CN209544541U - A kind of nickel-metal hydride battery component having shock resistance - Google Patents
A kind of nickel-metal hydride battery component having shock resistance Download PDFInfo
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- CN209544541U CN209544541U CN201920115126.1U CN201920115126U CN209544541U CN 209544541 U CN209544541 U CN 209544541U CN 201920115126 U CN201920115126 U CN 201920115126U CN 209544541 U CN209544541 U CN 209544541U
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- spring
- fixedly installed
- groove
- battery component
- supporting block
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Abstract
The utility model discloses a kind of nickel-metal hydride battery components for having shock resistance, including battery component ontology, the top and bottom of the battery component ontology are fixedly installed with compressive pads, cavity is offered in compressive pads, multiple first connecting plates are fixedly installed in the top inner wall of cavity, multiple second connecting plates are fixedly installed in the bottom interior wall of cavity, and multiple second connecting plates are arranged in a one-to-one correspondence with multiple first connecting plates, second connecting plate opens up fluted close to the side of battery component ontology, the two sides of groove are fixedly installed with the same support rod, being slidably installed in groove, there are two supporting blocks, and supporting block is movably set on corresponding support rod, same first spring is fixedly installed between two supporting blocks in the same groove.The utility model is designed reasonably, structure is simple, easy to operate, by the first spring, the elastic deformation of second spring and third spring, absorbs to impact force.
Description
Technical field
The utility model relates to nickel-metal hydride battery component technology field more particularly to a kind of ni-mh electricity for having shock resistance
Pond component.
Background technique
Nickel-metal hydride battery is a kind of battery of good performance.Nickel-metal hydride battery is divided into high pressure nickel-metal hydride battery and low pressure ni-mh electricity
Pond.Anode of nickel-metal hydride battery active material is Ni (OH) 2 (claiming NiO electrode), and negative electrode active material is metal hydride, also referred to as hydrogen storage
Alloy (electrode claims hydrogen-storage electrode), electrolyte is 6mol/L potassium hydroxide solution, and current existing nickel-metal hydride battery group is using
In the process, the top and bottom of nickel-metal hydride battery group are easy by extraneous impact force, and are damaged, and there is be not easy to have
The problem of shock resistance, therefore we have proposed a kind of nickel-metal hydride battery components for having shock resistance for solving above-mentioned ask
Topic.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and the one kind proposed has shock resistance
The nickel-metal hydride battery component of performance.
To achieve the goals above, the utility model adopts the technical scheme that
A kind of nickel-metal hydride battery component having shock resistance, including battery component ontology, the battery component ontology
Top and bottom are fixedly installed with compressive pads, and cavity is offered in compressive pads, is fixedly installed in the top inner wall of cavity more
A first connecting plate, is fixedly installed with multiple second connecting plates in the bottom interior wall of cavity, and multiple second connecting plates with it is multiple
First connecting plate is arranged in a one-to-one correspondence, and the second connecting plate opens up fluted, the two sides of groove close to the side of battery component ontology
Be fixedly installed with the same support rod, be slidably installed in groove there are two supporting block, and supporting block be movably set in it is corresponding
On support rod, same first spring, and the first spring are fixedly installed between two supporting blocks in the same groove
It is movably set on corresponding support rod, one end of compression bar is hinged at the top of supporting block, the other end of compression bar is hinged on correspondence
The first connecting plate on, offer spring groove on the two sides inner wall of groove, spring groove is solid on the side inner wall far from its opening
Dingan County is equipped with one end of second spring, and the other end of second spring is fixedly mounted in corresponding supporting block.
Preferably, be fixedly installed with one end of multiple third springs in the top inner wall of the cavity, third spring it is another
One end is fixedly mounted in the bottom interior wall of cavity.
Preferably, the first hole is offered in the supporting block, and supporting block is movably set in corresponding branch by the first hole
On strut.
Preferably, sliding groove, the fixed peace in the bottom of supporting block are offered on side inner wall of the groove far from its opening
Equipped with sliding shoe, and sliding shoe is slidably mounted in sliding groove.
Preferably, the bottom of the sliding shoe, which rolls, is equipped with spin, and spin is rolled with corresponding sliding groove and connected.
Preferably, the first attachment base is fixedly installed at the top of the supporting block, the first attachment base is equipped with the first pivot pin,
And one end of compression bar is rotatablely connected by the first pivot pin with corresponding first attachment base.
Preferably, the other end of the compression bar is equipped with the second pivot pin, and the other end of compression bar passes through the second pivot pin and first
Connecting plate rotation connection.
Compared with prior art, the utility model has the beneficial effects that
It is matched by battery component ontology, compressive pads, cavity, the first connecting plate, the second connecting plate and third spring, when
When battery component ontology is by impact force, deformation occurs for compressive pads, so that compressive pads compress third spring, so that third spring is sent out
Raw elastic deformation, absorbs a part of impact force.
