CN214542946U - Novel bus distribution micromodule - Google Patents

Abstract

The utility model provides a novel generating line distribution micromodule, includes UPS, the passway door that contains the generating line top, at least one rack that contains the generating line section, the input at generating line top is connected UPS, output pass through the connector and connect the generating line section, the generating line section sets up in the rack and connects the distribution device of rack. Implement the utility model discloses a novel generating line distribution micromodule links generating line top and generating line section and each generating line section fast through the connector, realized that the rack is plug-and-play, easy extension, IT load flexible matching, the generating line top is integrated to have realized maintaining convenient operation in micromodule passageway door, whole novel generating line distribution micromodule need not to be listed as between the switch board realized the little beneficial effect of area, through rack and cabinet back generating line link communicate promptly with this has realized novel generating line distribution micromodule and has delivered the advantage fast.

Description

Novel bus distribution micromodule

Technical Field

The utility model relates to a distribution field, more specifically say, relate to a novel generating line distribution micromodule.

Background

A power distribution system of a traditional data center adopts a fixed power distribution cabinet to realize IT equipment power distribution. As shown in fig. 1, a fixed number of fixed capacity branch circuits are typically used to distribute power to the Power Distribution Units (PDUs) of each cabinet via the column head cabinet. Therefore, the power of a single cabinet needs to be confirmed in advance. When the capacity of a certain cabinet is changed, the cabinet can not be flexibly adapted, and in addition, because a branch switch and a wiring are fixed, the branch switch and the wiring are difficult to change at the later stage, and the expandability is poor. And the on-site cable and wiring need to be processed, the workload is large, the construction consistency is poor, the delivery is slow, and the independent power distribution cabinet needs extra floor area.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a novel generating line distribution micromodule, ITs plug-and-play that can realize distribution system, easy extension, IT load flexible matching, maintain convenient operation simultaneously, area is little, delivers fast.

The utility model provides a technical scheme that its technical problem adopted is: a novel bus distribution micromodule is constructed, and comprises a UPS, a channel door with a bus starting end and at least one cabinet with a bus section, wherein the input end of the bus starting end is connected with the UPS, the output end of the bus starting end is connected with the bus section through a connector, and the bus section is arranged in the cabinet and is connected with a distribution device of the cabinet.

The novel bus-bar distribution micromodule of the present invention comprises a plurality of bus-bar sections, each bus-bar section is disposed in the cabinet and connected to the distribution device of the cabinet, the first bus-bar sections of the plurality of bus-bar sections are connected to the output end at the top of the bus-bar section through connectors, and the plurality of bus-bar sections are connected to each other through connectors.

Novel generating line distribution micromodule in, UPS includes first UPS, the generating line top includes first generating line top, a plurality of generating line sections include first group generating line section and second group generating line section, the input at first generating line top is connected first UPS, first output pass through the connector and connect first group generating line section, second output pass through the connector and connect second group generating line section, every first group generating line section one-to-one sets up in first group rack, every second group generating line section one-to-one sets up in second group rack.

In the novel bus distribution micromodule of the present invention, the UPS comprises a first UPS, the bus start end comprises a first bus start end, the plurality of bus segments comprises a first group of bus segments and a second group of bus segments, the input end of the first bus start end is connected to the first UPS, the first output end is connected to the first group of bus segments through a connector, and the second output end is connected to the second group of bus segments through a connector;

at least one bus section in the first group of bus section groups is integrated on the first UPS, and the rest bus sections are respectively arranged in the first group of cabinets in a one-to-one correspondence manner;

at least one bus section in the second group of bus section groups is integrated on the air conditioner and supplies power to the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence mode or at least one bus section in the second group of bus section groups is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence mode, and the air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door.

Novel bus distribution micromodule in, UPS includes first UPS, the generating line top includes first generating line top and second generating line top, a plurality of generating line sections include first group generating line section, second group generating line section, third group generating line section and fourth group generating line section, the input at first generating line top is connected first UPS, first output pass through the connector and connect first group generating line section, second output pass through the connector and connect the second group generating line section, the input at second generating line top passes through coupling assembling and connects first generating line top, first output pass through the connector and connect third group generating line section, second output pass through the connector and connect fourth group generating line section, every first group generating line section with third group generating line section one-to-one sets up in first group rack, every second group generating line section with fourth group generating line section one-to-one sets up in second group rack.

