CN210274364U - Tool-free freely-combined configuration type switchboard bracket structure based on Scorpio standard - Google Patents

Abstract

The utility model provides a tool-free freely-combined switch bracket structure based on Scorpio standard, which comprises at least one switch bracket arranged on a cabinet and used for supporting a switch; the tool-free freely-combined configured switch bracket structure based on the Scorpio standard also comprises at least one wire arranging frame which is arranged on the cabinet and used for placing cables for connecting the switch; the switch bracket is relatively independent of the wire arranging frame, can be flexibly combined according to the requirements of users, and is arranged on the cabinet in a loose-falling spring screw structure in an installation mode. The utility model has the advantages that the common exchangers with different heights, lengths and quantities on the market can be flexibly deployed, and a good and regular environment is provided for the wire arrangement and arrangement of a large number of cables; meanwhile, the design of tool-free design during resetting and assembling and disassembling is reduced, and the method is very friendly to the debugging personnel.

Description

Tool-free freely-combined configuration type switchboard bracket structure based on Scorpio standard

Technical Field

The utility model relates to a switch bracket technical field specifically relates to an instrument independent assortment configuration formula switch bracket structure based on Scorpio standard.

Background

With the rapid development of cloud computing, artificial intelligence and big data application, the scale of the data center is larger and larger. In consideration of cost and the like, the demand for improving the equipment density of the cabinet is more and more prominent on the premise of a certain floor area. The Scorpio cabinet server provided by Open Data Center Committee (ODCC) (members including Alibaba, Baidu, Tencent, Intel, China telecom, China Mobile, etc.) effectively realizes centralized power supply, heat dissipation and management, and improves the benefit of energy conservation; meanwhile, the high density of the rack effectively reduces the overall operation cost, improves the flexibility of deployment, and is a new generation of server infrastructure widely popularized in the current market.

In this application context, the switches are used as carriers for forwarding data traffic, and the number of switches required on a single cabinet also increases with the increase of the equipment density, for example, a complete cabinet server platform disclosed in chinese patent CN203745984U, where the platform includes cabinets, 44U spaces are provided in the cabinets from top to bottom and are 01U, 02U, … …, 43U and 44U spaces in sequence from bottom to top, the 01U-20U space and 25U-44U space in front of the cabinets are node cabinet equipment spaces, and the 21U-24U space in front of the cabinets is a switch equipment space.

Switch bracket is usually selected for use to install in its installation space for the switch, and the overwhelming majority formula structure as an organic whole of switch bracket on the existing market, and overall height is 2U (U is cabinet height unit, 1U is 46.5mm ═ 1U for the switch headspace, and 1U in lower part is single row tooth form reason line frame, and the switch bracket that adopts this kind of structure has following several not enoughly:

1. when one switch is deployed, at least 2U space is occupied, the actual requirements cannot be flexibly met, once the needed switch is large and the number of ports/cables is large, the number of cable management frames is often insufficient, and only 2U integrated brackets can be added; or a plurality of switchboards are used, so that a small number of cables are actually needed, the arrangement can be finished by a small number of 1U cable management frames, and due to structural limitation, only a plurality of 2U brackets can be adopted, so that the waste of the use space of the cabinet is caused;

2. the screw is frequently used for installation, a screwdriver is required to be equipped, and the installation and debugging are not flexible;

3.1U switch bracket and 1U reason line frame coupling together, can not carry out the nimble combination and the configuration of switch and reason line frame quantity according to customer's demand.

SUMMERY OF THE UTILITY MODEL

To overcome the defects in the prior art, the present invention provides a tool-free freely-combined switch bracket structure based on Scorpio standard.

