CN209419008U - Power distribution cabinet - Google Patents

Abstract

The utility model relates to Low Voltage Electrical Apparatus, and in particular to a kind of power distribution cabinet comprising cabinet body and setting are in the intracorporal at least one set of breaker group of cabinet；The breaker group includes the first breaker and the second breaker, and the second breaker is arranged right above the first breaker；It further include breaker inlet wire bus, breaker inlet wire bus includes multiple single-phase circuit breaker inlet wire buses, is electrically connected in the middle part of single-phase circuit breaker inlet wire bus with horizontal distribution bus, end of incoming cables of the both ends respectively with the end of incoming cables of the first breaker, the second breaker is electrically connected；The power distribution cabinet of the utility model, amount of parts and type are less, convenient for assembly and management.

Description

Power distribution cabinet

Technical field

The utility model relates to Low Voltage Electrical Apparatus, and in particular to a kind of power distribution cabinet.

Background technique

At present in low-voltage complete switch equipment and control equipment, due to the continuous increase of distribution capacity, many occasions one It needs to install two even three breakers in power distribution cabinet and carries out distribution, the distribution bus connection type thousand in power distribution cabinet becomes ten thousand Change, type mode is various, brings management cost to rise to actual production.

The breaker inlet wire in low-voltage distribution cabinet is substantially from main bus-bar or the introducing of vertical distribution bus, by folding at present Curved equal paths are connected to breaker, and connection type is various, several breaker (being often referred to two) inlet wires above and below ordinary circumstance Connection bus structure is also not quite similar, and causes busbar components various, and production assembly is complicated, manufacturing cost rises, and often holds Easy connection error causes production to be done over again or even situations such as components are scrapped.

Summary of the invention

The purpose of the utility model is to overcome the defect of the prior art, provide a kind of power distribution cabinet, amount of parts and Type is less, convenient for assembly and management.

To achieve the above object, the utility model adopts the technical scheme that

A kind of power distribution cabinet comprising cabinet body and setting are in the intracorporal at least one set of breaker group of cabinet；

The breaker group includes the first breaker 10 and the second breaker 11, and the setting of the second breaker 11 is in the first open circuit Right above device 10；

It further include breaker inlet wire bus 4, breaker inlet wire bus 4 includes multiple single-phase circuit breaker inlet wire buses, single-phase Be electrically connected in the middle part of breaker inlet wire bus with horizontal distribution bus 3, both ends respectively with the end of incoming cables of the first breaker 10, second breaking The end of incoming cables of device 11 is electrically connected.

Preferably, the horizontal distribution bus 3 is arranged at 11 rear of the first breaker 10 and the second breaker, and is located at the Between one breaker 10 and the second breaker 11.

Preferably, it is electrically connected in the middle part of the single-phase circuit breaker inlet wire bus with horizontal distribution bus 3, and single-phase circuit breaker inlet wire The part for being located at horizontal 3 top of distribution bus of bus, with being located at below horizontal distribution bus 3 for single-phase circuit breaker inlet wire bus Part, be symmetrical structure.

Preferably, the single-phase circuit breaker inlet wire bus includes at least one single-phase inlet wire bus bar copper row, and single-phase inlet wire is female Line copper bar is an integral structure, and is electrically connected in the middle part of single-phase inlet wire bus bar copper row with horizontal distribution bus 3, and upper end, lower end are respectively with the The end of incoming cables of one breaker 10, the second breaker 11 end of incoming cables be electrically connected.

Preferably, the single-phase circuit breaker inlet wire bus includes at least one single-phase inlet wire bus bar copper row component, it is single-phase into Line bus bar copper row component includes the single-phase upper incoming line bus bar copper row and single-phase lower inlet wire bus bar copper row of setting symmetrical above and below, it is single-phase on The lower end of inlet wire bus bar copper row is electrically connected with horizontal distribution bus 3, and upper end and the end of incoming cables of the second breaker 11 are electrically connected, it is single-phase under into The upper end of line bus bar copper row is electrically connected with horizontal distribution bus 3, and lower end and the end of incoming cables of the first breaker 10 are electrically connected.

