CN204391499U - Intelligent power distribution module and there is the distribution system of this module - Google Patents

Abstract

The utility model belongs to distribution technique field, aim to provide a kind of intelligent power distribution module and there is the distribution system of this module, comprise assembling base, be fixedly arranged at least one the line module base on described assembling base and be all located at least one the intelligent switch module on described assembling base, each described intelligent switch module is plugged on corresponding described line module base.The utility model, by line module base and intelligent switch module are all set to Multi-contact plug-in structure, is convenient to the installation and maintenance of this Power entry module with this; By the part detachable formulas such as the switching general assembly of the inlet wire of intelligent switch module and outlet switching general assembly are plugged in base plate general assembly, and make the container cavity of base plate general assembly adapt to the on-off system of different volumes size, like this, under this switch module of guarantee completes the prerequisite of electric power conducting, adapt to the on-off system of complete series, also reduce installation difficulty and the production cost of each parts, be convenient to the on-line maintenance of each parts.

Description

Intelligent power distribution module and there is the distribution system of this module

Technical field

The utility model belongs to distribution technique field, relates to a kind of Power entry module, particularly relates to a kind of intelligent power distribution module and has the distribution system of this Power entry module.

Background technology

At present, the intelligent power distribution module on market is generally divided into following two kinds: the first take drawout cubicle as the intelligent power distribution module of representative, and on stricti jurise, this kind of Power entry module is only semi-modular or Semi-intelligent Modular; The second is SPC1.0 fast-assembling intelligent power distribution module, this Power entry module and the utility model application the most close, it partly achieves full electrical parameter and detects, and the distribution system be made up of it with can realizing " cordwood system type " Fast Installation, but, existing this kind of Power entry module mainly contains following defect: 1) the intelligent switch module of this Power entry module is fixed installation, is not easy to installation and maintenance; 2) because of the switch for different brands, the busbar that the line of its switch ends connects is not only many and complicated, and the installed part of switch is also more, and cause installation difficulty large, production cost increases, and is unsuitable for the switch of complete series; 3) primary circuit and/or secondary circuit cannot be realized, and the on-line maintenance demand of the relevant rapid wear components and parts such as acquisition module; 4) vertical installation cannot be realized, thus cannot meet the layout requirements of user; 5) as shown in Figure 1, the existing plug-in switch pedestal 6 of this Power entry module, is being transferred to the process of switch module 5 by electric power from conflux busbar or vertical bus bar 3, needs to increase peripheral switching busbar 4 or wire, like this, installation and installation difficulty can be increased to a certain extent.

Utility model content

The purpose of this utility model is the distribution system providing a kind of intelligent power distribution module and have this module, in order to overcome the technical problem in existing Power entry module.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: provide a kind of intelligent power distribution module, comprise assembling base, at least one being fixedly installed on described assembling base directly to transfer the line module base of electric power and at least one the intelligent switch module be all located on described assembling base, each described intelligent switch module is plugged on corresponding described line module base; Described intelligent switch module comprises base plate general assembly, on-off system, inlet wire switching general assembly, outlet switching general assembly, the general assembly of handle mounting panel;

Described on-off system is contained in the container cavity of described base plate general assembly and described handle mounting panel general assembly formation, and described container cavity adapts to the described on-off system of different volumes size; Described inlet wire switching general assembly is detachable to be inserted in a side of described base plate general assembly and to be plugged in the inlet side mouth of described on-off system simultaneously, and described outlet switching general assembly is detachable to be inserted in another side of described base plate general assembly and to be plugged in the outbound port of described on-off system simultaneously; The general assembly of described handle mounting panel is detachable is connected to the front side of described base plate general assembly to hide described on-off system, and is connected to described on-off system directly to control the on-off of described on-off system simultaneously.

Further, described base plate general assembly comprises firm banking and mobile base assembly, and described on-off system to be contained in described container cavity and to be fixedly connected on described firm banking, and its rear wall is resisted against described mobile base assembly; Described mobile base component activity is arranged in described firm banking makes it adapt to the described on-off system of different volumes size in order to regulate the size of described container cavity.

Further, described firm banking comprises support plate, by the upside Vertical dimension of described support plate upper clamp extending out, by the lower side Vertical dimension of described support plate lower clamp extending out; Described upper clamp all offers the first gathering sill of one end open with an identical side of described lower clamp, and the top and bottom of described outlet switching general assembly are equipped with the first guide, and each described first guide is inserted in corresponding described first gathering sill; Described upper clamp all offers the second gathering sill of one end open with another identical side of described lower clamp, and the top and bottom of described inlet wire switching general assembly are equipped with the second guide, and each described second guide is inserted in corresponding described second gathering sill.

Further, the lower plugboard on the lower at the back side of described substrate is located at by the upper plate of the top side that described mobile base assembly comprises substrate, the back side of described substrate is located in activity, activity; Described upper clamp offers the upper insertion hole groups of many rows, often the upper insertion hole groups of row has the upper jack of multiple parallel arranged, described lower clamp offers the lower insertion hole groups of many rows, and often the lower insertion hole groups of row has multiple lower jack arranged in parallel; Described upper plate has multiple upper interpolating unit protruding from the parallel arranged of described substrate, each described upper interpolating unit is inserted in the described upper jack of each correspondence of corresponding each described upper insertion hole groups, described lower plugboard has multiple lower inserting part protruding from the parallel arranged of described substrate, and each described lower inserting part is inserted in the described lower jack of each correspondence of corresponding each described lower insertion hole groups.

Further, the back side of described substrate is convexly equipped with at least one piece of limiting plate, each described limiting plate offers respectively upper limit position groove and lower limit groove; Described upper plate also has the upper base portion of each described upper interpolating unit of parallel join simultaneously, described upper base portion is arranged in each described upper limit position groove, and described upper plate moves up and down along each described upper limit position groove, described lower plugboard also has the lower base portion of each described lower inserting part of parallel join simultaneously, described lower base portion is arranged in each described lower limit groove, and described lower plugboard moves up and down along each described lower limit groove.

Further, described mobile base assembly also comprises multiple first elastic component and multiple second elastic component, and the upper end of described substrate and bottom inwardly vertically extend upper hanging plate and lower link plate respectively; The diapire of described upper hanging plate is provided with on multiple first to be linked up with, on the madial wall of described upper plate, correspondence is provided with on multiple second and links up with, one end hooking of each described first elastic component is linked up with on each described first, and other end hooking is linked up with on each described second of correspondence; The diapire of described lower link plate is provided with multiple first lower draw-bar, on the madial wall of described lower plugboard, correspondence is provided with multiple second lower draw-bar, one end hooking of each described second elastic component is on each described first lower draw-bar, and other end hooking is on each described second lower draw-bar of correspondence.

