CN102361093B - Vanadium redox battery stacking method and vanadium redox battery stacking device - Google Patents

Abstract

The invention relates to a vanadium redox battery stacking method and a vanadium redox battery stacking device. The vanadium redox battery stacking method comprises the steps: firstly, stacking vanadium redox flow battery galvanic pile units layer by layer on a lower plate with a positioning component for positioning during stacking, and placing an upper cover plate on the top redox flow battery galvanic pile unit, secondly, connecting all the vanadium redox flow battery galvanic pile units through elastic components, thirdly, pressing the vanadium redox flow battery galvanic pile units through a pressing component, and fourthly, locking vanadium redox flow battery galvanic piles through a fastening component after the vanadium redox flow battery galvanic piles are pressed to a preset position. The vanadium redox battery stacking device comprises a liftable workbench, a lower mould plate and the pressing component. The vanadium redox battery stacking device which is introduced for stacking vanadium redox batteries is higher in stacking efficiency, accurate in positioning during stacking and high in precision so that the overall effectiveness of the vanadium redox battery galvanic piles is improved.

Description

Vanadium cell dress heaping method and vanadium battery stacking device

[technical field]

The present invention relates to a kind of battery dress heaping method and device, be specifically related to a kind of method and device that vanadium flow battery is filled to heap.

[background technology]

The patent that relates to vanadium flow battery application in prior art is less, and market application does not have scale yet, and the dress heap for vanadium cell in prior art all adopts workman manually to complete.There is following defect in this dress heap mode:

One, dress heap inefficiency;

Two, dress has piled that rear manually each described vanadium flow battery pile unit to be pressed down to dynamics inhomogeneous, affects the overall result of use of vanadium cell pile;

Three, can not well realize the accurate location of each vanadium flow battery pile unit to the assembling process of vanadium flow battery pile unit, also can affect the overall result of use of vanadium cell pile.

[summary of the invention]

The invention provides a kind of dress of vanadium cell efficiently heaping method in order to solve the technical problem existing in prior art.

The present invention also provides a kind of vanadium battery stacking device that adopts above-mentioned dress heaping method.

The present invention solves scheme that prior art problem adopts for providing vanadium cell dress heaping method described in a kind of vanadium cell dress heaping method to comprise step: A: in lower plate, vanadium flow battery pile unit is successively superposeed, additive process positions by align member, and at vanadium flow battery pile unit, the top upper cover upper cover plate; B: each described vanadium flow battery pile unit is connected by elastic component; C: each described vanadium flow battery pile unit is pressed down by pressing down member; D: by clamp structure, vanadium flow battery pile is locked after being depressed into precalculated position.

According to an optimal technical scheme of the present invention: align member described in described steps A is straight-bar, and each described vanadium flow battery pile is provided with location hole on unit, and described location hole can insert on described straight-bar.

According to an optimal technical scheme of the present invention: elastic component described in described step B is the screw mandrel that bottom is provided with spring, and described screw mandrel is inserted in four peripheries of each described vanadium flow battery pile unit.

According to an optimal technical scheme of the present invention: the clamp structure in described step D is locking nut.

The present invention also provides a kind of vanadium battery stacking device of realizing vanadium cell dress heaping method described above, described vanadium battery stacking device comprises: Liftable type workbench, lower bolster and press down member, wherein said Liftable type workbench is arranged on described device body, described lower bolster is arranged on described Liftable type workbench, described in press down member and be arranged on described device body for pressing down the vanadium flow battery pile unit after stack moulding.

According to an optimal technical scheme of the present invention: described Liftable type workbench comprises table top and oil cylinder, and described oil cylinder is arranged on bottom under described table top, for driving described worktable lifting.

According to an optimal technical scheme of the present invention: described lower bolster is fixed on by connecting elements on the table top of described workbench, the lower plate of the upper working face of described lower bolster for laying vanadium cell pile.

According to an optimal technical scheme of the present invention: be provided with gap between the upper working face of described lower bolster and described lower plate.

According to an optimal technical scheme of the present invention: described lower bolster is detachable connection with the table top of described workbench, and described connecting elements is screw.

