CN209488184U - A kind of distribution system optimizing cell power consumption efficiency - Google Patents

Abstract

The utility model discloses a kind of distribution system for optimizing cell power consumption efficiency, and a pair of guide rails includes the first guide rail of two parallel intervals setting；Second pair of guide rail includes the second guide rail of two parallel intervals setting；Second pair of guide rail is moved along the direction close to or far from a pair of guide rails；First electrode plate is mounted between a pair of guide rails, and first electrode plate includes several first grade pole plate, and the position of first first grade pole plate is fixed, and second to the last one first grade pole plate sliding between a pair of guide rails；Second electrode plate is mounted between second pair of guide rail, and second electrode plate includes several second subprime pole plates；The position of first second subprime pole plate is fixed, and second to the last one second subprime pole plate is slided between second pair of guide rail, and first grade pole plate of a pair of corresponding position and second subprime pole plate are along the length direction synchronizing moving of guide rail；The utility model solves the technical problem to cell electric network reactive compensation inconvenience.

Description

A kind of distribution system optimizing cell power consumption efficiency

Technical field

The utility model relates to wisdom cellular technology fields, and in particular to a kind of power distribution system for optimizing cell power consumption efficiency System.

Background technique

The case where daily electricity consumption of community resident often will appear excess load, also, the electric wiring of some old residential areas is set Count unqualified, situations such as electrical ageing, private pull the wire exists, the probability of happening of increased electrical fire, indoor paper, foam Etc. inflammable articles, also increase fire diffusion velocity, it can be seen that, taking precautions against the transformation of cell distribution system electrical fire is There is certain necessity.

It include a large amount of inductive reactive power in the electricity consumption of cell, so that the burden of route is further increased, in order to one Determine to reduce the electricity consumption burden on total power consumption and each route in degree, capacitive reactive power switching device can be increased at present, by idle Compensation reduces the power consumption in total power consumption and single line, but reactive power compensator needs ceaselessly switching, during switching, can increase Add the voltge surge to route, influences the normal use of equipment in route.

Utility model content

One purpose of the utility model is to solve at least the above problems, and provide the advantages of at least will be described later.

The purpose of the utility model is to provide a kind of distribution systems for optimizing cell power consumption efficiency, by adjusting reactive compensation The parameter of capacitor cuts the size of compensating electric capacity to adjust, and reduces the voltge surge caused because of switch on-off to power grid, this reality With the novel technical problem solved to cell electric network reactive compensation inconvenience.

In order to realize these purposes according to the present utility model and other advantages, a kind of optimization cell power consumption efficiency is provided Distribution system, comprising:

A pair of guide rails comprising the first guide rail of two parallel intervals setting, first guide rail position are fixed；

Second pair of guide rail comprising the second guide rail of two parallel intervals setting, described a pair of guide rails and second pair are led The setting of rail parallel interval, and the position of first guide rail and the second guide rail corresponds；Second pair of guide rail along close or Direction far from described a pair of guide rails is mobile；

First electrode plate is mounted between described a pair of guide rails, and the first electrode plate includes several first times Grade pole plate, the position of first first grade pole plate are fixed, and second to first grade pole plate sliding described in the last one Between described a pair of guide rails；

Second electrode plate is mounted between second pair of guide rail, and the second electrode plate includes several second The position of grade pole plate, each first grade pole plate and second subprime pole plate corresponds；The first second subprime pole The position of plate is fixed, and second to second subprime pole plate described in the last one is slided between second pair of guide rail, and corresponding A pair first grade pole plate at position is with second subprime pole plate along the length direction synchronizing moving of the guide rail；

Wherein, the connecting pin of first first grade pole plate and first second subprime pole plate is opened by switching Pass is connect with the output end of distribution system.

Preferably, a mounting base is fixed in the two sides end of second pair of guide rail, through offering the in the mounting base One pilot hole stretches in first pilot hole and is provided with the first guide rod, and first guide rod position is fixed, and described the The length direction of one guide rod is vertical with the length direction of the guide rail, and second pair of guide rail is along first guide rod Direction is mobile.

Preferably, one first telescoping drive mechanism is installed in the mounting base bottom, and first telescoping drive mechanism is stretched Contracting end is connect with the mounting base, the direction one of the telescopic direction of first telescoping drive mechanism and first guide rod It causes, the first telescoping drive mechanism synchronization telescope of two sides, first telescoping drive mechanism is twin shaft cylinder.