Further, this intelligent switch module also comprises acquisition module, the upper housing part of the shell body of described acquisition module and lower housing part offer the 3rd gathering sill respectively, the left-hand end of described upper clamp and described lower clamp is respectively to extending horizontally away guide plate and a lower guide plate on one outward, the diapire of described upper guide plate is convexly equipped with gib block downwards, the roof of described lower guide plate is convex is provided with lower gib block, each described 3rd gathering sill of described acquisition module respectively corresponding inserted has described lower gib block and described upper gib block, and described acquisition module is plugged in described outlet switching general assembly.

Further, described line module base comprises total main casing, be located at the incoming line module on described total main casing and be located on described total main casing and be electrically connected on the outlet module of the leading-out terminal of described incoming line module, described outlet module comprises the first conduction element of multiple external load, it is characterized in that: described incoming line module comprises an inlet wire inserted terminal group and an input switching general assembly, the external input circuit in one end of described input switching general assembly, the other end connects described inlet wire inserted terminal group; Described outlet module comprises an outlet inserted terminal group and and exports switching general assembly, and one end of each output adapter in described output switching general assembly connects described first conduction element of each correspondence, and the other end connects described outlet inserted terminal group; Described inlet wire switching general assembly is inserted in described inlet wire inserted terminal group, and described outlet switching general assembly is inserted in described outlet inserted terminal group.

Further, described incoming line module also comprises the first protector, and described first protector comprises activity and is located at the first protective plate in order to inlet wire inserted terminal group described in automatic door on the front side of described total main casing and the second protective plate in order to outlet inserted terminal group described in automatic door.

Compared with prior art, the beneficial effect of intelligent power distribution module that the utility model provides is:

(1) by line module base and intelligent switch module are all set to Multi-contact plug-in structure, change original fixed mounting means, facilitate the installation and maintenance of this Power entry module, and the layout requirements that the transverse direction that can meet user is installed or vertically installed, by being Multi-contact plug-in structure by intelligent switch module installation, and by the switching general assembly of its inlet wire and the detachable corresponding side being inserted in base plate general assembly of outlet switching general assembly, make inlet wire switching general assembly and outlet switching general assembly be plugged on inlet side mouth and the outbound port of on-off system respectively simultaneously, and the container cavity of the accommodation on-off system of this switch module can adapt to the on-off system of different volumes size, like this, the parts of installation can be reduced, reduce installation difficulty and production cost, also the on-off system of complete series is applicable to, improve the compatibility of this Power entry module,

(2) by being plugged with acquisition module in the outlet switching general assembly of this switch module, and be placed on the position of front easy care, and realize conducting of each components and parts by all arranging flexible cable in outlet switching general assembly and inlet wire switching general assembly, thus make this intelligent power distribution module can realize primary circuit and/or secondary circuit, and the on-line maintenance of the relevant rapid wear components and parts such as acquisition module;

(3) by arranging an inlet wire inserted terminal group and an input switching general assembly on line module base, and an outlet inserted terminal group and an output switching general assembly are set, wherein, the external input circuit in one end of input switching general assembly, the other end connects inlet wire inserted terminal group, the one end exporting each output adapter in switching general assembly connects the first conduction element of each correspondence, the other end connects outlet inserted terminal group, like this, directly electric power can be transferred to this switch module from conflux busbar or vertical bus bar, and do not need to increase peripheral switching busbar etc. in addition, decrease installation and installation difficulty to a certain extent, and be convenient to the front maintenance realizing this incoming line module base.

The utility model additionally provides a kind of distribution system, comprise rack and be located at the electric power importing assembly on described rack, also comprise at least one above-mentioned intelligent power distribution module, the module bracket that multiple interval is placed is provided with in described rack, each described intelligent power distribution module is placed in corresponding each described module bracket, and the described line module base of each described intelligent power distribution module is all plugged on described electric power importing assembly.

Compared with prior art, the beneficial effect of distribution system that the utility model provides is:

(1) by namely common fixing rack, intelligent switch module, line module base etc. are integrated, achieve the comprehensive front of this distribution system to safeguard, also the switch of complete series is applicable to, be widely used in electric power system, especially the power distribution field such as transformer station's AC power supply system, AC/DC integrated power-supply system, control cubicle, power distribution cabinet, distribution box, there is provided electric power for various kinds of equipment and carry out data analysis, carry out the distribution of rational energy, guarantee power supply quality and electrical management;

(2) by adopting the line module base of electric power of directly transferring, making the Power entry module in this distribution system can realize uploading of full electrical parameter by means of only a single data bus (as vertical bus bar) and assigning function.

Accompanying drawing explanation

Fig. 1 is the electric power transfer direction schematic diagram of existing intelligent power distribution module;

Fig. 2 is the electric power transfer direction schematic diagram of intelligent power distribution module in the utility model embodiment;

Fig. 3 is the perspective view of the front side that in the utility model one preferred embodiment, intelligent power distribution module and vertical bus bar are conducted;

Fig. 4 is the perspective view of the rear side of intelligent power distribution module in the utility model one preferred embodiment;

Fig. 5 is the perspective view of the front side of intelligent power distribution module in another preferred embodiment of the utility model;

Fig. 6 is the perspective view of the rear side of intelligent power distribution module in another preferred embodiment of the utility model;

Fig. 7 is the stereochemical structure explosive view of the front side of intelligent power distribution module in another preferred embodiment of the utility model;

Fig. 8 is the stereochemical structure explosive view of the rear side of intelligent power distribution module in another preferred embodiment of the utility model;

Fig. 9 is the perspective view of the front side of the intelligent switch module of intelligent power distribution module in the utility model one preferred embodiment;

Figure 10 is the perspective view of the rear side of the intelligent switch module of intelligent power distribution module in the utility model one preferred embodiment;

Figure 11 is the exploded perspective schematic diagram of the front side of intelligent switch module in Figure 10;

Figure 12 is the exploded perspective schematic diagram of the rear side of intelligent switch module in Figure 11;

Figure 13 is the solid assembling schematic diagram of the base plate general assembly of intelligent switch module in Figure 10;

