CN209571706U - A kind of micromodule data center power distribution cabinet of novel layouts - Google Patents
A kind of micromodule data center power distribution cabinet of novel layouts Download PDFInfo
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- CN209571706U CN209571706U CN201920195265.XU CN201920195265U CN209571706U CN 209571706 U CN209571706 U CN 209571706U CN 201920195265 U CN201920195265 U CN 201920195265U CN 209571706 U CN209571706 U CN 209571706U
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Abstract
The utility model discloses a kind of micromodule data center power distribution cabinets of novel layouts, cabinet body front is provided with distribution input storehouse, distribution exchange storehouse and distribution DC storehouse, distribution input storehouse is placed with AC/DC input device, distribution exchange storehouse is placed with alternating current devices, and distribution DC storehouse is placed with direct current device;Cabinet body left and right side is placed with one of them in exchange monitoring module and direct-current supervision module respectively;Configured with distribution slot and confluence busbar behind cabinet body.Exchange monitoring module and direct-current supervision module are separately positioned on cabinet body left or right side, reserve more sufficient device for power distribution cabinet front and arrange space, overcome existing power distribution cabinet wiring complexity, operating difficulties, it is not convenient for safeguarding the disadvantages of;But also monitoring module and sampling module apart from closer, facilitate cabling;Configured with distribution slot and confluence busbar for interior of the cabinet cabling behind cabinet body, but also component available space in cabinet body front increases, the convenient maintenance of realization device in integral layout structure.
Description
Technical field
The utility model relates to a kind of micromodule data center power distribution cabinets of novel layouts.
Background technique
It should meet based on the electric power distribution and monitoring of a plurality of branch involved in micromodule system, therefore in power distribution cabinet layout
The easy wiring of exterior, device is convenient for safeguarding and do not power off, compact layout the characteristics of.But existing micromodule data center
A large amount of monitoring modular is placed on cabinet body front or door-plate by the design layout of power distribution cabinet, and not only inconvenient system wiring has an effect on
The follow-up maintenance of device.
Utility model content
The utility model provides a kind of micromodule data center power distribution cabinet of novel layouts, and which overcome background techniques
Existing deficiency.The technical solution adopted by the utility model to solve the technical problem is that:
A kind of micromodule data center power distribution cabinet of novel layouts, it is characterised in that: it includes cabinet body, positive door-plate, back door
Plate, left side door-plate and right side door-plate, positive door-plate, Rear Door, left side door-plate and right side door-plate are mounted on cabinet body to open-close type respectively
Front, back, left and right side, the cabinet body front is provided with distribution input storehouse, distribution exchange storehouse and distribution DC storehouse, matches
Electricity input storehouse is placed with AC/DC input device, and distribution exchange storehouse is placed with alternating current devices, and distribution DC storehouse is placed with direct current device
Part;The cabinet body left and right side is placed with one of them in exchange monitoring module and direct-current supervision module respectively;The cabinet
Configured with for the distribution slot and confluence busbar for interior of the cabinet cabling behind body.
Among one preferred embodiment: the distribution input position in storehouse exchanges above storehouse and distribution DC storehouse in distribution, and distribution is handed over
Flow storehouse and distribution DC storehouse or so arranged for interval;It is placed with exchange monitoring module on the left of cabinet body, direct current prison is placed on the right side of cabinet body
Control module.
Among one preferred embodiment: the alternating current devices include that several micro- break of exchange being arranged side by side exchange with several
Mutual inductor, D.C mutual-inductor, which is located at, to be exchanged above or below micro- break, and distribution exchange storehouse is provided with several the first binding plates
With the first cable-through hole, micro- disconnected one end connection exchange input device is exchanged;It exchanges micro- disconnected other end and corresponding friendship is passed through by conducting wire
Conducting wire, which is fixed on corresponding first binding plate, after current transformer forms harness, harness pass through corresponding first cable-through hole after again with
Exchange monitoring module is connected.
Among one preferred embodiment: the direct current device includes micro- disconnected and several direct currents of direct current that several are arranged side by side
Hall element, direct current Hall element be located at direct current it is micro- it is disconnected above or below, the distribution DC storehouse is provided with several and second pricks
Line plate and the second cable-through hole, the micro- disconnected one end connection direct current of direct current input device;The micro- disconnected other end of direct current is passed through by conducting wire and is corresponded to
Direct current Hall element after conducting wire be fixed on corresponding second binding plate and form harness, harness passes through corresponding second cable-through hole
It is connected again with direct-current supervision module afterwards.
