CN208889742U - A kind of startup power supply and new-energy automobile of new-energy automobile - Google Patents

Abstract

The utility model embodiment discloses the startup power supply and new-energy automobile of a kind of new-energy automobile.It include: the first battery core；Second battery core；Third battery core；4th battery core；5th battery core；6th battery core；7th battery core；8th battery core；9th battery core；Wherein the first battery core, the second battery core, third battery core, the 4th battery core, the 5th battery core, the 6th battery core, the 7th battery core, the 8th battery core and the 9th battery core are successively arranged in a straight line in the horizontal direction, first battery core, the second battery core and the parallel connection of third battery core are to constitute first group, 4th battery core, the 5th battery core and the 6th battery core parallel connection are to constitute second group, and the 7th battery core, the 8th battery core and the 9th battery core parallel connection are to constitute third group；First group, second group and the series connection of third group；Startup power supply further include: the first temperature sensor is arranged in the 4th battery core；Second temperature sensor is arranged in the 6th battery core.Rigors are had no to mounting height, monitoring temperature can also be executed at the battery core position of optimization.

Description

A kind of startup power supply and new-energy automobile of new-energy automobile

Technical field

The utility model relates to automobile technical field, startup power supply more particularly, to a kind of new-energy automobile and new Energy automobile.

Background technique

Energy shortage, oil crisis and environmental pollution grow in intensity, and bring tremendous influence, direct relation to people's lives To the sustainable development of national economy and society.Countries in the world are all in active development new energy technology.Electric car is as a kind of Reduce the new-energy automobile of consumption of petroleum, low pollution, low noise, it is considered to be solve the important way of energy crisis and environmental degradation Diameter.Hybrid vehicle combines the advantage of pure electric automobile and traditional combustion engine automobile, is meeting vehicle dynamic quality requirement Under the premise of being required with continual mileage, effectively improve fuel economy, reduce discharge, it is considered to be current energy conservation with subtract One of active path of row.

Automobile starting power supply (car jump starter), is also car emergency startup power supply, is collection power supply and charging function It can can meet an urgent need when automobile flameout, which casts anchor, to start automobile and automobile is helped to open in the portable startup power supply of one It is dynamic, while can also charge whenever and wherever possible to digital equipments such as mobile phone, tablet computers.Traditional plumbic acid stores automobile starting power supply, Volume is big, and quality weight uses inconvenience.Occurs the startup power supply by lithium cell as charge storage unit at present, relative to hand The capacity of automobile starting power supply is big for machine mobile power source, convenient to use.

However, the battery core of the startup power supply of new-energy automobile is commonly stacking arrangement mode at present, to the height of arrangement space It spends more demanding.

Utility model content

The purpose of this utility model is to propose the startup power supply and new-energy automobile of a kind of new-energy automobile, to save sky Between height.

The technical solution of the utility model embodiment is as follows:

A kind of startup power supply of new-energy automobile, comprising:

First battery core；Second battery core；Third battery core；4th battery core；5th battery core；6th battery core；7th battery core；8th electricity Core；9th battery core；

Wherein first battery core, the second battery core, third battery core, the 4th battery core, the 5th battery core, the 6th battery core, the 7th electricity Core, the 8th battery core and the 9th battery core are successively arranged in a straight line in the horizontal direction, first battery core, the second battery core and third battery core Parallel connection is to constitute first group, and the 4th battery core, the 5th battery core and the 6th battery core parallel connection are to constitute second group, the 7th electricity Core, the 8th battery core and the 9th battery core parallel connection are to constitute third group；Described first group, second group and the series connection of third group；

The wherein startup power supply further include:

First temperature sensor is arranged in the 4th battery core；

Second temperature sensor is arranged in the 6th battery core.

In one embodiment, further includes:

First cupro-nickel composite construction is arranged in the lower end of first group of the upper end and the third group；

Second cupro-nickel composite construction is arranged in first group of the lower end and second group of lower end and second group described The upper end of upper end and the third group.

In one embodiment, the first cupro-nickel composite construction includes:

Copper bar has copper bar ontology and adapts to the connecting pin connecting with battery management system；

Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and the vertical component effect is in the first horizontal portion and institute It states between the second horizontal part, the first horizontal portion is bonded with the copper bar ontology, and second horizontal part is from the vertical component effect Bottom end extend laterally.

