CN107464967A - A kind of metal-air battery - Google Patents

Abstract

The invention discloses a kind of metal-air battery, belongs to metal-air battery field.It includes battery pile and electrolyte circulation dispenser, the electrolyte circulation dispenser includes electrolyte tank and pump housing assembly, the battery pile includes the battery cell of some series connection, the battery cell includes electrode suppor and battery lead plate, the lower end of the battery pile is additionally provided with backflow apparatus for temporary storage, be provided with the electrode suppor vertically to electrolyte circulation canal, the circulation canal includes cavity volume, water-exit vertically mouth and water inlet；The pump housing assembly is connected with the water inlet and backflow apparatus for temporary storage respectively, and the water-exit vertically mouth is connected with the backflow apparatus for temporary storage, and the upper end of the water-exit vertically mouth self-electrode support is through to the bottom of electrode suppor.The present invention by set in battery cell vertically to electrolyte circulation canal, multiple loops in parallel are formed in battery pile, avoid between each other produce block influence.

Description

A kind of metal-air battery

Technical field

The present invention relates to metal-air battery technical field, more particularly to a kind of metal-air battery.

Background technology

Aluminium-air cell is a kind of novel high-energy electrochmical power source, it using aluminium alloy as negative pole, air electrode be positive pole, in Property or alkaline aqueous solution are electrolyte, are externally exported in cell operation by consuming the oxygen in aluminium alloy negative pole and air Electric energy.Aluminium-air cell is not required to charge, and electricity can be maintained by supplementing the aluminium alloy negative material of consumption in cell operation Pond continuous service, therefore also referred to as metal fuel battery.Neutral aluminium-air cell using saline solution or seawater as electrolyte, alkaline aluminium- Air cell is using sodium hydroxide or potassium hydroxide aqueous solution as electrolyte.

Aluminium-air cell application technology achieves very big development at present, but still fails to realize large-scale application.Mainly Reason is that some correlation techniques are not yet very ripe, the solution of some problems demands is still suffered from, especially directly in electric automobile On application.

The content of the invention

For the above-mentioned problems in the prior art, the present invention provides a kind of metal-air battery, and it passes through in battery Set in monomer vertically to electrolyte circulation canal, multiple loops in parallel are formed in battery pile, avoid producing between each other The raw influence blocked.

In order to solve the above technical problems, one aspect of the present invention is：

A kind of metal-air battery, including battery pile and be connected with battery pile electrolyte circulation dispenser, it is described Electrolyte circulation dispenser includes electrolyte tank and pump housing assembly, and the battery pile includes the battery cell of some series connection, institute Stating battery cell includes electrode suppor and the battery lead plate in the electrode suppor, and the lower end of the battery pile is additionally provided with backflow Apparatus for temporary storage, be provided with the electrode suppor vertically to electrolyte circulation canal, the circulation canal includes being used to install institute State the cavity volume, the water-exit vertically mouth located at the cavity volume both sides and some water inlets located at the cavity volume lower end of battery lead plate；

The pump housing assembly respectively with the water inlet and backflow apparatus for temporary storage be connected, the water-exit vertically mouth with it is described Backflow apparatus for temporary storage is connected, and the water-exit vertically mouth is through to the bottom of electrode suppor from the upper end of the electrode suppor；

Electrolyte in the electrolyte tank is inputted to water inlet through pump housing assembly, when electrolyte is full of the cavity volume by Water-exit vertically mouth is spilled over to the backflow apparatus for temporary storage of bottom, and the electrolyte to flow back in apparatus for temporary storage continues back at electrolyte box-shaped Dispensed into circulation.

Further, the backflow apparatus for temporary storage is body structure, and its upper end is provided with and is engaged with the water-exit vertically mouth Through hole.

Further, the electrode suppor includes symmetrically arranged first support plate and second support plate, described first The lower end of frame plate is provided with the water inlet, and the both sides of first support plate are provided with the water-exit vertically mouth, the water inlet and vertical Delivery port is connected with cavity volume, formed vertically to electrolyte circulation canal.

