CN102468679A - Pressurized charging device - Google Patents
Pressurized charging device Download PDFInfo
- Publication number
- CN102468679A CN102468679A CN2010105333027A CN201010533302A CN102468679A CN 102468679 A CN102468679 A CN 102468679A CN 2010105333027 A CN2010105333027 A CN 2010105333027A CN 201010533302 A CN201010533302 A CN 201010533302A CN 102468679 A CN102468679 A CN 102468679A
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- China
- Prior art keywords
- battery
- lead
- gear
- bolt
- motor
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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
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
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- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Abstract
The invention discloses a pressurized charging device that comprises a rotating part (1), a positioning part (2), and a power transmission part (3). The positioning part (2) and the power transmission part (3) are installed on the rotating part (1); the positioning part (2) is used for fixing a battery; the power transmission part (3) transmits a power source into the battery when the whole machine is rotated. During the charging process of the battery, pressures of an electrolyte on electrodes are strengthened, fluidity is enhanced, the collision probability between all molecules is increased, chemical reaction time is reduced, and charging time is shortened.
Description
The present invention relates to device for charge in batteries.
The electric energy charging that existing storage battery leans on power supply to transmit owing to there is not other householder method to help, so the charging interval is long, is difficult to satisfy customer requirements, causes negative effect for the popularization of electric automobile, makes electric automobile be difficult to popularize.
The object of the invention just provides a kind of pressurization charging device that can shorten the charging interval.
In order to reach above purpose, the pressurize operation principle of charging device of the present invention is: in charging process, adopt high speed rotating, make electrolyte under centrifugal action, electrode is produced pressure, electrolyte is increased by the amount of ionization.Simultaneously, make its mobile increasing, various ion collision chances increase, thereby reach the purpose of quick charge.According to above operation principle, its technical scheme is: the pressurization charging device rotates part by Power Component by rotating partly, locate partly and sending electricity partly to form; Transmission component, runner assembly and base assembly are formed; Send the electricity part partly to be positioned on the location and rotate on the part, Power Component and transmission component are positioned on the base assembly, and runner assembly is positioned on the transmission component; Send electricity partly power supply to be delivered to the location partly, the location partly with the battery that will charge fix.During use, battery is placed in the riser, uses clamping screw, battery is fixed, connect send electricity partly in lead, starting Power Component medium power makes it to drive transmission component, transmission component drives runner assembly and rotates, thereby while battery is charged rotate.
After adopting above method; Electrolyte in the battery produces pressure to each electrode under centrifugal action, produce certain relative motion again simultaneously, thereby has enlarged ion and molecule collides probability each other; Speeding up of chemical reaction makes the time of whole charging process shorten.It can also can be installed on the products such as automobile and boats and ships, as the power of automobile and boats and ships with battery independently as the charging device charging together.
With accompanying drawing and embodiment pressurization charging device of the present invention is described further below.
Accompanying drawing 1 is the present invention's local installation diagram that amplifies of charging device the 1st embodiment that pressurizes.
Accompanying drawing 2 is the present invention's charging device the 1st embodiment partial view of pressurizeing.