In one embodiment, the second cupro-nickel composite construction includes:

Copper bar has copper bar ontology；

Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and the vertical component effect is in the first horizontal portion and institute It states between the second horizontal part, the first horizontal portion is bonded with the copper bar ontology, and second horizontal part is from the vertical component effect Bottom end extend laterally.

In one embodiment, the second cupro-nickel composite construction further include:

Conducting wire；

Wherein the conducting wire is welded in the first horizontal portion, and has the end for adapting to be connected to battery management system Son.

In one embodiment, first temperature sensor is bonded in the 4th battery core via the first heat conductive silica gel On, the second temperature sensor is bonded in the 6th battery core via the second heat conductive silica gel.

In one embodiment, first temperature sensor is bonded in three in the short transverse of the 4th battery core At position of halving；The second temperature sensor is bonded at the trisection posistion in the short transverse of the 6th battery core.

In one embodiment, the anode of first battery core, the second battery core and third battery core is located at described first group Upper end；The anode of 4th battery core, the 5th battery core and the 6th battery core is located at second group of the lower end；7th electricity The anode of core, the 8th battery core and the 9th battery core is located at the upper end of the third group.

A kind of new-energy automobile, the startup power supply including described in any item new-energy automobiles as above.

In one embodiment, the new-energy automobile is pure electric automobile, hybrid vehicle or fuel cell vapour Vehicle.

It can be seen from the above technical proposal that in the utility model embodiment, comprising: the first battery core；Second battery core； Third battery core；4th battery core；5th battery core；6th battery core；7th battery core；8th battery core；9th battery core；Wherein the first battery core, Second battery core, third battery core, the 4th battery core, the 5th battery core, the 6th battery core, the 7th battery core, the 8th battery core and the 9th battery core are in water Square successively arranged in a straight line upwards, the first battery core, the second battery core and the parallel connection of third battery core are to constitute first group, the 4th battery core, the Five battery cores and the 6th battery core parallel connection are to constitute second group, and the 7th battery core, the 8th battery core and the 9th battery core parallel connection are to constitute third group； First group, second group and the series connection of third group；Wherein startup power supply further include: the first temperature sensor is arranged in the 4th battery core； Second temperature sensor is arranged in the 6th battery core.It can be seen that the utility model proposes one kind to have battery core knot arranged in a straight line The startup power supply of structure, startup power supply have no rigors to mounting height, and the cloth for being particularly suitable for being arranged in limited height empties Between.Moreover, by being respectively arranged temperature sensor in the 4th battery core and the 6th battery core, it can also be at the battery core position of optimization Execute monitoring temperature.

In addition, the first cupro-nickel composite construction and the second cupro-nickel composite construction arranged at the positive and negative anodes of each battery core, both Be conducive to electric current conduction, be also act against deformation caused by vibration.

Detailed description of the invention

The following drawings only does schematic illustration and explanation to the utility model, does not limit the scope of the utility model.

Fig. 1 is the demonstrative structure figure according to the startup power supply of the utility model new-energy automobile.

Fig. 2 is according to the exemplary main view of the startup power supply of the utility model new-energy automobile.

Fig. 3 is according to the exemplary left view of the startup power supply of the utility model new-energy automobile.

Fig. 4 is according to the exemplary top view of the startup power supply of the utility model new-energy automobile.

Fig. 5 is according to the demonstrative structure figure of the cupro-nickel composite construction of the startup power supply of the utility model new-energy automobile.

Specific embodiment

In order to which the technical features, objects and effects to utility model are more clearly understood, Detailed description of the invention sheet is now compareed The specific embodiment of utility model, identical label indicates identical part in the various figures.

It is succinct and intuitive in order to what is described, hereafter by describing several representative embodiments come to the utility model Scheme be illustrated.A large amount of details is only used for helping to understand the embodiment of the utility model in embodiment.However, it will be apparent that The technical solution of the utility model can be not limited to these details when realizing.It is practical new in order to avoid unnecessarily having obscured this The scheme of type, some embodiments are not described meticulously, but only give frame.Hereinafter, " comprising " refers to " packet Include but be not limited to ", " according to ... " refer to " according at least to ..., but be not limited to according only to ... ".Since the language of Chinese is practised It is used, when being hereinafter not specifically stated the quantity of an ingredient, it is meant that the ingredient is either one or more, or can It is interpreted as at least one.