Preferably, the breaker inlet wire bus 4 is fixed in cabinet body by the first fixed cross beam 12；The horizontal distribution The both ends of bus 3 are accommodated by the first bus clip 8, and the first bus clip 8 is fixed in cabinet body by the second fixed cross beam 9.

It preferably, further include the second breaker outgoing line bus 5 and the first breaker outgoing line bus 6, the second breaker outgoing line Bus 5 and the leading-out terminal of the second breaker 11 are electrically connected, the leading-out terminal electricity of the first breaker outgoing line bus 6 and the first breaker 10 Even；

The second breaker outgoing line bus 5 is identical as 6 structure of the first breaker outgoing line bus, and the second breaker outgoing line is female Line 5 includes multiple second single-phase circuit breaker outlet bus, and each second single-phase circuit breaker outlet bus is L-shaped structure, and one It holds and is electrically connected with the leading-out terminal of the second breaker 11, the other end with external circuit for being electrically connected.

Preferably, the second breaker outgoing line bus 5, be equipped with mutual inductor 7 on the first breaker outgoing line bus 6, Two breaker outgoing line buses 5, the first breaker outgoing line bus 6 are fixed in cabinet body by two third fixed cross beams respectively.

It preferably, further include vertical distribution bus 2 and main bus-bar 1, vertical 2 one end of distribution bus and horizontal distribution bus 3 It is electrically connected, the other end is electrically connected with main bus-bar 1, and vertical distribution bus 2 is accommodated by the second bus clip, and the second bus clip is fixed by the 4th Crossbeam is fixed in cabinet body, and main bus-bar 1 is accommodated by third bus clip, and third bus clip is fixed on cabinet body by the 5th fixed cross beam Interior, main bus-bar 1 is located at 11 top of the second breaker, and vertical distribution bus 2 is located at 4 side of breaker inlet wire bus.

The power distribution cabinet of the utility model, breaker inlet wire bus middle part are electrically connected with horizontal distribution bus, upper end, lower end point End of incoming cables not with the end of incoming cables of the second breaker, the first breaker is electrically connected, and simplifies the wiring construction inside power distribution cabinet, favorably In reducing power distribution cabinet components type and quantity, convenient for assembly and management.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the utility model power distribution cabinet, shows one group of breaker group with various buses and connect pass System；

Fig. 2 is the structural schematic diagram of the utility model power distribution cabinet, shows the connection of one group of breaker group and various buses Relationship, wherein one end, the second breaker outgoing line bus and external circuit that the first breaker outgoing line bus is connected with external circuit Connected one end, downward；

Fig. 3 is the structural schematic diagram of the utility model power distribution cabinet, shows the connection of one group of breaker group and various buses Relationship, wherein one end, the second breaker outgoing line bus and external circuit that the first breaker outgoing line bus is connected with external circuit Connected one end, upward；

Fig. 4 is the connection relationship of the utility model breaker inlet wire bus, horizontal distribution bus and vertical distribution bus Schematic perspective view；

Fig. 5 is the schematic diagram of the first structure of the inlet wire bus bar copper row of the utility model A phase breaker inlet wire bus；

Fig. 6 is second of structural schematic diagram of the inlet wire bus bar copper row of the utility model A phase breaker inlet wire bus；

Fig. 7 is the first structural schematic diagram of the inlet wire bus bar copper row of the utility model N phase breaker inlet wire bus；

Fig. 8 is second of structural schematic diagram of the inlet wire bus bar copper row of the utility model N phase breaker inlet wire bus.

Specific embodiment

Below in conjunction with the embodiment that attached drawing 1-8 is provided, the specific embodiment party of the power distribution cabinet of the utility model is further illustrated Formula.The power distribution cabinet of the utility model is not limited to the following description.

