CN102480136A - Movable charging device - Google Patents

Abstract

The invention discloses a movable charging device, which consists of a shell part (1), a charging part (2) and a moving part (3), wherein a storage battery is fixed in the shell part (1); a power supply is connected with the storage battery by the charging part (2); the shell part (1) is connected with the moving part (3); a moving component (3-3) is driven by a motor component (3-2) to move; power is transferred to the storage battery from the shell part (1) by the moving component (3-3); electrolyte in the storage battery, on one hand, is under the action of current and voltage, and on the other hand, moves; and thus, the opportunity of collision between modules is increased, and the charging time of the storage battery is shortened.

Description

Portable charging device

The present invention relates to the charger of charge in batteries.

During existing charge in batteries, power electrode is directly received on the storage battery, let it fill a period of time after, electric weight reaches required degree and gets final product.Because this single mode is charged, and makes the charging interval long, is difficult to satisfy customer requirements sometimes, like automobile storage battery, boats and ships storage battery, wind power generation etc.

The object of the invention just provides a kind of portable charging device of quick charge.

In order to reach above purpose, the operation principle of portable charging device of the present invention is: in battery charging process, storage battery is moved, electrolyte produces and flows in moving process; The ionization that electrolyte produces under the electric field action on the electrode on the one hand; On the other hand in flow process; Material on negative electrode and anode leaves speeding up of their electrodes, and ionization is simultaneously also accelerated, and generates new molecule and accelerates; These recruits move also to other electrode and are accelerated, thereby reach the purpose that shortens the charging interval.According to above operation principle, its technical scheme is: portable charging device of the present invention is made up of shell part, charging part and mobile part; Shell is partly fixed the battery of charging, partly links with mobile simultaneously; After the part that moves partly generation motion linked with it, shell partly just produced motion under this part effect.Charging partly with the NE BY ENERGY TRANSFER of power supply to being recharged on the pond.Move partly and be made up of base, electric machine assembly and motion assembly, electric machine assembly and motion assembly are positioned on the base, and motion assembly one end and electric machine assembly link, and the other end and shell partly link.When charging partly is switched on power supply, electric machine assembly drives the motion of motion assembly, and motion assembly drive shell partly moves; Be fixed on the battery on the shell part,, produce motion on the other hand on the one hand by power source charges; Electrolyte is produced move, the collision frequency between various ions and the molecule increases, and pressure also increases; The reaction speed of chemical change is accelerated, and the charging interval shortens.Motion assembly wherein can be crank-bar linkage mechanism, also can be eccentric vibration mechanism or other motion.

After adopting above scheme, can shorten the time of charge in batteries, satisfy the utilization of storage battery in industries such as automobile and boats and ships.

With accompanying drawing and embodiment portable charging device of the present invention is described further below.

Accompanying drawing 1 is portable charging device the 1st an embodiment installation diagram of the present invention.

Accompanying drawing 2 is portable charging device the 1st embodiment accompanying drawing 1 partial sectional view of the present invention.

Accompanying drawing 3 is portable charging device the 1st embodiment accompanying drawing 1 cutaway view of the present invention.

Accompanying drawing 4 is portable charging device the 1st embodiment accompanying drawing 1 cutaway view of the present invention.

Accompanying drawing 5 is portable charging device the 2nd an embodiment subssembly drawing of the present invention.

Accompanying drawing 6 is portable charging device the 2nd embodiment accompanying drawing 5 cutaway views of the present invention.

Accompanying drawing 7 is the local amplification view of portable charging device the 2nd embodiment of the present invention.

Accompanying drawing 8 is portable charging device the 3rd an embodiment subssembly drawing of the present invention.

Accompanying drawing 9 is portable charging device the 3rd an embodiment installation diagram of the present invention.

Accompanying drawing 10 is portable charging device the 4th an embodiment installation diagram of the present invention.