Figure 14 is the solid assembling schematic diagram of the mobile base assembly of base plate general assembly in Figure 13;

Figure 15 is the exploded perspective schematic diagram of the outlet switching general assembly of intelligent switch module in Figure 10;

Figure 16 is that the first protective plate of line module base in the utility model one preferred embodiment and the second protective plate are when being all in closed condition and the perspective view that is conducted of vertical bus bar;

Figure 17 is the vertical view of Figure 16;

Figure 18 is that in the utility model one preferred embodiment, line module base removes perspective view when each cover plate and the first protective plate and the second protective plate are all in open mode;

Figure 19 is the front view of Figure 18;

Figure 20 removes each cover plate, the first protective plate and the second protective plate to be all in closure state and to remove the stereoscopic mechanism schematic diagram of a shell body in line module base in the utility model one preferred embodiment;

Figure 21 is the front view of intelligent distribution system in the utility model one preferred embodiment;

Figure 22 is the end view of intelligent distribution system in the utility model one preferred embodiment;

Figure 23 is the rearview of intelligent distribution system in the utility model one preferred embodiment.

Embodiment

In order to make technical problem to be solved of the present utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with concrete accompanying drawing, realization of the present utility model is described in detail.

It should be noted that, when parts are called as " being fixed on " or " being arranged at " another parts, it can directly on another parts or may there are parts placed in the middle simultaneously.When parts are known as " being connected to " another parts, it can be directly connected to another parts or may there are parts placed in the middle simultaneously.

Also it should be noted that, the corresponding same or analogous parts of same or analogous label in the accompanying drawing of the utility model embodiment, in description of the present utility model, it will be appreciated that, if have term " on ", D score, " left side ", " right side ", " front ", orientation or the position relationship of the instruction such as " afterwards " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore, the term of position relationship is described only for exemplary illustration in accompanying drawing, the restriction to this patent can not be interpreted as, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

As shown in Fig. 3 to Figure 23, a kind of intelligent power distribution module provided for the utility model one preferred embodiment and the distribution system with this module.

As shown in Fig. 3, Fig. 4, Fig. 9 to Figure 20, the utility model one preferred embodiment provides a kind of intelligent power distribution module.

This intelligent power distribution module 00, comprise assembling base 0, be fixedly installed in the line module base 1 of at least one electric power of directly transferring on assembling base 0 and at least one the intelligent switch module 2 be all located on assembling base 0, each intelligent switch module 2 is plugged on corresponding line module base 1, understandably, assembling base 0 is main in order to support assemblies each line module base 1 and each intelligent switch module 2, and usually, line module base 1 and intelligent switch module 2 one_to_one corresponding.

It should be noted that, for ease of installation and maintenance, multiple line module base 1 can be arranged side by side by user according to actual needs, accordingly, also multiple intelligent switch module 2 is arranged side by side, and adopts the plug-in of Multi-contact to connect because of each line module base 1 that each intelligent switch module 2 in the present embodiment is corresponding with it, thus, can according to the mounting arrangement demand of reality, by the horizontal dress of each intelligent switch module 2 of the correspondence of each line module base 1 and grafting with it or perpendicular dress.In addition, because of this line module base 1 energy directly transferring electric power, thus, in the present embodiment, the electric power transfer route that this Power entry module is concrete as shown in Figure 2.

In the present embodiment, as shown in Fig. 3, Fig. 4, Fig. 9 to Figure 12, this intelligent switch module 2 comprises base plate general assembly 21, on-off system 22, inlet wire switching general assembly 23, outlet switching general assembly 24, handle mounting panel general assembly 25, wherein, on-off system 22 is contained in the container cavity (figure does not indicate) of base plate general assembly 21 and handle mounting panel general assembly 25 formation, be applicable to the on-off system 22 of complete series for ease of this switch module, this container cavity adapts to the on-off system 22 of different volumes size.

For another example shown in Fig. 9 to Figure 12, for ease of external power supply being transferred in on-off system 22, and be convenient to on-line maintenance inlet wire switching general assembly 23, the detachable side being inserted in base plate general assembly 21 of inlet wire switching general assembly 23, and while the side inserting base plate general assembly 21, be also synchronously plugged in the inlet side mouth 221 of on-off system 22, specifically in the present embodiment, this inlet wire switching general assembly 23 plugs base plate general assembly 21 from the right-hand end of base plate general assembly 21, accordingly, also be plugged into the right-hand end of on-off system 22 simultaneously, understandably, in the present embodiment, the left side port of on-off system 22 is outbound port 222, in order to external load, right side port is that inlet side mouth 221 is in order to external power supply.

It should be noted that, in the present embodiment, this switch module is three step switch module, also namely, the outbound port 222 of this on-off system 22 and inlet side mouth 221 all have three interfaces, understandably, for guaranteeing the stability of electric power transfer, this inlet wire switching general assembly 23 is Multi-point contact type.In fact, this switch module can be single-stage or multiple-pole switch module, is not only confined to three grades of patterns in the present embodiment.

Accordingly, for another example shown in Fig. 9 to Figure 12, for ease of the electric energy in on-off system 22 being transferred in external load or other interconnecting module, and be convenient to on-line maintenance outlet switching general assembly 24, detachable another side being inserted in base plate general assembly 21 of outlet switching general assembly 24, and while another side inserting base plate general assembly 21, be also plugged in the outbound port 222 of on-off system 22, specifically in the present embodiment, outlet switching general assembly 24 is plugged on the right-hand end of base plate general assembly 21, accordingly, also be plugged on the right-hand end of on-off system 22, understandably, this outlet switching general assembly 24 is transferred with inlet wire, and general assembly 23 is relative to be plugged in base plate general assembly 21, and accordingly, this outlet switching general assembly 24 is also Multi-point contact type.

For another example shown in Fig. 9 to Figure 12; for ease of fixed installation on-off system 22; the personal safety protection of strengthen operation personnel; handle mounting panel general assembly 25 is detachable is connected to the front side of base plate general assembly 21 to hide on-off system 22; specifically in the present embodiment, this handle mounting panel general assembly 25 is fixed in base plate general assembly 21 by multiple fixture 29 (as standard soket head cap screw etc.).Moreover, this handle mounting panel general assembly 25 is also connected to on-off system 22 directly to control the on-off of on-off system 22 simultaneously, also namely, the handle that operating personnel directly can operate on-off system 22 by the associated components in operating grip mounting panel general assembly 25 indirectly controls the operations such as the on-off of on-off system 22.