As shown in Figure 1-3, the power distribution cabinet of the utility model comprising at least one set of open circuit in cabinet body of cabinet body and setting Device group, breaker group include the first breaker 10 and the second breaker 11, and the first breaker 10 is arranged in the second breaker 11 Surface, the first breaker 10 include the first breaker end of incoming cables 101 and the first breaker outgoing line end 102, the first breaker into Line end 101 is located at 102 top of the first breaker outgoing line end, and the second breaker 11 includes the second breaker end of incoming cables 112 and second Breaker outgoing line end 111, the second breaker end of incoming cables 112 are located at 101 top of the first breaker end of incoming cables, the second breaker outgoing line End 111 is located at 112 top of the second breaker end of incoming cables.

As shown in Figure 1-3, the power distribution cabinet of the utility model, further includes main bus-bar 1, vertical distribution bus 2, level with the goddess of lightning Line 3, breaker inlet wire bus 4, the first breaker outgoing line bus 6 and the second breaker outgoing line bus 5；Vertical distribution bus 2 one End is electrically connected with main bus-bar 1, and the other end is electrically connected with horizontal distribution bus 3, and horizontal distribution bus 3 is electrically connected with breaker inlet wire bus 4, Breaker inlet wire bus 4 is electrically connected with the first breaker end of incoming cables 101, the second breaker end of incoming cables 112 respectively, and the first breaker goes out Line bus 6, the second breaker outgoing line bus 5 respectively with the first breaker outgoing line end 102 of the first breaker 10, the second breaker 11 the second breaker outgoing line end 111 is electrically connected.

Preferably, as shown in Figs 1-4, the breaker inlet wire bus 4 includes multiple single-phase circuit breaker inlet wire buses, each The middle part of single-phase circuit breaker inlet wire bus is connected with horizontal distribution bus 3, upper end, the lower end inlet wire with the first breaker 10 respectively It holds, the end of incoming cables of the second breaker 11 is electrically connected.

Preferably, as shown in Figure 1-3, after the horizontal distribution bus 3 is located at the first breaker 10, the second breaker 11 Side, and it is positioned there between, it is electrically connected with horizontal distribution bus 3 in the middle part of each single-phase circuit breaker inlet wire bus, and single-phase open circuit The part for being located at horizontal 3 top of distribution bus of device inlet wire bus, it is horizontal with the goddess of lightning with being located at for single-phase circuit breaker inlet wire bus The part of 3 lower section of line, is symmetrical structure.

Preferably, the single-phase circuit breaker inlet wire bus includes at least one single-phase inlet wire bus bar copper row, and single-phase inlet wire is female Line copper bar is an integral structure, and middle part is electrically connected with horizontal distribution bus 3, upper end, lower end respectively with the first breaker 10 into Line end, the second breaker 11 end of incoming cables be electrically connected.

Preferably, the single-phase circuit breaker inlet wire bus includes at least one single-phase inlet wire bus bar copper row component, it is single-phase into Line bus bar copper row component includes the single-phase upper incoming line bus bar copper row and single-phase lower inlet wire bus bar copper row of upper symmetrical setting, it is single-phase on The lower end of inlet wire bus bar copper row is electrically connected with horizontal distribution bus 3, and upper end and the end of incoming cables of the second breaker 11 are electrically connected, it is single-phase under into The upper end of line bus bar copper row is electrically connected with horizontal distribution bus 3, and lower end and the end of incoming cables of the first breaker 10 are electrically connected.

Preferably, as shown in Figure 1-3, the breaker inlet wire bus 4 is fixed in cabinet body by the first fixed cross beam 12； The both ends of the horizontal distribution bus 3 are clamped by the first bus clip 8, and the first bus clip 8 is fixed by the second fixed cross beam 9 In cabinet body.