Among one preferred embodiment: the exchange monitoring module is located at lower section on the left of cabinet body, and top is set on the left of the cabinet body
It is equipped with the exchange ground wire terminal row and zero terminal row, third binding plate of longitudinal gap arrangement, exchange ground wire one end is fixed on friendship
Stream ground wire terminal row is upper, the other end is fixed on third binding plate;AC neutral line one end is fixed on zero terminal row, the other end is solid
It is scheduled on third binding plate.
Among one preferred embodiment: exchange ground wire is equipped with several and longitudinal gap is arranged, exchange ground wire one end is fixed
Upper, other end formation exchange ground wire harness is arranged in exchange ground wire terminal and is fixed on third binding plate, if AC neutral line is provided with
Dry root and longitudinal gap arrangement, AC neutral line one end are each attached to zero terminal and arrange upper, other end formation AC neutral line harness simultaneously
It is fixed on third binding plate.
Among one preferred embodiment: the direct-current supervision module is located at cabinet body lower right-hand side, and top is set on the right side of the cabinet body
Be equipped with the direct current ground wire terminal row longitudinally extended and the 4th binding plate, direct current ground wire one end be fixed on direct current ground wire terminal row it is upper,
The other end is fixed on the 4th binding plate.
Among one preferred embodiment: direct current ground wire is provided with several and longitudinal gap is arranged, direct current ground wire one end is solid
It is scheduled on upper direct current ground wire terminal row, other end formation direct current ground wire harness and is fixed on the 4th binding plate.
Among one preferred embodiment: distribution input storehouse samples enterprising upper cabling mode out.
The technical program compared with the background art, it has the following advantages:
1. being on the one hand distribution since exchange monitoring module and direct-current supervision module are separately positioned on cabinet body left or right side
Cabinet front reserves more sufficient, AC/DC input device, alternating current devices or direct current device arrangement space, overcomes existing at present
There is power distribution cabinet wiring complexity, operating difficulties, not convenient for safeguarding;On the other hand make monitoring module and sampling module distance more
Closely, facilitate cabling;Meanwhile it is configured with behind cabinet body for the distribution slot and confluence busbar for interior of the cabinet cabling, for cabinet body
Internal cabling realizes the convenient of device but also component available space in cabinet body front increases in integral layout structure
Maintenance.
It is exchanged above or below micro- break 2. D.C mutual-inductor is located at, exchanges micro- disconnected one end connection exchange input device;Exchange
Micro- disconnected other end is fixed on corresponding first binding plate across conducting wire after corresponding D.C mutual-inductor by conducting wire and forms harness,
Harness pass through after corresponding first cable-through hole again with exchange monitoring module and is connected so that one side can be direct in device failure
Front is replaced, and on the other hand, conducting wire is had no progeny through exchange is micro- directly through D.C mutual-inductor, unified solid on the first binding plate
It is fixed to reach each load across the first cable-through hole at after harness, so that engineering connection becomes more convenient.
3. direct current Hall element be located at direct current it is micro- it is disconnected above or below, the micro- disconnected one end connection direct current of direct current inputs device;Directly
Conducting wire after micro- disconnected other end passes through corresponding direct current Hall element by conducting wire is flowed to be fixed on corresponding second binding plate and formed
Harness, harness are connected with direct-current supervision module again after passing through corresponding second cable-through hole, so that on the one hand in device failure
Can directly front replaced, on the other hand, conducting wire is had no progeny through direct current is micro- directly through direct current Hall element, in the second binding plate
Upper be uniformly fixed into after harness reaches each load across the second cable-through hole, so that engineering connection becomes more convenient.
4. exchange monitoring module is located at lower section on the left of cabinet body, top is provided with exchange ground wire terminal row and zero curve on the left of cabinet body
Terminal block, third binding plate so that exchange monitoring module with exchange ground wire, AC neutral line is staggeredly arranged so that integral layout is more
Step up to gather, and convenient for safeguarding.
5. direct-current supervision module is located at cabinet body lower right-hand side, top is provided with direct current ground wire terminal row and the 4th on the right side of cabinet body
Binding plate, so that direct current ground wire is staggeredly arranged with direct-current supervision module, so that integral layout is more compact, and convenient for safeguarding.
6. distribution input storehouse samples enterprising upper cabling mode out, on the one hand meet the layout of micromodule system, another party
Interference of the outer lead to power distribution cabinet inside cabling is reduced in face, provides space to configure more monitoring modulars in power distribution cabinet.
Detailed description of the invention
The utility model is described in further detail with reference to the accompanying drawings and examples.