According to an optimal technical scheme of the present invention: on described lower bolster, align member is installed.

According to an optimal technical scheme of the present invention: described align member is straight-bar, and it is detachable connection with described lower bolster.

According to an optimal technical scheme of the present invention: described in press down member and comprise support, crossbeam and push-down head, described support runs through described table top and is arranged on described device body, described push-down head is arranged on described crossbeam, described crossbeam is arranged on described support and can moves up and down with described support, and moving up and down of the relatively described support of described crossbeam drives described push-down head to move up and down.

The present invention fills heap by introducing vanadium battery stacking device to vanadium cell and has improved the operating efficiency that dress pushes away, and accurate positioning in dress heap process, and precision is high, has improved the overall efficiency of vanadium cell pile.

[brief description of the drawings]

Fig. 1. the vanadium battery stacking device structural representation while not putting into vanadium cell pile.

Fig. 2. put into the vanadium battery stacking device structural representation after vanadium cell pile.

[embodiment]

Below in conjunction with accompanying drawing, technical solution of the present invention is elaborated:

In order to solve the technical problem existing in prior art, first the present invention provides a kind of vanadium cell dress heaping method, described vanadium cell dress heaping method comprises step: A: in lower plate, vanadium flow battery pile unit is successively superposeed, additive process positions by align member, and at vanadium flow battery pile unit, the top upper cover upper cover plate; B: each described vanadium flow battery pile unit is connected by elastic component; C: each described vanadium flow battery pile unit is pressed down by pressing down member; D: by clamp structure, vanadium flow battery pile is locked after being depressed into precalculated position.

In technical scheme of the present invention: align member described in described steps A is straight-bar, each described vanadium flow battery pile is provided with location hole on unit, and described location hole can insert on described straight-bar.Elastic component described in described step B is the screw mandrel that bottom is provided with spring, and described screw mandrel is inserted in four peripheries of each described vanadium flow battery pile unit.Clamp structure in described step D is locking nut.

Refer to Figure of description Fig. 1 and Fig. 2, the present invention also provides a kind of vanadium battery stacking device of realizing vanadium cell dress heaping method described above, described vanadium battery stacking device comprises: Liftable type workbench 101, lower bolster 102 and press down member 103, wherein said Liftable type workbench 101 is arranged on described device body 104, described lower bolster 102 is arranged on described Liftable type workbench 101, described in press down member 103 and be arranged on described device body 104 for pressing down the vanadium flow battery pile unit 109 after stack moulding.

Comprise table top 105 and oil cylinder 106 at Liftable type workbench 101 described in technical scheme of the present invention, described oil cylinder 106 is arranged on 105 times bottoms of described table top, for driving described workbench 101 liftings.

Described lower bolster 102 is fixed on by connecting elements 110 on the table top 105 of described workbench 101, the lower plate 107 of the upper working face of described lower bolster 102 for laying vanadium cell pile, is provided with gap 111 between the upper working face of described lower bolster 102 and described lower plate 107.Described lower bolster 102 is detachable connection with the table top 105 of described workbench 101, can change according to the size of pile to be assembled the lower bolster 102 of corresponding specification, described lower bolster 102 is realized and being connected by connecting elements 110 screws with the table top 105 of described workbench 101.

On lower bolster 102 described in technical scheme of the present invention, be provided with align member 112, described align member 112 is straight-bar, and it is detachable connection with described lower bolster 102, locates straight-bar described in this can need on lower bolster 102, dismantle according to using.

The described member 103 that presses down comprises support 113, crossbeam 114 and push-down head 115, described support 113 runs through described table top 105 and is arranged on described device body 104, described push-down head 115 is arranged on described crossbeam 114, described crossbeam 114 is arranged on described support 113 and can moves up and down with described support 113, and moving up and down of the relatively described support 113 of described crossbeam 114 drives described push-down head 115 to move up and down.

On vanadium battery stacking device body 104, be provided with operating desk, operating personnel may stand in the dress heap operation that carries out vanadium cell on this operating desk.