Preferably, each first grade pole plate is arranged successively and is spliced into the first electrode plate, and each described Mosaic face between first grade pole plate passes through the seamless conductive contact of conductive silicone grease；Each second subprime pole plate is arranged successively And it is spliced into the second electrode plate, and the Mosaic face between each second subprime pole plate passes through the seamless conduction of conductive silicone grease Contact.

Preferably, the first electrode plate is folded between described a pair of guide rails, described a pair of guide rails it is opposite First rail groove is offered on inner sidewall, first first grade plate width direction two sides are fixed on described the of two sides Between a pair of guide rails inner sidewall, and first conduction of first first grade pole plate outer surface center setting one for wiring Terminal；Second is protruding with the first guide pad to first grade plate width direction two sides described in the last one respectively, and described One guide pad is slidably arranged in the first rail groove.

Preferably, the second electrode plate is folded between second pair of guide rail, second pair of guide rail it is opposite The second guide-track groove is offered on inner sidewall, the direction of each guide-track groove is consistent with the length direction of place guide rail, and first Second subprime plate width direction two sides are fixed between second pair of guide rail inner sidewall of two sides, and described in first Second subprime pole plate outer surface center setting one is used for the second conductive terminal of wiring；Second to second described in the last one Grade plate width direction two sides are protruding with the second guide pad respectively, and second guide pad is slidably arranged in second guide-track groove In.

Preferably, outside the first guide rail where the first rail groove on first guide rail of the first side extends transversely through Side wall, and first guide pad of position through the first rail groove and outwardly protrudes certain distance, described the A first positioning hole is opened up on the protruding end of one guide pad；Second guide-track groove on second guide rail of first side is lateral Through the lateral wall of the second guide rail of place, and second guide pad of position is through second guide-track groove and outside Certain distance is protruded, opens up a second location hole on the protruding end of second guide pad.

Preferably, a screw rod is installed on the first guide rail lateral wall of the first side, the direction of the screw rod is led with described The length direction of rail is consistent, and the screw rod is located at the outside of first rail groove described in position, and the length of the screw rod is not Less than the length of the first rail groove；One second guide rod is installed on the second guide rail lateral wall of the first side, described the Two guide rods and screw rod are arranged in parallel and the plane that coexists, second guide rod are located at the second guide-track groove described in position Outside, the length of second guide rod is not less than the length of second guide-track groove.

Preferably, it is arranged one first sliding block on the screw rod, the side wall of first sliding block, which protrudes above, to be provided with third and lead To block, third guide-track groove is offered on the first guide rail lateral wall of the first side, the third guide pad is slidably arranged in institute It states in third guide-track groove, the end of the screw rod connects a rotary drive mechanism, and first sliding block is mobile on the screw rod； One second sliding block is arranged on second guide rod, the side wall of second sliding block, which protrudes above, is provided with the 4th guide pad, and first The 4th guide-track groove is offered on the second guide rail lateral wall of side, the 4th guide pad is slidably arranged in the 4th guide rail In slot, first sliding block and the second sliding block are correspondingly arranged, and are fixedly installed third guide rod on first sliding block, described The direction of third guide rod is vertical with the direction of second guide rod, runs through on second sliding block and offers the second guiding Hole, the third guide rod are movably arranged in second pilot hole；First sliding block and the second sliding block are led along described Rail direction synchronizing moving.

Preferably, one second telescoping drive mechanism, institute are installed respectively on the lateral wall of first sliding block and the second sliding block The telescopic direction for stating the second telescoping mechanism is vertical with the guide rail lateral wall plane；The telescopic end of two second telescoping mechanisms The distance between two location holes on distance and same a pair secondary pole plate are consistent, and second telescoping mechanism is stretched Contracting end is through place sliding block and selectively stretches in the location hole of position；Second telescoping mechanism is single shaft Cylinder.

Compared with prior art, the beneficial effect that the utility model includes is:

1, the utility model is by realizing the capacitance to incision reactive compensation capacitor to the adjustment of capacitor physical parameter Adjustment, reduce impact to power grid when cutting to capacitor；

2, more flexible changeable to the size control mode of incision capacitor, it is adjusted convenient for the capacitance size to incision capacitor Control, improves the accuracy of reactive compensation.