In the 1st embodiment shown in accompanying drawing 1 to the accompanying drawing 4, partly form by (1), charging part (2) and mobile part (3) by shell for portable charging device of the present invention; Shell partly (1) is made up of housing (1-1), support plate (1-2) and bolt (1-3); Charging partly (2) is made up of lead (2-1) and switch (2-2); Moving part (3) is made up of base (3-1), electric machine assembly (3-2) and motion assembly (3-3); Base (3-1) is made up of stand (3-1-1), support plate (3-1-2), gusset piece (3-1-3), upper plate (3-1-4), bolt (3-1-5), nut (3-1-6) and support (3-1-7); Electric machine assembly (3-2) is made up of motor (3-2-1), spindle nut (3-2-2), bolt (3-2-3), nut (3-2-4); Motion assembly (3-3) is made up of fork (3-3-1), key (3-3-2), axle moving axis (3-3-3), nut (3-3-4), link rod (3-3-5), motion bar (3-3-6), cover (3-3-7), nut (3-3-8), carriage release lever (3-3-9), stock (3-3-10), little cover (3-3-11), wheel (3-3-12), nut (3-3-13) and quarter butt (3-3-14); Support (3-1-7) is welded on the stand (3-1-1), and motor (3-2-1) is installed on the support (3-1-7) by bolt (3-2-3) and nut (3-2-4); Fork (3-3-1) is positioned on the motor (3-2-1) by key (3-3-2) and spindle nut (3-2-2); Rotation axis (3-3-3) and nut (3-3-4) link fork (3-3-1) and link rod (3-3-5); Link rod (3-3-5) and cover (3-3-7) are linked with carriage release lever (3-3-9) by motion bar (3-3-6) and nut (3-3-8); Carriage release lever (3-3-9) end is linked with little cover (3-3-11), wheel (3-3-12) and support plate (1-2) by stock (3-3-10) and nut (3-3-13), and carriage release lever (3-3-9) other end is linked with little cover (3-3-11), wheel (3-3-12) and support plate (1-2) by quarter butt (3-3-14) and nut (3-3-13); Support plate (3-1-2) is welded on the stand (3-1-1), and bolt (3-1-5) and nut (3-1-6) link gusset piece (3-1-3) and support plate (3-1-2) and upper plate (3-1-4).Support plate (1-2) is welded on the housing (1-1), and bolt (1-3) is gone up on the silk hole of housing (1-1).During use, the battery that need are charged is placed in the housing (1-1), and (1-3) fixes them with bolt; (2-1) is connected on the battery with lead, opens switch (2-2), and battery begins charging; Connect the power supply of motor (3-2-1); Motor (3-2-1) rotates drive fork (3-3-1), link rod (3-3-5), motion bar (3-3-6), carriage release lever (3-3-9), stock (3-3-10) and quarter butt (3-3-14) and moves; Also driving wheel (3-3-12) rolls along support plate (3-1-2); Simultaneously, support plate (1-2) and housing (1-1) are driven and are begun and moved.When motor (3-2-1) rotated, motion bar (3-3-6) was done back and forth movement, and housing (1-1) is also done back and forth movement.The battery that is positioned in the housing (1-1) charges on the one hand, back and forth movement on the one hand, electrolyte in the two-way process of not stopping, the impact negative electrode and the anode that do not stop, the collision between ion and the molecule increases, chemical reaction velocity is accelerated, the charging interval shortens.

In the 2nd embodiment shown in accompanying drawing 1 and accompanying drawing 3 to the accompanying drawing 7; Portable charging device of the present invention and the 1st embodiment difference are: increased eccentric part (3-4), removed spindle nut (3-2-2), fork (3-3-1), rotation axis (3-3-3), nut (3-3-4) and link rod (3-3-5); Wherein eccentric partly (3-4) is made up of gusset piece (3-4-1), key (3-4-2), bolt (3-4-3), nut (3-4-4), main shaft (3-4-5), bearing (3-4-6), base bearing (3-4-7), casing (3-4-8), bearing cap (3-4-9), main beating cap (3-4-10), major axis cover (3-4-11), short sleeve (3-4-12), spindle nut (3-4-13), bolt (3-4-14), nut (3-4-15) and half link rod (3-4-16); Key (3-3-2) and key (3-4-2); And two gusset pieces (3-4-1) are positioned on respectively on motor (3-2-1) and the main shaft (3-4-5) by bolt (3-4-3) and nut (3-4-4); Bearing (3-4-6), base bearing (3-4-7), major axis cover (3-4-11), short sleeve (3-4-12) and spindle nut (3-4-13) are positioned on the main shaft (3-4-5); These parts are placed on the casing (3-4-8); Bearing cap (3-4-9) and main beating cap (3-4-10) are covered respectively on bearing (3-4-6) and base bearing (3-4-7), respectively they are fixed on casing (3-4-8) and half link rod (3-4-16) by bolt (3-4-14) and nut (3-4-15) then.Half link rod (3-4-16) other end is identical with link rod (3-3-5) among the 1st embodiment.Going up the axial line of base bearing (3-4-7) position being installed and bearing (3-4-6) position being installed at main shaft (3-4-5) does not have not point-blank, promptly eccentric.(3-2-1) is switched on when motor, and main shaft (3-4-5) rotates, and is eccentric position because half link rod (3-4-16) is installed in main shaft (3-4-5), so half link rod (3-4-16) other end can vibrate fast, battery also vibrates, thereby reaches and the 1st embodiment effect same.