Fig. 1 depicts the structural schematic diagram of the power distribution cabinet of a preferred embodiment, at this time positive door-plate, door-plate is in and beats on left side
Open state.
Fig. 2 depicts the schematic elevation view of the power distribution cabinet of a preferred embodiment.
Fig. 3 depicts the partial enlarged view at the A of Fig. 2.
Fig. 4 depicts the partial enlarged view at the B of Fig. 2.
Fig. 5 depicts the local trace-diagram at the A of Fig. 2.
Fig. 6 depicts the local trace-diagram at the B of Fig. 2.
Fig. 7 depicts the structural schematic diagram of cabinet body left side.
Fig. 8 depicts the structural schematic diagram of cabinet body right side.
Fig. 9 depicts the structural schematic diagram of cabinet body trailing flank.
Specific embodiment
Fig. 1 to Fig. 8 is please referred to, an a kind of preferred embodiment of the micromodule data center power distribution cabinet of novel layouts is described
A kind of novel layouts micromodule data center power distribution cabinet, it includes cabinet body 100, positive door-plate 10, Rear Door 20, left side door-plate
30 and right side door-plate 40.
Positive door-plate 10, Rear Door 20, left side door-plate 30 and right side door-plate 40 are being mounted on to open-close type cabinet body 100 just respectively
Face, back, left and right side.As shown in Figure 1, left side door-plate 30 and right side door-plate 40 are all made of split type door panel structure,
That is, left side door-plate 30 includes door-plate under door-plate on left side and left side, door-plate is hingedly connected to cabinet body left upper portion, left side on left side
Lower door-plate is hingedly connected to cabinet body left lower;Right side door-plate 40 includes door-plate under door-plate on right side and right side, door-plate on right side
It is hingedly connected to cabinet body right upper portion, door-plate is hingedly connected to cabinet body lower right side under right side.As shown in figure 9, Rear Door 20
Using split type door panel structure.
100 front of cabinet body is provided with distribution input storehouse 110, distribution exchange storehouse 120 and distribution DC storehouse 130, distribution
Input storehouse 110 is placed with AC/DC input device, and distribution exchange storehouse 120 is placed with alternating current devices, and distribution DC storehouse 130 is arranged
There is direct current device.
In the present embodiment, distribution input storehouse 110 is located at 130 top of distribution exchange storehouse 120 and distribution DC storehouse, matches
Electricity exchange storehouse 120 and 130 or so arranged for interval of distribution DC storehouse.As needed, distribution exchange storehouse 120 and distribution DC storehouse 130
Position can also be replaced, distribution exchange storehouse 120 is located at the positive right side of face of cabinet body 100, and distribution DC storehouse 130 is located at 100 front of cabinet body
Left side, meanwhile, distribution input storehouse 110 may be alternatively located at 130 lower section of distribution exchange storehouse 120 and distribution DC storehouse.
In the present embodiment, the alternating current devices include that several exchanges micro- disconnected 210 being arranged side by side exchange mutually with several
Sensor 220, D.C mutual-inductor 220, which is located at, to be exchanged above or below micro- disconnected 210, and distribution exchange storehouse 120 is provided with several
First binding plate 121 and the first cable-through hole 122 exchange micro- disconnected 210 one end connection exchange input device;It is another to exchange micro- disconnected 210
End is fixed on corresponding first binding plate 121 across conducting wire after corresponding D.C mutual-inductor 220 by conducting wire and forms harness, line
Beam pass through after corresponding first cable-through hole 122 again with exchange monitoring module and be connected.As shown in Figure 3 and Figure 5, D.C mutual-inductor
220 are located at micro- disconnected 210 lower section of exchange.So that on the one hand in device failure can directly front replaced, on the other hand, conducting wire
Directly through D.C mutual-inductor 220 after being exchanged micro- disconnected 210, uniformly it is fixed on the first binding plate 121 after harness and passes through the
One cable-through hole 122 reaches each load, so that engineering connection becomes more convenient.
In the present embodiment, the direct current device include several direct currents for being arranged side by side micro- disconnected 230 and several direct currents suddenly
That element 240, direct current Hall element 240 is located above or below direct current micro- disconnected 230, if the distribution DC storehouse 130 is provided with
Dry the second binding plate 131 and the second cable-through hole 132, the micro- disconnected 230 one end connection direct current of direct current input device;Direct current micro- disconnected 230
The other end is fixed on corresponding second binding plate 131 across conducting wire after corresponding direct current Hall element 240 by conducting wire and is formed
Harness, harness are connected with direct-current supervision module again after passing through corresponding second cable-through hole 132.The direct current device further includes
Insulation monitoring Hall element (not shown) etc..As shown in Figure 4 and Figure 6, direct current Hall element 240 is located at direct current micro- disconnected 230
Lower section.So that on the one hand in device failure can directly front replaced, on the other hand, conducting wire is straight after direct current micro- disconnected 230
It connects across direct current Hall element 240, passes through the arrival of the second cable-through hole 132 after harness is uniformly fixed on the second binding plate 131
Each load, so that engineering connection becomes more convenient.