The further advantage, target and feature of the utility model will be partially reflected by the following instructions, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the spliced structural schematic diagram of power-on and power-off pole plate；

Fig. 2 is the mounting structure schematic diagram of power-on and power-off pole plate and guide rail；

Fig. 3 is the mounting structure schematic diagram of the first telescoping drive mechanism；

Fig. 4 is the fit structure schematic diagram of the first sliding block and the second sliding block；

Fig. 5 is the mounting structure schematic diagram of the first telescoping drive mechanism；

Fig. 6 is the mounting structure schematic diagram of the first sliding block and the second sliding block and guide rail.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation Text can be implemented accordingly.

As shown in figures 1 to 6, the utility model provide it is a kind of optimize cell power consumption efficiency distribution system, including track, Electrode plate and telescoping drive mechanism, electrode plate are selectively linked into cell power grid, adjust the power factor (PF) of power grid, are reduced idle Loss, improves the power consumption efficiency of cell.

Embodiment one

A pair of guide rails includes the first guide rail 110 of two parallel intervals setting, corresponding, and second pair of guide rail includes two Second guide rail 120 of parallel interval setting, described a pair of guide rails and second pair of guide rail parallel interval setting, the utility model In, a pair of guide rails and second pair of guide rail are between the upper and lower every setting, and the position one of first guide rail 110 and the second guide rail 120 One is corresponding.

The position of two first guide rails 110 is fixed, but the position of second pair of guide rail is not fixed, but along close Or the direction far from described a pair of guide rails moves up and down.A mounting base 150 is fixed in the two sides end of second pair of guide rail, tool Body, 120 end of the second guide rail is provided with screw hole 121, is provided with screw hole 152 on 150 side wall of mounting base, passes through bolt-through spiral shell Mounting base 150 is fixed on 120 end of the second guide rail by hole 121,152, so that the mounting base 150 of two sides fixes second pair of guide rail At being integral.Through the first pilot hole 151 is offered in the mounting base 150, stretches and be arranged in first pilot hole 151 Have the first guide rod 160,160 position of the first guide rod is fixed, and the length direction of first guide rod 160 with it is described The length direction of guide rail is vertical, by the guiding role of the first guide rod 160, so that second pair of guide rail is led along described first It is mobile to the direction of bar 160.

In order to drive second pair of guide rail to move up and down, one first telescoping drive mechanism is installed in 150 bottom of mounting base 200, the telescopic end 210 of first telescoping drive mechanism 200 is connect with 150 bottom of mounting base, the described first flexible drive The telescopic direction of motivation structure 200 is consistent with the direction of first guide rod 160, first telescoping drive mechanism of two sides 200 synchronization telescopes, in the present embodiment, first telescoping drive mechanism 200 is twin shaft cylinder.It stretches and drives by the first of two sides Motivation structure 200 moves up and down to synchronize drive installation seat 150 and entire second pair of guide rail, to realize second pair of guide rail along close Or the direction far from described a pair of guide rails moves up and down.

First electrode plate 700 is mounted between described a pair of guide rails, and in the present embodiment, the first electrode plate 700 is wrapped Several first grade pole plate C12-C42 is included, the position of first first grade pole plate C12 is fixed, and second to last One first grade pole plate C22-C42 sliding is between described a pair of guide rails.

Second electrode plate 600 is mounted between second pair of guide rail, and second electrode plate 600 is located at first electrode plate 700 Positive upper end, the second electrode plate 600 include several second subprime pole plates C11-C41, each first grade pole plate The position of C12-C42 and second subprime pole plate C11-C41 corresponds, and four secondary capacitors is formed, when four secondary capacitances Device splicing is complete, that is, when first electrode plate 700 and complete second electrode plate 600, forms a total capacitor；First The position of the second subprime pole plate C11 is fixed, and second to second subprime pole plate C21-C41 described in the last one is slided in institute It states between second pair of guide rail.

A pair first grade pole plate of corresponding position is with second subprime pole plate along the length direction of the guide rail Synchronizing moving, that is, first grade pole plate C22 and second subprime pole plate C21 synchronizing moving, first grade pole plate C32 and second Secondary pole plate C31 synchronizing moving, first grade pole plate C42 and second subprime pole plate C41 synchronizing moving.

