CN202663130U - Power supply cabinet - Google Patents

Abstract

The utility model provides a power supply cabinet. The power supply cabinet comprises a power supply module slot which is arranged at a front portion space of the power supply cabinet, a direct current copper bar which is located at a side face of the power supply cabinet and connected with a power module through lead wire, a main road input copper bar which is located at a back portion space of the power supply cabinet and connected with the power module through a power module input bar of the power module, and a bypass input copper bar which is located at the back portion space of the power supply cabinet and connected with the power module through a power module output bar of the power module, wherein the power module is plugged on the power supply module slot. The power supply cabinet solves problems that layout of an uninterrupted power supply system in the prior art is inconvenient to maintain the system and has low maintenance quality and a low maintenance speed, and the layout of the power supply cabinet is convenient to maintain the power supply cabinet and facilitates to improve maintenance quality and a maintenance speed.

Description

Power supply cabinet

Technical field

The utility model relates to power technique fields, in particular to a kind of power supply cabinet.

Background technology

Uninterrupted power supply is widely used in the industry that bank, finance, communication etc. need stabilized power supply, the fine or not direct relation of its performance the safety of a large amount of significant datas, yet, the performance of uninterrupted power supply, except having the substantial connection with circuit design and component quality, also the layout with each assembly of elements has relation, because the layout of system directly affects speed speed that whether maintenance of device make things convenient for, keep in repair and the aspects such as quality of maintenance.

Uninterruptible power system in the correlation technique is in order to improve power density, on system layout, substantially all be the parts such as easily worn part and control assembly to be mixed install, when safeguarding easily worn part, must remove the stop member of easily worn part front, the uninterruptible power system that has also needs the user to safeguard in the front and back of rack, therefore, the layout of above-mentioned uninterruptible power system has not only caused inconvenience to maintenance, has also reduced quality and the speed safeguarded.

The utility model content

The utility model provides a kind of power supply cabinet, is not easy to system maintenance and reduces the quality of maintenance and the problem of speed with the layout that solves at least the uninterruptible power system in the correlation technique.

According to an aspect of the present utility model, a kind of power supply cabinet is provided, it comprises: the power model slot is arranged on the front space of power supply cabinet; Direct current copper bar is positioned at the side of power supply cabinet, is connected with power model on assigning into the power model slot by lead-in wire; The main input copper bar is positioned at the back space of power supply cabinet, and the power model input row by power model is connected with power model; The bypass input copper bar is positioned at the back space of power supply cabinet, and the power model output row by power model is connected with power model.

Preferably, above-mentioned power supply cabinet also comprises: bypass module, assign on the bypass module slot that is positioned at front space, and be connected with the bypass input copper bar; The inversion copper bar is positioned at back space, is connected row with power model with bypass module and is connected.

Preferably, bypass module is connected with the copper bar that is positioned at back space by terminal.

Preferably, direct current copper bar runs through power supply cabinet from top to bottom, and the input point of direct current copper bar is positioned at the top of power supply cabinet, by and cabinet row input copper bar with the battery that is positioned at front space and be connected.

Preferably, the power model of power model input ranking is in the first side of back space, and power model input row is divided into up and down two parts, and up and down two parts of power model input row connect the main input copper bar by cable at back space; The power model output ranking of power model is in the second side of back space, and power model output row is divided into up and down two parts, and up and down two parts of power model output row connect the bypass input copper bar by cable at back space.

Preferably, above-mentioned power supply cabinet also comprises: the bypass input switch, be positioned at front space, and be connected with bypass module with the bypass input copper bar.

Preferably, above-mentioned power supply cabinet also comprises: monitoring module, be positioned at front space, and wherein, monitoring module comprises main monitoring unit and backup monitoring unit.

Preferably, above-mentioned power supply cabinet also comprises: the main input switch, be positioned at front space, and row is connected with the main input copper bar with the power model input; The main road output switch is positioned at the first side of front space, is connected with the inversion copper bar; Main road output copper bar is positioned at back space, is connected with the main road output switch.

Preferably, above-mentioned power supply cabinet also comprises: service switch, be positioned at the second side of front space, and be connected copper bar with the bypass input copper bar with main road and be connected.

Preferably, above-mentioned power supply cabinet also comprises: battery input copper bar, be positioned at front space, and be connected with direct current copper bar.