In the 3rd embodiment shown in accompanying drawing 8 and the accompanying drawing 9, it and the 2nd embodiment difference are: shell partly (1) is made up of housing (1-1) and bolt (1-2); Moving part (3) is made up of base (3-1), electric machine assembly (3-2) and eccentric part (3-4); Base (3-1) is made up of stand (3-1-1); Electric machine assembly (3-2) is made up of motor (3-2-1), bolt (3-2-2) and nut (3-2-3); Eccentric partly (3-4) is made up of gusset piece (3-4-1), key (3-4-2), bolt (3-4-3), nut (3-4-4), main shaft (3-4-5), bearing (3-4-6), case lid (3-4-7), casing (3-4-8), major axis cover (3-4-9), short sleeve (3-4-10), spindle nut (3-4-11), bolt (3-4-12) and nut (3-4-13); Stand (3-1-1) is welded on the housing (1-1); Casing (3-4-8) is positioned on the stand (3-1-1) by bolt (3-4-12) and nut (3-4-13); Motor (3-2-1) is positioned on the casing (3-4-8) by bolt (3-2-2) and nut (3-2-3); Two keys (3-4-2) and two gusset pieces (3-4-1) are positioned on motor (3-2-1) end and main shaft (3-4-5) end respectively, and two gusset pieces (3-4-1) are linked by bolt (3-4-3) and nut (3-4-4).Be equipped with major axis cover (3-4-9), bearing (3-4-6) and short sleeve (3-4-10) on the main shaft (3-4-5), two ends are locked by spindle nut (3-4-11).Case lid (3-4-7) covers on casing (3-4-8), is linked by bolt (3-4-12) and nut (3-4-13).Main shaft (3-4-5) also is an eccentric shaft.During use, storage battery is installed in the housing (1-1), on go into bolt (1-2), connect lead (2-1), open switch (2-2), with motor (3-2-1) power connection; Motor (3-2-1) rotates, and drives gusset piece (3-4-1) and main shaft (3-4-5) and rotates.Because main shaft (3-4-5) is an eccentric shaft, swing in the rotation process, drive the swing of casing (3-4-8) and stand (3-1-1), thereby make the storage battery swing in the housing (1-1), reach and preceding embodiment same effect.

In accompanying drawing 8 and the 4th embodiment shown in the accompanying drawing 10, it and the 3rd embodiment difference are: housing (1-1) has the version of yoke plate above being.During use, (1-1) covers on storage battery with housing, and other operation is identical with the 3rd embodiment with effect.

Claims (5)

1. a portable charging device partly is made up of charging, and charging partly is made up of lead and switch; After the need storage batteries installs, with lead one termination power, a termination storage battery; The centre is equipped with switch, it is characterized in that: storage battery is positioned on the storage battery in the shell (1) in charging process; Under the effect of moving part (3), produce motion, make the electrolyte in the storage battery produce motion, electrolyte exchanges the number of times increase with negative electrode with anode; Collision increases between the molecule, and chemical reaction velocity is accelerated, and the charging interval shortens.