Specifically, the breaker inlet wire bus 4 includes A phase breaker inlet wire bus 4A, B phase breaker inlet wire bus 4B, C phase breaker inlet wire bus 4C and N phase breaker inlet wire bus 4N, the end of incoming cables of the first breaker 10 are the first breaker End of incoming cables 101 comprising the first A phase end of incoming cables, the first B phase end of incoming cables, the first C phase end of incoming cables and the first N phase end of incoming cables, second The end of incoming cables of breaker 11 is the second breaker end of incoming cables 112 comprising the 2nd A phase end of incoming cables, the 2nd B phase end of incoming cables, the 2nd C Phase end of incoming cables and the 2nd N phase end of incoming cables, horizontal distribution bus 3 include the horizontal distribution bus 3B of horizontal distribution bus 3A, B phase of A phase, The horizontal distribution bus 3C of C phase and the horizontal distribution bus 3N of N phase.

Below by with the first A phase of the horizontal distribution bus 3A of A phase breaker inlet wire bus 4A, A phase, the first breaker 10 into For the connection relationship of 2nd A phase end of incoming cables of line end, the second breaker 11, the goddess of lightning is matched to breaker inlet wire bus 4A, level Line 3, the first breaker 10, the second breaker 11 connection relationship be illustrated.

As shown in Figs 1-4, it is electrically connected in the middle part of the A phase breaker inlet wire bus 4A with the horizontal distribution bus 3A of A phase, A phase is broken The part of road device inlet wire bus 4A being located above the horizontal distribution bus 3A of A phase, is located at A phase with A phase breaker inlet wire bus 4A Part below horizontal distribution bus 3A, is symmetrical structure, and the upper end of A phase breaker inlet wire bus 4A, lower end are respectively with second 2nd A phase end of incoming cables of breaker 11, the first A phase end of incoming cables of the first breaker 10 are electrically connected.

Preferably, as shown in fig. 6, the A phase breaker inlet wire bus includes at least one A phase inlet wire bus bar copper row 40, A Phase inlet wire bus bar copper row 40 is an integral structure, and the upper end and the 2nd A phase end of incoming cables of the second breaker 11 are electrically connected, middle part with The horizontal distribution bus 3A of A phase is electrically connected, and lower end and the first A phase end of incoming cables of the first breaker 10 are electrically connected.It is further preferred that institute State the A phase inlet wire bus bar copper row 40 that A phase breaker inlet wire bus includes the setting of 2 parallel intervals, the horizontal distribution bus 3A packet of A phase The horizontal distribution bus copper bar of A phase of 2 horizontal spacing settings is included, 2 A phase inlet wire bus bar copper rows 40 are horizontal with the goddess of lightning with 2 A phases The alternately stacked setting of line copper bar.

Preferably, as shown in figure 5, the A phase breaker inlet wire bus includes at least one A phase inlet wire bus bar copper row group Part, A phase inlet wire bus bar copper row component include inlet wire bus copper under the A phase upper incoming line bus bar copper row 401 of setting symmetrical above and below, A phase 2nd A phase end of incoming cables of the upper end and the second breaker 11 of arranging 402, A phase upper incoming line bus bar copper row 401 is electrically connected, lower end and A phase water Flat distribution bus 3A is electrically connected, and the upper end of inlet wire bus bar copper row 402 is electrically connected with the horizontal distribution bus 3A of A phase under A phase, lower end and first First A phase end of incoming cables of breaker 10 is electrically connected.It is further preferred that as shown in Figs 1-4, the A phase breaker inlet wire bus packet Include inlet wire bus bar copper row under the A phase upper incoming line bus bar copper row 401 of 2 horizontal spacing settings and the A phase of 2 horizontal spacing settings The horizontal distribution bus 3 of 402, A phases includes 2 levels by the horizontal distribution bus copper bar of the A phase of a setting, 2 A phase upper incoming line buses The horizontal alternately stacked setting of distribution bus copper bar of copper bar 401 and 2 A phase, inlet wire bus 402 and 2 A phase level is matched under 2 A phases The electric alternately stacked setting of bus bar copper row.

The first B of the horizontal distribution bus 3B of B phase breaker inlet wire bus 4B, B phase of the utility model, the first breaker 10 Phase end of incoming cables, the second breaker 11 the 2nd B phase end of incoming cables connection relationship, C phase breaker inlet wire bus 4C, A phase level matches Goddess of lightning's line 3C, the first C phase end of incoming cables of the first breaker 10, the connection relationship of the 2nd C phase end of incoming cables of the second breaker 11, N The horizontal distribution bus 3N of phase breaker inlet wire bus 4N, N phase, the first N phase end of incoming cables of the first breaker 10, the second breaker 11 The 2nd N phase end of incoming cables connection relationship, it is similar with foregoing description.