According to the utility model provides a pair of exempt from instrument independent assortment configuration formula switch bracket structure based on Scorpio standard, a serial communication port, include

At least one exchanger bracket arranged on the cabinet and used for supporting the exchanger;

the tool-free freely-combined configured switch bracket structure based on the Scorpio standard also comprises at least one wire arranging frame which is arranged on the cabinet and used for placing cables for connecting the switch;

the switch bracket is relatively independent of the wire arranging frame, can be flexibly combined according to the requirements of users, and is arranged on the cabinet in a loose-falling spring screw structure in an installation mode.

In a preferred embodiment of the present invention, the switch bracket includes a first bottom plate for placing the switch, and first steps disposed on slide rails disposed at both sides of the cabinet are disposed at both sides of the first bottom plate along a length direction thereof;

the two sides of the first bottom plate are symmetrically provided with first folded plates along the length direction, the tail end of each first folded plate is provided with a first groove matched with a positioning pin in the cabinet, and the front end of each first folded plate is provided with a first hanging lug structure.

The utility model discloses a preferred embodiment, first hangers structure includes the transversal first hangers board of personally submitting the L type the upper and lower bilateral symmetry of a curb plate of first hangers board is equipped with first mounting hole the riveting has one first pine to not take off spring screw on a curb plate of first hangers board and be located between two first mounting holes be equipped with a plurality of first floating nuts that are used for installing the switch support along its direction of height interval on another curb plate of first hangers board.

In a preferred embodiment of the present invention, a first reinforcing plate for improving the overall strength of the first bottom plate is disposed at the tail portion of the first bottom plate, and both ends of the first reinforcing plate are respectively riveted to the first folding plate.

In a preferred embodiment of the present invention, a plurality of first ventilation holes, which are oval as a whole, are formed in the first reinforcing plate at intervals along the length direction thereof.

In a preferred embodiment of the present invention, the cable management rack includes a second bottom plate for placing cables, and second steps disposed on slide rails disposed at both sides of the cabinet are disposed at both sides of the second bottom plate along a length direction thereof;

the two sides of the second bottom plate are symmetrically provided with second folded plates along the length direction, the tail end of each second folded plate is provided with a second groove matched with a positioning pin inside the cabinet, the front end of each second folded plate is provided with a second hanging lug structure, and a wiring groove structure for winding cables is arranged between the second hanging lug structures.

The utility model discloses a preferred embodiment, second hangers structure includes the transversal second hangers board of personally submitting the L type the upper and lower bilateral symmetry of a curb plate of second hangers board is equipped with the second mounting hole just be located on a curb plate of second hangers board and rivet a second pine does not take off spring screw between two second mounting holes the upper and lower bilateral symmetry of another curb plate of second hangers board is equipped with the second nut that floats that is used for installing the trough structure.

In a preferred embodiment of the present invention, the cabling trough structure includes a mounting plate having two ends respectively mounted on the second ear hanging plate, two ends of the mounting plate are respectively provided with mounting holes corresponding to the second floating nuts, and two rows of cabling troughs for winding cables are disposed on the upper and lower sides of the mounting plate along the length direction thereof;

the wiring groove structure further comprises a dust brush and an end cover, wherein the dust brush is installed on the installation plate through a fixing plate, and the upper side and the lower side of the end cover are buckled on the wiring groove respectively.

Compared with the prior art, the utility model discloses following beneficial effect has:

the switch bracket structure is simple in structure and convenient to realize, the integrated bracket is innovatively split into two independent structures, the switches with different heights, lengths and numbers, which are common in the market, can be flexibly deployed, and a good and regular environment is provided for the wire arrangement and arrangement of a large number of cables; meanwhile, the tool-free design during resetting and assembling and disassembling is reduced, so that the method is very friendly to the debugging personnel; the structure of the switch utilizes a certain strengthening design, the integral rigidity is improved, and the phenomenon that the sheet metal structure sinks to influence and interfere the lower server due to the overweight weight of the switch is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is the structure diagram of the utility model mounted on the cabinet.

Fig. 2 is a schematic structural view of the utility model combined according to the user's requirement.