It is found by the applicant that: the startup power supply of the new-energy automobile of the prior art is commonly battery core stacking arrangement mode, battery core There are rigors with structure stacked on top of one another, therefore to the height of arrangement space.Applicant considers to install under many situations empty Between be difficult to meet requirement for height, propose a kind of startup power supply with core strueture arranged in a straight line.

Moreover, it is contemplated that when arrangement mode is laminated to battery core in the prior art, since battery core stepped construction is complicated, it is difficult to rationally The shortcomings that arranging temperature sensor, applicant have also found that when using core strueture arranged in a straight line, it can be easily in optimization position Set place's arrangement temperature sensor.

Fig. 1 is the demonstrative structure figure according to the startup power supply of the utility model new-energy automobile.Fig. 2 is practical new according to this The exemplary main view of the startup power supply of type new-energy automobile.Fig. 3 is according to the startup power supply of the utility model new-energy automobile Exemplary left view.Fig. 4 is according to the exemplary top view of the startup power supply of the utility model new-energy automobile.In Fig. 2-Fig. 4, The first cupro-nickel composite construction and the second cupro-nickel composite construction is omitted.

As Figure 1-Figure 4, startup power supply includes:

First battery core 11；Second battery core 12；Third battery core 13；4th battery core 14；5th battery core 15；6th battery core 16；The Seven battery cores 17；8th battery core 18；9th battery core 19；

Wherein the first battery core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 5th battery core 15, the 6th battery core 16, the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 are successively arranged in a straight line in the horizontal direction.Moreover, the first battery core 11, Second battery core 12 and 13 parallel connection of third battery core are to constitute first group；4th battery core 14, the 5th battery core 15 and the 6th battery core 16 are in parallel To constitute second group；7th battery core 17, the 8th battery core 18 and 19 parallel connection of the 9th battery core are to constitute third group；First group, second group It connects with third group；

Wherein startup power supply further include: the first temperature sensor 70 is arranged in the 4th battery core 14；Second temperature sensor 80, it is arranged in the 6th battery core 16.

Herein, applicant carries out a large amount of emulation testing hairs for the startup power supply comprising nine battery cores arranged in a straight line It is existing, temperature sensor is arranged in the 4th battery core 14 and the 6th battery core 16, startup power supply temperature detection value can be accurately obtained, And it realizes key monitoring and guarantees the stable operation of startup power supply.

First temperature sensor 70 and second temperature sensor 80 are connect with battery management system (BMS) respectively, for BMS provides respective temperature detection value.Preferably, the first temperature sensor 70 is bonded in the 4th battery core via the first heat conductive silica gel On 14, second temperature sensor 80 is bonded in the 6th battery core via the second heat conductive silica gel.It is furthermore preferred that the first temperature passes Sensor 70 is bonded at the trisection posistion in the short transverse of the 4th battery core 14；Second temperature sensor 80 is bonded in the 6th electricity At trisection posistion in the short transverse of core 16.For example, the first temperature sensor 70 is bonded in the height side of the 4th battery core 14 Upwards at first trisection posistion from top to bottom or at second trisection posistion, it is preferred that be arranged in second it is third Quartile sets place.For example, second temperature sensor 80 is bonded in first three in the short transverse of the 6th battery core 16 from top to bottom At position of halving or at second trisection posistion, it is preferred that be arranged at second trisection posistion.

In one embodiment, startup power supply further include:

First cupro-nickel composite construction 22 is arranged in first group of upper end and the lower end of third group；

Second cupro-nickel composite construction 23, be arranged in first group lower end and second group of lower end and second group of upper end with The upper end of third group.

As it can be seen that it is different from the stacking arrangement mode of the prior art, the first battery core 11, the second battery core 12, third battery core 13, the Four battery cores 14, the 5th battery core 15, the 6th battery core 16, the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 are in the horizontal direction It is successively arranged in a straight line, therefore the startup power supply of the utility model is particularly suitable for being arranged in height to rigors are highly had no Limited arrangement space.