In the present embodiment, distribution input storehouse 110 samples enterprising upper cabling mode out.Distribution inputs storehouse 110 and samples
Enterprising upper cabling mode out, on the one hand meets the layout of micromodule system, on the other hand reduces outer lead in power distribution cabinet
The interference of portion's cabling provides space to configure more monitoring modulars in power distribution cabinet.
100 left and right side of cabinet body is placed with respectively in exchange monitoring module 300 and direct-current supervision module 400
One of them;
Configured with for the distribution slot 150 and confluence busbar 160 for 100 inside cabling of cabinet body behind the cabinet body 100.Such as
Shown in Fig. 9, confluence busbar 160 is equipped with more and longitudinal gap is arranged, distribution slot 150 is located at 160 right side of confluence busbar.
In the present embodiment, it is placed with exchange monitoring module 300 on the left of cabinet body 100, is placed with direct-current supervision on the right side of cabinet body 100
Module 400.
In the present embodiment, the exchange monitoring module 300 is located at below 100 left side of cabinet body, on 100 left side of cabinet body
Side is provided with the exchange ground wire terminal row 510 of longitudinal gap arrangement and zero terminal arranges 520, third binding plate 530, exchanges ground wire
540 one end are fixed on exchange ground wire terminal row 510, the other end is fixed on third binding plate 530;550 one end of AC neutral line is solid
It is scheduled on zero terminal row 520, the other end is fixed on third binding plate 530.Exchange monitoring module 300 is located at 100 left side of cabinet body
Lower section, 100 left side top of cabinet body is provided with exchange ground wire terminal row 510 and zero terminal arranges 520, third binding plate 530, so that
Exchange monitoring module 300 with exchange ground wire 540, AC neutral line 550 is staggeredly arranged so that integral layout is more compact, and be convenient for
Maintenance.
In the present embodiment, exchange ground wire 540 is equipped with several and longitudinal gap is arranged, exchange 540 one end of ground wire is fixed
On exchange ground wire terminal row 510, the other end forms exchange and ground wire harness and is fixed on third binding plate 530, AC neutral line 550
It is provided with several and longitudinal gap is arranged, 550 one end of AC neutral line is each attached on zero terminal row 520, the other end is formed
AC neutral line harness is simultaneously fixed on third binding plate 530.
In the present embodiment, the direct-current supervision module 400 is located at 100 lower right-hand side of cabinet body, on 100 right side of cabinet body
Side is provided with the direct current ground wire terminal row 610 longitudinally extended and the 4th binding plate 620, and 630 one end of direct current ground wire is fixed on direct current
Ground wire terminal is arranged on 610, the other end is fixed on the 4th binding plate 620.Direct-current supervision module 400 is located at 100 lower right-hand side of cabinet body,
100 right side top of cabinet body is provided with direct current ground wire terminal row 610 and the 4th binding plate 620, so that direct current ground wire 630 and direct current
Monitoring module 400 is staggeredly arranged, so that integral layout is more compact, and convenient for safeguarding.
In the present embodiment, direct current ground wire 630 is provided with several and longitudinal gap is arranged, 630 one end of direct current ground wire is solid
It is scheduled on direct current ground wire terminal row 610, the other end forms direct current ground wire harness and is fixed on the 4th binding plate 620.
Since exchange monitoring module 300 and direct-current supervision module 400 are separately positioned on 100 left or right side of cabinet body, a side
Face is that power distribution cabinet front reserves more sufficient, AC/DC input device, alternating current devices or direct current device arrangement space, is overcome
Current existing power distribution cabinet wiring complexity, operating difficulties, it is not convenient for safeguarding the disadvantages of;On the other hand make monitoring module and sampling mould
Block facilitates cabling apart from closer;Meanwhile configured with for 150 He of distribution slot for 100 inside cabling of cabinet body behind cabinet body 100
Converge busbar 160, for 100 inside cabling of cabinet body, but also the available space of 100 front component of cabinet body increases, whole
The convenient maintenance of device is realized on body layout structure.