It should be noted that, preferably, in the present embodiment, this handle mounting panel general assembly 25 mainly includes handle mounting panel 251, on-off system 22 switch rotary plectrum (not shown), rotary handle 252 and has the plastic shell of fire protecting performance, in actual use, can guarantee that this switch module is not easily pulled out when on-off system 22 is in closure state by this on-off system 22 switch rotary plectrum, only just can be pulled out when on-off system 22 is in off-state, like this, the personal safety of operating personnel can be ensured, play effect of locking; By direct control rotary handle 252, the handle getting final product indirect operation on-off system 22 easily controls the on-off of on-off system 22, in addition, in this embodiment, this handle mounting panel general assembly 25 is also provided with fixing hanging locking device (not shown), unexpectedly closes a floodgate to prevent on-off system 22 in maintenance process.

Also it should be noted that, in the present embodiment, the on-off of on-off system 22 has manually come, but for the utility model, in actual applications, electric operating also can be adopted to complete the on-off of on-off system 22.

Certainly, for another example shown in Fig. 9 to Figure 12, for ease of in time showing the correlation circumstance of on-off system 22, this intelligent switch module 2 also comprises display general assembly 28, and wherein, this display general assembly 28 is fixed in handle mounting panel general assembly 25, specifically in the present embodiment, be installed in handle mounting panel general assembly 25 by the mode of plastic cement self-clinching, like this, get final product the situations such as the on-off directly from the front side of handle mounting panel general assembly 25 to on-off system 22.Preferably, in the present embodiment, this display screen general assembly can be changed online and overhaul, and usually mainly comprises the display screen windows (not shown) with the prevent fires plastic shell of effect, the on-off state that can show on-off system 22 and Real time displaying polyphase circuit, the display screen pcb board (not shown) carrying out signal transacting and the signal received can be amplified the parts such as the light-guiding pillar (not shown) of display.

Also it should be noted that, in the present embodiment, on-off system 22 is preferably circuit breaker, but for the utility model, in actual applications, this on-off system 22 is not limited to this kind of device in order to break-make of circuit breaker.

Finally, it should be noted that, in the preferred embodiment that the utility model provides, as shown in Fig. 3 and Fig. 4, line module base 1 and an intelligent switch module 2 is only provided with in this intelligent power distribution module 00, the minimum delivery unit of this intelligent power distribution module 00 is formed with this, certainly, as shown in Fig. 5 to Fig. 8, in another preferred embodiment that the utility model provides, with above-described embodiment unlike, the line module base 1 and the correspondence that are provided with two parallel arranged in this intelligent power distribution module 00 are provided with two intelligent switch modules 2, also be, user can adjust the number of line module base 1 and intelligent switch module 2 according to the size of the electric power of actual transmissions.In fact, line module base 1 in two embodiments and the structure of intelligent switch module 2 and every characteristic are all consistent, thus, for ease of introducing the technical solution of the utility model, the preferred embodiment only provided for the utility model is herein set forth.

Further, in the preferred embodiment that the utility model provides, as shown in Fig. 9 to Figure 14, specifically as shown in figure 13, this base plate general assembly 21 comprises firm banking 211 and mobile base assembly 212, wherein, firm banking 211 is mainly in order to each parts of this module of fixed support, belong to the basic components of this switch module, and mobile base assembly 212 active card is located at the on-off system 22 mainly in order to regulate the size of container cavity (figure does not indicate) to make it adapt to different volumes size on firm banking 211, also be, when this switch module adopts the on-off system 22 of different classes of or different model, in time can adjust the card of mobile base assembly 212 on firm banking 211 establishes position to adapt to the on-off system 22 of different volumes size, like this, the switch of complete series can be adapted to well.

Apparently, as shown in Fig. 9 to Figure 13, on-off system 22 is contained in the container cavity (scheming not indicate) that mobile base assembly 212 and handle mounting panel general assembly 25 formed, in the present embodiment, on-off system 22 is placed in this container cavity from the front side of firm banking 211, also namely, the front side of this firm banking 211 is uncovered.Certainly, this on-off system 22 is also fixedly connected on firm banking 211, specifically in the present embodiment, this on-off system 22 is fixed on firm banking 211 by the securing member (as screw) of autogamy, and for the ease of adapting to the on-off system 22 of different size, the rear wall of this on-off system 22 is also resisted against mobile base assembly 212.Separately in the present embodiment; this on-off system 22 is generally the on-off system 22 of standard brand on market; be coated with the import brands such as external ABB, Schneider, Siemens and domestic brand on-off systems 22 as all in good letter, people's electrical equipment, positive Thailand etc.; main in order to protect the safe operation of using electricity system, realize the disjunction in electric power transfer process and close.

Further, in the preferred embodiment that the utility model provides, as shown in Fig. 9 to Figure 14, specifically as shown in figure 13, firm banking 211 comprises support plate 2111, by the upside Vertical dimension of support plate 2111 upper clamp 2112 extending out, by the lower side Vertical dimension of support plate 2111 lower clamp 2113 extending out, it should be noted that, " stretching out " mentioned here points to extend near one end of on-off system 22, also namely extends to the front side of this support plate 2111.

For another example shown in Fig. 9 to Figure 14, , be plugged on firm banking 211 for ease of general assembly 24 that outlet is transferred, in the present embodiment, upper clamp 2112 all offers the first gathering sill 2114 of the first block button hole (not shown) and one end open with an identical side of lower clamp 2113, the top and bottom of outlet switching general assembly 24 are equipped with the first fastener (not shown) and the first guide 241, each first guide 241 is inserted in the first corresponding gathering sill 2114, each first fastener card (not shown) is located in the first corresponding block button hole (not shown).

Understandably, in the present embodiment, the left-hand end of upper clamp 2112 and lower clamp 2113 all offers the first block button hole and the first gathering sill 2114, first guide 241 of the upper end of outlet switching general assembly 24 is plugged in the first gathering sill 2114 of clamp 2112, simultaneously, first fastener (not shown) of upper end can be fastened in the first block button hole (not shown) of clamp 2112, accordingly, first guide 241 of lower end is plugged in the first gathering sill 2114 of lower clamp 2113, simultaneously, first fastener card (not shown) of lower end is located in the first block button hole (not shown) of lower clamp 2113.Like this, outlet switching general assembly 24 is not only made well to being positioned at firm banking 211 and on-off system 22, also can being fixed well and being connected on firm banking 211 and on-off system 22.