Each first grade pole plate is arranged successively and is spliced into the first electrode plate 700, and each described first Mosaic face between secondary pole plate passes through the seamless conductive contact of conductive silicone grease, so that can be at after the splicing of each first grade pole plate For one piece of complete metallic conduction block；Similarly, each second subprime pole plate is arranged successively and is spliced into the second electrode Plate 600, and the Mosaic face between each second subprime pole plate passes through the seamless conductive contact of conductive silicone grease.

The first electrode plate 700 is folded between described a pair of guide rails, in order to assist each first grade pole plate Moving process, first rail groove 111, first first time are offered on the relative inner wall of described a pair of guide rails Grade pole plate C12 width direction two sides are fixed between a pair of guide rails inner sidewall of two sides, and first first time Grade pole plate outer surface center setting one is used for the first conductive terminal of wiring；Second to first grade pole plate described in the last one C22-C42 width direction two sides are protruding with the first guide pad 130 respectively, and first guide pad 130 is slidably arranged in described In one guide-track groove 111.Namely second to first grade pole plate C22-C42 described in the last one can be along first rail groove 111 move freely, and are separated from each other or are spliced into the first electrode plate 700.

Similarly, the second electrode plate 600 is folded between second pair of guide rail, second pair of guide rail it is opposite The second guide-track groove 122 is offered on inner sidewall, the direction of each guide-track groove is consistent with the length direction of place guide rail, and first A second subprime pole plate C11 width direction two sides are fixed between second pair of guide rail inner sidewall of two sides, and first A second subprime pole plate outer surface center setting one is used for the second conductive terminal 610 of wiring；Second to the last one Second subprime pole plate C21-C41 width direction two sides are protruding with the second guide pad 140, second guide pad 140 respectively It is slidably arranged in second guide-track groove 122.Namely second to second subprime pole plate C21-C41 described in the last one can To move freely along the second guide-track groove 122, the second electrode plate 600 is separated from each other or is spliced into.

Wherein, the first conductive terminal and the second conductive terminal 610 are connected by fling-cut switch and the output end of distribution system, To which first grade pole plate C12 and second subprime pole plate C11 be accessed in a power distribution system, first way: can be by changing Become the quantity of secondary pole plate in first electrode plate 700 and second electrode plate 600 to adjust the capacitor of entire capacitor, for example passes through Synchronizing moving first grade pole plate C22 and second subprime pole plate C21, so that first secondary capacitor is (by first grade pole plate C12 and second subprime pole plate C11 composition) become independent individual when, at this point, incision distribution system capacitance size be first The capacitance size of secondary capacitor；Similar, if by synchronizing moving first grade pole plate C32 and second subprime pole plate C31, When so that first secondary capacitor and second secondary capacitor becoming independent individual, at this point, the capacitor of incision distribution system Size is the capacitance size after first secondary capacitor and second secondary capacitor combination；And so on, according to system The size of middle inductive reactive power, to change the compensating electric capacity size in incision distribution system, the power of final optimization pass network system because Element reduces reactive loss.

The second way: can vertically move entire second pair of guide rail, come change a pair of guide rails and second pair of guide rail it Between distance, that is, the distance between change each two pole plates of secondary capacitor, to change the capacitance of capacitor, The distance between a pair of guide rails and second pair of guide rail are bigger, then the capacitance of each secondary capacitor is smaller, can be according in system The size of inductive reactive power, in conjunction with the secondary capacitor quantity in incision system, to change the compensating electric capacity in incision distribution system Size advanced optimizes the power factor (PF) of network system, reduces reactive loss.

First guide rail 110 in above-mentioned technical proposal, in order to realize the movement of each secondary capacitor, in the first side On the first rail groove 111 extend transversely through the lateral wall of first guide rail 110, and described the first of position is led Through the first rail groove 111 and certain distance is outwardly protruded to block 130, is opened on the protruding end of first guide pad 130 If a first positioning hole 131；Second guide-track groove 122 on second guide rail 120 of first side extends transversely through described The lateral wall of two guide rails 120, and second guide pad 140 of position is simultaneously outside through second guide-track groove 122 Certain distance is protruded, opens up a second location hole 141 on the protruding end of second guide pad 140, first positioning hole 131 and the The position of two location holes 141 is corresponding up and down.

