CN219717822U - Rack level bus duct structure - Google Patents

Abstract

The utility model discloses a cabinet-level bus duct structure, which comprises a plurality of rows of cabinets which are arranged in parallel, wherein a cable main wiring rack is arranged on the left side of a cabinet row, a communication main wiring rack is arranged on the right side of the cabinet row, a communication row wiring rack is arranged on the back of the cabinet row, the communication row wiring rack is directly connected with the communication main wiring rack, a bus duct is arranged between the cabinet row and the cabinet row, one end of the bus duct is connected with the communication main wiring rack, the other end of the bus duct is connected with the cable main wiring rack through a starting end box, a plurality of plug boxes are further arranged on the bus duct, and the number and the positions of the plug boxes are in one-to-one correspondence with the cabinets.

Description

Rack level bus duct structure

Technical Field

The utility model relates to a cabinet-level bus duct structure.

Background

At present, a large-scale data center in the domestic market generally adopts a mode of a cabinet with a row head and cables, capacity is estimated according to a maximum load mode when the large-scale data center is designed for the first time, the later-period operation and maintenance cost is high, the cable laying construction period is long, the cable is easy to age, the conductivity is reduced year by year, the management is difficult, and the energy consumption is high; the cabinet with the row head has limited space, difficult capacity and position adjustment, poor capacity expansion capacity in the future, incapability of timely adapting to the service development needs, poor adaptability to changes and easy potential safety hazard; and the device has the advantages of huge volume, long deployment period, low effective use efficiency in a machine room and difficult investment cost control.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a cabinet-level bus duct structure.

The utility model provides a rack level bus duct structure, includes the rack that a plurality of rows placed side by side, the left side of rack row be equipped with cable main chute, the right side of rack row is equipped with communication main chute, be equipped with communication row chute behind the rack row, communication row chute and communication main chute direct link to each other, be equipped with the bus duct between rack row and the rack row, the one end of bus duct links to each other with communication main chute, the other end of bus duct passes through the start end case with cable main chute and links to each other, still be equipped with a plurality of jack box on the bus duct, the quantity and the position and the rack one-to-one of jack box.

As a further improvement, the starting end box comprises a box body, a box top plate and a box bottom plate are provided with through holes for a starting end bus to pass through, at least one pair of C-shaped stand columns in the vertical direction are arranged in the rectangular box side plates, the C-shaped stand columns in the vertical direction are connected with a horizontal cross beam, and two ends of the cross beam are connected with the C-shaped stand columns in the vertical direction through bolts; the middle section of the beam is provided with a supporting plate which can be fixedly connected with the starting end bus cover plate.

As a further improvement, the top box include the body, the one end bilateral symmetry of body is equipped with the mounting panel about, one side of body is equipped with the backup pad, the up end one side arrangement of body is equipped with the connection box, the inside of body is equipped with inside copper, inside copper is pegged graft in the inside of connection box, the other end of connection box is pegged graft there is outside copper, the one end of inside copper and outside copper all is equipped with the semicircle groove, the inside of connection box still is equipped with the butt clamp plate, the middle part of butt clamp plate is equipped with the screw hole, the middle part of connection box alternates there is the screw rod, screw rod spiro union butt clamp plate middle part's screw hole.

As a further improvement, the jack box comprises a box body, a box cover and locking screws, wherein the box cover is provided with a plurality of through holes for the locking screws to pass through, the box body is provided with a lock edge plate, the lock edge plate is provided with a plurality of nuts for fixing the locking screws, and the nuts are fixed on the lock edge plate in a punching mode.

As a further improvement, the bus duct is also provided with an end feed module, and the end feed module is used for connecting electric power into the bus duct system.

As a further improvement, the end feed module incorporates a circuit breaker, a monitoring module and a communication module.

The beneficial effects are that:

the utility model has ingenious design, adopts modularized design, is plug and play, is easy to install, does not need to be powered off when circuits are added or unloaded, and has continuous equipment operation; the modularized design also has high universality, and can be personalized according to the requirements of customers, so that the requirements of various use occasions are met; the installation method supports various installation modes, can be used for installing the top of a cabinet, the under floor, embedded ceilings and the like, can be rapidly expanded according to equipment changes in the use process, and is maintenance-free.

