CN207282621U - New energy sky iron drives aluminium-air-fuel battery bag - Google Patents

Abstract

The utility model discloses a kind of new energy sky iron to drive aluminium air-fuel battery bag, including stent（1）, aluminium-air cell group（2）, radiator（5）, pump valve system（6）, I-shaped electrolyte tank（7）, aluminium-air cell group（2）It is placed in stent（1）In at least one layer of battery pack compartment that top is formed, two row aluminium-air cell groups are equipped with every layer of battery pack compartment（2）, two row aluminium-air cell groups（2）Between be equipped with electric cabinet（3）；Stent（1）Lower part form a stratification object space, the both ends of the material-putting space are used to install I-shaped electrolyte tank（7）, middle part is used to install load-carrying wheel（4）, radiator（5）And pump valve system（6）.The utility model is mainly that new energy sky iron provides electric energy, its abundant raw materials, environmental protection material benefit is simple in structure, and the power supply capacity of battery pack is greatly improved, and combines with lithium battery and also provides the power of increasing journey for the traction power of other new energy cars.

Description

New energy sky iron drives aluminium-air-fuel battery bag

Technical field

It the utility model is related to a kind of new energy sky iron driving aluminium-air-fuel battery bag.

Background technology

The mankind result in the rapidly expansion in secondary cell market to the extensive utilization of new energy.In current new energy system Requirement to secondary cell is ubiquitous.Either electric automobile, wind energy, solar grid-connected or peak load regulation network, is all badly in need of one Kind is cheap, reliably, the secondary cell of safety and long lifespan.The secondary cell developed at present is concentrated mainly on lithium ion battery, The high temperature sodium-sulphur battery, sodium nickel chlorine battery and vanadium flow battery.These batteries all have the advantages that it is respective, such as lithium ion battery and The high temperature sodium-sulphur battery long lifespan and energy density are high, and vanadium flow battery even more possesses unlimited service life etc. in theory.But no matter Which kind of battery, can not all meet inexpensively at the same time, reliably, the requirement of safety and long lifespan.Traditional lithium ion battery is prohibitively expensive, And there is security risk；The high temperature sodium-sulphur battery manufacturing technology threshold is high, and price is expensive；The multinomial technical bottleneck of vanadium flow battery is at present all Fail to obtain breakthrough etc..

Empty iron lithium ion power storage battery bag is installed in railway box girder, since space limits, the energy of a battery pack （200 degree of electricity）100 kilometers or so can only be run, when far can not meet that all day 14 is small（About 400 kilometers）Electricity consumption requirement.At present Using the method for changing battery pack, but 3-4 primary cells bag not only flow complexity is replaced daily, also to configure special charging station, Cost occupies height, seriously affects operational efficiency and cost.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, there is provided and one kind makes simple, engineering degree height, It is easy to operate, and the recyclable new energy sky iron driving aluminium-air-fuel battery bag reused.

The purpose of this utility model is achieved through the following technical solutions：New energy sky iron drives aluminium-air fuel Battery pack, including stent, aluminium-air cell group, radiator, pump valve system, I-shaped electrolyte tank, aluminium-air cell group are placed in In at least one layer of battery pack compartment that frame upper is formed, two row aluminium-air cell groups, two row are equipped with every layer of battery pack compartment Electric cabinet is equipped between aluminium-air cell group；One stratification object space is formed at the lower part of stent, and the both ends of the material-putting space are used to pacify I-shaped electrolyte tank is filled, middle part is used to install load-carrying wheel, radiator and pump valve system.

At least four load-carrying wheels are equipped with the stent lower part material-putting space.

At least two radiators, heat sink and the aluminium air of the radiator are equipped with the stent lower part material-putting space Battery pack fits closely, and the heat sink is aluminium radiating board.

At least two pump valve systems are equipped with the stent lower part material-putting space.

The position for being used to place aluminium-air cell group on the stent is equipped with aerial protrusion.

The quantity of the battery pack compartment is two layers, and every layer in two separate ranks, and each column places 128 aluminium-air cell monomers.

Marshalling between the aluminium-air cell monomer, the inlet tube between adjacent aluminium-air cell monomer are connected, go out Liquid pipe is connected.