Fig. 3 is the schematic structural diagram of the utility model after the cable is wound according to the requirement combination of the user.

Fig. 4 is a schematic structural diagram of the switch bracket of the present invention.

Fig. 5 is a schematic structural view of the first suspension loop structure of the present invention.

Fig. 6 is a schematic structural view of the wire arrangement frame of the present invention.

Fig. 7 is a schematic structural view of the cable arranging frame of the present invention after the cable is wound.

Fig. 8 is a schematic structural view of a second hanger structure of the present invention.

Fig. 9 is a schematic structural view of the wiring duct structure of the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

Referring to fig. 1-3, a tool-less free-form switch rack configuration based on the scorpions standard is shown, which includes at least one switch rack 100 disposed on a cabinet 400 for supporting a switch 300 and at least one cable management rack 200 disposed on the cabinet 400 for placing cables 500 for connecting the switch 300.

The switch bracket 100 and the wire-arranging frame 200 are relatively independent, and can be flexibly combined according to the needs of users, so that the switch bracket 100 and the wire-arranging frame 200 can be flexibly arranged according to the actual needs, for example, the 1U switch bracket 100+1U wire-arranging frame 200, the 2U switch bracket 100+1U wire-arranging frame 200, or the 2U switch bracket 100+2U wire-arranging frame 200 can be arranged in various ways.

Its mounting means adopts the spring screw structure setting of coming loose and not taking off on rack 400, need not be equipped with specialized tool in addition, supports quick plug and replacement, the effectual practicality that improves this switch bracket structure.

Referring to fig. 4, the switch bracket 100 includes a first base plate 110 for placing the switch 300, first steps 120 placed on slide rails disposed at both sides of the cabinet 400 are disposed at both sides of the first base plate 110 along a length direction thereof, and a height of the first steps 120 is 2mm, so that a space in a height direction is more abundant while increasing structural strength.

First folding plates 130 are symmetrically arranged on two sides of the first base plate 110 along the length direction of the first base plate, and the first folding plates 130, the first steps 120 and the first base plate 110 are formed by integrally bending a galvanized plate (SECC).

The tail end of the first folding plate 130 is provided with a first groove 131 matched with a positioning pin in the cabinet 400, the first groove 131 is used for guiding and positioning, the front end of the first folding plate 130 is provided with a first hanging lug structure 140, and the first hanging lug structure 140 is fixedly arranged on the first folding plate 130 through screws.

The first reinforcing plate 150 is disposed at the tail of the first bottom plate 110 for improving the overall strength thereof, and two ends of the first reinforcing plate 150 are respectively riveted to the first folding plate 130 for enhancing the overall rigidity of the switch bracket, so that the formed space refers to the length of a common 19-inch switch in the market, and more room is left.

Be equipped with a plurality of whole oval-shaped first ventilation holes 151 along its length direction interval on first reinforcing plate 150, adopt this kind of structure not only to be convenient for the heat dissipation when rack back fan wall induced draft to still make things convenient for the line of walking of switch power cord to rack power, first reinforcing plate 150 adopts galvanized Sheet (SECC) to bend and forms in this embodiment.

Referring to fig. 5, the first ear structure 140 includes a first ear plate 141 with an L-shaped cross section, and the first ear plate 141 is made of cold rolled Sheet (SPCC) and is painted, so that the service life of the first ear plate 141 is effectively prolonged.

The upper and lower bilateral symmetry at a curb plate of first hangers board 141 is equipped with first mounting hole 142, and the riveting has a first pine to take off spring screw 143 on a curb plate of first hangers board 141 and be located between two first mounting holes 142, for cooperation rack 400 size design dedicated extension screw, adopt stainless steel, the middle spring that is equipped with. The screw head adopts knurling antiskid design, is convenient for the free-hand operation to design has "a" word groove, provides the alternative for adopting screwdriver installation. When the installation is fastened, only pressing and screwing by hands are needed; after loosening, the screws leave the nuts on the two sides of the cabinet under the action of the elastic force of the springs and cannot fall off.