Drawings

FIG. 1 is a schematic diagram of a system architecture of a rack level busway structure;

fig. 2 is a schematic structural view of the header tank of the first embodiment;

fig. 3 is a schematic view of the structure of the start tank of the second embodiment;

FIG. 4 is a schematic view of a jack box

1. Cabinet 2, cable main rack 3, communication main rack 4, communication column rack 5, busway 6, header 611, first box 612, box top plate 613, floor 614, c-pillar 615, horizontal cross member 616, support plate 621, body 622, mounting plate 623, support plate 624, connection box 625, inner copper plate 626, outer copper plate 7, jack box 71, second box 72, box cover 73, locking screw 74, lock edge plate 75, nuts.

Detailed Description

The present utility model will be further described in detail with reference to the following examples and drawings for the purpose of enhancing the understanding of the present utility model, which examples are provided for the purpose of illustrating the present utility model only and are not to be construed as limiting the scope of the present utility model.

As shown in fig. 1 to 4, a cabinet level bus duct structure includes a cabinet 1, a cable main rack 2, a communication main rack 3, a communication column rack 4, a bus duct 5, a start box 6, a first box 611, a box top plate 612, a bottom plate 613, a C-shaped column 614, a horizontal beam 615, a support plate 616, a body 621, a mounting plate 622, a support plate 623, a connection box 624, an inner copper plate 625, an outer copper plate 626, an inserting box 7, a second box 71, a box cover 72, a lock screw 73, a lock edge plate 74, and a nut 75.

Example 1

The utility model provides a rack level bus duct 5 structure, includes rack 1 that a plurality of rows placed side by side, the left side of rack row be equipped with cable main chute 2, the right side of rack row is equipped with communication main chute 3, be equipped with communication behind the back of the rack row and arrange chute 4, communication is arranged chute 4 and is directly linked to each other with communication main chute 3, be equipped with bus duct 5 between rack row and the rack 1 row, one end and the communication main chute 3 of bus duct 5 link to each other, the other end and the cable main chute 2 of bus duct 5 link to each other through starting end case 6, still be equipped with a plurality of jack box 7 on the bus duct 5, the quantity and the position of jack box 7 and rack 1 one-to-one.

The starting end box 6 comprises a box body, a box body top plate 612 and a box body bottom plate 613 are provided with through holes for a starting end bus to pass through, at least one pair of CC type stand columns 614 in the vertical direction are arranged in the rectangular box body side plates, the CC type stand columns 614 in the vertical direction are connected with a horizontal cross beam 615, and two ends of the cross beam are connected with the CC type stand columns 614 in the vertical direction through bolts; the middle section of the beam is provided with a support plate 616 which can be fixedly connected with the initial bus cover plate.

As a further improvement, the jack box 7 comprises a box body, a box cover 72 and locking screws 73, wherein the box cover 72 is provided with a plurality of through holes for the locking screws 73 to pass through, the box body is provided with a lock edge plate 74, the lock edge plate 74 is provided with a plurality of nuts 75 for fixing the locking screws 73, and the nuts 75 are fixed on the lock edge plate 74 in a punching mode.

The bus duct 5 is further provided with an end feeding module, and the end feeding module is used for connecting power into the bus duct 5 system.

Wherein, the built-in circuit breaker of tip feed module, monitoring module and communication module.

Example 2

The utility model provides a rack level bus duct 5 structure, includes rack 1 that a plurality of rows placed side by side, the left side of rack row be equipped with cable main chute 2, the right side of rack row is equipped with communication main chute 3, be equipped with communication behind the back of the rack row and arrange chute 4, communication is arranged chute 4 and is directly linked to each other with communication main chute 3, be equipped with bus duct 5 between rack row and the rack row, one end of bus duct 5 links to each other with communication main chute 3, the other end of bus duct 5 links to each other through starting end case 6 with cable main chute 2, still be equipped with a plurality of jack box 7 on the bus duct 5, the quantity and the position of jack box 7 and rack 1 one-to-one.

