JP2014082178A - Vehicle having function of automatically inspecting defects in power supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable inspection of a power supply, especially an in-vehicle accumulator battery, that is conventionally difficult to be subjected to maintenance and inspection and whose defects are frequently overlooked, more easily and certainly, and to improve an on-street failure problem caused by accumulator battery failures that conventionally occur all of a sudden in traveling.SOLUTION: An electric circuit obtained by connecting in series an electric motor 3 for vehicle start with an electric switch 2 for starting the electric motor, is connected in parallel with an in-vehicle accumulator battery 1. A lowest voltage storage device 7 and a high-capacity electrolytic capacitor 8 are connected in parallel, and this connection is connected in parallel with the in-vehicle accumulator battery via a silicon diode 4. The lowest voltage storage device 7 is provided in the vicinity of a vehicle driver seat.

Description

Detailed Description of the Invention

  This is a solution to the problem of road breakdown caused by insufficient maintenance of automobiles.

  Conventionally, automobile maintenance and inspection has been carried out, but it often takes inspection time or overlooks difficult places.

Problems to be solved by the invention

  This makes it possible to more easily and reliably check power sources that are often overlooked due to difficulties in conventional maintenance inspections, and to improve road breakdown problems due to storage battery failures that occur suddenly during conventional driving. It is. Of course, in an electric vehicle or an electric vehicle, it is possible to check the deterioration of the storage battery by connecting the minimum voltage checking device to the vehicle starting motor.

Embodiment of the Invention

In order to facilitate understanding of aspects of the present invention, an example is shown and described.
Those that do not need to be illustrated are only textual descriptions.
In addition, the transistor circuit shown in the figure can be constructed using an integrated circuit, but an electric circuit that the present invention is considered to be most understandable and cheap is illustrated and described.
In FIG. 1, (1) is a vehicle-mounted storage battery (2) is a push button switch for starting a vehicle engine starting motor (3), (4) is a discharging diode of a large-capacity electrolytic capacitor (8), and (5) is A recharging pushbutton switch of the capacitor (8), (6) shows various electric devices mounted on the vehicle, and (12) shows a storage box of the minimum voltage control device. (7) is a voltmeter installed near the driver's seat of the vehicle. Various voltmeters can be used. When the engine is started with the above circuit, the performance of the storage battery is degraded. The voltage is displayed. In this case, it is possible to prevent road failures by re-inspecting the performance of the storage battery in advance.
In the embodiment of FIG. 2, when a voltage very much lower than the initial voltage charged in the capacitor (8) is generated in the storage battery when the engine is started, the transistors (9) and (10) are activated and the light emitting diodes installed near the driver's seat. The indicator light turns on and it is possible to know the deterioration of the onboard storage battery.
(1) (2) After confirming a voltage display that is much lower than normal in the co-driver's seat, road faults can be improved by quickly checking the storage battery.

In the figure, reference numeral (1) is a vehicle-mounted storage battery, (2) is a push button switch for starting an engine starting electric motor (3), (6) is a starting electric device mounted on the vehicle, and (7) is near the driver's seat. A display device provided in FIG.
(8) shows a large electrolytic capacitor (4) shows a silicon diode (9) shows an NPN transistor, (10) shows a PNP transistor, (7) shows a display device provided near the driver's seat, and the pushbutton switch and diode (5) show the voltage of the capacitor (8). A switch (11) for restoring the no-load state of the storage battery (11) indicates a storage device for the minimum voltage control device (12).

Claims (1)

  An electric circuit in which a motor for starting the vehicle (3) and an electric switch for starting the motor (2) are connected in series is connected in parallel to the on-vehicle storage battery (1), and a minimum voltage storage device (7) and a large capacity electrolytic contenter (8) A vehicle characterized in that a minimum voltage storage device (7) is provided near the vehicle driver's seat, characterized by being connected in parallel to each other and in parallel with a vehicle-mounted storage battery via a silicon diode (4).

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