Further, the middle part of the first support plate is provided with demarcation strip, and the demarcation strip separates cavity volume or so；It is described First support plate include the first water inlet, the first water-exit vertically mouth being connected with first water inlet, the second water inlet and The second water-exit vertically mouth being connected with second water inlet.

Further, the pump housing assembly include the first water pump for being connected with the water inlet and with the apparatus for temporary storage that flows back The second water pump being connected.

Further, filter and cooling device are also associated between the pump housing assembly and backflow apparatus for temporary storage.

Further, in a housing, the housing, which is provided with, to be used to wear for the battery pile and backflow apparatus for temporary storage The through hole of pipeline.

Further, the bottom of the water-exit vertically mouth is provided with the interface tube protruded from outside electrode suppor, the interface tube It is engaged with through hole.

Further, the top of the electrode suppor is additionally provided with sealing strip.

Further, battery lead plate includes air cathode plate and metallic anode plate, and the metallic anode plate is aluminium, magnesium or zinc system Make.

Further, the electrode suppor includes symmetrically arranged first support plate and second support plate, described first The bottom of frame plate is provided with water inlet, and the both sides of first support plate are provided with the water-exit vertically mouth, and the water inlet is temporary with backflow Device is connected, and water inlet and the water-exit vertically mouth is connected with cavity volume, formed vertically to electrolyte circulation canal.

Further, the middle part of the first support plate is provided with demarcation strip, and the demarcation strip separates cavity volume or so；It is described First support plate include the first water inlet, the first water-exit vertically mouth being connected with first water inlet, the second water inlet and The second water-exit vertically mouth being connected with second water inlet.

Further, the backflow apparatus for temporary storage includes the casing and cover plate to cooperate, and the both sides of the cover plate are provided with The through hole being engaged with the water-exit vertically mouth, the middle part of the cover plate are provided with the water inlet being connected with the water inlet and led to Road, the intake tunnel are isolated with the through hole；The intake tunnel includes some horizontal channels being mutually communicated and erected Straight channel, the one end open of the horizontal channel connect the pump housing assembly, the other end closing of the horizontal channel；It is described perpendicular Straight channel connects the water inlet.

Further, the side-walls of the casing are provided with osculum, and the osculum connects the pump housing assembly.

Compared with prior art, advantage of the invention is that：

By set in each battery cell vertically to electrolyte circulate it is logical so that formed in whole battery pile multiple Electrolyte return flow line in parallel, when one of monomer blocks, other battery cells still normal power generation works, and subtracts Mutual interference is lacked；By setting filter effectively to avoid reactive deposition thing from being circulated into electrolyte tank, ensure The purity of electrolyte；By setting cooling device to cool electrolyte, ensure the security of system.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for For those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other Accompanying drawing, wherein：

Fig. 1 is the overall structure diagram of metal-air battery of the present invention；

Fig. 2 is the structural representation of the battery pile of metal-air battery of the present invention；

Fig. 3 is the structural representation of the electrode suppor of metal-air battery of the present invention；

Fig. 4 is the structural representation of the battery cell of metal-air battery of the present invention；

Fig. 5 is the structural representation of the first support plate of metal-air battery of the present invention；

Fig. 6 is the structural representation of the backflow apparatus for temporary storage of metal-air battery of the present invention；

Fig. 7 is the structural representation of another embodiment of the battery pile of metal-air battery of the present invention；

Fig. 8 is another structural representation of the electrode suppor of metal-air battery of the present invention；

Fig. 9 is another structural representation of the first support plate of metal-air battery of the present invention；

Figure 10 is the top view of the cover plate of metal-air battery of the present invention；

Figure 11 is the side view of the cover plate of metal-air battery of the present invention；

The mark of each part is as follows in accompanying drawing：1st, housing, 2, battery pile, the 201, first water inlet, the 202, second water inlet, 203rd, first support plate, 204, second support plate, the 205, first water-exit vertically mouth, the 206, second water-exit vertically mouth, 207, separate Plate, 208, sealing strip, 209, aluminium anodes plate, 210, interface tube, 3, electrolyte tank, the 4, second water pump, the 5, first water pump, 7, backflow Apparatus for temporary storage, 701, through hole, 8, filter, 9, cooling device, 10, threeway.