In the novel bus distribution micromodule of the present invention, the UPS comprises a first UPS, the bus start comprises a first bus start and a second bus start, the bus segments comprise a first group of bus segments, a second group of bus segments, a third group of bus segments and a fourth group of bus segments, the input end of the first bus start is connected to the first UPS, the first output end is connected to the first group of bus segments through a connector, the second output end is connected to the second group of bus segments through a connector, the input end of the second bus start is connected to the first bus start through a connecting assembly, the first output end is connected to the third group of bus segments through a connector, and the second output end is connected to the fourth group of bus segments through a connector; at least one bus-section of the first set of bus-section groups and the third set of bus-sections is integrated on the first UPS, and the rest bus-sections are respectively arranged in the first set of cabinets in a one-to-one correspondence manner;

at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on an air conditioner and supplies power to the air conditioner, and the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner; or at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner, and an air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door. In the novel bus distribution micromodule of the utility model, the UPS comprises a first UPS and a second UPS, the bus bar origin comprises a first bus bar origin and a second bus bar origin, the plurality of bus bar segments comprises a first set of bus bar segments, a second set of bus bar segments, a third set of bus bar segments and a fourth set of bus bar segments, the input end of the first bus starting end is connected with the first UPS, the first output end is connected with the first group of bus sections through a connector, the second output end is connected with the second group of bus sections through a connector, the input end of the second bus starting end is connected with the second UPS, the first output end is connected with the third group of bus sections through a connector, the second output end is connected with the fourth group of bus sections through a connector, each first group of bus sections and each third group of bus sections are arranged in the first group of cabinets in a one-to-one correspondence mode, each of the second set of bus-sections and the fourth set of bus-sections is arranged in a one-to-one correspondence in the second set of cabinets.

In the novel bus distribution micromodule of the present invention, the UPS comprises a first UPS and a second UPS, the bus start comprises a first bus start and a second bus start, the plurality of bus segments comprises a first group of bus segments, a second group of bus segments, a third group of bus segments and a fourth group of bus segments, the input end of the first bus start is connected to the first UPS, the first output end is connected to the first group of bus segments through a connector, the second output end is connected to the second group of bus segments through a connector, the input end of the second bus start is connected to the second UPS, the first output end is connected to the third group of bus segments through a connector, the second output end is connected to the fourth group of bus segments through a connector,

at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on an air conditioner and supplies power to the air conditioner, and the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner; or at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner, and an air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door.

Novel generating line distribution micromodule in, the generating line top includes distribution switching device, power indicator, electric power measurement metering device, lightning protection device and dynamic environment monitoring device, the generating line section includes distribution switching device.

In the novel bus distribution micromodule of the utility model, each cabinet comprises a monitoring unit which is arranged between the bus section and the distribution device and is used for carrying out distribution and power measurement and metering management on the distribution device of the cabinet; the novel bus bar power distribution micromodule further comprises a temperature detection device for detecting the operating temperature of the connector.

Implement the utility model discloses a novel generating line distribution micromodule links generating line top and generating line section and each generating line section fast through the connector, realized that the rack is plug-and-play, easy extension, IT load flexible matching, the generating line top is integrated to have realized maintaining convenient operation in micromodule passageway door, whole novel generating line distribution micromodule need not to be listed as between the switch board realized the little beneficial effect of area, through rack and cabinet back generating line link communicate promptly with this has realized novel generating line distribution micromodule and has delivered the advantage fast. Furthermore, the starting end of the bus can adopt a 2N structure, and the bus section on the cabinet also adopts a 2N structure, so that single-point faults can be avoided. Furthermore, online detection and maintenance can be realized through the monitoring unit and the temperature detection device, and the usability of the power distribution loop is improved. In addition, the monitoring unit is arranged to realize the functions of electric quantity and electric energy detection, power distribution management and switch protection of the power distribution device of the cabinet.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is a functional block diagram of a prior art power distribution system;

fig. 2 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a first preferred embodiment of the present invention;

fig. 3 is a functional block diagram of a novel bus bar power distribution micromodule in accordance with a second preferred embodiment of the present invention;

fig. 4 is a functional block diagram of a novel bus bar power distribution micromodule in accordance with a third preferred embodiment of the present invention;

fig. 5 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a fourth preferred embodiment of the present invention;

fig. 6 is a schematic circuit diagram of a novel bus bar power distribution micromodule in accordance with a fifth preferred embodiment of the present invention;

fig. 7 is a schematic circuit diagram of a novel bus bar power distribution micromodule in accordance with a sixth preferred embodiment of the present invention;