Accordingly, for another example shown in Fig. 9 to Figure 14, be plugged on firm banking 211 for ease of general assembly 23 that inlet wire is transferred, in the present embodiment, upper clamp 2112 all offers the second gathering sill 2115 of the second block button hole (not shown) and one end open with another identical side of lower clamp 2113, the top and bottom of inlet wire switching general assembly 23 are equipped with the second fastener and the second guide 231 (not shown), each second guide 231 (not shown) is inserted in the second corresponding gathering sill 2115, and each second fastener is fastened in the second corresponding block button hole.

Understandably, in the present embodiment, the right-hand end of upper clamp 2112 and lower clamp 2113 all offers the second block button hole and the second gathering sill 2115, second guide 231 of the upper end of inlet wire switching general assembly 23 is plugged in the second gathering sill 2115 of clamp 2112, simultaneously, second fastener (not shown) of upper end can be fastened in the second block button hole of clamp 2112, accordingly, second guide 231 (not shown) of lower end is plugged in the second gathering sill 2115 of lower clamp 2113, simultaneously, second fastener (not shown) of lower end can be fastened in the second block button hole of lower clamp 2113, like this, can realize outlet switching general assembly 24 well can correctly to being positioned at firm banking 211 and on-off system 22, also can be fixed well and be connected on firm banking 211 and on-off system 22.

Further, in the preferred embodiment that the utility model provides, as shown in Figure 13 and Figure 14, the lower plugboard 2123 on the lower at the back side of substrate 2121 is located at by the upper plate 2122 of the top side that mobile base assembly 212 comprises substrate 2121, the back side of substrate 2121 is located in activity, activity, wherein, in the present embodiment, substrate 2121 is main in order to limit the size of the inner chamber of firm banking 211, preferably, this substrate 2121 is parallel to each other with the support plate 2111 of firm banking 211, and all vertically places.

As shown in Fig. 9 to Figure 13, upper clamp 2112 offers the upper insertion hole groups 2112a of many rows, often the upper insertion hole groups 2112a of row has the upper jack 2112b of multiple parallel arranged, accordingly, lower clamp 2113 offers the lower insertion hole groups 2113a of many rows, often the lower insertion hole groups 2113a of row has multiple lower jack 2113b arranged in parallel, understandably, the multiple upper jack 2112b that upper clamp 2112 is offered is arranged in arrays, the multiple lower jack 2113b that lower clamp 2113 is offered is also all in arranged in arrays, and preferably, the layout of each upper jack 2112b is identical with the layout of each lower jack 2113b.

Obviously, for another example shown in Fig. 9 to Figure 14, upper plate 2122 has multiple upper interpolating unit 2122a protruding from the parallel arranged of substrate 2121, each upper interpolating unit 2122a is inserted in the upper jack 2112b of each correspondence of corresponding each upper insertion hole groups 2112a, understandably, each upper interpolating unit 2122a is located at the upper end of plate 2122, and the layout of each upper interpolating unit 2122a is consistent with the layout of the upper insertion hole groups 2112a of each row.

Lower plugboard 2123 has multiple lower inserting part 2123a protruding from the parallel arranged of substrate 2121, each lower inserting part 2123a is inserted in the lower jack 2113b of each correspondence of corresponding each lower insertion hole groups 2113a, understandably, each lower inserting part 2123a is located at the bottom of lower plugboard 2123, and the layout of each lower inserting part 2123a is consistent with the layout of insertion hole groups 2113a under each row.

Also understandably, user can according to the size of on-off system 22, the each upper interpolating unit 2122a of the upper plate 2122 of adjustment adaptively is specifically plugged in the upper insertion hole groups 2112a of which row, and in like manner, adjust lower plugboard 2123 each lower inserting part 2123a with may correspond to specifically is plugged in the lower insertion hole groups 2113a of which row.

Further, in the preferred embodiment that the utility model provides, specifically as shown in figure 14, for ease of upper plate 2122 and the equal activity of lower plugboard 2123 are located on substrate 2121, the back side of substrate 2121 is convexly equipped with at least one piece of limiting plate 2124, each limiting plate 2124 offers respectively upper limit position groove 2124a and lower limit groove 2124b.

Again as shown in Figure 13 and Figure 14, upper plate 2122 also has the upper base portion 2122aa of each upper interpolating unit 2122a of parallel join simultaneously, upper base portion 2122aa is arranged in each upper limit position groove 2124a, and upper plate 2122 moves up and down along each upper limit position groove 2124a, accordingly, lower plugboard 2123 also has the lower base portion 2123aa of parallel join each lower inserting part 2123a simultaneously, lower base portion 2123aa is arranged in each lower limit groove 2124b, and lower plugboard 2123 moves up and down along each lower limit groove 2124b, specifically in the present embodiment, preferably, the back side of substrate 2121 is convexly equipped with two pieces of limiting plates be parallel to each other 2124, the upper base portion 2122aa of upper plate 2122 is fastened in the upper limit position groove 2124a of two pieces of limiting plates 2124 simultaneously, the lower base portion 2123aa of lower plugboard 2123 is fastened in the lower limit groove 2124b of two pieces of limiting plates 2124 simultaneously.

It should be noted that, specifically in the present embodiment, preferably, structure and the size of upper plate 2122 and lower plugboard 2123 are all consistent, only be relatively arranged on the back side of substrate 2121, in addition, structure and the size of upper limit position groove 2124a and lower limit groove 2124b are also consistent.

Further, in the preferred embodiment that the utility model provides, as shown in Fig. 9 to Figure 14, specifically as shown in figure 14, can activity be located on substrate 2121 respectively for ease of upper plate 2122 and lower plugboard 2123, mobile base assembly 212 also comprises multiple first elastic component 2125 and multiple second elastic component 2126, the upper end of substrate 2121 and bottom inwardly vertically extend upper hanging plate 2127 and lower link plate 2128 respectively, and " inwardly vertical extension " mentioned here refers to toward the side near firm banking 211 and vertically extend.

Again as shown in figure 14, the diapire of upper hanging plate 2127 is provided with on multiple first links up with (not shown), on the madial wall of upper plate 2122, correspondence is provided with on multiple second and links up with 2122b, wherein, one end hooking of each first elastic component 2125 is linked up with in (not shown) on each first, other end hooking is linked up with on 2122b on each second of correspondence, understandably, link up with on each first and link up with 2122b to having on one second, can plumbness be kept to make each first elastic component 2125.

