CN206194911U - Novel large capacity power nickel -hydrogen battery - Google Patents

Abstract

The utility model provides a novel large capacity power nickel -hydrogen battery belongs to new energy batteries technical field. Nickel -hydrogen battery includes group battery, fixed plate, battery cathode cylinder manifold, battery anode cylinder manifold and support column, the group battery is formed by a plurality of cylindrical power nickel -hydrogen battery parallel combination, insert in the fixed plate at cylindrical power nickel -hydrogen battery's both ends, all cylindrical power nickel -hydrogen battery's negative pole all welds on battery cathode cylinder manifold, all cylindrical power nickel -hydrogen battery's positive pole all welds on battery anode cylinder manifold, the both ends of support column are fixed on the fixed plate respectively. The utility model provides a novel large capacity power nickel -hydrogen battery has simple structure, equitable, characteristics such as degree of automation height in the production.

Description

A kind of novel high-capacity power nickel-hydrogen cell

Technical field

The present invention relates to a kind of novel high-capacity power nickel-hydrogen cell, belong to new energy cell art.

Background technology

Current new energy car battery uses power lithium-ion battery and power nickel-hydrogen cell mostly, the power compared with lithium electricity Ni-MH battery technology maturation, high temperature performance are good, have a safety feature, can be with high current charge-discharge but main relatively costly because of its, Constrain application and popularization of the power nickel-hydrogen cell on automobile.But hybrid vehicle, cold ground electric powered motor ni-mh electricity Pond or it is advantageous, have market because hybrid power automobile battery capacity is small, relative cost is low, and ground electric automobile of trembling with fear is because mesh Preceding only Ni-MH battery can be temperature power nickel-hydrogen cell wide, -45 DEG C of its operating temperature~70 DEG C by it with low temperature charge and discharge.

As pure electric automobile, to ensure mileages of continuation, typically require battery capacity all than larger, traditional square power nickel Hydrogen battery high cost, Capacity design is bigger, and the power-performance of battery, security performance are relative to be declined.

Utility model content

To solve technical problem present in above-mentioned prior art, the utility model proposes a kind of high-capacity dynamical ni-mh Battery, the technical solution used in the present invention is as follows：

The Ni-MH battery includes battery pack 3, fixed plate 2, GND cylinder manifold 1, anode cylinder manifold 4 and support Post 5；The battery pack 3 is formed by multiple cylinder parallel combinations of power nickel-hydrogen cell 31；The cylindrical power nickel-hydrogen cell In 31 two ends insertion fixed plate 2；The negative pole of all cylindrical power nickel-hydrogen cells 31 is fixedly installed in GND and confluxes On plate 1；The positive pole of all cylindrical power nickel-hydrogen cells 31 is fixedly installed on anode cylinder manifold 4；The support column 5 Two ends be separately fixed in fixed plate 2；The GND cylinder manifold 1 and anode cylinder manifold 4 are fixedly installed in fixation On plate 2.

Preferably, the fixed plate 2 includes the first fixed plate and the second fixed plate, and the GND cylinder manifold 1 is fixed In in the first fixed plate；The anode cylinder manifold 4 is fixed in the second fixed plate；The two ends of the support column 5 are solid respectively It is scheduled in the first fixed plate and the second fixed plate.

Preferably, the size of the multiple cylindrical power nickel-hydrogen cell 31 is identical with manufacture craft.

Preferably, the capacity tolerance between described each cylindrical power nickel-hydrogen cell 31 is not more than 5%, each cylinder Internal resistance deviation between power nickel-hydrogen cell 31 is not more than the 30% of average internal resistance value.

Preferably, gap is provided between described each cylindrical power nickel-hydrogen cell 31, the width in the gap is 1.5mm—5mm。

Preferably, the GND cylinder manifold 1 and anode cylinder manifold 4 are made of fine copper.

Preferably, the fixed plate 2 is provided with the battery settling hole matched with the external diameter of cylindrical power nickel-hydrogen cell 31 21st, support column mounting hole 22 and positive and negative cylinder manifold positioning spiro pit 23.

Preferably, the GND cylinder manifold 1 is provided with negative pole cylinder manifold location hole 11；Wherein, the negative pole confluxes Number M >=2 of plate location hole 11；Using square or circular concave configuration at solder joint on the GND cylinder manifold 1, and Spot welding nickel sheet in concave surface, and rush cross-hole.