A plurality of first floating nuts 144 for installing the switch bracket are arranged on the other side plate of the first ear hanging plate 141 at intervals along the height direction thereof, and the first floating nuts 144 can compensate for dimensional deviation in assembly or machining, so that various types of 19-inch switch brackets can be conveniently installed. The threads wear easily with repeated assembly and disassembly, supporting the quick assembly of the first floating nut 144 for easy replacement by maintenance personnel.

Referring to fig. 6 and 7, the wire arrangement rack 200 includes a second bottom plate 210 for placing cables, second steps 220 placed on slide rails disposed on two sides of the cabinet 400 are disposed on two sides of the second bottom plate 210 along a length direction thereof, and a height of the second steps 220 is 2mm, so that structural strength is increased, and space in a height direction is more abundant.

Second folding plates 230 are symmetrically arranged on two sides of the second bottom plate 210 along the length direction of the second bottom plate, and the second folding plates 230, the second steps 220 and the second bottom plate 210 are formed by integrally bending galvanized plates (SECC).

The rear end of the second folding plate 230 is provided with a second groove 231 matched with a positioning pin inside the cabinet 400, the second groove 231 is used for guiding and positioning, the front end of the second folding plate 230 is provided with a second hanging lug structure 240, and a cabling channel structure 250 for winding cables is arranged between the second hanging lug structures 240.

The tail part of the second bottom plate 210 is provided with a second reinforcing plate 260 for improving the overall strength of the second bottom plate, two ends of the second reinforcing plate 260 are respectively riveted on the second folded plate 230 for reinforcing the overall rigidity of the switchboard bracket, and a plurality of first lightening holes 261 which are oval as a whole are arranged on the second reinforcing plate 260 at intervals along the length direction of the second reinforcing plate.

Referring to fig. 8, the second ear hanging structure 240 includes a second ear hanging plate 241 having an L-shaped cross section, second mounting holes 242 are symmetrically formed in upper and lower sides of one side plate of the second ear hanging plate 241, a second loosening-preventing spring screw 243 is riveted between the two second mounting holes 242 on one side plate of the second ear hanging plate 241, and second floating nuts 244 for mounting the cabling channel structure 250 are symmetrically formed in upper and lower sides of the other side plate of the second ear hanging plate 241.

Referring to fig. 9, the cabling channel 250 includes a mounting plate 251 having two ends respectively mounted on the second ear hanging plate 241, mounting holes 252 corresponding to the second floating nuts 244 are respectively formed at two ends of the mounting plate 251, and cabling channels 253 for winding cables are formed in two rows at upper and lower sides of the mounting plate 251 along a length direction thereof.

This trough structure still includes dustproof brush 254 and end cover 256, and dustproof brush 254 passes through fixed plate 255 to be installed on mounting panel 251, and the upper and lower both sides of end cover 256 lock respectively on trough 253, adopt more cables 500 of this kind of structure can twine, and end cover 253 can shelter from uneven cable 500 and expose to play more pleasing to the eye clean and tidy effect in the vision. When the cable is long, the extra cable 500 can be passed through the dust brush 254, and the coiled cable is placed on the second base plate 210.

In practical use, a corresponding number of the switch brackets 100 and the wire arranging frames 200 are configured as required, the switch brackets are pushed into the cabinet along the L-shaped sliding rails on the two sides of the cabinet 400, and the positioning pins in the cabinet 400 are automatically inserted into the first grooves 131 to realize guiding and positioning functions. The first loose spring screws 143 at both ends are lightly pressed and then screwed, so that the rapid assembly of the switch bracket is completed. Then, the switch is placed on a switch bracket, and the fixed supports at the two sides of the switch are fastened with the first hanging lug structure 140 through screws; the front end cable of the switch is downwards wound on the wiring groove of the wire arranging frame and is tied and fixed by a rolled belt, redundant long wires can be wound in the space of the second bottom plate 210 behind the dustproof brush 254, and then the end cover 256 is pressed and fixed.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (8)