Embodiment

The technical scheme in the embodiment of the present invention will be clearly and completely described below, it is clear that described implementation Example is only the part of the embodiment of the present invention, rather than whole embodiments.It is common based on the embodiment in the present invention, this area All other embodiment that technical staff is obtained under the premise of creative work is not made, belong to the model that the present invention protects Enclose.

Embodiment 1

Refer to Fig. 1 to Fig. 6, a kind of metal-air battery, including housing 1, the battery pile 2 in housing 1 and with electricity The electrolyte circulation dispenser that pond heap 2 is connected, electrolyte circulation dispenser include electrolyte tank 3 and pump housing assembly, electricity Pond heap 2 includes the battery cell of some series connection, and battery cell includes electrode suppor, the sealing strip 208 located at electrode suppor top With the battery lead plate in electrode suppor, the lower end of battery pile 2 is additionally provided with backflow apparatus for temporary storage 7, is provided with electrode suppor vertical To electrolyte circulation canal, circulation canal include be used for the cavity volume of battery lead plate, the water-exit vertically mouth located at cavity volume both sides are installed With some water inlets located at cavity volume lower end；Pump housing assembly is connected with water inlet and backflow apparatus for temporary storage 7 respectively, water-exit vertically Mouth is connected with backflow apparatus for temporary storage 7, and the upper end of water-exit vertically mouth self-electrode support is through to the bottom of electrode suppor；Electrolyte Electrolyte in case is inputted to water inlet through pump housing assembly, and bottom is spilled over to by water-exit vertically mouth when electrolyte is full of cavity volume Flow back apparatus for temporary storage, and the electrolyte in apparatus for temporary storage that flows back continues back at electrolyte tank and forms circulation dispatching.

Backflow apparatus for temporary storage 7 is body structure, and its upper end is provided with multigroup through hole 701 being engaged with water-exit vertically mouth. Electrode suppor includes symmetrically arranged first support plate 203 and second support plate 204, first support plate 203 and second support plate 204 structure is identical, and the side-walls of the lower end of first support plate 203 are provided with water inlet, and the both sides of first support plate 203 are provided with vertically Delivery port, water inlet and water-exit vertically mouth are connected with cavity volume, formed vertically to electrolyte circulation canal.First support plate 203 middle part is provided with demarcation strip 207, and demarcation strip 207 separates cavity volume or so；First support plate 203 includes the first water inlet 201st, the first water-exit vertically mouth 205 for being connected with the first water inlet 201, the second water inlet 202 and with the phase of the second water inlet 202 The bottom of second water-exit vertically mouth 206 of connection, the first water-exit vertically mouth 205 and the second water-exit vertically mouth 206 is provided with and protruded from Interface tube 210 outside electrode suppor, interface tube 210 are engaged with through hole 701, sealed between the two by sealing ring. The first water pump 5 that pump housing assembly includes being connected with the first water inlet 201 and the second water inlet 202, it is connected with water-exit vertically mouth The second logical water pump 4, the first water inlet 201 and the second water inlet 202 are connected to threeway 10, the 3rd end connection of threeway 10 simultaneously First water pump 5.Filter 8 and cooling device 9 are also associated between pump housing assembly and backflow apparatus for temporary storage 7, filter 8 can For filter core, cooling device 9 can be fin radiator coil tube, specifically, the series connection of filter 8, the water pump 4 of cooling device 9 and second connects Logical, filter 8 is directly connected by pipeline with backflow apparatus for temporary storage 7, and the second water pump 4 is directly connected with electrolyte tank 3； Filter 8 is used to filter the reactive deposition thing in battery, ensures reaction rate；Cooling device 9 is used to cool to electrolyte, protects Card safety.In a housing, housing is provided with the through hole for being used for wearing pipeline for battery pile 2 and backflow apparatus for temporary storage 7.Battery lead plate Including air cathode plate and aluminium anodes plate 209, in the present embodiment, two blocks of aluminium anodes plates 209 are placed with same electrode suppor, and Separate chemically react.Certainly, positive plate also can use magnesium or zinc to make, and can be modified according to generating needs.