Moreover, the first battery core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 5th battery core 15, the 6th battery core 16, the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 have the connection relationship of three and three strings, wherein between three battery cores simultaneously It is unified into one group, is connected between then organizing again.

Preferably, the first battery core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 15, the 6th electricity of the 5th battery core Core 16, the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 voltage be all 3.65 volts.Therefore, the first battery core 11, second Battery core 12, third battery core 13, the 4th battery core 14, the 5th battery core 15, the 6th battery core 16, the 7th battery core 17, the 8th battery core 18 and The total voltage for the startup power supply that nine battery cores 19 collectively form is 12 volts.

In addition, the first cupro-nickel composite construction 22 and the second cupro-nickel composite construction arranged at the positive and negative anodes of each battery core 23, electric current conduction is not only improved, deformation caused by vibration is also act against.

Specifically, being disposed with the first cupro-nickel composite construction 22 first group of upper end.Moreover, being arranged in the lower end of third group There is the first cupro-nickel composite construction 22 of same structure.In first group of lower end and second group of lower end, the second cupro-nickel there also is provided Composite construction 23.Moreover, being disposed with the second cupro-nickel composite construction of same structure in second group of upper end and the upper end of third group 23。

First cupro-nickel composite construction 22 is arranged in the first end of the first battery core 11, the second battery core 12 and third battery core 13, and And it is disposed with same first cupro-nickel composite construction 22 in the second end of the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19, Wherein first end and second end are the opposite end of startup power supply.

Moreover, the second cupro-nickel composite construction 23 is arranged in the 4th battery core 14, the 5th battery core 15, the 16, the 7th electricity of the 6th battery core The first end of core 17, the 8th battery core 18 and the 9th battery core 19, and in the first battery core 11, the second battery core 12, third battery core 13, The second end of four battery cores 14, the 5th battery core 15 and the 6th battery core 16 is disposed with same second cupro-nickel composite construction 23.

Preferably, the anode of the first battery core 11, the anode of the second battery core 12, the anode of third battery core 13, the 4th battery core 14 Cathode, the cathode of the 5th battery core 15, the cathode of the 6th battery core 16, the anode of the 7th battery core 17, the anode of the 8th battery core 18 and The anode of 9th battery core 19 is all located at first end；The cathode of first battery core 11, the cathode of the second battery core 12, third battery core 13 it is negative Pole, the anode of the 4th battery core 14, the anode of the 5th battery core 15, the anode of the 6th battery core 16, the cathode of the 7th battery core 17, the 8th electricity The cathode of core 18 and the cathode of the 9th battery core 19 are all located at second end.Corresponding to shown in Fig. 2, first end is the upper of startup power supply End, second end are the lower end of startup power supply.

Preferably, the first battery core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 15, the 6th electricity of the 5th battery core Core 16, the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 are lithium-ion electric core.

Fig. 5 is according to the demonstrative structure figure of the cupro-nickel composite construction of the startup power supply of the utility model new-energy automobile.? In Fig. 5, the first temperature sensor 70 shown in FIG. 1 and second temperature sensor 80 are eliminated.In conjunction with Fig. 1-Fig. 4, it is seen that:

The the first cupro-nickel composite construction 22 for being arranged in first group of upper end includes:

Copper bar has copper bar ontology 30 and adapts to the connecting pin 221 connecting with battery management system；

Nickel strap has first horizontal portion 31, vertical component effect 32 and the second horizontal part 33, and vertical component effect 32 is in 31 He of first horizontal portion Between second horizontal part 33, first horizontal portion 31 is bonded with copper bar ontology 30, bottom end side of second horizontal part 33 from vertical component effect 32 To extension.

As it can be seen that corresponding to three battery cores (the first battery core 11, the second battery core 12 and third battery core 13), the number of vertical component effect 32 It is 3, and corresponding second horizontal part 33 is also three.It is every in first battery core 11, the second battery core 12 and third battery core 13 One battery core both corresponds to a vertical component effect 32 and second horizontal part 33.Second horizontal part 33 by welding etc. modes with Corresponding battery core fits.

