frame comprises: the first framework and the second framework;

The described one or more first server racks of one side discharge of described the first framework, described the second framework is fixedly mounted on the top of described the first framework, described the second framework is positioned at the top of described one or more first server racks, and described the first modularization routing device is arranged on described the second framework.

3. device as claimed in claim 2, is characterized in that, described the first modularization routing device comprises: forceful electric power chute, light current chute and optical fiber duct;

Described optical fiber duct, described light current chute and described forceful electric power chute be parallel being placed on described the second framework successively, described optical fiber duct is nearest from the through wires hole of described first server rack, described forceful electric power chute is nearest from described the first framework, and described light current chute is between described optical fiber duct and described forceful electric power chute.

4. device as claimed in claim 3, is characterized in that, described optical fiber duct comprises: Wire channel in building and at least one inserting slot, and described inserting slot is corresponding one by one with the first server rack of described the second framework below;

Described at least one inserting slot is installed in a side of described Wire channel in building, and described at least one inserting slot is between described Wire channel in building and the through wires hole of described first server rack.

5. device as claimed in claim 3, is characterized in that, the length of the length of described forceful electric power chute, the length of described light current chute, described optical fiber duct equates with the width of described the first framework.

6. device as claimed in claim 2, is characterized in that, also comprises the second modularization routing device;

Described the second modularization routing device is arranged on the top of described support frame, the opposite side of described support frame discharges one or more second server racks, and described the second modularization routing device is positioned at the top of described one or more second server racks.

7. device as claimed in claim 6, is characterized in that, described support frame also comprises: the 3rd framework;

Described the 3rd framework is fixedly mounted on the top of described the first framework, the opposite side of described the first framework discharges one or more second server racks, described the 3rd framework is positioned at the top of described one or more second server racks, and described the second modularization routing device is arranged on described the 3rd framework.

8. device as claimed in claim 2, is characterized in that, also comprises four rolling;

Described four rolling is arranged on the bottom of described the first framework.

9. device as claimed in claim 8, is characterized in that, also comprises that four are supported adjusting bolt;

Described four support adjusting bolts are arranged on the bottom of described the first framework.

10. a server machine cabinet device, is characterized in that, comprising: the server cabinet routing device as described in one or more first server racks and claim as arbitrary in claim 1-9.

11. 1 kinds of server machine cabinet devices, it is characterized in that, comprise: first server rack, second server rack and the server cabinet routing device as described in claim 6 or 7, described first server rack is positioned at the below of described the second framework, and described second server rack is positioned at the below of the 3rd framework.

12. 1 kinds of cloud computing data centers, is characterized in that, comprise at least one server machine cabinet device as described in claim 10 or 11.