It is matched by groove, support rod, supporting block, the first spring, compression bar, spring groove and second spring, compressive pads band
Dynamic first connecting plate is moved, and the first connecting plate is mobile to drive compression bar to be moved, and compression bar drives supporting block to be moved, and makes
It obtains and the first spring is moved and compressed to side close to each other positioned at two supporting blocks in the same groove, supporting block is mobile
Second spring is stretched, so that elastic deformation occurs for the first spring and second spring, so that the first spring and second spring
Another part impact force is absorbed.
The utility model is designed reasonably, structure is simple, easy to operate, passes through the first spring, second spring and third spring
Elastic deformation, impact force is absorbed.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of nickel-metal hydride battery component for having shock resistance structural schematic diagram;
Fig. 2 be the utility model proposes the structure of part A of nickel-metal hydride battery component for having shock resistance a kind of show
It is intended to;
Fig. 3 be the utility model proposes the structure of part B of nickel-metal hydride battery component for having shock resistance a kind of show
It is intended to.
In figure: 1 battery component ontology, 2 compressive pads, 3 cavitys, 4 first connecting plates, 5 second connecting plates, 6 grooves, 7 supports
Bar, 8 supporting blocks, 9 first springs, 10 compression bars, 11 spring grooves, 12 second springs, 13 third springs.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-3, a kind of nickel-metal hydride battery component having shock resistance, including battery component ontology 1, battery component
The top and bottom of ontology 1 are fixedly installed with compressive pads 2, and cavity 3 is offered in compressive pads 2, is consolidated in the top inner wall of cavity 3
Dingan County is equipped with multiple first connecting plates 4, is fixedly installed with multiple second connecting plates 5, and multiple second in the bottom interior wall of cavity 3
Connecting plate 5 is arranged in a one-to-one correspondence with multiple first connecting plates 4, and the second connecting plate 5 is offered close to the side of battery component ontology 1
Groove 6, the two sides of groove 6 are fixedly installed with the same support rod 7, and being slidably installed in groove 6, there are two supporting blocks 8, and prop up
Bracer 8 is movably set on corresponding support rod 7, is fixedly installed between two supporting blocks 8 in the same groove 6 same
One the first spring 9, and the first spring 9 is movably set on corresponding support rod 7, the top of supporting block 8 is hinged with compression bar 10
One end, the other end of compression bar 10 is hinged on corresponding first connecting plate 4, offers spring on the two sides inner wall of groove 6
Slot 11, spring groove 11 are fixedly installed with one end of second spring 12 on the side inner wall far from its opening, second spring 12 it is another
One end is fixedly mounted in corresponding supporting block 8, passes through battery component ontology 1, compressive pads 2, cavity 3, the first connecting plate 4,
Two connecting plates 5 and third spring 13 match, and when battery component ontology 1 is by impact force, deformation occurs for compressive pads 2, so that
Compressive pads 2 compress third spring 13, so that elastic deformation occurs for third spring 13, absorb, pass through to a part of impact force
Groove 6, support rod 7, supporting block 8, the first spring 9, compression bar 10, spring groove 11 and second spring 12 match, and compressive pads 2 drive
First connecting plate 4 is moved, and the first connecting plate 4 is mobile to drive compression bar 10 to be moved, and compression bar 10 drives supporting block 8 to be moved
It is dynamic, so that being located at two supporting blocks 8 in the same groove 6 is moved to side close to each other and compressed the first spring 9, prop up
The movement of bracer 8 stretches second spring 12, so that elastic deformation occurs for the first spring 9 and second spring 12, so that first
Spring 9 and second spring 12 absorb another part impact force, and the utility model is designed reasonably, structure is simple, operation side
Just, by the elastic deformation of the first spring 9, second spring 12 and third spring 13, impact force is absorbed.
In the utility model, one end of multiple third springs 13, third bullet are fixedly installed in the top inner wall of cavity 3
The other end of spring 13 is fixedly mounted in the bottom interior wall of cavity 3, offers the first hole in supporting block 8, and supporting block 8 passes through the
One hole is movably set on corresponding support rod 7, and groove 6 offers sliding groove, supporting block on the side inner wall far from its opening
8 bottom is fixedly installed with sliding shoe, and sliding shoe is slidably mounted in sliding groove, and the bottom of sliding shoe, which rolls, is equipped with rolling
Ball, and spin is rolled with corresponding sliding groove and is connected, the top of supporting block 8 is fixedly installed with the first attachment base, the first attachment base
It is equipped with the first pivot pin, and one end of compression bar 10 is rotatablely connected by the first pivot pin with corresponding first attachment base, compression bar 10
The other end is equipped with the second pivot pin, and the other end of compression bar 10 is rotatablely connected by the second pivot pin and the first connecting plate 4, passes through electricity
Pond component body 1, compressive pads 2, cavity 3, the first connecting plate 4, the second connecting plate 5 and third spring 13 match, and work as battery pack
When part ontology 1 is by impact force, deformation occurs for compressive pads 2, so that compressive pads 2 compress third spring 13, so that third spring 13
Elastic deformation occurs, a part of impact force is absorbed, groove 6, support rod 7, supporting block 8, the first spring 9, compression bar are passed through
10, spring groove 11 and second spring 12 match, and compressive pads 2 drive the first connecting plate 4 to be moved, and the first connecting plate 4 is mobile
Compression bar 10 is driven to be moved, compression bar 10 drives supporting block 8 to be moved, so that being located at two supporting blocks 8 in the same groove 6
The first spring 9 is moved and compressed to side close to each other, the movement of supporting block 8 stretches second spring 12, so that
Elastic deformation occurs for the first spring 9 and second spring 12 so that the first spring 9 and second spring 12 to another part impact force into
Row absorbs, and the utility model is designed reasonably, structure is simple, easy to operate, passes through the first spring 9, second spring 12 and third bullet
The elastic deformation of spring 13, absorbs impact force.