The concrete implementation procedure of vanadium cell dress heaping method of the present invention is:

One, according to the lower bolster 102 of the selected dimension of the size of vanadium cell pile, and lower bolster 102 is contained in on the table top 105 of workbench 101, (lower bolster 102 can be chosen different size according to the size of pile to be installed, refill on the table top 105 of workbench 101), operating personnel stand in and on vanadium battery stacking device body 104, drive as required oil cylinder 106 and drive workbench 101 to move up and down precalculated position along support 113, on described lower bolster 102, be provided with the location straight-bar to each vanadium flow battery pile unit 109 positions in dress heap process, now, operating personnel are placed on lower plate 107 on described lower bolster 102 through location straight-bar, one by one each described vanadium flow battery pile unit 109 is layering through straight-bar, in the process of stack, operating personnel are for ease of dress heap, can drive oil cylinder 106 according to the height of the pile unit 109 having superposeed, control the lifting of workbench 101 table tops 105, after each described vanadium flow battery pile unit 109 is superposeed at vanadium flow battery pile unit, the top 109 upper cover upper cover plates 108,

Two, after inserting four peripheries of cover plate 108, lower plate 107 and each described vanadium flow battery pile unit 109, the screw mandrel that bottom is provided with to spring can take out positioning straight bar;

Three, operating personnel drive and by pressing down member 103, each described vanadium flow battery pile unit 109 are pressed down, the implementation procedure pressing down is to drive the crossbeam 114 that makes to press down in member 103 to move down on described support 113 and with described support 113 by hydraulic system, moving down of the relatively described support 113 of described crossbeam 114 drives described push-down head 115 to move down, press down each described vanadium flow battery pile unit 109, cover plate 108, lower plate 107 and each described vanadium flow battery pile unit 109 move down under the effect of downforce, bottom is provided with spring in the screw mandrel of spring and produces distortion because of downforce,

Four, when set press down process implementation and make each after vanadium flow battery pile unit 109 be depressed into behind precalculated position, operating personnel are contained in bottom by locking nut and are provided with on the screw mandrel of spring vanadium flow battery pile is locked;

Five, the integral type vanadium cell pile that now cover plate 108, lower plate 107 and each described vanadium flow battery pile unit 109 are assembling moulding, because leaving gap 111 between described vanadium cell pile lower plate 107 and the lower bolster 102 of described vanadium battery stacking device, the plug of fork truck can be inserted to this gap 111, take off the integral type vanadium cell pile that assembles moulding.

The present invention fills heap by introducing vanadium battery stacking device to vanadium cell and has improved the operating efficiency that dress pushes away, and accurate positioning in dress heap process, and precision is high, has improved the overall efficiency of vanadium cell pile.Above content is in conjunction with concrete optimal technical scheme further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (3)

1. a vanadium battery stacking device, it is characterized in that: described vanadium battery stacking device comprises: Liftable type workbench (101), lower bolster (102) and press down member (103), wherein said Liftable type workbench (101) is arranged on described device body (104), described lower bolster (102) is arranged on described Liftable type workbench (101), align member (112) is installed on described lower bolster (102), the described member (103) that presses down is arranged on described device body (104) above for pressing down the vanadium flow battery pile unit after stack moulding, described Liftable type workbench (101) comprises table top (105) and oil cylinder (106), described oil cylinder (106) is arranged on bottom under described table top (105), be used for driving the lifting of described Liftable type workbench (101), described lower bolster (102) is fixed on by connecting elements (110) on the table top (105) of described Liftable type workbench (101), the lower plate (107) of the upper working face of described lower bolster (102) for laying vanadium cell pile, between the upper working face of described lower bolster (102) and described lower plate (107), be provided with gap (111).

2. vanadium battery stacking device according to claim 1, is characterized in that: described align member (112) is straight-bar, and it is detachable connection with described lower bolster (102).

3. vanadium battery stacking device according to claim 2, it is characterized in that: described in press down member (103) and comprise support (113), crossbeam (114) and push-down head (115), described support (113) runs through described table top (105) and is arranged on described device body (104), described push-down head (115) is arranged on described crossbeam (114), described crossbeam (114) is arranged on described support (113) above and can moves up and down with described support (113), moving up and down of the relatively described support of described crossbeam (114) (113) drives described push-down head (115) to move up and down.

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