Preferably, the anode cylinder manifold 4 is provided with positive pole cylinder manifold location hole 41；Wherein, the positive pole confluxes Number Q >=2 of plate location hole 41；Using square or circular concave configuration at solder joint on the anode cylinder manifold 4, and Spot welding nickel sheet in concave surface, and rush cross-hole.

Preferably, the thickness of the nickel sheet is 0.01mm -0.1mm.

Preferably, the fixed plate 2 and support column 5 are adopted and are made from an insulative material, the insulating materials include nylon, ABS, Epoxy plate etc..

The utility model beneficial effect：

The utility model proposes novel high-capacity power nickel-hydrogen cell solve Conventional mass square power ni-mh electricity The problem that design brought design cost in pond is high, power-performance and security performance have declined, with same specification in the prior art Square power nickel-hydrogen cell compare, the Ni-MH battery cost decline more than 30%, power-performance improves more than 25%.Together When, the Ni-MH battery when Large Copacity is designed, still stablize, and stability is up to 95% by the power-performance and security performance of battery, Stability relative to traditional square power nickel-hydrogen cell improves more than 50%.Further it is proposed that cylindrical power Ni-MH battery have it is simple and reasonable for structure, in production the features such as high degree of automation.

Brief description of the drawings

Fig. 1 is the structural representation of novel high-capacity power nickel-hydrogen cell of the present invention.

Fig. 2 is fixed plate structure schematic diagram of the present invention.

Fig. 3 confluxes plate structure schematic diagram for anode of the present invention.

Fig. 4 confluxes plate structure schematic diagram for Electrode Negative of the present invention.

Fig. 5 is the structural representation of the nickel sheet on anode cylinder manifold of the present invention.

Fig. 6 is the structural representation of the nickel sheet on GND cylinder manifold of the present invention.

(1, GND cylinder manifold；2, fixed plate；3, battery pack；4, anode cylinder manifold；5, support column；11, negative pole Cylinder manifold location hole；21, battery settling hole；22, support column mounting hole；23, positive and negative cylinder manifold positioning spiro pit；41, positive pole converges Stream plate location hole)

Specific embodiment

The utility model is described further with reference to specific embodiment, but the utility model is not limited by embodiment System.

In description of the present utility model, it is necessary to explanation, term " " center ", " longitudinal direction ", " transverse direction ", " on ", D score, The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " top ", " bottom ", " interior ", " outward " and " endways " are based on attached The shown orientation of figure or position relationship, are for only for ease of and describe the utility model and simplify to describe, rather than instruction or hint Signified device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The limitation of utility model.

In description of the present utility model, it is necessary to explanation, unless otherwise expressly provided and limit, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or integratedly connect Connect；Can be directly connected to, can also be indirectly connected with by intermediary, can be two connections of components interior.For For one of ordinary skill in the art, concrete meaning of the above-mentioned term in the utility model can be understood with concrete condition.

Additionally, in description of the present utility model, unless otherwise indicated, " multiple ", " multigroup ", " many " are meant that two Individual or two or more.

Material therefor, instrument and method in implementation below, without specified otherwise, are this area conventional material, instrument Device and method, can be obtained by commercial channel.