2. portable charging device according to claim 1 is characterized in that: portable charging device is made up of shell part (1) and mobile partly (3); Shell partly (1) is made up of housing (1-1), support plate (1-2) and bolt (1-3); Support plate (1-2) is welded on the housing (1-1), and bolt (1-3) is installed in the silk hole of housing (1-1); After storage battery was put into housing (1-1), (1-3) was fixed by bolt; (3) link support plate (1-2) with moving partly.

3. according to claim 1 and 2 described portable charging devices, it is characterized in that: move part (3) and form by base (3-1), electric machine assembly (3-2) and motion assembly (3-3); Base (3-1) is made up of stand (3-1-1) support plate (3-1-2), gusset piece (3-1-3), upper plate (3-1-4), bolt (3-1-5), nut (3-1-6) and support (3-1-7); Electric machine assembly (3-2) is made up of motor (3-2-1), spindle nut (3-2-2), bolt (3-2-3), nut (3-2-4); Motion assembly (3-3) is made up of fork (3-3-1), key (3-3-2), axle moving axis (3-3-3), nut (3-3-4), link rod (3-3-5), motion bar (3-3-6), cover (3-3-7), nut (3-3-8), carriage release lever (3-3-9), stock (3-3-10), little cover (3-3-11), wheel (3-3-12), nut (3-3-13) and quarter butt (3-3-14); Support (3-1-7) is welded on the stand (3-1-1), and motor (3-2-1) is installed on the support (3-1-7) by bolt (3-2-3) and nut (3-2-4); Fork (3-3-1) is positioned on the motor (3-2-1) by key (3-3-2) and spindle nut (3-2-2); Rotation axis (3-3-3) and nut (3-3-4) link fork (3-3-1) and link rod (3-3-5); Link rod (3-3-5) and cover (3-3-7) are linked with carriage release lever (3-3-9) by motion bar (3-3-6) and nut (3-3-8); Carriage release lever (3-3-9) end is linked with little cover (3-3-11), wheel (3-3-12) and support plate (1-2) by stock (3-3-10) and nut (3-3-13), and carriage release lever (3-3-9) other end is linked with little cover (3-3-11), wheel (3-3-12) and support plate (1-2) by quarter butt (3-3-14) and nut (3-3-13); Support plate (3-1-2) is welded on the stand (3-1-1), and bolt (3-1-5) and nut (3-1-6) link gusset piece (3-1-3) and support plate (3-1-2) and upper plate (3-1-4).

4. portable charging device according to claim 1 is characterized in that: portable charging device is made up of shell part (1) and mobile partly (3); Shell partly (1) is made up of housing (1-1) and bolt (1-2); Bolt (1-2) is positioned in the silk hole of housing (1-1); After storage battery was put into housing (1-1), (1-2) was fixed by bolt.

5. according to claim 1 and 4 described portable charging devices, it is characterized in that: move part (3) and form by base (3-1), electric machine assembly (3-2) and eccentric part (3-4); Base (3-1) is made up of stand (3-1-1); Electric machine assembly (3-2) is made up of motor (3-2-1), bolt (3-2-2) and nut (3-2-3); Eccentric partly (3-4) is made up of gusset piece (3-4-1), key (3-4-2), bolt (3-4-3), nut (3-4-4), main shaft (3-4-5), bearing (3-4-6), Su Gai (3-4-7), casing (3-4-8), major axis cover (3-4-9), short sleeve (3-4-10), spindle nut (3-4-11), bolt (3-4-12), nut (3-4-13); Stand (3-1-1) is welded on the housing (1-1); Casing (3-4-8) is positioned on the stand (3-1-1) by bolt (3-4-12) and nut (3-4-13); Motor (3-2-1) is positioned on the place body (3-4-8) by bolt (3-2-2) and nut (3-2-3); Two keys (3-4-2) and two gusset pieces (3-4-1) are positioned on motor (3-2-1) end and main shaft (3-4-5) end respectively, and two gusset pieces (3-4-1) are linked by bolt (3-4-3) and nut (3-4-4); Be equipped with major axis cover (3-4-9), bearing (3-4-6) and short sleeve (3-4-10) on the main shaft (3-4-5), two ends are locked by spindle nut (3-4-11); Case lid (3-4-7) covers on casing (3-4-8), is linked by bolt (3-4-12) and nut (3-4-13).

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