Working principle: in use, when battery component ontology 1 is by impact force, deformation occurs for compressive pads 2, so that resistance to compression
Pad 2 compresses third spring 13, so that elastic deformation occurs for third spring 13, absorbs to a part of impact force, 2 band of compressive pads
Dynamic first connecting plate 4 is moved, and the first connecting plate 4 is mobile to drive compression bar 10 to be moved, compression bar 10 drive supporting block 8 into
Row movement is moved to side close to each other so that being located at two supporting blocks 8 in the same groove 6 and compresses the first spring
9, the movement of supporting block 8 stretches second spring 12, so that elastic deformation occurs for the first spring 9 and second spring 12, so that
First spring 9 and second spring 12 absorb another part impact force, pass through the first spring 9, second spring 12 and third
The elastic deformation of spring 13, absorbs impact force.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (4)
1. a kind of nickel-metal hydride battery component for having shock resistance, including battery component ontology (1), which is characterized in that the electricity
The top and bottom of pond component body (1) are fixedly installed with compressive pads (2), and cavity (3), cavity are offered in compressive pads (2)
(3) it is fixedly installed with multiple first connecting plates (4) in top inner wall, is fixedly installed in the bottom interior wall of cavity (3) multiple
Second connecting plate (5), and multiple second connecting plates (5) are arranged in a one-to-one correspondence with multiple first connecting plates (4), the second connecting plate
(5) side close to battery component ontology (1) opens up fluted (6), and the two sides of groove (6) are fixedly installed with the same support
Bar (7), being slidably installed in groove (6), there are two supporting block (8), and supporting block (8) is movably set in corresponding support rod (7)
On, same first spring (9), and the first bullet are fixedly installed between two supporting blocks (8) in the same groove (6)
Spring (9) is movably set on corresponding support rod (7), and one end of compression bar (10), compression bar (10) are hinged at the top of supporting block (8)
The other end be hinged on corresponding first connecting plate (4), spring groove (11), bullet are offered on the two sides inner wall of groove (6)
Spring slot (11) is fixedly installed with one end of second spring (12) on the side inner wall far from its opening, second spring (12) it is another
End is fixedly mounted on corresponding supporting block (8), is fixedly installed with multiple third springs in the top inner wall of the cavity (3)
(13) other end of one end, third spring (13) is fixedly mounted in the bottom interior wall of cavity (3), on the supporting block (8)
The first hole is offered, and supporting block (8) is movably set on corresponding support rod (7) by the first hole, the groove (6) is separate
Sliding groove is offered on its side inner wall being open, the bottom of supporting block (8) is fixedly installed with sliding shoe, and sliding shoe sliding peace
In sliding groove.
2. a kind of nickel-metal hydride battery component for having shock resistance according to claim 1, which is characterized in that the sliding
The bottom of block, which rolls, is equipped with spin, and spin is rolled with corresponding sliding groove and connected.
3. a kind of nickel-metal hydride battery component for having shock resistance according to claim 1, which is characterized in that the support
The first attachment base is fixedly installed at the top of block (8), the first attachment base is equipped with the first pivot pin, and one end of compression bar (10) passes through
First pivot pin is rotatablely connected with corresponding first attachment base.
4. a kind of nickel-metal hydride battery component for having shock resistance according to claim 1, which is characterized in that the compression bar
(10) the other end is equipped with the second pivot pin, and the other end of compression bar (10) is connected by the second pivot pin and the first connecting plate (4) rotation
It connects.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920115126.1U CN209544541U (en) | 2019-01-23 | 2019-01-23 | A kind of nickel-metal hydride battery component having shock resistance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920115126.1U CN209544541U (en) | 2019-01-23 | 2019-01-23 | A kind of nickel-metal hydride battery component having shock resistance |
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Publication Number | Publication Date |
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CN209544541U true CN209544541U (en) | 2019-10-25 |
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CN201920115126.1U Active CN209544541U (en) | 2019-01-23 | 2019-01-23 | A kind of nickel-metal hydride battery component having shock resistance |
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CN (1) | CN209544541U (en) |
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2019
- 2019-01-23 CN CN201920115126.1U patent/CN209544541U/en active Active
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