JP2007157675A - Storage battery - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery in which periodical replenishment of an electrolytic liquid is eliminated primarily in the vehicle mounted storage battery, and by preventing lowering of voltage even at a winter time or the like, starting of engines can be performed smoothly. <P>SOLUTION: An auxiliary tank 10 for electrolytic liquid is installed, and the electrolytic liquid is compulsorily circulated between the auxiliary tank and the storage battery main body, thereby, replenishment of the electrolytic liquid is protracted and electrolysis action is promoted. Further, same number of generators 28 as a plurality of generating water wheels 18 are equipped, and by circulation of the electrolytic liquid, the generating water wheels are rotated to generate electric power, and the storage battery is charged. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention mainly relates to an in-vehicle storage battery.

  Conventional storage batteries need to be replenished with electrolyte regularly, and the electrolytic action is reduced particularly during the low temperature period in winter, causing the voltage to drop and making it impossible to start the engine in an automobile or the like.

  In the conventional storage battery, the capacity of each battery case is small, and the capacity tends to be reduced due to evaporation of the electrolyte at high temperatures in summer. At low temperatures in winter, the scientific reaction of the electrolyte slows down, current capacity is insufficient, and charging from another generator is essential.

  By providing the auxiliary storage tank capacity of the conventional storage battery, the capacity is increased and the electrolytic solution is forcedly circulated, thereby improving the electrolytic action and simultaneously pouring the electrolytic solution from the auxiliary tank into the battery case. The storage battery is charged by an electromotive force of a generator directly connected to a plurality of water wheels and a water wheel rotating shaft in a discharge pipe to be sent.

The invention's effect

  By providing the turbine and the generator as described above, it is possible to replenish the current voltage that the main storage battery originally needs to maintain and maintain constant power at all times.

Implementation of the invention

  Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 shows a front perspective view of the embodiment. 2 and 3, 3 is a battery case, 10 is an auxiliary tank, and 16 is a circulation pump. The circulation pump 16 is provided for each battery case, and is driven by one DC motor 20. The timer 31 operates for a certain period of time after the start switch is disconnected, and then repeatedly stops for a certain period to drive the DC motor 20. The auxiliary tank 10 is divided into the number of the battery case 3 inside corresponding to the battery case 3. Each battery case 3 is connected to an auxiliary tank 10 by a circulation pipe 14.

  FIG. 3 shows the flow of the electrolyte. The suction ports of the circulation pump 16 are connected to the auxiliary tank 10 and the suction port pipe 15 respectively. The discharge port of the circulation pump 16 is connected to each battery case 3 by a discharge port pipe 19. When the circulation pump 16 is rotated by the operation of the DC motor 20, the auxiliary electrolyte solution 11 in the auxiliary tank 10 is sucked from the suction port pipe 15 and discharged into the battery case 3 through the discharge port pipe 19.

  In FIG. 3, the auxiliary electrolyte solution 11 is forcibly delivered from the discharge pipe 19 to the battery case 3 by the rotation of the circulation pump 16. The electrolytic solution that is forcibly injected rotates a plurality of power generation turbines 18 provided inside the discharge port by the force of the flow velocity generated inside the discharge port pipe 19.

  As for the rotation of the plurality of power generation turbines 18, small generators 28 are connected to the respective power generation turbines 18 at the projecting ends of the rotating shafts 27 projecting outward from the partition walls 21 of each battery case 3. The rotation of the power generation turbine 18 starts power generation at the same time as the small generator 28 is rotated through the rotating shaft 27. The generated electric power V2 charges the storage battery 22 through the charger 30.

  In FIG. 3, the power generation turbine disposed inside the discharge pipe 19 is small, and depending on the length of the discharge pipe 19, at least ten power generation turbines 18 can be provided. Further, the number of small generators 28 connected to the power generation turbine 18 is the same as the number of the power generation turbines 18, and if the ten small generators 18 are provided for 31 battery cases, the three battery cases 3 are provided. The storage battery 22 is charged by 30 small generators 28.

  The electric power generated by a plurality of small generators 28 is, for example, a power generation voltage of 30 V to 35 V, which is higher than that when the voltage to be originally maintained of the storage battery 22 is 24 V. Therefore, the storage battery 22 is rapidly charged by the generated power in a short time.

  As for the power consumption of the DC motor 20 that rotates the circulation pump 16, a very low power consumption DC motor is used to reduce the power consumption of the storage battery 22.

  Front perspective view of storage battery   Front sectional view of storage battery   Side cross-sectional view of storage battery   Operating circuit diagram

Explanation of symbols

1. Battery case 2. 2. Battery top cover Battery case 4. Electrode (positive electrode)
5. Electrode (negative electrode)
6). 6. Negative electrode strap Positive strap 8. Positive electrode output terminal 9. Negative output terminal 10. Auxiliary tank 11. Auxiliary electrolyte 12. Liquid stopper (with vent hole)
13. Liquid level detector 14. Circulation pipe 15. Suction pipe 16. Circulation pump 17. Pump stand 18. Generator turbine 19. Outlet pipe 20. DC motor 21. Septum 22. Storage battery 23. Start switch 24. DC / DC converter 25. Automobile (use example)
26. Voltmeter 27. Stirring turbine rotating shaft 28. Small generator 30. Charger 31. timer

Claims (2)

  In a storage battery equipped with a circulation pump that forcibly circulates the electrolyte in each battery tank of the storage battery body, a plurality of water turbines that rotate at the flow rate of the electrolyte are disposed in the discharge pipe where the circulation pump injects the electrolyte into each battery tank. A storage battery characterized by charging the storage battery with electric power generated by the generator by rotating a generator arranged and connected to all of the rotating shafts of the water turbine.   2. The storage battery according to claim 1, further comprising a function of self-charging by operating a circulation pump by a timer switch after a switch for operating the storage battery is cut off.

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