In the utility model, power supply cabinet is divided into front space and back space, forwardly the space disposes the power model slot, direct current copper bar is positioned at the side of power supply cabinet, by the lead-in wire with assign into the power model slot on power model be connected, the back space configuration main input copper bar of power supply cabinet, this main input copper bar is connected with power model by the power model input row of power model, the back space configuration bypass input copper bar of power supply cabinet, this bypass input copper bar is connected with power model by the power model output row of power model, realized power model and direct current copper bar, main input copper bar and bypass input copper bar subregion layout, easy damaged parts and copper bar are separated layout, each parts phase mutual interference that can realize power supply cabinet is few, can carry out front maintenance, the layout that has solved the uninterruptible power system in the correlation technique is not easy to system maintenance and reduces the quality of maintenance and the problem of speed, thereby so that the layout of power supply cabinet is convenient to maintenance, help to improve quality and the speed of maintenance.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is a kind of schematic perspective view of preferably facing according to the power supply cabinet of the utility model embodiment;

Fig. 2 is a kind of preferred rear perspective schematic diagram according to the power supply cabinet of the utility model embodiment;

Fig. 3 is a kind of preferred schematic diagram according to the circuit theory of the utility model embodiment;

Fig. 4 is a kind of schematic perspective view of preferably facing according to the module rack of the utility model embodiment;

Fig. 5 is a kind of schematic perspective view of preferably facing according to the system cabinet of the utility model embodiment;

Fig. 6 is a kind of preferred rear perspective schematic diagram according to the system cabinet of the utility model embodiment.

Embodiment

Hereinafter also describe in conjunction with the embodiments the utility model in detail with reference to accompanying drawing.Need to prove that in the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.

Left side in following examples and part the left side that do not refer to power supply cabinet on the right side and the right side of power supply cabinet.

Embodiment 1

Fig. 1 is a kind of schematic perspective view of preferably facing according to the power supply cabinet of the utility model embodiment, and as shown in Figure 1, this power supply cabinet comprises: the power model slot is arranged on the front space 21 of power supply cabinet; Direct current copper bar 1 is positioned at the side of power supply cabinet, is connected with power model 4 on assigning into the power model slot by lead-in wire; Main input copper bar 15 is positioned at the back space 22 of power supply cabinet, and power model input row by power model 2 is connected with power model; Bypass input copper bar 16 is positioned at the back space 22 of power supply cabinet, and power model output row by power model 3 is connected with power model.

In above preferred embodiment, power supply cabinet is divided into front space 21 and back space 22, front space 21 is the side of power supply cabinet near the user, forwardly space 21 disposes the power model slot, direct current copper bar 1 is positioned at the side of power supply cabinet, by the lead-in wire with assign into the power model slot on power model 4 be connected, the back space 22 configuration main input copper bars 15 of power supply cabinet, this main input copper bar 15 the power model input row 2 by power model be connected with power model, the back space 22 configuration bypass input copper bars 16 of power supply cabinet, this bypass input copper bar 16 the power model output row 3 by power model be connected with power model, realized power model 4 and direct current copper bar 1, main input copper bar 15 and bypass input copper bar 16 subregion layouts, easy damaged parts and copper bar are separated layout, each parts phase mutual interference that can realize power supply cabinet is few, can carry out front maintenance, the layout that has solved the uninterruptible power system in the correlation technique is not easy to system maintenance and reduces the quality of maintenance and the problem of speed, thereby so that the layout of power supply cabinet is convenient to maintenance, help to improve quality and the speed of maintenance.

Preferably, above-mentioned power supply cabinet is as non intermittented power source machine cabinet so that the topology layout advantages of simple of non intermittented power source machine cabinet, can realize front maintenance, thereby so that the layout of non intermittented power source machine cabinet be convenient to safeguard, help to improve quality and the speed of maintenance.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 1, this power supply cabinet comprises: bypass module 5, assign on the bypass module slot that is positioned at front space 21, and be connected with bypass input copper bar 16; Inversion copper bar 18 is positioned at back space 22, is connected row 3 with power model with bypass module 5 and is connected.In the present embodiment, bypass module 5 is assigned on the bypass module slot that is positioned at front space 21, in order to bypass module 5 is safeguarded, in addition, inversion copper bar 18 is disposed at back space 22, separates layout and different space from bypass module 5, in order to power supply cabinet is safeguarded.