One screw rod 310 is installed on 110 lateral wall of the first guide rail of first side, the direction of the screw rod 310 with it is described The length direction of guide rail is consistent, and the screw rod 310 is located at the outside of first rail groove 111 described in position, the screw rod 310 length is not less than the length of the first rail groove 111；One is installed on 120 lateral wall of the second guide rail of first side Second guide rod 320, second guide rod 320 is arranged in parallel with screw rod 310 and the plane that coexists, second guide rod 320 are located at the outside of the second guide-track groove 122 described in position, and the length of second guide rod 320 is not less than described the The length of two guide-track grooves 122.

It is arranged one first sliding block 410 on the screw rod 310, one second sliding block is arranged on second guide rod 320 420, a screw hole 412 is opened up specifically, extending transversely through on the left and right directions of the first sliding block 410, the rotation of screw rod 310 is applied in screw hole In 412, and with the rotation of screw hole 412, the first sliding block 410 is driven to move along screw hole 412.The left and right of second sliding block 420 It is extended transversely through on direction and opens up a pilot hole 421, the second guide rod 320 is applied in pilot hole 421, and the second guide rod 320 is The mobile offer guiding role of second sliding block 420.

The end of the screw rod 310 connects a rotary drive mechanism, when rotary drive mechanism driving screw rod 310 rotates, First sliding block 410 is mobile on the screw rod 310；The side wall of first sliding block 410, which protrudes above, is provided with third guiding Block offers third guide-track groove 170 on 110 lateral wall of the first guide rail of the first side, and third guide-track groove 170 is arranged in parallel in The lower end of position first rail groove 111, the third guide pad are slidably arranged in the third guide-track groove 170, make It obtains in the sliding process of the first sliding block 410, the lengthwise position of the lengthwise position of the first sliding block 410 and the first guide rail 110 is kept Unanimously.

Similarly, the side wall of second sliding block 420, which protrudes above, is provided with the 4th guide pad, second guide rail of the first side The 4th guide-track groove 230 is offered on 120 lateral walls, the 4th guide-track groove 230 is arranged in parallel in the second guide-track groove of position 122 Upper end, the 4th guide pad is slidably arranged in the 4th guide-track groove 230, so that in the sliding of the second sliding block 420 Cheng Zhong, the lengthwise position of the second sliding block 4200 and the lengthwise position of the second guide rail 120 are consistent, with the second guide rail 120 It vertically moves and moves.

First sliding block 410 and the second about 420 sliding block are correspondingly arranged, specifically, longitudinal on first sliding block 410 It is fixedly installed third guide rod 411, the direction of the third guide rod 411 is vertical with the direction of second guide rod 320, It is extended transversely through in the up and down direction of second sliding block 420 and opens up one second pilot hole 423,411 activity of third guide rod It is arranged in second pilot hole 423, when the first telescoping drive mechanism 200 drives entire second pair of guide rail to move up and down, When namely adjusting the distance between two pole plates of capacitor, so that the second sliding block 420 is stretched along about 411 third guide rod Contracting；Simultaneously when rotary drive mechanism drives the first 410 transverse shifting of sliding block, 420 synchronizing moving of the second sliding block can be driven.It is logical The first telescoping drive mechanism 200 is crossed to adjust the spacing of the first sliding block 410 and the second sliding block 420, by rotary drive mechanism come The sliding position of synchronous adjustment the first sliding block 410 and the second sliding block 420.

In above-mentioned technical proposal, on first sliding block 410 front and back through offering through hole 413, through hole 413 with pass through Perforation screw hole 412 is arranged in a staggered manner, and front and back, which is run through, on the second sliding block 420 offers through hole 422, through hole 422 and through hole 421, the second pilot hole 423 is arranged in a staggered manner.

One second telescoping drive mechanism, 510 He is installed respectively on the lateral wall of first sliding block 410 and the second sliding block 420 520, second telescoping mechanism is uniaxial cylinder, two the second synchronization telescopes of telescoping drive mechanism 510 and 520.Described second The telescopic direction of telescoping mechanism is vertical with the guide rail lateral wall plane；The telescopic end distance of two second telescoping mechanisms with It is consistent with the distance between 141 with two location holes 131 on a pair of secondary pole plate, second telescoping mechanism Telescopic end is through place sliding block and selectively stretches in the location hole 131 and 141 of position.