The aluminium-air cell monomer include the first flat grate net, basic subrack, the first air electrode, the second air electrode, Aluminium electrode, aluminium sheet, the second flat grate net, the first flat grate net, basic subrack and the second flat grate net sequentially closed assembly, first air electrode At the top of basic subrack, the second air electrode is arranged on the gratings junction of the first flat grate net, and aluminium sheet is external on the outside of basic subrack, aluminium Electrode is arranged on aluminium sheet, is equipped with electrolyte in basic subrack, the first air electrode, the second air electrode, aluminium electrode are respectively protruding into electricity Solve in liquid.

The electric cabinet is equipped with shutter heat emission hole.

The beneficial effects of the utility model are：

1）Aluminium-air-fuel battery is assemblied in the volume of primary battery bag, is run lasting power generation with empty iron, is supplied electricity to vehicle-mounted The empty iron of 20 degree or so of high power lithium ion cell traction, it is not necessary to high-voltage electricity, substation, charging station etc., reduction are largely built If with standby lithium pond cost.Have high-voltage electricity area can save cost and the electric and other auxiliary facility of setting height(from bottom) into This, and in the area without high-voltage electricity for the scenic spot extremely backwardness for be inconvenient to install high-voltage electricity, aluminium-air-fuel battery can There is provided the enough energy so that build empty iron etc. and be possibly realized.

2）Aluminium will not damage human body, can recycle, free from environmental pollution.The abundant raw materials of aluminium, It is relatively low with large-scale aluminum smelting technology factory, production cost.Alum recovery regeneration is convenient, and reclaiming cost is relatively low.And can be with Using the method for replacing aluminium electrode, to solve the problems, such as that aluminium-air cell charging is slower.

3）The position for being used to place aluminium-air cell group on battery bag support is equipped with aerial protrusion, can effectively strengthen battery pack Heat sinking function；

4）Radiator is installed, heat sink and the aluminium-air cell group of radiator connect in the material-putting space of battery bag support lower part Tactile face is close to, and can effectively improve thermal coupling, so that thermal diffusivity is improved, and heat sink uses light-duty and low price aluminium Into production cost is greatly saved.

Brief description of the drawings

Fig. 1 is the front view of the utility model；

Fig. 2 is the side view of the utility model；

Fig. 3 is the first flat grate web frame schematic diagram；

Fig. 4 is aluminium electrode structure diagram；

Fig. 5 is basic subrack structure diagram；

Fig. 6 is the second flat grate web frame schematic diagram；

In figure, 1- stents, 2- aluminium-air cell groups, 3- electric cabinets, 4- load-carrying wheels, 5- radiators, 6- pump valve systems, 7- works Font electrolyte tank, 8- shutter heat emission holes, 9- make somebody a mere figurehead protrusion, 10- the first flat grate nets, 11- basic subrack, the first air of 12- electricity Pole, the second air electrodes of 13-, 14- aluminium electrodes, 15- aluminium sheets, 16- the second flat grate nets.

Embodiment

The technical solution of the utility model, but the scope of protection of the utility model are described in further detail below in conjunction with the accompanying drawings It is not limited to as described below.

As depicted in figs. 1 and 2, new energy sky iron driving aluminium-air-fuel battery bag, including stent 1, aluminium-air cell group 2nd, radiator 5, pump valve system 6, I-shaped electrolyte tank 7, aluminium-air cell group 2 are placed at least one layer of 1 top of stent formation In battery pack compartment, the quantity of the battery pack compartment is two layers, and two row aluminium-air cell groups are equipped with every layer of battery pack compartment 2；One stratification object space is formed at the lower part of stent 1, and the both ends of the material-putting space are used to install I-shaped electrolyte tank 7, and middle part is used In installation load-carrying wheel 4, radiator 5 and pump valve system 6.

The position for being used to place aluminium-air cell group 2 on the stent 1 is equipped with aerial protrusion 9, can effectively strengthen battery The heat sinking function of group.

The each column aluminium-air cell group 2 includes 128 aluminium-air cell monomers, is arranged between aluminium-air cell monomer whole Together, the inlet tube between adjacent aluminium-air cell monomer is connected, and outlet tube is connected to ensure I-shaped electrolyte tank 7 to whole electricity Pond group 2 carries out unified offer electrolyte, electrolyte is adequately filled up battery pack 2.

Electric cabinet 3 is equipped between the two row aluminium-air cell group 2, plays the role of constantly monitoring battery, the electricity Control case 3 is equipped with shutter heat emission hole 8, and shutter heat emission hole 8 can improve the radiating efficiency of electric cabinet 3, it can also be used to dust-proof.