In use, first injecting electrolyte in electrolyte tank 3, rear to start pump housing assembly, the first water pump 5 pumps electrolyte It is divided to two the first water inlets 201 of route and the second water inlet 202 to enter in electrode suppor after to threeway 10, electrolyte is full of left and right two During individual cavity volume, unnecessary electrolyte is overflowed respectively by the first water-exit vertically mouth 205 and the second water-exit vertically mouth 206, under drop down onto back Flow in apparatus for temporary storage 7, the electrolyte to flow back in apparatus for temporary storage 7 is drawn back into electrolyte tank 3 formation circulation and matched somebody with somebody by rear second water pump 4 Send, the deposit after simultaneous reactions must not be entered in electrolyte tank 3 by the detention of filter 8, and the reaction heat of electrolyte is by cold But device 9 scatters away.

Embodiment 2

With embodiment 1, except that, Fig. 7 to Figure 11 is referred to, the bottom of first support plate 203 is provided with water inlet, should Water inlet is vertically provided with water-exit vertically mouth to setting, the both sides of first support plate 203, and water inlet is connected with backflow apparatus for temporary storage 7 Logical, water inlet and water-exit vertically mouth are connected with cavity volume, formed vertically to electrolyte circulation canal.First support plate 203 Middle part be provided with demarcation strip 207, demarcation strip 207 separates cavity volume or so；First support plate 203 include the first water inlet 201, with The first water-exit vertically mouth 205 that first water inlet 201 is connected, the second water inlet 202 and it is connected with the second water inlet 202 Second water-exit vertically mouth 206.

The apparatus for temporary storage 7 that flows back includes the casing and cover plate 704 to cooperate, and the both sides of cover plate 704 are provided with and water-exit vertically The through hole 701 that mouth is engaged, the middle part of cover plate 704 are provided with the intake tunnel being connected with water inlet, and intake tunnel is with running through Hole 701 is isolated；Intake tunnel includes some horizontal channels 703 being mutually communicated and Vertical Channel 702, horizontal channel 703 One end open connects pump housing assembly, the other end closing of horizontal channel 703；Vertical Channel 702 connects water inlet；Specifically, water Width of the flat passage 703 along cover plate 704 is provided with two, and both connect threeway 10 by pipeline respectively；Vertical Channel 702 Quantity and position arrangement match with the first water inlet 201 and the second water inlet 202.The side-walls of casing are provided with osculum 705, Osculum 705 connects filter 8, the water pump 4 of cooling device 9 and second.In the present embodiment, electrolyte is circulated in cover plate 704 Formed, electrolyte is vertically into cavity volume, in rear vertical drop to casing.

In use, first injecting electrolyte in electrolyte tank 3, rear to start pump housing assembly, the first water pump 5 pumps electrolyte Enter after to threeway 10 by horizontal channel 703 and Vertical Channel 702 in electrode suppor, electrolyte is full of two cavity volumes in left and right When, unnecessary electrolyte is overflowed by the first water-exit vertically mouth 205 and the second water-exit vertically mouth 206 respectively, under to drop down onto backflow temporary In device 7, rear second water pump 4, which draws back the electrolyte to flow back in apparatus for temporary storage 7 into electrolyte tank 3, forms circulation dispatching, together When reacted deposit must not be entered in electrolyte tank 3 by the detention of filter 8, and the reaction heat of electrolyte is by cooling device 9 scatter away.

Embodiments of the invention are these are only, are not intended to limit the scope of the invention, it is every to be said using the present invention The equivalent structure or equivalent flow conversion that bright book content is made, or other related technical fields are directly or indirectly used in, Similarly it is included within the scope of the present invention.