FIG. 8 is a schematic structural view of the novel bus bar power distribution micromodule shown in FIG. 2;

fig. 9 is a functional block diagram of a novel bus bar power distribution micromodule in accordance with a seventh preferred embodiment of the present invention;

fig. 10 is a functional block diagram of a novel bus bar power distribution micromodule in accordance with an eighth preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model relates to a novel generating line distribution micromodule, include UPS, the passway that contains the generating line top, at least one rack that contains the generating line section, the input at generating line top is connected UPS, output pass through the connector and connect the generating line section, the generating line section sets up in the rack and connects the distribution device of rack. Implement the utility model discloses a novel generating line distribution micromodule links generating line top and generating line section and each generating line section fast through the connector, realized that the rack is plug-and-play, easy extension, IT load flexible matching, the generating line top is integrated to have realized maintaining convenient operation in micromodule passageway door, whole novel generating line distribution micromodule need not to be listed as between the switch board realized the little beneficial effect of area, through rack and cabinet back generating line link communicate promptly with this has realized novel generating line distribution micromodule and has delivered the advantage fast.

Fig. 2 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a first preferred embodiment of the present invention. As shown in FIG. 2, the novel bus bar distribution micromodule includes a UPS, a bus bar start A, bus bar sections A1 and A2. As shown in FIG. 2, the input of the bus bar start A is connected to the UPS, and the output is connected to the bus bar segment A1 through a connector 600. Similarly, the bus-section A1 is likewise connected to the bus-section A2 via a connector 600. The bus bar start a is disposed in the access door 500. Bus-sections A1 and 320 are disposed in cabinets 1 and 2, respectively, and connect to power distribution units PDU A1 and A2 of cabinets 1 and 2, respectively.

In a further preferred embodiment of the invention, a plurality of bus-sections may be included, each bus-section being arranged in a cabinet and connecting the power distribution means of the cabinet, a first bus-section of the plurality of bus-sections, e.g. bus-section a1 shown in fig. 2, being connected to the output of the bus-start a by a connector 600, and each plurality of bus-sections being connected to each other by a connector 600. In a simplified embodiment of the invention, only bus-section a1 may be included.

The embodiment adopts a power distribution mode that 1 UPS is matched with the starting end of the one-way bus and the bus section, and is suitable for an operation mode with low operation requirements on IT equipment.

Fig. 8 is a schematic diagram of the structure of the novel bus bar power distribution micromodule shown in fig. 2. As shown in FIG. 8, the bus-section A1 is integrated into the top surface of the cabinet A1. Likewise, bus-section A2 is integrated into the top surface of cabinet A2. Like this, after rack 1 and 2 cabinet combinations, every generating line section docks in proper order, has formed complete bus-bar circuit, and the distribution device PDU A1 and the A2 of every rack get the electricity from the generating line section of current rack simultaneously, supply power for IT equipment. Therefore, when the cabinets need to be added, the cabinet combination can be simply butted with one cabinet, the expansion can be rapidly carried out, each cabinet only needs to determine the maximum power, and the power is flexibly obtained from the bus loop according to the actual operation power after delivery. This is also true when a greater number of bus-sections are included. Further, because the bus starting end A, the bus section A1 and the bus section A2 are quickly butted by the connector 600, the field wiring engineering is completely omitted, the quick delivery is realized, and the engineering factors of cable processing, such as inconsistent wiring routes, poor cable terminal crimping quality and insufficient cable terminal fixing torque, are avoided because the design is standardized. By the generating line top A of integration in the passageway door like this, the generating line section of integration at the rack top surface through connector high-speed joint, realizes plug and play, flexibility, scalability, exempt from engineering, quick delivery, high availability and easy maintenance performance of novel generating line distribution micromodule. Because the bus starting end A is not hung on the top surface of the cabinet and is integrated in the channel door, the maintenance operation can be conveniently carried out without ascending a height by operating personnel.

Preferably, the bus starting end a comprises a power distribution switch device, a power supply indicating device, an electric power measurement metering device, a lightning protection device and a dynamic environment monitoring device, and can realize the functions of total power distribution, metering and protection of the novel bus power distribution micromodule. The bus section includes a power distribution switchgear.