At least four load-carrying wheels 4 are equipped with the 1 lower part material-putting space of stent in order to the smooth transport of whole device；Should It is additionally provided with least two pump valve systems 6 and at least two radiators 5 in material-putting space, the heat sink on radiator 5 is empty with aluminium The face that gas battery pack 2 contacts is close to, and can effectively improve thermal coupling, so that thermal diffusivity is improved, and heat sink is using light-duty and low The aluminium of valency is into being greatly saved production cost.

Preferably, the I-shaped top of electrolyte tank 7 is alternative places hydrogen fuel pile, and environmentally friendly, power supplying efficiency is high.

As shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the aluminium-air cell monomer include the first flat grate net 10, basic subrack 11, First air electrode 12, the second air electrode 13, aluminium electrode 14, aluminium sheet 15, the second flat grate net 16, it is the first flat grate net 10, basic Sequentially closed assembly, first air electrode 12 are arranged on the top of basic subrack 11, the second air electrode 13 to 11 and second flat grate net 16 of frame Arranged on the gratings junction of the first flat grate net 10, aluminium sheet 15 is external in the outside of basic subrack 11, and aluminium electrode 14 is arranged on aluminium sheet 15, base Electrolyte is equipped with this frame 11, the first air electrode 12, the second air electrode 13, aluminium electrode 14 are respectively protruding into electrolyte.

The above is only the preferred embodiment of the utility model, it should be understood that the utility model is not limited to herein Disclosed form, is not to be taken as removing the row of other embodiment, and can be used for various other combinations, modification and environment, and It can be modified in contemplated scope described herein by the technology or knowledge of above-mentioned teaching or association area.And this area The modifications and changes that personnel are carried out do not depart from the spirit and scope of the utility model, then all should be in right appended by the utility model It is required that protection domain in.

Claims (9)

1. new energy sky iron drives aluminium-air-fuel battery bag, it is characterised in that：Including stent（1）, aluminium-air cell group（2）、 Radiator（5）, pump valve system（6）, I-shaped electrolyte tank（7）, aluminium-air cell group（2）It is placed in stent（1）What top was formed In at least one layer of battery pack compartment, two row aluminium-air cell groups are equipped with every layer of battery pack compartment（2）, two row aluminium-air cell groups （2）Between be equipped with electric cabinet（3）；Stent（1）Lower part formed a stratification object space, the both ends of the material-putting space are used for erector Font electrolyte tank（7）, middle part is used to install load-carrying wheel（4）, radiator（5）And pump valve system（6）.

2. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The branch Frame（1）At least four load-carrying wheels are equipped with the material-putting space of lower part（4）.

3. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The branch Frame（1）At least two radiators are equipped with the material-putting space of lower part（5）, the radiator（5）Heat sink and aluminium-air cell group （2）Fit closely, the heat sink is aluminium radiating board.

4. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The branch Frame（1）At least two pump valve systems are equipped with the material-putting space of lower part（6）.

5. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The branch Frame（1）It is upper to be used to place aluminium-air cell group（2）Position be equipped with aerial protrusion（9）.

6. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The battery The quantity of group cavity volume is two layers, and every layer in two separate ranks, and each column places 128 aluminium-air cell monomers.

7. new energy sky iron according to claim 6 drives aluminium-air-fuel battery bag, it is characterised in that：The aluminium Marshalling between air cell monomer, the inlet tube between adjacent aluminium-air cell monomer are connected, and outlet tube is connected.

8. new energy sky iron according to claim 6 drives aluminium-air-fuel battery bag, it is characterised in that：The aluminium Air cell monomer includes the first flat grate net（10）, basic subrack（11）, the first air electrode（12）, the second air electrode（13）、 Aluminium electrode（14）, aluminium sheet（15）, the second flat grate net（16）, the first flat grate net（10）, basic subrack（11）With the second flat grate net（16） Sequentially closed assembly, first air electrode（12）Arranged on basic subrack（11）Top, the second air electrode（13）Arranged on the first flat grate Net（10）Gratings junction, aluminium sheet（15）It is external in basic subrack（11）Outside, aluminium electrode（14）Arranged on aluminium sheet（15）On, substantially Frame（11）It is interior to be equipped with electrolyte, the first air electrode（12）, the second air electrode（13）, aluminium electrode（14）It is respectively protruding into electrolyte It is interior.

9. new energy sky iron according to claim 1 drives aluminium-air-fuel battery bag, it is characterised in that：The electricity Control case（3）It is equipped with shutter heat emission hole（8）.