Similarly, it is arranged in the structure having the same of the first cupro-nickel composite construction 22 of the lower end of third group.Specifically, cloth The the first cupro-nickel composite construction 22 set in the lower end of third group includes: copper bar, has copper bar ontology and adapts to and battery management The connecting pin 231 of system connection；Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and vertical component effect is in first horizontal portion And second between horizontal part, first horizontal portion is bonded with copper bar ontology, and the second horizontal part is extended laterally from the bottom end of vertical component effect.

Moreover, the second cupro-nickel composite construction 23 for being arranged in first group of lower end and second group of lower end includes:

Copper bar has copper bar ontology 40；

Nickel strap has first horizontal portion 41, vertical component effect 42 and the second horizontal part 43, and vertical component effect 42 is in 41 He of first horizontal portion Between second horizontal part 43, first horizontal portion 41 is bonded with copper bar ontology 40, bottom end side of second horizontal part 43 from vertical component effect 42 To extension.

As it can be seen that corresponding to six battery cores (the first battery core 11, the second battery core 12, third battery core 13, the 4th battery cores the 14, the 5th Battery core 15 and the 6th battery core 16), the number of vertical component effect 42 is 6, and corresponding second horizontal part 43 is also 6.First electricity Each of core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 5th battery core 15 and the 6th battery core 16 battery core, all Corresponding to a vertical component effect 42 and second horizontal part 43.Second horizontal part 43 passes through the modes such as welding and corresponding electricity Core fits.

Similarly, the second cupro-nickel composite construction 23 for being arranged in second group of upper end and the upper end of third group is having the same Structure.Specifically, the second cupro-nickel composite construction 23 for being arranged in second group of upper end and the upper end of third group includes: copper bar, tool There is copper bar ontology；Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and vertical component effect is in first horizontal portion and the second water Between flat portion, first horizontal portion is bonded with copper bar ontology, and the bottom end of the second horizontal part from vertical component effect 42 extends laterally.

Also, it is preferred that, the second cupro-nickel composite construction 23 further include: conducting wire；Conducting wire is welded in first horizontal portion, and is had There is the terminal for adapting to be connected to battery management system.

As shown in connection with fig. 1, for being arranged in the 4th battery core 14, the 5th battery core 15, the 6th battery core 16, the 7th battery core 17, Second cupro-nickel composite construction 23 of the first end of eight battery cores 18 and the 9th battery core 19, also comprising being welded on leading in first horizontal portion Line 50.For being arranged in, the first battery core 11, the second battery core 12, third battery core 13, the 4th battery core 14, the 5th battery core 15 and the 6th are electric Second cupro-nickel composite construction 23 of the second end of core 16, the also conducting wire 60 comprising being welded in first horizontal portion.

Wherein, conducting wire 50 and conducting wire 60 all have the connection terminal for adapting to be connected to BMS.Conducting wire 60 and it is arranged in first The electricity between connecting pin 221 that the first cupro-nickel composite construction 22 in battery core 11, the second battery core 12 and third battery core 13 is included Potential difference, as first group of voltage.Conducting wire 50 be arranged in the 7th battery core 17, the 8th battery core 18 and the 9th battery core 19 first Potential difference between the connecting pin 231 of cupro-nickel composite construction 22, the as voltage of third group.Electricity between conducting wire 60 and conducting wire 50 Potential difference, as second group of voltage.

The startup power supply of the utility model can be applied in various types of new-energy automobiles, such as pure electric vehicle vapour Vehicle, hybrid vehicle or fuel cell car, etc..

In conclusion in the utility model embodiment, comprising: the first battery core；Second battery core；Third battery core；4th Battery core；5th battery core；6th battery core；7th battery core；8th battery core；9th battery core；Wherein the first battery core, the second battery core, third Battery core, the 4th battery core, the 5th battery core, the 6th battery core, the 7th battery core, the 8th battery core and the 9th battery core are successively straight in the horizontal direction Line arrangement, the first battery core, the second battery core and the parallel connection of third battery core are to constitute first group, the 4th battery core, the 5th battery core and the 6th electricity Core parallel connection is to constitute second group, and the 7th battery core, the 8th battery core and the 9th battery core parallel connection are to constitute third group；First group, second group It connects with third group；Wherein startup power supply further include: the first temperature sensor is arranged in the 4th battery core；Second temperature sensing Device is arranged in the 6th battery core.It can be seen that the utility model proposes a kind of, the starting with core strueture arranged in a straight line is electric Source, startup power supply are particularly suitable for being arranged in the arrangement space of limited height to rigors are highly had no.