Preferably, as shown in figure 5, the whole structure in the shape of a " convex " of the A phase inlet wire bus bar copper row component.Preferably, such as Shown in Fig. 6, the whole structure in the shape of a " convex " of the A phase inlet wire bus bar copper row 40.Preferably, as shown in fig. 7, the N phase is breaking The N phase inlet wire bus bar copper row component of device inlet wire bus includes inlet wire bus bar copper row under N phase upper incoming line bus bar copper row 411 and N phase 412, the two is on the whole at " Kan " shape structure.Preferably, as shown in figure 8, the N phase inlet wire of the N phase breaker inlet wire bus is female Line copper bar 41, is an integral structure, integral into " Kan " shape structure.

The power distribution cabinet of the utility model, 4 middle part of breaker inlet wire bus are electrically connected with horizontal distribution bus 3, upper end, lower end The end of incoming cables with the end of incoming cables of the second breaker 11, the first breaker 10 is electrically connected respectively, simplifies the wiring knot inside power distribution cabinet Structure, convenient for assembly and management, horizontal distribution bus 3 is located at the first breaker 10,11 rear of the second breaker and is located at the two Between, keep breaker inlet wire bus 4, the layout of horizontal distribution bus 3 more reasonable, beautiful, it is readily discernible.Further, described The single-phase inlet wire bus bar copper row of single-phase circuit breaker inlet wire bus is an integral structure, and right relative to horizontal about 3 distribution bus Title is setting, advantageously reduces the amount of parts of power distribution cabinet, without distinguishing the upper of single-phase inlet wire bus bar copper row in assembly End, lower end, convenient for the assembly of single-phase inlet wire bus bar copper row.Further, the single-phase inlet wire of the single-phase circuit breaker inlet wire bus Inlet wire bus bar copper row under bus bar copper row component, including single-phase upper incoming line bus bar copper row and single line phase, the structure of the two is identical, Cheng Shang Lower symmetrical structure, versatility is good, convenient for assembly, and is conveniently replaceable, and is not necessarily to when single-phase circuit breaker inlet wire bus one end is damaged, It is replaced to whole, has saved maintenance cost.

Preferably, as shown in Figure 1-3, the structure of the first breaker outgoing line bus 6 and the second breaker outgoing line bus 5 Identical, both for L-shaped structure, one end of the first breaker outgoing line bus 6 and the first breaker of the first breaker 10 go out Line end 102 is electrically connected, and the other end with external circuit for being electrically connected, one end and the second breaker of the second breaker outgoing line bus 5 Second breaker outgoing line end 111 is electrically connected, and the other end with external circuit for being electrically connected.

Preferably, as shown in Fig. 2, one end for being connected with external circuit of the first breaker outgoing line bus 6, One end for being connected with external circuit of two breaker outgoing line buses 6, downward.Preferably, as shown in figure 3, it is described One end for being connected with external circuit of first breaker outgoing line bus 6, the second breaker outgoing line bus 6 be used for and outside The connected one end of circuit, upward.

The power distribution cabinet of the utility model only need to adjust the first breaker outgoing line bus 6, the second breaker goes out in assembly The adjusting for outlet on power distribution cabinet and lower outlet can be realized in the assembly method of line bus 5, be power distribution cabinet assembly and The connection of power distribution cabinet and external circuit, provides convenience.

Preferably, as shown in Figure 1-3, being all provided on the first breaker outgoing line bus 6 and the second breaker outgoing line bus 5 There is mutual inductor 7.

Preferably, as shown in Figure 1-3, the first breaker outgoing line bus 6, the second breaker outgoing line bus 5 lead to respectively Two third fixed cross beams are crossed to be fixed in cabinet body.