1. A tool-free freely-combined switch bracket structure based on Scorpio standard is characterized by comprising

At least one exchanger bracket arranged on the cabinet and used for supporting the exchanger;

the tool-free freely-combined configured switch bracket structure based on the Scorpio standard also comprises at least one wire arranging frame which is arranged on the cabinet and used for placing cables for connecting the switch;

the switch bracket is relatively independent of the wire arranging frame, can be flexibly combined according to the requirements of users, and is arranged on the cabinet in a loose-falling spring screw structure in an installation mode.

2. The Scorpio standard-based tool-free-combination configuration type exchanger bracket structure of claim 1, wherein the exchanger bracket comprises a first bottom plate for placing an exchanger, and first steps placed on the slide rails arranged at both sides of the cabinet are arranged at both sides of the first bottom plate along the length direction;

the two sides of the first bottom plate are symmetrically provided with first folded plates along the length direction, the tail end of each first folded plate is provided with a first groove matched with a positioning pin in the cabinet, and the front end of each first folded plate is provided with a first hanging lug structure.

3. The switch bracket structure of claim 2, wherein the first ear hanging structure comprises a first ear hanging plate with an L-shaped cross section, first mounting holes are symmetrically formed in the upper side and the lower side of one side plate of the first ear hanging plate, a first release spring screw is riveted between the two first mounting holes on one side plate of the first ear hanging plate, and a plurality of first floating nuts for mounting a switch bracket are arranged on the other side plate of the first ear hanging plate at intervals along the height direction of the other side plate.

4. The switch bracket structure of claim 2, wherein a first reinforcing plate is provided at the end of the first bottom plate to improve the overall strength thereof, and both ends of the first reinforcing plate are respectively riveted to the first folding plates.

5. The skybird scorpion standard-based tool-free-combination configured switch rack structure as claimed in claim 4, wherein a plurality of first vent holes are formed in the first reinforcing plate at intervals along a length direction thereof, and the first vent holes are oval in shape as a whole.

6. The Scorpio standard-based tool-free-combination configuration type switchboard bracket structure of claim 1, wherein said wire arrangement rack comprises a second bottom plate for placing cables, and second steps placed on the slide rails arranged at both sides of the cabinet are arranged at both sides of said second bottom plate along the length direction;

the two sides of the second bottom plate are symmetrically provided with second folded plates along the length direction, the tail end of each second folded plate is provided with a second groove matched with a positioning pin inside the cabinet, the front end of each second folded plate is provided with a second hanging lug structure, and a wiring groove structure for winding cables is arranged between the second hanging lug structures.

7. The Scorpio standard-based tool-free-combination configuration type switch bracket structure of claim 6, wherein the second ear hanging structure comprises a second ear hanging plate with an L-shaped cross section, second mounting holes are symmetrically arranged on the upper side and the lower side of one side plate of the second ear hanging plate, a second loose and non-loose spring screw is riveted between the two second mounting holes on one side plate of the second ear hanging plate, and second floating nuts for mounting a wiring slot structure are symmetrically arranged on the upper side and the lower side of the other side plate of the second ear hanging plate.

8. The Scorpio standard-based tool-free-combination configuration type switchboard bracket structure of claim 6, wherein said cabling channel structure comprises a mounting plate with two ends respectively mounted on a second ear hanging plate, mounting holes corresponding to a second floating nut are respectively opened at two ends of said mounting plate, and two rows of cabling channels for winding cables are arranged along the length direction of the mounting plate at the upper and lower sides of said mounting plate;

the wiring groove structure further comprises a dust brush and an end cover, wherein the dust brush is installed on the installation plate through a fixing plate, and the upper side and the lower side of the end cover are buckled on the wiring groove respectively.

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