Specifically, passing through rotation when needing in first secondary capacitor (C12 and C11 are constituted) independent incision power distribution network Turn driving mechanism and drive the first sliding block 410 and 420 synchronizing moving of the second sliding block, until the second telescoping drive mechanism 510 and 520 Telescopic end is directed at two location holes 131 and 141 on second secondary capacitor (C22 and C21 are constituted), then controls two A synchronization telescope of second telescoping drive mechanism 510 and 520 stretches in two location holes 131 and 141, and is driven by rotation Motivation structure further drives 420 synchronizing moving of the first sliding block 410 and the second sliding block, so that first secondary capacitor and second Secondary capacitor separation.And so on, if necessary to which first secondary capacitor and second secondary capacitor are spliced After access power grid, then will be moved on the right side of third secondary capacitor net by the second telescoping drive mechanism 510 and 520；Such as Fruit needs to access power grid after splicing first secondary capacitor, second secondary capacitor and third secondary capacitor, then It will be mobile on the right side of the 4th secondary capacitor net by the second telescoping drive mechanism 510 and 520.

In above-mentioned technical proposal, while in order to improve the conductive continuity after splicing between each secondary pole plate, described Secondary pole plate length direction both ends protrusion one conductive contact plate of setting, the area of the conductive contact plate is not less than the secondary pole The longitudinal cross-section of plate is long-pending, passes through the conductive contact plate conductive contact, the conductive silicon between the two neighboring secondary pole plate Rouge is coated in the outer surface of the conductive contact plate.

From the above mentioned, the utility model is realized by the adjustment to capacitor physical parameter to incision reactive compensation capacitor Capacitance adjustment, reduce impact to power grid when cutting to capacitor, meanwhile, it is cleverer to the size control mode of incision capacitor Work is changeable, regulates and controls convenient for the capacitance size to incision capacitor, improves the accuracy of reactive compensation.Specifically, passing through first Telescoping drive mechanism adjusts the spacing between each secondary capacitor, so that the capacitance for changing compensating electric capacity in incision power grid is big It is small；Rotary drive mechanism can be cooperated to adjust the number of secondary capacitor in incision power grid by the second telescoping drive mechanism simultaneously Amount, that is, change the area of bottom crown on capacitor to change the capacitance size of incision grid compensating capacitor, not only facilitate benefit The switching of capacitor is repaid, and cuts capacitance size and is easier to accurately adjust.

It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, It can readily realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality It is not limited to specific details and legend shown and described herein with novel.

Claims (10)

1. a kind of distribution system for optimizing cell power consumption efficiency characterized by comprising

A pair of guide rails comprising the first guide rail of two parallel intervals setting, first guide rail position are fixed；

Second pair of guide rail comprising the second guide rail of two parallel intervals setting, described a pair of guide rails and second pair of guide rail are flat Row interval setting, and the position of first guide rail and the second guide rail corresponds；Second pair of guide rail along close to or far from The direction of described a pair of guide rails is mobile；

First electrode plate is mounted between described a pair of guide rails, and the first electrode plate includes several first grade pole The position of plate, first first grade pole plate is fixed, and second to first grade pole plate sliding described in the last one in institute It states between a pair of guide rails；

Second electrode plate is mounted between second pair of guide rail, and the second electrode plate includes several second subprime poles The position of plate, each first grade pole plate and second subprime pole plate corresponds；First second subprime pole plate Position is fixed, and second to second subprime pole plate described in the last one is slided between second pair of guide rail, and corresponding position A pair first grade pole plate at place is with second subprime pole plate along the length direction synchronizing moving of the guide rail；

Wherein, the connecting pin of first first grade pole plate and first second subprime pole plate by fling-cut switch with The output end of distribution system connects.

2. the distribution system of optimization cell power consumption efficiency as described in claim 1, which is characterized in that second pair of guide rail A mounting base is fixed in two sides end, runs through in the mounting base and offers the first pilot hole, stretches and set in first pilot hole It is equipped with the first guide rod, first guide rod position is fixed, and the length direction of first guide rod and the guide rail Length direction is vertical, and second pair of guide rail is moved along the direction of first guide rod.

3. the distribution system of optimization cell power consumption efficiency as claimed in claim 2, which is characterized in that the mounting base bottom peace One first telescoping drive mechanism is filled, the telescopic end of first telescoping drive mechanism is connect with the mounting base, and described first stretches The telescopic direction of contracting driving mechanism is consistent with the direction of first guide rod, and first telescoping drive mechanism of two sides is synchronous Flexible, first telescoping drive mechanism is twin shaft cylinder.