Accordingly, as shown in the figure, the diapire of lower link plate 2128 is provided with multiple first lower draw-bar 2128a, on the madial wall of lower plugboard 2123, correspondence is provided with multiple second lower draw-bar 2123b, one end hooking of each second elastic component 2126 is on each first lower draw-bar 2128a, and other end hooking is on each second lower draw-bar 2123b of correspondence.Understandably, each first lower draw-bar 2128a, to there being a second lower draw-bar 2123b, can keep plumbness to make each second elastic component 2126.Preferably, in the present embodiment, size and the elastic performance of the first elastic component 2125 and the second elastic component 2126 are consistent, and are spring.

Further, in the preferred embodiment that the utility model provides, as shown in Fig. 9 to Figure 12, this intelligent switch module 2 also comprises acquisition module 26, the upper housing part of the shell body 242 of acquisition module 26 and lower housing part offer the 3rd gathering sill 2611 respectively, as shown in figures 9 and 11, in the present embodiment, the left-hand end of upper clamp 2112 and lower clamp 2113 is respectively to extending horizontally away a guide plate 2112c and lower guide plate 2113c on outward, the diapire of upper guide plate 2112c is convexly equipped with gib block (not shown) downwards, the roof of lower guide plate 2113c is convex is provided with lower gib block 2113cc, each 3rd gathering sill 2611 of acquisition module 26 respectively corresponding inserted has lower gib block 2113cc and upper gib block (not shown), also be, 3rd gathering sill 2611 of the upper housing part of acquisition module 26 is plugged in (not shown) on gib block, 3rd gathering sill 2611 (not shown) of lower housing part is plugged on lower gib block 2113cc, like this, exactly this acquisition module 26 can be fixedly installed on position that firm banking 211 sets.Understandably, the spacing between upper guide plate 2112c and lower guide plate 2113c just adapts to the height of acquisition module 26.In the present embodiment, for ease of connecting conducting in outlet switching general assembly 24, this acquisition module 26 is also plugged in outlet switching general assembly 24.

It should be noted that, in the present embodiment, this acquisition module 26 comprises shell general assembly 261 and acquisition module pcb board 262, and obviously, each 3rd gathering sill 2611 is opened in this shell general assembly 261, and particularly, this shell general assembly 261 is drawn by section bar mold and forms.In addition, this acquisition module pcb board 262 is main in order to be focused on by the electrical quantitys such as current signal, voltage signal, harmonic signal, position and alarm signal, temperature signal and power signal, it is externally reserved with standard interface, internally then also with preset standard plug-in unit and outlet and transfer the first sensor 245 (as Hall element) of general assembly 24 to inserting.

As Fig. 9 to Figure 12, shown in Figure 15, in the present embodiment, specifically as shown in figure 15, outlet switching general assembly 24 comprises shell body 242, first touches male 243, first flexible cable 244, first sensor 245, and the first pcb terminal keyset 246, obviously, for multifinger outlet switching general assembly 24, its shell body 242 should have fire protecting performance, it first touches male 243 and should have multiple, usually, first number touching male 243 should be consistent with the progression of this switch module, and in the present embodiment, shell body 242 is stretched out in each first one end touching male 243, the other end is inserted in the inside of shell body 242, again as shown in the figure, accordingly, for ease of realizing the on-line maintenance of each parts in outlet switching general assembly 24, the present embodiment adopts multiple first flexible cable 244 to carry out transferring electric power, wherein, one end of each first flexible cable 244 is inserted in first of each correspondence and touches in male 243, and the other end stretches out shell body 242 and is plugged in the outbound port 222 of each correspondence of on-off system 22.

For another example shown in Figure 11, Figure 12 and Figure 15; for ease of gathering on-off system 22 current conditions at different levels and carrying out overload protection to on-off system 22; first sensor 245 is electrically connected on each first simultaneously and touches male 243 and each first flexible cable 244; and to inserting acquisition module 26, and the data message such as the electric current collected the most at last, voltage, temperature rise, on off state focuses on this first pcb terminal keyset 246.

It should be noted that, preferably, in the present embodiment, first sensor 245 is Hall element, and employing retractable structure, in addition, in the present embodiment, outlet switching general assembly 24 also comprises at least one first temperature sensor 247, each first connection line touching male 243 is connected with at least one first temperature sensor 247, also namely, touch in male 243 each first and be provided with the first temperature sensor 247 to detect temperature rise situation in good time, thus guarantee the security performance of this switch module.In fact, in the present embodiment, this outlet switching general assembly 24 also comprises voltage measuring apparatus to detect the voltage condition of on-off system 22 in real time.

It should be noted that, in the present embodiment, except outlet switching general assembly 24 is mainly in order to transmit the outside Load transportation of electric power come by on-off system 22, outside the main electric power in order to bus-bar or vertical bus bar transmission to be come of inlet wire switching general assembly 23 transmits to on-off system 22, the structure of inlet wire switching general assembly 23 and outlet switching general assembly 24 is basically identical, also be, inlet wire switching general assembly 23 includes second and touches male (not shown), second flexible cable (not shown), second transducer (not shown), second pcb terminal keyset (not shown), second temperature sensor (not shown) etc., and the annexation of each parts is also consistent substantially, thus repeat for avoiding, to only outlet switching general assembly 24 be described in detail for example herein.

Specifically in the present embodiment, for ease of realizing the on-line maintenance of inlet wire switching general assembly 23, each first flexible cable 244 comprises connecting portion (not shown), flexible part (not shown) and Plug Division (not shown) all in turn, wherein, each connecting portion is connected to first of each correspondence and touches male 243, each flexible part is all located at the inside of the shell body 242 of each correspondence, and each Plug Division is plugged in the outbound port 222 of the correspondence of on-off system 22.

In fact, in a preferred embodiment of the present utility model, as shown in figs. 3 and 10, in assembling process, for ease of this switch module being locked in the position of setting, base plate general assembly 21 also comprises moving lock locking mechanism 27, wherein, the trip lockable mechanism 27 comprises lock piece 271 and is sheathed on the 3rd elastic component 272 of lock piece 271, specifically as shown in figure and figure, one end of this lock piece 271 is arranged in firm banking 211 and stretches out firm banking 211, the other end is inserted in handle mounting panel general assembly 25 and stretches out handle mounting panel general assembly 25, specifically in the present embodiment, preferably, this lock piece 271 is in bending-like, handle mounting panel 251 offers at least one slide opening 2511, wherein, the vertical end of lock piece 271 is inserted in firm banking 211, horizontal end is inserted in slide opening 2511, and the 3rd elastic component 272 is sheathed on the vertical end of lock piece 271, the right-hand end that one end is resisted against lower clamp 2113 is the top board (figure does not indicate) that extends of upper vertical left, the other end is resisted against the end face of lower clamp 2113.