In the 1st embodiment shown in accompanying drawing 1 to the accompanying drawing 2; Pressurization charging device of the present invention is by rotating part (1), location part (2) and sending electric partly (3) to form, and rotation partly (1) is made up of Power Component (1-1), transmission component (1-2), runner assembly (1-3) and base assembly (1-4); Power Component (1-1) is made up of motor (1-1-1), gear (1-1-2), key (1-1-3), bolt (1-1-4), bolt (1-1-5) and nut (1-1-6); Transmission component (1-2) is made up of main shaft (1-2-1), bearing (1-2-2), gear (1-2-3), key (1-2-4), cover (1-2-5), end cap (1-2-6), spindle nut (1-2-7), bolt (1-2-8), pad (1-2-9) and snap ring (1-2-10); Runner assembly (1-3) is made up of rotating disk (1-3-1); Location partly (2) is made up of riser (2-1) and clamping screw (2-2); Send electricity part (3) to form by shell (3-1), carbon brush (3-2), spring (3-3), lead (3-4), baffle plate (3-5), bolt (3-6), copper ring (3-7), interior cover (3-8) and a bundle rope (3-9).Riser (2-1) is welded on the rotating disk (1-3-1), and clamping screw (2-2) is positioned on the riser (2-1), and rotating disk (1-3-1) is installed on the main shaft (1-2-1) by spindle nut (1-2-7) and pad (1-2-9); On main shaft (1-2-1), be equipped with bearing (1-2-2), cover (1-2-5), end cap (1-2-6), interior cover (3-8), gear (1-2-3) and key (1-2-4); Spindle nut (1-2-7) is positioned on main shaft (1-2-1) end, and end cap (1-2-6) is positioned on the chassis (1-4-1) by bolt (1-2-8).Key (1-1-3) and gear (1-1-2) are positioned on the motor (1-1-1), and motor (1-1-1) end is equipped with bolt (1-1-4); Motor (1-1-1) is positioned on the base assembly (1-4) by bolt (1-1-5) and nut (1-1-6).Gear (1-2-3) and gear (1-1-2) are meshing with each other.Spring (3-3), baffle plate (3-5) and carbon brush (3-2) are placed in the hole of shell (3-1), and lead (3-4) end and carbon brush (3-2) weld together, another termination power, and lead (3-4) is bundled on the main shaft (1-2-1) by a bundle rope (3-9); Shell (3-1) is installed on the base assembly (1-4) by bolt (3-6).Copper ring (3-7) is glued on the interior cover (3-8); Carbon brush (3-2) is pushed down copper ring (3-7) all the time under spring (3-3) effect; Another group lead (3-4) links with copper ring (3-7), and two leads (3-4) are received on the rechargeable battery after passing the hole in the gear (1-2-3) again.The lead (3-4) that wherein links with following copper ring (3-7) passes in the hole of cover (3-8) and gear (1-2-3) in top.After in battery is placed on riser (2-1); (2-2) compresses it by clamping screw, and (3-4) is connected on the battery lead, with motor (1-1-1) and lead (3-4) power connection; Lead (3-4) partly passes to carbon brush (3-2) with electric current from power supply on the one hand; Pass to copper ring (3-7), again from lead (3-4) to battery, make battery charge; Meanwhile, motor (1-1-1) driven gear (1-1-2) rotates, thereby gear (1-2-3) is rotated, and drives rotating disk (1-3-1) and rotates, and battery is rotated.Battery is in rotation process, and electrolyte produces pressure to each electrode under centrifugal action, make molecular ionization add piece, produces certain relative motion again simultaneously, thereby has enlarged the probability that ion collides each other.
Claims (2)
1. a pressurization charging device is made up of lead (3-4), it is characterized in that: locate part (2) and send electricity part (3) to be positioned on the rotation part (1); Battery is fixed in location partly (2), send electricity part (3) when complete machine rotates, and power supply is delivered in the battery; Battery is in charging process, because battery rotates, electrolyte is strengthened electrode pressure, its mobile increasing, and the charging interval shortens.