Fig. 3 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a second preferred embodiment of the present invention. In the embodiment shown in FIG. 3, a single bus bar start is associated with a single UPS and two sets of bus bar segments. In this embodiment, the input end of the bus starting end A is connected with the UPS, and the first output end is connected with the first group of bus sections through the connector; the second output end of the first bus bar starting end A is connected with the second group of bus bar sections through a connector. The first set of bus-sections comprises bus-sections A1 and A2 and the second set of bus-sections comprises bus-sections A3 and A4. The bus-section A1 is connected to the bus-start A and the bus-section A2, respectively, by connectors, and similarly the bus-section A3 is connected to the bus-start A and the bus-section A4, respectively, by connectors. Each bus-section A1 and A2 is disposed in one-to-one correspondence in cabinets 1 and 2, each bus-section A3 and A4 is disposed in one-to-one correspondence in cabinets 3 and 4, and each bus-section corresponds to one power distribution device PDU.

Fig. 4 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a third preferred embodiment of the present invention. In the embodiment shown in FIG. 4, there is a UPS, two bus starts, four sets of bus segments, i.e., UPS A, bus starts A and B, bus segments A1 and A2, bus segments B1 and B2, bus segments A3 and A4, and bus segments B3 and B4, wherein the input of the bus start A is connected to the UPS A, the first output is connected to bus segments A1 and A2 by connectors, the second output is connected to bus segments A3 and A4 by connectors, the input of the bus start B is connected to the bus start A by connecting members (e.g., copper bars), the first output is connected to bus segments B1 and B2 by connectors, and the second output is connected to bus segments B3 and B4 by connectors. Bus-sections a1 and B1 are provided in cabinet 1, bus-sections a2 and B2 are provided in cabinet 2, bus-sections A3 and B3 are provided in cabinet 3, bus-sections a4 and B4 are provided in cabinet 4, each bus-section corresponding to one power distribution device PDU, i.e. bus-sections a1-a4 correspond to PDU a1-a4, respectively, and bus-sections B1-B4 correspond to PDU B1-B4, respectively.

Fig. 5 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a fourth preferred embodiment of the present invention. In the embodiment shown in FIG. 5, two UPSs are included, two bus starts, four sets of bus segments, i.e., UPSs A and B, bus starts A and B, bus segments A1 and A2, bus segments B1 and B2, bus segments A3 and A4, and bus segments B3 and B4, the input of the bus start A is connected to the UPS A, the first output is connected to bus segments A1 and A2 in sequence through connectors, the second output is connected to bus segments A3 and A4 in sequence through connectors, the input of the bus start B is connected to the UPS B, the first output is connected to bus segments B1 and B2 in sequence through connectors, and the second output is connected to bus segments B3 and B4 in sequence through connectors. Bus-sections A1 and B1 are provided in cabinet 1, bus-sections A2 and B2 are provided in cabinet 2, bus-sections A3 and B3 are provided in cabinet 3, and bus-sections A4 and B4 are provided in cabinet 4. Each bus-section corresponds to one of the power distribution devices PDU, i.e., bus-sections A1-A4 correspond to PDUs A1-A4, respectively, and bus-sections B1-B4 correspond to PDUs B1-B4, respectively.

Fig. 6 is a schematic circuit diagram of a novel bus bar power distribution micromodule according to a fifth preferred embodiment of the present invention. A UPS is matched with the starting end and the bus section of the double-circuit bus, and is also suitable for scenes with low IT equipment operation requirements. As shown in FIG. 6, the novel bus bar distribution micromodule includes a UPS, a bus bar start A, B, bus bar groups A1, B1, A2 and B2, each of which may include a plurality of bus bar segments, wherein the bus bar start A, the bus bar groups A1 and A2 constitute one path, and the bus bar start B, the bus bar groups B1 and B2 constitute another path. The input end of the bus starting end A is connected with the UPS, and the output end of the bus starting end A is connected with the bus groups A1 and A2 through connectors. The first bus-section of the bus-bar groups A1 and A2 is connected to the bus-bar starting end A by a connector, and the rest of the bus-bars are connected to each other by a connector. The input end of the bus starting end B is connected with the UPS, and the output end of the bus starting end B is connected with the bus groups B1 and B2 through connectors. The first bus-section of the bus-bar groups B1 and B2 is connected to the bus-bar starting end B by a connector, and the rest of the bus-bars are connected to each other by a connector. Likewise, each lane may include a greater or lesser number of bus-sections, and so will not be reiterated herein. Every the generating line top includes distribution switching device, power indicating device, electric power measurement metering device, lightning protection device and dynamic environment monitoring device, the generating line section includes distribution switching device.