The starting end box 6 comprises a body 621, mounting plates 622 are symmetrically arranged on the upper side and the lower side of one end of the body 621, a supporting plate 616 is arranged on one side of the body 621, a connecting box 624 is arranged on one side of the upper end face of the body 621, an inner copper plate 625 is arranged in the body 621, the inner copper plate 625 is inserted into the connecting box 624, an outer copper plate 626 is inserted into the other end of the connecting box 624, semicircular grooves are formed in one ends of the inner copper plate 625 and the outer copper plate 626, a pressing plate is further arranged in the connecting box 624, a threaded hole is formed in the middle of the pressing plate, a screw rod is inserted into the middle of the connecting box 624, and the threaded hole is formed in the middle of the pressing plate in a threaded mode.

The jack box 7 comprises a box body, a box cover 72 and locking screws 73, wherein the box cover 72 is provided with a plurality of through holes for the locking screws 73 to pass through, the box body is provided with a lock edge plate 74, the lock edge plate 74 is provided with a plurality of nuts 75 for fixing the locking screws 73, and the nuts 75 are fixed on the lock edge plate 74 in a punching mode.

The bus duct 5 is further provided with an end feeding module, and the end feeding module is used for connecting power into the bus duct 5 system.

Wherein, the built-in circuit breaker of tip feed module, monitoring module and communication module. The utility model adopts a modularized design, is plug and play, is easy to install, does not need to be powered off when circuits are added or unloaded, and has continuous equipment operation; the modularized design also has high universality, and can be personalized according to the requirements of customers, so that the requirements of various use occasions are met; the installation method supports various installation modes, can be used for installing the top of a cabinet, the under floor, embedded ceilings and the like, can be rapidly expanded according to equipment changes in the use process, and is maintenance-free.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a rack level bus duct structure, its characterized in that, includes the rack that a plurality of rows were placed side by side, the left side of rack row be equipped with cable main chute, the right side of rack row is equipped with communication main chute, be equipped with communication row chute behind the rack row, communication row chute and communication main chute direct link to each other, be equipped with the bus duct between rack row and the rack row, the one end of bus duct links to each other with communication main chute, the other end of bus duct passes through the start end case with cable main chute and links to each other, still be equipped with a plurality of jack box on the bus duct, the quantity and the position of jack box and rack one-to-one.

2. The cabinet-level bus duct structure according to claim 1, wherein the initial end box comprises a box body, a box top plate and a box bottom plate are provided with through holes for the initial end bus to pass through, at least one pair of C-shaped stand columns in the vertical direction are arranged inside the rectangular box side plates, the C-shaped stand columns in the vertical direction are connected with a horizontal cross beam, and two ends of the cross beam are connected with the C-shaped stand columns in the vertical direction through bolts; the middle section of the beam is provided with a supporting plate which can be fixedly connected with the starting end bus cover plate.

3. The cabinet-level bus duct structure according to claim 1, wherein the initial box comprises a body, mounting plates are symmetrically arranged on the upper side and the lower side of one end of the body, a supporting plate is arranged on one side of the body, a connecting box is arranged on one side of the upper end face of the body, an inner copper plate is arranged in the body, the inner copper plate is inserted into the connecting box, an outer copper plate is inserted into the other end of the connecting box, semicircular grooves are formed in one ends of the inner copper plate and the outer copper plate, a pressing plate is further arranged in the connecting box, a threaded hole is formed in the middle of the pressing plate, a screw rod is inserted into the middle of the connecting box, and the screw rod is in threaded connection with the threaded hole in the middle of the pressing plate.

4. A cabinet level bus duct structure as set forth in claim 2 or 3 wherein said jack box comprises a box body, a box cover and locking screws, said box cover having a plurality of through holes for said locking screws to pass through, said box body having a lock edge plate having a plurality of nuts for fixing said locking screws, said nuts being stamped and secured to said lock edge plate.

5. The cabinet level busway structure of claim 1, wherein the busway is further provided with an end feed module for connecting power to the busway system.

6. The cabinet level busway structure of claim 5, wherein the end feed module houses a circuit breaker, a monitoring module, and a communication module.