Further, on the basis of above-described embodiment, bypass module 5 is connected with the copper bar that is positioned at back space 22 by terminal, with realization bypass module 5 is connected on the power-supply system, copper bar is disposed in the back space 22, in order to reduce the easily worn part in the power supply cabinet back space 22, thereby reduce maintenance difficulties.

Further, forwardly dispose lightning protection parts 6 in the space 21, lightning protection parts 6 are placed the top of bypass module 5, the cover plate that lightning protection parts 6 fronts is had the protection of providing, can check easily the state of lightning protection parts 6 behind the dismounting cover plate, when lightning protection parts 6 break down, be convenient to change lightning protection parts 6.

On the basis of above-mentioned each preferred embodiment, this use is novel to be improved power supply cabinet, as shown in Figure 1, direct current copper bar 1 runs through power supply cabinet from top to bottom, the input point of direct current copper bar 1 is positioned at the top of power supply cabinet, by and cabinet row input copper bar 14 with the battery that is positioned at front space 21 and be connected.In the present embodiment, direct current copper bar 1 runs through power supply cabinet from top to bottom, so that go between to power model 4 from direct current copper bar 1, simultaneously, the input point of direct current copper bar 1 is positioned at the top of power supply cabinet, by and cabinet row be connected with the battery input copper bar 14 that is positioned at front space 21, can be conveniently implemented in the left side of power supply cabinet or right side and other power supply cabinets and carry out also cabinet, realize the also cabinet of many power supply cabinets, thereby strengthened use flexibility of the present utility model.

On the basis of above-mentioned each preferred embodiment, this use is novel to be improved power supply cabinet, as shown in Figure 2, the power model input row 2 of power model 4 is positioned at the first side of back space 22, power model input row 2 is divided into up and down two parts, and up and down two parts of power model input row 2 connect main input copper bar 15 by cable at back space 22; The power model output row 3 of power model 4 is positioned at the second side of back space 22, and power model output row 3 is divided into up and down two parts, and up and down two parts of power model output row 3 connect bypass input copper bar 16 by cable at back space 22.In the present embodiment, power model input row 2 and power model output row 3 are divided into up and down two parts, and two parts gather in back space 22 by cable respectively up and down, then connect, thereby the cabling of realizing power supply cabinet is clear, is convenient to power supply cabinet and safeguards, in addition, the electric current through-current capacity of cable can be reduced, so that the diameter of cable reduces.

Further, power model input row 2 in above-described embodiment can be positioned at the left side of back space 22, power model output row 3 can be positioned at the right side of back space 22, certainly, power model input row 2 also can be positioned at the right side of back space 22, power model output row 3 also can be positioned at the left side of back space 22, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 1, bypass input switch 8 is positioned at front space 21, is connected with bypass module with bypass input copper bar 16 to be connected.In the present embodiment, bypass input switch 8 places front space 21, so that the user operates and/or safeguards.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 1, monitoring module 11 is positioned at front space 21, and wherein, monitoring module 11 comprises main monitoring unit and backup monitoring unit.In the present embodiment, monitoring module 11 is placed front space 21, safeguard in order to monitoring module 11 extracted, safeguard before realizing, simultaneously, monitoring module 11 comprises main monitoring unit and backup monitoring unit, so that when main monitoring unit breaks down, enable the backup monitoring unit and can normally move to guarantee supervisory control system, thereby improved practicality of the present utility model.

Further, can be in the front space 21 of power supply cabinet configuration user interface module 12, user-friendly power supply cabinet.

Further, can in the front space 21 of power supply cabinet, dispose PCB device 13, be convenient to PCB device 13 is detected and safeguards.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 2, main input switch 7 is positioned at front space 21, is connected with the main input copper bar with power model input row 2 to be connected; Main road output switch 9 is positioned at the first side of front space 21, is connected with inversion copper bar 18; Main road output copper bar 17 is positioned at back space 22, is connected with main road output switch 9.In the present embodiment, main input switch 7 and main road output switch 9 are positioned at front space 21, so that the user operates and/or safeguards, safeguard before realizing, main road output copper bar 17 is positioned at back space 22, can realize that the power supply cabinet cabling is clear, is convenient to safeguard.