Preferably, as shown in Figure 1-3,2 lower end of vertical distribution bus is electrically connected with horizontal distribution bus 3, upper end and master Bus 1 is electrically connected, and vertical distribution bus 2 is clamped by the second bus clip, and the second bus clip is fixed on cabinet body by the 4th fixed cross beam Interior, main bus-bar 1 is clamped by third bus clip, and third bus clip is fixed in cabinet body by the 5th fixed cross beam, and main bus-bar 1 is located at Second breaker, 1 top, vertical distribution bus 2 are located at 4 side of breaker inlet wire bus.

Preferably, as shown in Figs 1-4, the main bus-bar 1 includes A phase main bus-bar 1A, B phase main bus-bar 1B, C phase main bus-bar 1C With N phase main bus-bar 1N, vertical distribution bus 2, which includes that A perpendicular distribution bus 2A, B perpendicular distribution bus 2B, C are perpendicular, matches The perpendicular distribution bus 2N of goddess of lightning's line 2C and N.

It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined Assert that the specific implementation of the utility model is only limited to these instructions.For the ordinary skill of the utility model technical field For personnel, without departing from the concept of the premise utility, a number of simple deductions or replacements can also be made, should all regard To belong to the protection scope of the utility model.

Claims (6)

1. a kind of power distribution cabinet comprising cabinet body and setting are in the intracorporal at least one set of breaker group of cabinet；

It is characterized by: the breaker group includes the first breaker (10) and the second breaker (11), the second breaker (11) Setting is right above the first breaker (10)；

It further include breaker inlet wire bus (4), breaker inlet wire bus (4) includes multiple single-phase circuit breaker inlet wire buses, single-phase Be electrically connected in the middle part of breaker inlet wire bus with horizontal distribution bus (3), both ends respectively with the end of incoming cables of the first breaker (10), second The end of incoming cables of breaker (11) is electrically connected.

2. power distribution cabinet according to claim 1, it is characterised in that:

The horizontal distribution bus (3) is arranged in the first breaker (10) and the second breaker (11) rear, and it is disconnected to be located at first Between road device (10) and the second breaker (11).

3. power distribution cabinet according to claim 2, it is characterised in that: match in the middle part of the single-phase circuit breaker inlet wire bus with level Goddess of lightning's line (3) is electrically connected, and the part of single-phase circuit breaker inlet wire bus being located above horizontal distribution bus (3), with single-phase open circuit The part of device inlet wire bus being located at below horizontal distribution bus (3) is symmetrical structure.

4. power distribution cabinet according to claim 3, it is characterised in that: the single-phase circuit breaker inlet wire bus includes at least one Single-phase inlet wire bus bar copper row, single-phase inlet wire bus bar copper row are an integral structure, single-phase inlet wire bus bar copper row middle part and horizontal distribution Bus (3) is electrically connected, and the end of incoming cables of upper end, lower end respectively with the end of incoming cables of the first breaker (10), the second breaker (11) is electrically connected.

5. power distribution cabinet according to claim 3, it is characterised in that: the single-phase circuit breaker inlet wire bus includes at least one Single-phase inlet wire bus bar copper row component, single-phase inlet wire bus bar copper row component include the single-phase upper incoming line bus bar copper row of setting symmetrical above and below With single-phase lower inlet wire bus bar copper row, lower end and the horizontal distribution bus (3) of single-phase upper incoming line bus bar copper row are electrically connected, upper end and second The end of incoming cables of breaker (11) is electrically connected, and upper end and the horizontal distribution bus (3) of single-phase lower inlet wire bus bar copper row are electrically connected, lower end and the The end of incoming cables of one breaker (10) is electrically connected.

6. power distribution cabinet according to claim 1, it is characterised in that: the breaker inlet wire bus (4) is fixed by first Crossbeam (12) is fixed in cabinet body；The both ends of the horizontal distribution bus (3) are accommodated by the first bus clip (8), and first is female Wire clamp (8) is fixed in cabinet body by the second fixed cross beam (9).