Moreover, by being respectively arranged temperature sensor in the 4th battery core and the 6th battery core, it can also be in the battery core of optimization Monitoring temperature is executed at position.

In addition, the first cupro-nickel composite construction and the second cupro-nickel composite construction arranged at the positive and negative anodes of each battery core, both Be conducive to electric current conduction, be also act against deformation caused by vibration.

Tool of the series of detailed descriptions listed above only for the feasible embodiment of the utility model Body explanation, and not to limit the protection scope of the utility model, it is all without departing from made by the utility model skill spirit etc. Effect embodiment or change should be included within the scope of protection of this utility model such as the combination, segmentation or repetition of feature.

Claims (10)

1. a kind of startup power supply of new-energy automobile characterized by comprising

First battery core；Second battery core；Third battery core；4th battery core；5th battery core；6th battery core；7th battery core；8th battery core； 9th battery core；

Wherein first battery core, the second battery core, third battery core, the 4th battery core, the 5th battery core, the 6th battery core, the 7th battery core, Eight battery cores and the 9th battery core are successively arranged in a straight line in the horizontal direction, and first battery core, the second battery core and third battery core are in parallel To constitute first group, the 4th battery core, the 5th battery core and the 6th battery core parallel connection are to constitute second group, the 7th battery core, Eight battery cores and the 9th battery core parallel connection are to constitute third group；Described first group, second group and the series connection of third group；

The wherein startup power supply further include:

First temperature sensor is arranged in the 4th battery core；

Second temperature sensor is arranged in the 6th battery core.

2. the startup power supply of new-energy automobile according to claim 1, which is characterized in that further include:

First cupro-nickel composite construction is arranged in the lower end of first group of the upper end and the third group；

Second cupro-nickel composite construction is arranged in the lower end and second group of the upper end of first group of the lower end Yu second group With the upper end of the third group.

3. the startup power supply of new-energy automobile according to claim 2, which is characterized in that the first cupro-nickel composite construction Include:

Copper bar has copper bar ontology and adapts to the connecting pin connecting with battery management system；

Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and the vertical component effect is in the first horizontal portion and described the Between two horizontal parts, the first horizontal portion is bonded with the copper bar ontology, and second horizontal part is from the bottom of the vertical component effect End extends laterally.

4. the startup power supply of new-energy automobile according to claim 2, which is characterized in that the second cupro-nickel composite construction Include:

Copper bar has copper bar ontology；

Nickel strap has first horizontal portion, vertical component effect and the second horizontal part, and the vertical component effect is in the first horizontal portion and described the Between two horizontal parts, the first horizontal portion is bonded with the copper bar ontology, and second horizontal part is from the bottom of the vertical component effect End extends laterally.

5. the startup power supply of new-energy automobile according to claim 4, which is characterized in that the second cupro-nickel composite construction Further include:

Conducting wire；

Wherein the conducting wire is welded in the first horizontal portion, and has the terminal for adapting to be connected to battery management system.

6. the startup power supply of new-energy automobile according to claim 1, which is characterized in that the first temperature sensor warp It is bonded in the 4th battery core by the first heat conductive silica gel, the second temperature sensor is bonded in institute via the second heat conductive silica gel It states in the 6th battery core.

7. the startup power supply of new-energy automobile according to claim 6, which is characterized in that first temperature sensor is viscous It closes at the trisection posistion in the short transverse of the 4th battery core；The second temperature sensor is bonded in the 6th electricity At trisection posistion in the short transverse of core.

8. the startup power supply of new-energy automobile according to claim 1, which is characterized in that first battery core, the second electricity Core and the anode of third battery core are located at first group of the upper end；The anode of 4th battery core, the 5th battery core and the 6th battery core Positioned at second group of the lower end；The anode of 7th battery core, the 8th battery core and the 9th battery core is located at the upper of the third group End.

9. a kind of new-energy automobile, which is characterized in that including opening for new-energy automobile such as of any of claims 1-8 Dynamic power supply.

10. new-energy automobile according to claim 9, which is characterized in that the new-energy automobile is pure electric automobile, mixes Close power vehicle or fuel cell car.