Fig. 7 is a schematic circuit diagram of a novel bus bar power distribution micromodule in accordance with a sixth preferred embodiment of the present invention. In order to ensure the long-term stable operation of the IT equipment, a 2N framework is used at the starting end of the bus, and a 2N framework is also used at the bus section on the cabinet, so that single-point faults can be avoided.

As shown in fig. 7, the novel bus bar distribution micromodule of the present invention includes a first UPS a and a second UPS B, a first bus bar start and a second bus bar start, bus bar groups a1, B1, a2 and B2, each bus bar group may include a plurality of bus bar segments. Similarly, the first bus bar starting end, the bus bar groups A1 and A2 form one path, and the second bus bar starting end, the bus bar groups B1 and B2 form the other path. The input end of the bus starting end A is connected with the UPS, and the output end of the bus starting end A is connected with the bus groups A1 and A2 through connectors. The first bus-section of the bus-bar groups A1 and A2 is connected to the bus-bar starting end A by a connector, and the rest of the bus-bars are connected to each other by a connector. The input end of the bus starting end B is connected with the UPS, and the output end of the bus starting end B is connected with the bus groups B1 and B2 through connectors. In the embodiment shown in fig. 7, the start end of the bus includes a power distribution switch, an indicator light YGA, an electricity meter a, a lightning protection device a, and a monitoring device. The individual bus-sections of the bus-bar sets a1, B1, a2 and B2 are respectively disposed in the cabinets to respectively power the power distribution devices PDUA and PDUB in each cabinet. And each cabinet is respectively provided with a monitoring unit to realize the functions of electric energy detection, power distribution management and switch protection of the power distribution device of the cabinet. In other preferred embodiments of the present invention, the intelligent power distribution device can be used to realize the functions of power detection, power distribution management and switch protection. In this embodiment, two head end subassemblies are installed in the passageway door, install the generating line section on two rows of cabinets, and after the cabinet combining during the installation between the cabinet, butt joint bus connector, the integrated connector that has in the passageway door passes through the connector butt joint with adjacent first cabinet, has formed complete generating line distribution circuit promptly.

Novel generating line distribution micromodule in, further including being used for detecting connector 600's operating temperature's temperature-detecting device to real-time detection operating temperature, unusual high temperature is reported an emergency and asked for help or increased vigilance, has satisfied the safe operation requirement, the troubleshooting is convenient.

Fig. 9 is a schematic block diagram of a novel bus bar power distribution micromodule in accordance with a seventh preferred embodiment of the present invention. As shown in FIG. 9, the novel bus distribution micromodule of this embodiment includes a UPS, two bus origins, four sets of bus segments, i.e., UPS 1, bus origins A and B, bus segments A1 and A2, bus segments B1 and B2, bus segments A3 and A4, and bus segments B3 and B4. The input of bus starting end A is connected UPS 1, first output passes through the connector and connects gradually bus-section A1 and A2, the second output passes through the connector and connects gradually bus-section A3 and A4, bus starting end B's input passes through coupling assembling and connects bus-section A, and first output passes through the connector and connects bus-section B1 and B2, second output passes through the connector and connects bus-section B3 and B4. Bus-sections A1 and B1 are integrated on UPS 1, bus-sections A2 and B2 are provided in cabinet 2, bus-sections A3 and B3 are integrated on air conditioner 3 and directly power air conditioner 3, bus-sections A4 and B4 are provided in cabinet 4, each bus-section in the cabinet corresponds to one power distribution device PDU, i.e., bus-sections A2 and B2 correspond to PDUs A2 and B2, and bus-sections A4 and B4 correspond to PDUs A4 and B4, respectively. In this embodiment, the bus starting end in the passage door is connected to the UPS, and a complete bus link under the entering scene is formed by integrating bus sections on the UPS and the air conditioner, and meanwhile, the integrated bus on the air conditioner directly supplies power to the air conditioner without an air conditioner power distribution module, so that a continuous refrigeration mode of the UPS-powered air conditioner is realized.