Claims (14)

1. a kind of metal-air battery, including battery pile and the electrolyte circulation dispenser that is connected with battery pile, the electricity Solution liquid circulation dispenser includes electrolyte tank and pump housing assembly, and the battery pile includes the battery cell of some series connection, described Battery cell includes electrode suppor and the battery lead plate in the electrode suppor, it is characterised in that：

The lower end of the battery pile is additionally provided with backflow apparatus for temporary storage, be provided with the electrode suppor vertically to electrolyte circulate it is logical Road, if the circulation canal include being used for installing the cavity volume of the battery lead plate, the water-exit vertically mouth located at the cavity volume both sides and The dry water inlet located at the cavity volume lower end；

The pump housing assembly is connected with the water inlet and backflow apparatus for temporary storage respectively, the water-exit vertically mouth and the backflow Apparatus for temporary storage is connected, and the water-exit vertically mouth is through to the bottom of electrode suppor from the upper end of the electrode suppor；

Electrolyte in the electrolyte tank is inputted to water inlet through pump housing assembly, when electrolyte is full of the cavity volume by vertical Delivery port is spilled over to the backflow apparatus for temporary storage of bottom, and the electrolyte in apparatus for temporary storage that flows back continues back at electrolyte tank formation and followed Ring dispenses.

2. a kind of metal-air battery according to claim 1, it is characterised in that the backflow apparatus for temporary storage is casing knot Structure, its upper end are provided with the through hole being engaged with the water-exit vertically mouth.

3. a kind of metal-air battery according to claim 1, it is characterised in that the electrode suppor includes being symmetrical arranged First support plate and second support plate, the side-walls of the first support plate lower end are provided with the water inlet, first support plate Both sides be provided with the water-exit vertically mouth, water inlet and the water-exit vertically mouth is connected with cavity volume, formed vertically to electricity Solve liquid circulation canal.

4. a kind of metal-air battery according to claim 3, it is characterised in that the middle part of the first support plate is provided with Demarcation strip, the demarcation strip separate cavity volume or so；The first support plate includes the first water inlet and first water inlet The first water-exit vertically mouth, the second water inlet and the second water-exit vertically mouth being connected with second water inlet being connected.

A kind of 5. metal-air battery according to claim 1, it is characterised in that the pump housing assembly include with it is described enter The first water pump that the mouth of a river is connected and the second water pump being connected with backflow apparatus for temporary storage.

6. a kind of metal-air battery according to claim 1 or 5, it is characterised in that the pump housing assembly is temporary with backflow Filter and cooling device are also associated between cryopreservation device.

7. a kind of metal-air battery according to claim 1, it is characterised in that the battery pile and backflow apparatus for temporary storage In a housing, the housing is provided with the through hole for being used for wearing pipeline.

8. a kind of metal-air battery according to claim 2, it is characterised in that the bottom of the water-exit vertically mouth is provided with The interface tube outside electrode suppor is protruded from, the interface tube is engaged with through hole.

9. a kind of metal-air battery according to claim 1, it is characterised in that the top of the electrode suppor is additionally provided with Sealing strip.

10. a kind of metal-air battery according to claim 1, it is characterised in that the battery lead plate includes air cathode Plate and metallic anode plate, the metallic anode plate are that aluminium, magnesium or zinc make.

11. a kind of metal-air battery according to claim 1, it is characterised in that the electrode suppor includes symmetrically setting The first support plate and second support plate put, the bottom of the first support plate are provided with water inlet, and the both sides of first support plate are set Have a water-exit vertically mouth, the water inlet is connected with backflow apparatus for temporary storage, water inlet and the water-exit vertically mouth with appearance Chamber is connected, formed vertically to electrolyte circulation canal.

12. a kind of metal-air battery according to claim 11, it is characterised in that set in the middle part of the first support plate There is demarcation strip, the demarcation strip separates cavity volume or so；The first support plate includes the first water inlet, intake with described first The first water-exit vertically mouth, the second water inlet and the second water-exit vertically mouth being connected with second water inlet that mouth is connected.

13. a kind of metal-air battery according to claim 11, it is characterised in that the backflow apparatus for temporary storage includes phase The casing and cover plate mutually coordinated, the both sides of the cover plate are provided with the through hole being engaged with the water-exit vertically mouth, the cover plate Middle part be provided with the intake tunnel that is connected with the water inlet, the intake tunnel is isolated with the through hole；It is described enter Aquaporin includes some horizontal channels being mutually communicated and Vertical Channel, and the one end open of the horizontal channel connects the pump housing Assembly, the other end closing of the horizontal channel；The Vertical Channel connects the water inlet.

14. a kind of metal-air battery according to claim 13, it is characterised in that the side-walls of the casing are provided with row Water hole, the osculum connect the pump housing assembly.