Further, on the basis of above-described embodiment, main road output switch 9 can be positioned at the left side of front space 21, also can be positioned at the right side of front space 21, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 2, service switch 10 is positioned at the second side of front space 21, is connected copper bar 17 with main road with bypass input copper bar 16 and is connected.In the present embodiment, service switch 10 is placed the second side of front space 21, when needs were safeguarded power-supply system, convenient operation service switch 10 switched to maintenance state with power-supply system, thereby is convenient to realize power-supply system is safeguarded.

Further, on the basis of above-described embodiment, service switch 10 can be positioned at the right side of front space 21, also can be positioned at the left side of front space 21, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 1, battery input copper bar 14 is positioned at front space 21, is connected with direct current copper bar 1.In the present embodiment, battery is inputted copper bar 14 place front space 21, after removing front panel, can connect power input line, thereby be convenient to connect power input line at battery input copper bar 14.

On the basis of the various embodiments described above, Fig. 3 shows the novel circuit theory schematic diagram of this use, as shown in Figure 3, each module in the above-mentioned power supply cabinet is connected with copper bar, so that the cabling of power supply cabinet is clear, layout is simple, thereby so that the layout of power supply cabinet is convenient to maintenance, help to improve quality and the speed of maintenance.

Embodiment 2

On the basis of embodiment 1, the utility model also provides another kind of power supply cabinet, power supply cabinet shown in Figure 1 comprises module rack 100 and system cabinet 200, to realize each the parts subregion layout in the power supply cabinet, so that the power supply cabinet layout is simple, cabling is clear, can before safeguard, thereby so that the layout of power supply cabinet is convenient to maintenance, help to improve quality and the speed of maintenance.

The utility model also provides another kind of power supply cabinet, and with reference to figure 4 and Fig. 6, this power supply cabinet comprises: the power model slot is arranged on the front space 21 of module rack 100; Direct current copper bar 1 is positioned at the side of module rack 100, is connected with power model 4 on assigning into the power model slot by lead-in wire; Main input copper bar 15 is positioned at the back space 22 of system cabinet 200, and power model input row by power model 2 is connected with power model; Bypass input copper bar 16 is positioned at the back space 22 of system cabinet 200, and power model output row by power model 3 is connected with power model.

In above preferred embodiment, power model 4 is placed the front space 21 of module rack 100, direct current copper bar 1 places the side of module rack 100, main input copper bar 15 and bypass input copper bar 16 place the back space 22 of system cabinet 200, realization is with each the parts subregion layout in the power supply cabinet, each parts phase mutual interference is few, so that the power supply cabinet layout is simple, cabling is clear can to carry out front maintenance, the layout that has solved the uninterruptible power system in the correlation technique is not easy to system maintenance and reduces the quality of maintenance and the problem of speed, thereby so that the layout of power supply cabinet is convenient to maintenance, help to improve quality and the speed of maintenance.

Preferably, above-mentioned power supply cabinet is as non intermittented power source machine cabinet so that the topology layout advantages of simple of non intermittented power source machine cabinet, can realize front maintenance, thereby so that the layout of non intermittented power source machine cabinet be convenient to safeguard, help to improve quality and the speed of maintenance.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5 and Figure 6, this power supply cabinet comprises: bypass module 5, assign on the bypass module slot of the front space 21 that is positioned at system cabinet 200, be connected with bypass input copper bar 16; Inversion copper bar 18 is positioned at the back space 22 of system cabinet 200, is connected row 3 with power model with bypass module 5 and is connected.In the present embodiment, bypass module 5 is assigned on the bypass module slot of the front space 21 that is positioned at system cabinet 200, in order to bypass module 5 is safeguarded, in addition, inversion copper bar 18 is disposed at the back space 22 of system cabinet 200, separate layout and different space from bypass module 5, in order to power supply cabinet is safeguarded.

Further, on the basis of above-described embodiment, bypass module 5 is connected by the copper bar of terminal with the back space 22 that is positioned at system cabinet 200, with realization bypass module 5 is connected on the power-supply system, copper bar is disposed in the back space 22, in order to reduce the easily worn part in the power supply cabinet back space 22, thereby reduce maintenance difficulties.