In a word, this switch module is except having all functions of non intelligent switch, also there is full electrical parameter detect, temperature rise detects, blocking function, and cover the technology such as complete series switch, be widely used in the electric power system of every profession and trade, especially AC power supply system, alterating and direct current origin system, control cubicle, power distribution cabinet, the power distribution fields such as distribution box, for all kinds of power consumption equipment provides electric power, grasp the running status of each switch, data analysis is carried out to each equipment electricity consumption and reaches rational energy distribution, monitor energy quality and precision management is carried out to electric power, also can effectively promote energy-conservation.

Further, in the preferred embodiment that the utility model provides, as shown in Figure 16 to Figure 20, this line module base 1 comprises total main casing 11, be located at the incoming line module 12 on total main casing 11 and be located on total main casing and be electrically connected on the outlet module 13 of the leading-out terminal of incoming line module 12, and outlet module 13 comprises the first conduction element 131 of multiple external load.

Wherein, for making this line module base 1 energy directly transferring electric power, and do not need peripheral switching busbar, in the present embodiment, this incoming line module 12 comprises inlet wire inserted terminal group 121 and an input switching general assembly 122, wherein, the external input circuit in one end of input switching general assembly 122, the other end connects inlet wire inserted terminal group 121, accordingly, outlet module 13 comprises an outlet inserted terminal group 132 and and exports switching general assembly 133, in like manner, the one end exporting each output adapter 1331 in switching general assembly 133 connects the first conduction element 131 of each correspondence, the other end connects outlet inserted terminal group 132, with this electric power transfer function is built in this line module base 1.Separately, understandably, the inlet wire switching general assembly 23 of intelligent switch module 2 is inserted in inlet wire inserted terminal group 121, and accordingly, its outlet switching general assembly 24 is inserted in outlet inserted terminal group 132, realizes the electric power conducting of this Power entry module with this.

It should be noted that, obviously, input switching general assembly 122 mainly in order to by external input circuit as the electric power on vertical bus bar is transferred in inlet wire inserted terminal group 121, and through intelligent switch module 2 inlet wire switching general assembly 23, be transferred in outlet switching general assembly 24, accordingly, switching general assembly 133 is exported mainly in order to the electric power in outlet switching general assembly 24 is transferred to each first conduction element 131 to be transported to external load via outlet inserted terminal group 132.

It should be noted that, input switching general assembly 122 to form primarily of the multiple switching busbars be located in total main casing 11 (scheming not indicate) and the external piece (as T-shaped screw etc.) of corresponding flexible connection with it, by external piece (figure does not indicate) and the activity clamping of vertical bus bar, realize the direct electric power transfer function of this line module base 1 with this.Export multiple adaptors (as switching busbar etc.) that switching general assembly 133 mainly refers to be located in total main casing 11.

Further, in the preferred embodiment that the utility model provides, get an electric shock for preventing operating personnel, as shown in Figure 16 to Figure 20, incoming line module 12 also comprises the first protector 123, first protector 123 comprises activity and is located at the first protective plate 1231 in order to automatic door inlet wire inserted terminal group 121 on the front side of total main casing 11 and the first protective plate 1232 in order to automatic door outlet inserted terminal group 132, understandably, after intelligent switch module 2 is extracted from this line module base 1, for guaranteeing the personal safety of operating personnel, the first protective plate 1231 in this line module base 1 can block the inlet wire inserted terminal group 121 exposed by automatic covering, accordingly, first protective plate 1231 also can block the outlet inserted terminal group 132 exposed by automatic covering.

It should be noted that, in the present embodiment, specifically as shown in fig. 16 and 18, first protective plate 1231 and the first protective plate 1232 are all fastened on the front side of total main casing 11, both all offer loose slot (figure does not indicate), and in all each loose slot, be all inserted with top board (figure do not indicate), understandably, the first protective plate 1231 and the first protective plate 1232 realize moving left and right of each protective plate by the top board of correspondence movable just.Certainly, usually, can automatically move forward and backward for realizing each top board, one end correspondence being positioned at total main casing 11 inner chamber of each top board is provided with an elastic component (as spring), like this, understandably, while extracting intelligent switch module 2, each elastic component (figure does not indicate), under the effect of resilience force, automatically can promote corresponding top board and move forward, and corresponding protective plate can be driven like this to move to the left or to the right.

As shown in Figure 21 to Figure 23, the utility model one preferred embodiment additionally provides a kind of distribution system, this distribution system, comprise rack 01 and be located at the electric power importing assembly 02 on rack 01, also comprise at least one above-mentioned intelligent power distribution module 00, be provided with the module bracket 011 that multiple interval is placed in rack 01, each intelligent power distribution module 00 is placed in corresponding each module bracket 011, and the line module base 1 of each intelligent power distribution module 00 is all plugged on electric power importing assembly 02.

Understandably, in a usual rack 01, multiple intelligent power distribution module 00 is installed, and according to actual needs, each intelligent power distribution module 00 also can be not quite similar according to line module base 1 its output current different from the number of switch module of assembling, also namely, intelligent power distribution module 00 parallel join of multiple different output current grade can be had together.

It should be noted that, specifically in the present embodiment, this electric power imports assembly 02 and comprises vertical bus bar (figure does not indicate), for clamping the lower end of vertical bus bar vertical bus bar to be fixed on the master clamp mechanism (figure does not indicate) on rack 01, and in order to the busbar cover (figure does not indicate) of the upper end that covers vertical bus bar, in a word, in the present embodiment, above-mentioned each intelligent power distribution module 00 is all connected on vertical bus bar, also be, all intelligent power distribution module 00 in distribution system can realize uploading of full electrical parameter by means of only a data/address bus (as vertical bus bar) and assign function.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model.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 amendment done, equivalent replacement, improvement etc., all should be included within right of the present utility model.