2. boost charge device according to claim 1 is characterized in that: rotate part (1) and be made up of Power Component (1-1), transmission component (1-2), runner assembly (1-3) and base assembly (1-4); Power Component (1-1) is made up of motor (1-1-1), gear (1-1-2), key (1-1-3), bolt (1-1-4), bolt (1-1-5) and nut (1-1-6); Transmission component (1-2) is made up of main shaft (1-2-1), bearing (1-2-2), gear (1-2-3), key (1-2-4), cover (1-2-5), end cap (1-2-6), spindle nut (1-2-7), bolt (1-2-8), pad (1-2-9) and snap ring (1-2-10); Runner assembly (1-3) is made up of rotating disk (1-3-1); Location partly (2) is made up of riser (2-1) and clamping screw (2-2); Send electricity part (3) to form by shell (3-1), carbon brush (3-2), spring (3-3), lead (3-4), baffle plate (3-5), bolt (3-6), copper ring (3-7), interior cover (3-8) and a bundle rope (3-9).Riser (2-1) is welded on the rotating disk (1-3-1), and clamping screw (2-2) is positioned on the riser (2-1), and rotating disk (1-3-1) is installed on the main shaft (1-2-1) by spindle nut (1-2-7) and pad (1-2-9); On main shaft (1-2-1), be equipped with bearing (1-2-2), cover (1-2-5), end cap (1-2-6), interior cover (3-8), gear (1-2-3) and key (1-2-4); Spindle nut (1-2-7) is positioned on main shaft (1-2-1) end, and end cap (1-2-6) is positioned on the chassis (1-4-1) by bolt (1-2-8); Key (1-1-3) and gear (1-1-2) are positioned on the motor (1-1-1), and motor (1-1-1) end is equipped with bolt (1-1-4); Motor (1-1-1) is positioned on the base assembly (1-4) by bolt (1-1-5) and nut (1-1-6); Gear (1-2-3) and gear (1-1-2) are meshing with each other; Spring (3-3), baffle plate (3-5) and carbon brush (3-2) are placed in the hole of shell (3-1), and lead (3-4) end and carbon brush (3-2) weld together, another termination power, and lead (3-4) is bundled on the main shaft (1-2-1) by a bundle rope (3-9); Shell (3-1) is installed on the base assembly (1-4) by bolt (3-6); Copper ring (3-7) is glued on the interior cover (3-8); Carbon brush (3-2) is pushed down copper ring (3-7) all the time under spring (3-3) effect; Another group lead (3-4) links with copper ring (3-7), and two leads (3-4) are received on the rechargeable battery after passing the hole in the gear (1-2-3) again; The lead (3-4) that wherein links with following copper ring (3-7) passes in the hole of cover (3-8) and gear (1-2-3) in top; After in battery is placed on riser (2-1); (2-2) compresses it by clamping screw, and (3-4) is connected on the battery lead, with motor (1-1-1) and lead (3-4) power connection; Lead (3-4) partly passes to carbon brush (3-2) with electric current from power supply on the one hand; Pass to copper ring (3-7), again from lead (3-4) to battery, make battery charge; Meanwhile, motor (1-1-1) driven gear (1-1-2) rotates, thereby gear (1-2-3) is rotated, and drives rotating disk (1-3-1) and rotates, and battery is rotated.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010105333027A CN102468679A (en) | 2010-11-05 | 2010-11-05 | Pressurized charging device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010105333027A CN102468679A (en) | 2010-11-05 | 2010-11-05 | Pressurized charging device |
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CN102468679A true CN102468679A (en) | 2012-05-23 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2010105333027A Pending CN102468679A (en) | 2010-11-05 | 2010-11-05 | Pressurized charging device |
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CN (1) | CN102468679A (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1988239A (en) * | 2005-12-22 | 2007-06-27 | 比亚迪股份有限公司 | Dynamic ageing method and its dynamic ageing device for battery |
US20090207600A1 (en) * | 2008-01-31 | 2009-08-20 | Night Operations Systems | Removable handle and battery pack for lighting system |
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2010
- 2010-11-05 CN CN2010105333027A patent/CN102468679A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1988239A (en) * | 2005-12-22 | 2007-06-27 | 比亚迪股份有限公司 | Dynamic ageing method and its dynamic ageing device for battery |
US20090207600A1 (en) * | 2008-01-31 | 2009-08-20 | Night Operations Systems | Removable handle and battery pack for lighting system |
Non-Patent Citations (1)
Title |
---|
李荻: "电化学原理", 《电化学原理》 * |
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Application publication date: 20120523 |