A kind of novel high-capacity power nickel-hydrogen cell is including battery pack 3, fixed plate 2, GND cylinder manifold 1, battery just Pole cylinder manifold 4 and support column 5；The battery pack 3 is formed by multiple cylinder parallel combinations of power nickel-hydrogen cell 31；The cylinder In the two ends insertion fixed plate 2 of shape power nickel-hydrogen cell 31；The negative pole of all cylindrical power nickel-hydrogen cells 31 is fixedly mounted In on GND cylinder manifold 1；The positive pole of all cylindrical power nickel-hydrogen cells 31 is fixedly installed in anode cylinder manifold 4 On；The two ends of the support column 5 are separately fixed in fixed plate 2；The GND cylinder manifold 1 and anode cylinder manifold 4 It is fixedly installed in fixed plate 2.Fixed plate 2 includes the first fixed plate and the second fixed plate, and the GND cylinder manifold 1 is fixed In in the first fixed plate；The anode cylinder manifold 4 is fixed in the second fixed plate.Each cylindrical power nickel-hydrogen cell 31 Size it is identical with manufacture craft.Capacity tolerance between each cylindrical power nickel-hydrogen cell 31 is not more than 5%, each Internal resistance deviation between cylindrical power nickel-hydrogen cell 31 is not more than the 30% of average internal resistance value.Each cylindrical power ni-mh electricity Gap is provided between pond 31, the width in the gap is 1.5mm -5mm.GND cylinder manifold 1 and anode cylinder manifold 4 It is made of fine copper.Fixed plate 2 is provided with battery settling hole 21, the branch matched with the external diameter of cylindrical power nickel-hydrogen cell 31 Dagger mounting hole 22 and positive and negative cylinder manifold positioning spiro pit 23.GND cylinder manifold 1 is provided with negative pole cylinder manifold location hole 11； Wherein, number M >=2 of the negative pole cylinder manifold location hole 11；At solder joint on the GND cylinder manifold 1 using square or Circular concave configuration, and the spot welding nickel sheet in concave surface, and rush cross-hole.Anode cylinder manifold 4 is provided with positive pole cylinder manifold Location hole 41；Wherein, number Q >=2 of the positive pole cylinder manifold location hole 41；At solder joint on the anode cylinder manifold 4 Using square or circular concave configuration, and the spot welding nickel sheet in concave surface, and rush cross-hole.The thickness of nickel sheet be 0.01mm- 0.1mm.Fixed plate 2 and support column 5 are adopted and are made from an insulative material, and the insulating materials is including nylon, ABS plastic, epoxy plate etc..

Embodiment 1

The present invention proposes that a kind of novel high-capacity power nickel-hydrogen cell includes that battery pack 3, fixed plate 2, GND are confluxed Plate 1, anode cylinder manifold 4 and support column 5；Battery pack 3 is formed by multiple cylinder parallel combinations of power nickel-hydrogen cell 31；Circle In the two ends insertion fixed plate 2 of beam type power Ni-MH battery 31；The negative pole of all cylindrical power nickel-hydrogen cells 31 is welded in On GND cylinder manifold 1；The positive pole of all cylindrical power nickel-hydrogen cells 31 is welded on anode cylinder manifold 4；Institute The two ends for stating support column 5 are separately fixed in fixed plate 2；The number of support column 5 is N >=2.GND cylinder manifold 1 and battery Positive pole cylinder manifold 4 is fixedly installed in fixed plate 2.The complete phase of size and manufacture craft of each cylindrical power nickel-hydrogen cell 31 Together.Capacity tolerance between each cylindrical power nickel-hydrogen cell 31 is not more than 5%, each cylindrical power nickel-hydrogen cell 31 it Between internal resistance deviation be not more than the 30% of average internal resistance value.Gap, gap are provided between each cylindrical power nickel-hydrogen cell 31 Width be 1.5mm -5mm, be easy to battery to cool down.GND cylinder manifold 1 and anode cylinder manifold 4 use pure copper Into.Fixed plate 2 is provided with battery settling hole 21, the support column mounting hole 22 matched with the external diameter of cylindrical power nickel-hydrogen cell 31 With positive and negative cylinder manifold positioning spiro pit 23.The number of the battery settling hole 21 in fixed plate 2 with cylindrical power nickel-hydrogen cell 31 number is corresponding.

GND cylinder manifold 1 is provided with negative pole cylinder manifold location hole 11；Wherein, the negative pole cylinder manifold location hole 11 Number M >=2；Square or circular concave configuration, and the spot welding nickel sheet a in concave surface are used at solder joint on GND cylinder manifold 1, And rush cross-hole.Anode cylinder manifold 4 is provided with positive pole cylinder manifold location hole 41；Wherein, the positive pole cylinder manifold positioning Number Q >=2 in hole 41；Square or circular concave configuration, and the spot welding in concave surface are used at solder joint on anode cylinder manifold 4 Nickel sheet a, and rush cross-hole.The thickness of nickel sheet a is 0.05mm -0.15mm.Fixed plate 2 and support column 5 use insulating materials system Into the insulating materials is including nylon, ABS plastic, epoxy plate etc..