Claims (10)

1. intelligent power distribution module, it is characterized in that: comprise assembling base, at least one being fixedly installed on described assembling base and directly to transfer the line module base of electric power and at least one the intelligent switch module be all located on described assembling base, each described intelligent switch module is plugged on corresponding described line module base; Described intelligent switch module comprises base plate general assembly, on-off system, inlet wire switching general assembly, outlet switching general assembly, the general assembly of handle mounting panel;

Described on-off system is contained in the container cavity of described base plate general assembly and described handle mounting panel general assembly formation, and described container cavity adapts to the described on-off system of different volumes size; Described inlet wire switching general assembly is detachable to be inserted in a side of described base plate general assembly and to be plugged in the inlet side mouth of described on-off system simultaneously, and described outlet switching general assembly is detachable to be inserted in another side of described base plate general assembly and to be plugged in the outbound port of described on-off system simultaneously; The general assembly of described handle mounting panel is detachable is connected to the front side of described base plate general assembly to hide described on-off system, and is connected to described on-off system directly to control the on-off of described on-off system simultaneously.

2. intelligent power distribution module as claimed in claim 1, it is characterized in that: described base plate general assembly comprises firm banking and mobile base assembly, described on-off system to be contained in described container cavity and to be fixedly connected on described firm banking, and its rear wall is resisted against described mobile base assembly; Described mobile base component activity is arranged in described firm banking makes it adapt to the described on-off system of different volumes size in order to regulate the size of described container cavity.

3. intelligent power distribution module as claimed in claim 2, is characterized in that: described firm banking comprises support plate, by the upside Vertical dimension of described support plate upper clamp extending out, by the lower side Vertical dimension of described support plate lower clamp extending out; Described upper clamp all offers the first gathering sill of one end open with an identical side of described lower clamp, and the top and bottom of described outlet switching general assembly are equipped with the first guide, and each described first guide is inserted in corresponding described first gathering sill; Described upper clamp all offers the second gathering sill of one end open with another identical side of described lower clamp, and the top and bottom of described inlet wire switching general assembly are equipped with the second guide, and each described second guide is inserted in corresponding described second gathering sill.

4. intelligent power distribution module as claimed in claim 3, is characterized in that: the lower plugboard on the lower at the back side of described substrate is located at by the upper plate of the top side that described mobile base assembly comprises substrate, the back side of described substrate is located in activity, activity; Described upper clamp offers the upper insertion hole groups of many rows, often the upper insertion hole groups of row has the upper jack of multiple parallel arranged, described lower clamp offers the lower insertion hole groups of many rows, and often the lower insertion hole groups of row has multiple lower jack arranged in parallel; Described upper plate has multiple upper interpolating unit protruding from the parallel arranged of described substrate, each described upper interpolating unit is inserted in the described upper jack of each correspondence of corresponding each described upper insertion hole groups, described lower plugboard has multiple lower inserting part protruding from the parallel arranged of described substrate, and each described lower inserting part is inserted in the described lower jack of each correspondence of corresponding each described lower insertion hole groups.

5. intelligent power distribution module as claimed in claim 4, is characterized in that: the back side of described substrate is convexly equipped with at least one piece of limiting plate, each described limiting plate offers respectively upper limit position groove and lower limit groove; Described upper plate also has the upper base portion of each described upper interpolating unit of parallel join simultaneously, described upper base portion is arranged in each described upper limit position groove, and described upper plate moves up and down along each described upper limit position groove, described lower plugboard also has the lower base portion of each described lower inserting part of parallel join simultaneously, described lower base portion is arranged in each described lower limit groove, and described lower plugboard moves up and down along each described lower limit groove.

6. intelligent power distribution module as claimed in claim 5, it is characterized in that: described mobile base assembly also comprises multiple first elastic component and multiple second elastic component, the upper end of described substrate and bottom inwardly vertically extend upper hanging plate and lower link plate respectively; The diapire of described upper hanging plate is provided with on multiple first to be linked up with, on the madial wall of described upper plate, correspondence is provided with on multiple second and links up with, one end hooking of each described first elastic component is linked up with on each described first, and other end hooking is linked up with on each described second of correspondence; The diapire of described lower link plate is provided with multiple first lower draw-bar, on the madial wall of described lower plugboard, correspondence is provided with multiple second lower draw-bar, one end hooking of each described second elastic component is on each described first lower draw-bar, and other end hooking is on each described second lower draw-bar of correspondence.

7. intelligent power distribution module as claimed in claim 3, it is characterized in that: this intelligent switch module also comprises acquisition module, the upper housing part of the shell body of described acquisition module and lower housing part offer the 3rd gathering sill respectively, the left-hand end of described upper clamp and described lower clamp is respectively to extending horizontally away guide plate and a lower guide plate on one outward, the diapire of described upper guide plate is convexly equipped with gib block downwards, the roof of described lower guide plate is convex is provided with lower gib block, each described 3rd gathering sill of described acquisition module respectively corresponding inserted has described lower gib block and described upper gib block, and described acquisition module is plugged in described outlet switching general assembly.

8. the intelligent power distribution module as described in any one of claim 1 to 7, described line module base comprises total main casing, be located at the incoming line module on described total main casing and be located on described total main casing and be electrically connected on the outlet module of the leading-out terminal of described incoming line module, described outlet module comprises the first conduction element of multiple external load, it is characterized in that: described incoming line module comprises an inlet wire inserted terminal group and an input switching general assembly, the external input circuit in one end of described input switching general assembly, the other end connects described inlet wire inserted terminal group; Described outlet module comprises an outlet inserted terminal group and and exports switching general assembly, and one end of each output adapter in described output switching general assembly connects described first conduction element of each correspondence, and the other end connects described outlet inserted terminal group; Described inlet wire switching general assembly is inserted in described inlet wire inserted terminal group, and described outlet switching general assembly is inserted in described outlet inserted terminal group.

9. intelligent power distribution module as claimed in claim 8, it is characterized in that: described incoming line module also comprises the first protector, described first protector comprises activity and is located at the first protective plate in order to inlet wire inserted terminal group described in automatic door on the front side of described total main casing and the second protective plate in order to outlet inserted terminal group described in automatic door.

10. distribution system, comprise rack and be located at the electric power importing assembly on described rack, it is characterized in that: also comprise at least one intelligent power distribution module as described in any one of claim 1 to 9, the module bracket that multiple interval is placed is provided with in described rack, each described intelligent power distribution module is placed in corresponding each described module bracket, and the described line module base of each described intelligent power distribution module is all plugged on described electric power importing assembly.