Fig. 10 is a functional block diagram of a novel bus bar power distribution micromodule in accordance with an eighth preferred embodiment of the present invention. As shown in FIG. 10, the novel bus distribution micromodule of this embodiment includes a UPS, two bus origins, four sets of bus segments, i.e., UPS 1, bus origins A and B, bus segments A1 and A2, bus segments B1 and B2, bus segments A3 and A4, and bus segments B3 and B4. The input of bus starting end A is connected UPS 1, first output passes through the connector and connects gradually bus-section A1 and A2, the second output passes through the connector and connects gradually bus-section A3 and A4, bus starting end B's input passes through coupling assembling and connects bus-section A, and first output passes through the connector and connects bus-section B1 and B2, second output passes through the connector and connects bus-section B3 and B4. Bus-sections A1 and B1 are integrated on UPS 1, bus-sections A2 and B2 are provided in cabinet 2, bus-sections A3 and B3 are integrated on air conditioner 3, bus-sections A4 and B4 are provided in cabinet 4, one power distribution device PDU for each bus-section in the cabinet, i.e., bus-sections A2 and B2 correspond to PDUs A2 and B2, respectively, and bus-sections A4 and B4 correspond to PDUs A4 and B4, respectively. In this embodiment, an air conditioner power distribution module is disposed in the access door to supply power to the air conditioner 3. In this embodiment, the bus starting point is connected to UPS in the passageway door, through integrated bus section on UPS and air conditioner, has constituteed into complete bus link under the scene of arranging, and the while is integrated air conditioner distribution module in the passageway door, supplies power to the air conditioner, need not solitary idle call switch board, saves area.

In a further preferred embodiment of the present invention, it is known to those skilled in the art that the cabinet 1 in any of the embodiments shown in fig. 3 to 6 can be replaced with a UPS and the cabinet 2 can be replaced with an air conditioner. Of course, the cabinet 2 may be replaced with a UPS, and the cabinet 1 may be replaced with an air conditioner. The specific control manner can refer to the embodiments shown in fig. 9-10, and will not be described in detail herein.

Implement the utility model discloses a novel generating line distribution micromodule links UPS and generating line top through the connector fast, and generating line top and generating line section and each generating line section have realized plug-and-play, easily expand, IT load flexible matching, maintain convenient operation simultaneously, the little beneficial effect of area. Furthermore, the starting end of the bus can adopt a 2N structure, and the bus section on the cabinet also adopts a 2N structure, so that single-point faults can be avoided. Furthermore, online detection and maintenance can be realized through the monitoring unit and the temperature detection device, and the usability of the power distribution loop is improved. In addition, the bus starting end is integrated in the channel door, so that the maintenance operation is convenient, and the monitoring unit is arranged to realize the functions of electric energy detection, power distribution management and switch protection of the power distribution device of the cabinet.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a novel generating line distribution micromodule, its characterized in that includes UPS, the passway door that contains the generating line top, at least one rack that contains the generating line section, the input at generating line top is connected UPS, output pass through the connector and connect the generating line section, the generating line section sets up in the rack and connects the distribution device of rack.

2. The novel bus bar power distribution micromodule of claim 1, comprising a plurality of bus sections, each bus section being disposed in a cabinet and connecting the power distribution devices of the cabinet, a first bus section of the plurality of bus sections being connected to the output of the bus start by a connector, and the plurality of bus sections being connected to each other by a connector.

3. The novel bus bar power distribution micromodule of claim 2, wherein the UPS comprises a first UPS, the bus start comprises a first bus start, the plurality of bus segments comprises a first set of bus segments and a second set of bus segments, the first bus start has an input connected to the first UPS, a first output connected to the first set of bus segments via a connector, and a second output connected to the second set of bus segments via a connector, each of the first set of bus segments is disposed in a first set of cabinets in a one-to-one correspondence, and each of the second set of bus segments is disposed in a second set of cabinets in a one-to-one correspondence.

4. The novel bus bar power distribution micromodule of claim 1, wherein the UPS comprises a first UPS, the bus start comprises a first bus start, the plurality of bus segments comprises a first set of bus segments and a second set of bus segments, the first bus start has an input connected to the first UPS, a first output connected to the first set of bus segments via a connector, and a second output connected to the second set of bus segments via a connector;

at least one bus section in the first group of bus section groups is integrated on the first UPS, and the rest bus sections are respectively arranged in the first group of cabinets in a one-to-one correspondence manner;

at least one bus section in the second group of bus section groups is integrated on the air conditioner and supplies power to the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence mode or at least one bus section in the second group of bus section groups is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence mode, and the air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door.