Embodiment 1：

Fig. 1 is the structural representation of novel high-capacity power nickel-hydrogen cell of the present invention.Fig. 2 is fixation of the present invention Plate structure schematic diagram.Fig. 3 confluxes plate structure schematic diagram for anode of the present invention.Fig. 4 is GND of the present invention Conflux plate structure schematic diagram.With reference to Fig. 1 to 4, the novel high-capacity power nickel-hydrogen cell include 3, two fixed plates 2 of battery pack, GND cylinder manifold 1, anode cylinder manifold 4 and support column 5；Battery pack 3 by 15 cylindrical power nickel-hydrogen cells 31 simultaneously Connection is combined.Two fixed plates 2 are referred to as the first fixed plate and the second fixed plate, wherein, the first fixed plate and second is consolidated The structure of fixed board is identical.GND cylinder manifold 1 is fixed in the first fixed plate；Anode cylinder manifold 4 is fixed on In two fixed plates；Insert in the first fixed plate and in the second fixed plate at the two ends of each cylindrical power nickel-hydrogen cell 31；Meanwhile, The fixation of the negative pole of all cylindrical power nickel-hydrogen cells 31 is welded on GND cylinder manifold 1；All cylindrical power nickel The fixation of the positive pole of hydrogen battery 31 is welded on anode cylinder manifold 4；The two ends of support column 5 support by fixed plate respectively Post mounting hole 22 is fixed in the first fixed plate and the second fixed plate, and the effect of support column 5 is to ensure the first fixed plate and the Length of the distance between two fixed plates equal to or slightly less than cylindrical power nickel-hydrogen cell 31.Wherein, cylindrical power ni-mh Battery 31 is each perpendicular to fixed plate 2 with support column 5.Meanwhile, 15 sizes of cylindrical power nickel-hydrogen cell 31, battery formula and Manufacture craft is identical.

Capacity tolerance between each cylindrical power nickel-hydrogen cell 31 is not more than 5%, each cylindrical power ni-mh electricity Internal resistance deviation between pond 31 is not more than the 30% of average internal resistance value.Between being provided between each cylindrical power nickel-hydrogen cell 31 Gap, the width in gap is 1.5mm.GND cylinder manifold 1 and anode cylinder manifold 4 are made of fine copper plate.

It is equipped with first fixed plate and the second fixed plate of fixed plate 2 and the outside dimension of cylindrical power nickel-hydrogen cell 31 The battery settling hole 21 and support column mounting hole 22 and positive and negative cylinder manifold positioning spiro pit 23 of matching.The number of support column 5 is 2 It is individual.Wherein, the battery settling hole 21 in the first fixed plate and the second fixed plate is 15, support column mounting hole 22 and positive and negative remittance The number of stream plate positioning spiro pit 23 is respectively 4.Meanwhile, GND cylinder manifold 1 is provided with negative pole cylinder manifold location hole 11； Wherein, the number of negative pole cylinder manifold location hole 11 is 4；Square concave structure is used at solder joint on GND cylinder manifold 1, And in concave surface spot welding nickel sheet a, and rush cross-hole.Anode cylinder manifold 4 is provided with positive pole cylinder manifold location hole 41；Its In, the number of positive pole cylinder manifold location hole 41 is 4；Square concave structure is used at solder joint on anode cylinder manifold 4, and The spot welding nickel sheet a in concave surface, and rush cross-hole.Fixed plate positioning spiro pit 23, negative pole cylinder manifold location hole 11 and positive pole converge Stream plate location hole 41 is used to for GND cylinder manifold 1 and anode cylinder manifold 4 to be individually fixed in fixed plate 2.Can basis Actual conditions, carry out taking between the first fixed plate and the second fixed plate and GND cylinder manifold 1 and anode cylinder manifold 4 Match somebody with somebody.

The thickness of above-mentioned all nickel sheet a is 0.05mm.Fixed plate 2 and support column 5 are made of insulating materials nylon66 fiber.Table 1 is novel high-capacity power nickel-hydrogen cell experimental data described in the present embodiment.