The above, only the utility model preferred embodiment, therefore, it cannot be limited according to, and the utility model is implemented
It is practical new to should still belong to this for range, i.e., equivalent changes and modifications made according to the scope of the patent of the utility model and the content of the manual
In the range of type covers.
Claims (9)
1. a kind of micromodule data center power distribution cabinet of novel layouts, it is characterised in that: it include cabinet body, positive door-plate, Rear Door,
Left side door-plate and right side door-plate, positive door-plate, Rear Door, left side door-plate and right side door-plate are being mounted on to open-close type cabinet body just respectively
Face, back, left and right side, it is defeated that the cabinet body front is provided with distribution input storehouse, distribution exchange storehouse and distribution DC storehouse, distribution
It puts in storage and is placed with AC/DC input device, distribution exchange storehouse is placed with alternating current devices, and distribution DC storehouse is placed with direct current device;
The cabinet body left and right side is placed with one of them in exchange monitoring module and direct-current supervision module respectively;After the cabinet body
Face is configured with for the distribution slot and confluence busbar for interior of the cabinet cabling.
2. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 1, it is characterised in that: described to match
Electricity input position in storehouse exchanges above storehouse and distribution DC storehouse in distribution, and distribution exchanges storehouse and distribution DC storehouse or so arranged for interval;Cabinet
It is placed with exchange monitoring module on the left of body, is placed with direct-current supervision module on the right side of cabinet body.
3. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 2, it is characterised in that: the friendship
Flowing device includes micro- disconnected and several D.C mutual-inductors of exchange that several are arranged side by side, and D.C mutual-inductor, which is located at, to be exchanged on micro- break
Side or lower section, distribution exchange storehouse are provided with several the first binding plates and the first cable-through hole, exchange micro- disconnected one end connection and hand over
Stream input device;It exchanges conducting wire after micro- disconnected other end passes through corresponding D.C mutual-inductor by conducting wire and is fixed to corresponding first bundle
Form harness on line plate, harness pass through after corresponding first cable-through hole again with exchange monitoring module and be connected.
4. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 2, it is characterised in that: described straight
Stream device includes micro- disconnected and several direct current Hall elements of direct current that several are arranged side by side, and it is micro- that direct current Hall element is located at direct current
Above or below disconnected, the distribution DC storehouse is provided with several the second binding plates and the second cable-through hole, and the micro- disconnected one end of direct current connects
Connect direct current input device;The micro- disconnected other end of direct current is fixed to by conducting wire across conducting wire after corresponding direct current Hall element corresponding
Harness is formed on second binding plate, harness is connected with direct-current supervision module again after passing through corresponding second cable-through hole.
5. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 2, it is characterised in that: the friendship
Flow monitoring module is located at lower section on the left of cabinet body, and top is provided with the exchange ground wire terminal row of longitudinal gap arrangement on the left of the cabinet body
With zero terminal row, third binding plate, exchange ground wire one end is fixed on that exchange ground wire terminal row is upper, the other end is fixed on third bundle
Line plate;AC neutral line one end is fixed on zero terminal row, the other end is fixed on third binding plate.
6. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 5, it is characterised in that: AC deposition
Line is equipped with several and longitudinal gap and arranges, exchange ground wire one end is each attached to that exchange ground wire terminal row is upper, the other end is formed and handed over
Stream ground wire harness is simultaneously fixed on third binding plate, and AC neutral line is provided with several and longitudinal gap is arranged, AC neutral line one end
It is each attached to upper zero terminal row, other end formation AC neutral line harness and is fixed on third binding plate.
7. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 2, it is characterised in that: described straight
Flow monitoring module is located at cabinet body lower right-hand side, and top is provided with the direct current ground wire terminal row longitudinally extended and the on the right side of the cabinet body
Four binding plates, direct current ground wire one end is fixed on direct current ground wire terminal row, the other end is fixed on the 4th binding plate.
8. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 7, it is characterised in that: direct current
Line is provided with several and longitudinal gap is arranged, direct current ground wire one end is each attached on direct current ground wire terminal row, the other end is formed
Direct current ground wire harness is simultaneously fixed on the 4th binding plate.
9. a kind of micromodule data center power distribution cabinet of novel layouts according to claim 1, it is characterised in that: described to match
Electricity input storehouse samples enterprising upper cabling mode out.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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EP4247134A1 (en) * | 2022-03-14 | 2023-09-20 | Sungrow Power Supply Co., Ltd. | Power conversion device and integrated machine |
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2019
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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EP4247134A1 (en) * | 2022-03-14 | 2023-09-20 | Sungrow Power Supply Co., Ltd. | Power conversion device and integrated machine |
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