5. The novel bus bar power distribution micromodule of claim 2, wherein the UPS comprises a first UPS, the bus start comprises a first bus start and a second bus start, the plurality of bus segments comprises a first set of bus segments, a second set of bus segments, a third set of bus segments, and a fourth set of bus segments, the first bus start has an input connected to the first UPS, a first output connected to the first set of bus segments via a connector, a second output connected to the second set of bus segments via a connector, the second bus start has an input connected to the first bus start via a connecting assembly, a first output connected to the third set of bus segments via a connector, a second output connected to the fourth set of bus segments via a connector, each of the first set of bus segments and the third set of bus segments being disposed in a one-to-one correspondence in a first set of cabinets, each of the second set of bus-sections and the fourth set of bus-sections is arranged in a one-to-one correspondence in the second set of cabinets.

6. The novel bus bar power distribution micromodule of claim 1, wherein the UPS comprises a first UPS, the bus bar start comprises a first bus bar start and a second bus bar start, the bus bar segments comprise a first set of bus bar segments, a second set of bus bar segments, a third set of bus bar segments, and a fourth set of bus bar segments, the first bus bar start has an input connected to the first UPS, a first output connected to the first set of bus bar segments via a connector, a second output connected to the second set of bus bar segments via a connector, the second bus bar start has an input connected to the first bus bar start via a connecting assembly, a first output connected to the third set of bus bar segments via a connector, and a second output connected to the fourth set of bus bar segments via a connector; at least one bus-section of the first set of bus-section groups and the third set of bus-sections is integrated on the first UPS, and the rest bus-sections are respectively arranged in the first set of cabinets in a one-to-one correspondence manner;

at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on an air conditioner and supplies power to the air conditioner, and the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner; or at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner, and an air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door.

7. The novel bus bar power distribution micromodule of claim 2, wherein the UPS comprises a first UPS and a second UPS, the bus start comprises a first bus start and a second bus start, the plurality of bus segments comprises a first set of bus segments, a second set of bus segments, a third set of bus segments, and a fourth set of bus segments, the first bus start has an input connected to the first UPS, a first output connected to the first set of bus segments by a connector, a second output connected to the second set of bus segments by a connector, the second bus start has an input connected to the second UPS, a first output connected to the third set of bus segments by a connector, a second output connected to the fourth set of bus segments by a connector, each of the first set of bus segments and the third set of bus segments are disposed in a one-to-one correspondence in a first set of cabinets, each of the second set of bus-sections and the fourth set of bus-sections is arranged in a one-to-one correspondence in the second set of cabinets.

8. The novel bus bar power distribution micromodule of claim 1, wherein the UPS comprises a first UPS and a second UPS, the bus start comprises a first bus start and a second bus start, the plurality of bus segments comprises a first set of bus segments, a second set of bus segments, a third set of bus segments, and a fourth set of bus segments, the first bus start has an input connected to the first UPS, a first output connected to the first set of bus segments via a connector, a second output connected to the second set of bus segments via a connector, the second bus start has an input connected to the second UPS, a first output connected to the third set of bus segments via a connector, a second output connected to the fourth set of bus segments via a connector,

at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on an air conditioner and supplies power to the air conditioner, and the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner; or at least one bus section in the second group of bus section groups and the fourth group of bus sections is integrated on the air conditioner, the rest bus sections are respectively arranged in the second group of cabinets in a one-to-one correspondence manner, and an air conditioner power distribution module for supplying power to the air conditioner is arranged in the channel door.

9. The novel bus bar power distribution micromodule according to any of claims 1 to 8, wherein the bus bar start comprises a power distribution switching device, a power indication device, a power measurement metering device, a lightning protection device and a dynamic environment monitoring device, and the bus bar segment comprises a power distribution switching device.

10. The novel bus bar power distribution micromodule of claim 9, wherein each cabinet includes a monitoring unit disposed between the bus section and the power distribution device for power distribution and metering management of power measurements for the power distribution device of the cabinet; the novel bus bar power distribution micromodule further comprises a temperature detection device for detecting the operating temperature of the connector.

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