Table 1

Embodiment 2

Embodiment 2 is that the battery pack 3 is by 30 cylindrical power nickel-hydrogen cells 31 with the difference of embodiment 1 Parallel combination is formed；Support column 5 is 4；Battery settling hole 21 in first fixed plate and the second fixed plate is 30；Support The number of post mounting hole 22 and positive and negative cylinder manifold positioning spiro pit 23 is respectively 8, and the number of positive pole cylinder manifold location hole 41 is 8 Individual, the number of negative pole cylinder manifold location hole 11 is 8, and circular concave configuration is used at the solder joint on GND cylinder manifold 1.Circle Gap width between beam type power Ni-MH battery 31 is 2.5mm, and the thickness of nickel sheet a is 0.1mm.Miscellaneous part is constituted and is connected Relation is same as Example 1.

Embodiment 3

Embodiment 3 is that the gap width between cylindrical power nickel-hydrogen cell 31 is with the difference of embodiment 2 The thickness of 5mm, nickel sheet a is 0.15mm.Miscellaneous part constitutes same as Example 1 with annexation.

Although the utility model is disclosed as above with preferred embodiment, it is not limited to the utility model, appoints What person skilled in the art, is not departing from spirit and scope of the present utility model, can do various changes and modification, therefore What protection domain of the present utility model should be defined by claims is defined.

Claims (10)

1. a kind of novel high-capacity power nickel-hydrogen cell, it is characterised in that the Ni-MH battery includes battery pack (3), fixed plate (2), GND cylinder manifold (1), anode cylinder manifold (4) and support column (5)；The battery pack (3) is by multiple cylinders Power nickel-hydrogen cell (31) parallel combination is formed；Insert in fixed plate (2) at the two ends of the cylindrical power nickel-hydrogen cell (31)； The negative pole of all cylindrical power nickel-hydrogen cells (31) is fixedly installed on GND cylinder manifold (1)；All cylinders are dynamic The positive pole of power Ni-MH battery (31) is fixedly installed on anode cylinder manifold (4)；The two ends of the support column (5) are solid respectively It is scheduled in fixed plate (2)；The GND cylinder manifold (1) and anode cylinder manifold (4) are fixedly installed in fixed plate (2) On.

2. Ni-MH battery according to claim 1, it is characterised in that the fixed plate (2) includes the first fixed plate and second Fixed plate, the GND cylinder manifold (1) is fixed in the first fixed plate；The anode cylinder manifold (4) is fixed on In two fixed plates；The two ends of the support column (5) are separately fixed in the first fixed plate and the second fixed plate.

3. Ni-MH battery according to claim 2, it is characterised in that between described each cylindrical power nickel-hydrogen cell (31) Capacity tolerance be not more than 5%, the internal resistance deviation between each cylindrical power nickel-hydrogen cell (31) is not more than average internal resistance value 30%.

4. Ni-MH battery according to claim 1, it is characterised in that between described each cylindrical power nickel-hydrogen cell (31) Gap is provided with, the width in the gap is 1.5mm -5mm.

5. Ni-MH battery according to claim 1, it is characterised in that the GND cylinder manifold (1) and anode converge Stream plate (4) is made of fine copper.

6. Ni-MH battery according to claim 1, it is characterised in that the fixed plate (2) is provided with and cylindrical power nickel Battery settling hole (21), support column mounting hole (22) and positive and negative cylinder manifold positioning spiro pit that hydrogen battery (31) external diameter matches (23)。

7. Ni-MH battery according to claim 1, it is characterised in that the GND cylinder manifold (1) is provided with negative pole remittance Stream plate location hole (11)；Wherein, number M >=2 of the negative pole cylinder manifold location hole (11)；The GND cylinder manifold (1) On solder joint at use square or circular concave configuration, and the spot welding nickel sheet in concave surface, and rush cross-hole.

8. Ni-MH battery according to claim 1, it is characterised in that the anode cylinder manifold (4) is provided with positive pole remittance Stream plate location hole (41)；Wherein, number Q >=2 of the positive pole cylinder manifold location hole (41)；The anode cylinder manifold (4) On solder joint at use square or circular concave configuration, and the spot welding nickel sheet in concave surface, and rush cross-hole.

9. the Ni-MH battery according to claim 7 or 8, it is characterised in that the thickness of the nickel sheet is 0.05mm -0.15mm.

10. Ni-MH battery according to claim 1, it is characterised in that the fixed plate (2) and support column (5) are using insulation Material is made.