Further, can in system cabinet 200 front space 21, dispose lightning protection parts 6, lightning protection parts 6 are placed the top of bypass module 5, the cover plate that lightning protection parts 6 fronts is had the protection of providing, can check easily the state of lightning protection parts 6 behind the dismounting cover plate, when lightning protection parts 6 break down, be convenient to change lightning protection parts 6.

On the basis of above-mentioned each preferred embodiment, this use is novel to be improved power supply cabinet, as shown in Figure 4, direct current copper bar 1 runs through module rack 100 from top to bottom, the input point of direct current copper bar 1 is positioned at the top of module rack 100, by and cabinet row input copper bar 14 with the battery of the front space 21 that is positioned at system cabinet 200 and be connected.In the present embodiment, direct current copper bar 1 runs through module rack 100 from top to bottom, so that go between to power model 4 from direct current copper bar 1, simultaneously, the input point of direct current copper bar 1 is positioned at the top of module rack 100, by and cabinet row input copper bar 14 with the battery of the front space 21 that is positioned at system cabinet 200 and be connected, can realize easily that module rack 100 is installed in the left side of system cabinet 200 or carry out on the right side and cabinet, realize that a system cabinet 200 can dispose many module racks 100, thereby strengthened use flexibility of the present utility model.

On the basis of above-mentioned each preferred embodiment, this use is novel to be improved power supply cabinet, as shown in Figure 4, the power model input row 2 of power model 4 is positioned at the first side of the back space 22 of module rack 100, power model input row 2 is divided into up and down two parts, and up and down two parts of power model input row 2 connect main input copper bar 15 by cable at back space 22; The power model output row 3 of power model 4 is positioned at the second side of the back space 22 of module rack 100, and power model output row 3 is divided into up and down two parts, and up and down two parts of power model output row 3 connect bypass input copper bar 16 by cable at back space 22.In the present embodiment, power model input row 2 and power model output row 3 are divided into up and down two parts, and two parts gather in back space 22 by cable respectively up and down, then connect, thereby the cabling of realizing power supply cabinet is clear, is convenient to power supply cabinet and safeguards, in addition, the electric current through-current capacity of cable can be reduced, so that the diameter of cable reduces.

Further, power model input row 2 in above-described embodiment can be positioned at the left side of the back space 22 of module rack 100, power model output row 3 can be positioned at the right side of the back space 22 of module rack 100, certainly, power model input row 2 also can be positioned at the right side of the back space 22 of module rack 100, power model output row 3 also can be positioned at the left side of the back space 22 of module rack 100, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5, bypass input switch 8 is positioned at the front space 21 of system cabinet 200, is connected with bypass module with bypass input copper bar 16 to be connected.In the present embodiment, bypass input switch 8 places the front space 21 of system cabinet 200, so that the user operates and/or safeguards.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5, monitoring module 11 is positioned at the front space 21 of system cabinet 200, and wherein, monitoring module 11 comprises main monitoring unit and backup monitoring unit.In the present embodiment, monitoring module 11 is placed the front space 21 of system cabinet 200, safeguard in order to monitoring module 11 extracted, safeguard before realizing, simultaneously, monitoring module 11 comprises main monitoring unit and backup monitoring unit, so that when main monitoring unit breaks down, enable the backup monitoring unit and can normally move to guarantee supervisory control system, thereby improved practicality of the present utility model.

Further, can be in the front space 21 of system cabinet 200 configuration user interface module 12, user-friendly power supply cabinet.

Further, can in the front space 21 of power supply cabinet, dispose PCB device 13, be convenient to PCB device 13 is detected and safeguards.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5, main input switch 7 is positioned at the front space 21 of system cabinet 200, is connected with the main input copper bar with power model input row 2 to be connected; Main road output switch 9 is positioned at the first side of the front space 21 of system cabinet 200, is connected with inversion copper bar 18; Main road is exported copper bar 17, is positioned at the back space 22 of system cabinet 200, is connected with main road output switch 9.In the present embodiment, main input switch 7 and main road output switch 9 are positioned at the front space 21 of system cabinet 200, so that the user operates and/or safeguards, safeguard before realizing, main road output copper bar 17 is positioned at the back space 22 of system cabinet 200, can realize that the power supply cabinet cabling is clear, be convenient to safeguard.