4. the distribution system of optimization cell power consumption efficiency as claimed in claim 3, which is characterized in that each first grade Pole plate is arranged successively and is spliced into the first electrode plate, and the Mosaic face between each first grade pole plate passes through conduction Silicone grease is seamless conductive contact；Each second subprime pole plate is arranged successively and is spliced into the second electrode plate, and each institute It states the Mosaic face between second subprime pole plate and passes through the seamless conductive contact of conductive silicone grease.

5. the distribution system of optimization cell power consumption efficiency as claimed in claim 4, which is characterized in that the first electrode plate quilt It is folded between described a pair of guide rails, offers first rail groove on the relative inner wall of described a pair of guide rails, first First grade plate width direction two sides are fixed between a pair of guide rails inner sidewall of two sides, and described in first First grade pole plate outer surface center setting one is used for the first conductive terminal of wiring；Second to first time described in the last one Grade plate width direction two sides are protruding with the first guide pad respectively, and first guide pad is slidably arranged in the first rail groove In.

6. the distribution system of optimization cell power consumption efficiency as claimed in claim 5, which is characterized in that the second electrode plate quilt It is folded between second pair of guide rail, offers the second guide-track groove, Ge Gesuo on the relative inner wall of second pair of guide rail The direction for stating guide-track groove is consistent with the length direction of place guide rail, and first second subprime plate width direction two sides are fixed Between second pair of guide rail inner sidewall of two sides, and first second subprime pole plate outer surface center setting one is used for Second conductive terminal of wiring；Second is protruding with second to second subprime plate width direction two sides described in the last one respectively Guide pad, second guide pad are slidably arranged in second guide-track groove.

7. the distribution system of optimization cell power consumption efficiency as claimed in claim 6, which is characterized in that described the first of the first side The lateral wall of first guide rail where the first rail groove on guide rail extends transversely through, and first guiding of position Block is through the first rail groove and outwardly protrudes certain distance, and one first positioning is opened up on the protruding end of first guide pad Hole；The lateral wall of second guide rail where second guide-track groove on second guide rail of first side extends transversely through, and place Second guide pad at position is through second guide-track groove and outwardly protrudes certain distance, second guide pad it is convex A second location hole is opened up in outlet.

8. the distribution system of optimization cell power consumption efficiency as claimed in claim 7, which is characterized in that described the first of the first side One screw rod is installed, the direction of the screw rod is consistent with the length direction of the guide rail, and the screw rod is located at institute on guide rail lateral wall The outside of the first rail groove at position, the length of the screw rod are not less than the length of the first rail groove；First side The second guide rail lateral wall on one second guide rod is installed, second guide rod is arranged in parallel with screw rod and coexists one flat Face, second guide rod are located at the outside of the second guide-track groove described in position, and the length of second guide rod is not small In the length of second guide-track groove.

9. the distribution system of optimization cell power consumption efficiency as claimed in claim 8, which is characterized in that be arranged one on the screw rod First sliding block, the side wall of first sliding block, which protrudes above, is provided with third guide pad, the first guide rail lateral wall of the first side On offer third guide-track groove, the third guide pad is slidably arranged in the third guide-track groove, and the end of the screw rod connects A rotary drive mechanism is connect, first sliding block is mobile on the screw rod；

One second sliding block is arranged on second guide rod, the side wall of second sliding block, which protrudes above, is provided with the 4th guide pad, The 4th guide-track groove is offered on the second guide rail lateral wall of first side, the 4th guide pad is slidably arranged in the described 4th In guide-track groove, first sliding block and the second sliding block are correspondingly arranged, and are fixedly installed third guide rod on first sliding block, The direction of the third guide rod is vertical with the direction of second guide rod, leads on second sliding block through offering second Xiang Kong, the third guide rod are movably arranged in second pilot hole；First sliding block and the second sliding block are along described Guide rail direction synchronizing moving.

10. as claimed in claim 9 optimization cell power consumption efficiency distribution system, which is characterized in that first sliding block and One second telescoping drive mechanism is installed respectively on the lateral wall of the second sliding block, the telescopic direction of second telescoping mechanism with it is described Guide rail lateral wall plane is vertical；The telescopic end distance of two second telescoping mechanisms and two on same a pair secondary pole plate The distance between a described location hole is consistent, and the telescopic end of second telescoping mechanism is stretched to through place sliding block and selectively In the location hole of position；Second telescoping mechanism is uniaxial cylinder.