Further, on the basis of above-described embodiment, main road output switch 9 can be positioned at the left side of the front space 21 of system cabinet 200, also can be positioned at the right side of the front space 21 of system cabinet 200, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5, service switch 10 is positioned at the second side of front space 21, is connected copper bar 17 with main road with bypass input copper bar 16 and is connected.In the present embodiment, service switch 10 is placed the second side of the front space 21 of system cabinet 200, when needs were safeguarded power-supply system, convenient operation service switch 10 switched to maintenance state with power-supply system, thereby was convenient to realize power-supply system is safeguarded.

Further, on the basis of above-described embodiment, service switch 10 can be positioned at the right side of the front space 21 of system cabinet 200, also can be positioned at the left side of the front space 21 of system cabinet 200, and the utility model is not construed as limiting this.

On the basis of above-described embodiment, this use is novel to be improved power supply cabinet, and as shown in Figure 5, battery is inputted copper bar 14, is positioned at the front space 21 of system cabinet 200, is connected with direct current copper bar 1.In the present embodiment, battery is inputted the front space 21 that copper bar 14 places system cabinet 200, after removing front panel, can connect power input line, thereby be convenient to connect power input line at battery input copper bar 14.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection range of the present utility model.

Claims (10)

1. a power supply cabinet is characterized in that, comprising:

The power model slot is arranged on the front space (21) of described power supply cabinet;

Direct current copper bar (1) is positioned at the side of described power supply cabinet, is connected with power model (4) on assigning into described power model slot by lead-in wire;

Main input copper bar (15) is positioned at the back space (22) of described power supply cabinet, and the power model input row (2) by described power model is connected with described power model;

Bypass input copper bar (16) is positioned at the back space (22) of described power supply cabinet, and the power model output row (3) by described power model is connected with described power model.

2. power supply cabinet according to claim 1 is characterized in that, also comprises:

Bypass module (5) assigns on the bypass module slot that is positioned at described front space (21), is connected with bypass input copper bar (16);

Inversion copper bar (18) is positioned at described back space (22), is connected row (3) with power model with bypass module (5) and is connected.

3. power supply cabinet according to claim 2 is characterized in that, described bypass module (5) is connected with the copper bar that is positioned at described back space (22) by terminal.

4. power supply cabinet according to claim 1, it is characterized in that, described direct current copper bar (1) runs through described power supply cabinet from top to bottom, the input point of described direct current copper bar (1) is positioned at the top of described power supply cabinet, by and cabinet row input copper bar (14) with the battery that is positioned at described front space (21) and be connected.

5. power supply cabinet according to claim 1, it is characterized in that, the power model input row (2) of described power model (4) is positioned at the first side of described back space (22), described power model input row (2) is divided into up and down two parts, and up and down two parts of described power model input row (2) connect main input copper bar (15) by cable at described back space (22); The power model output row (3) of described power model (4) is positioned at the second side of described back space (22), described power model output row (3) is divided into up and down two parts, and up and down two parts of described power model output row (3) connect bypass input copper bar (16) by cable at described back space (22).

6. power supply cabinet according to claim 1 is characterized in that, also comprises:

Bypass input switch (8) is positioned at described front space (21), with described bypass input copper bar (16) be connected bypass module (5) and be connected.

7. power supply cabinet according to claim 1 is characterized in that, also comprises:

Monitoring module (11) is positioned at described front space (21), and wherein, described monitoring module (11) comprises main monitoring unit and backup monitoring unit.

8. power supply cabinet according to claim 1 is characterized in that, also comprises:

Main input switch (7) is positioned at described front space (21), is connected 15 with power model input row (2) with the main input copper bar) be connected;

Main road output switch (9) is positioned at the first side of described front space (21), is connected with inversion copper bar (18);

Main road output copper bar (17) is positioned at described back space (22), is connected with described main road output switch (9).

9. power supply cabinet according to claim 8 is characterized in that, also comprises:

Service switch (10) is positioned at the second side of described front space (21), is connected copper bar (17) with main road with bypass input copper bar (16) and is connected.

10. power supply cabinet according to claim 1 is characterized in that, also comprises: battery input copper bar (14), be positioned at described front space (21), and be connected with direct current copper bar (1).

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