JP2009110894A - Power distributing/charging method of battery, and electrode plate and electric unit using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power distributing/charging method of a battery with no necessity of a branch and a wiring board, and to provide an electrode plate. <P>SOLUTION: In the power distributing/charging method of the battery 1, the electrode plates (a positive electrode plate 20 and a negative electrode plate 30) are installed at a positive electrode 2 and a negative electrode 3 of the battery, respectively. The electrode plates (a positive electrode plate 20 and a negative electrode plate 30) of the battery have gripping members ( a positive electrode gripping member 21 and a negative electrode gripping member 31) to grip and conduct the positive electrode and the negative electrode of the battery, respectively, and a plane of the electrode plate carries out power distributing/charging. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a battery distribution / charging method, an electrode plate, and an electric unit using the same.

Currently, batteries (lead storage batteries) such as 24 volts, 12 volts, and 6 volts are attached to automobiles and motorcycles.
Electric units such as an inverter that uses these batteries as a power source of 100V, a charger that charges these batteries, and a plug terminal that connects these batteries are sold. (For example, Patent Document 1)

However, when installing an inverter that distributes power from a battery, installing a charger that charges the battery, or grounding the battery, multiple wires are required, and the positive and negative terminals are connected using gibboshi etc. It was necessary to branch the wiring. Alternatively, after connecting to the positive and negative terminals, a wiring board is required.
And the wiring branched into many was bundled, and it was unsightly because of poor handling and maintenance. Further, when the wiring board is provided, it is impossible to perform wiring other than the pattern installed on the board.
Battery users are looking forward to solving these problems.
JP-A-9-265969

  Therefore, the present invention intends to provide a battery power distribution / charging method and an electrode plate that do not require branching or wiring boards.

  In order to solve the above problems, the present invention takes the following technical means.

(Invention of Claim 1)
The battery charging / distributing method of the present invention is characterized in that an electrode plate is provided on the positive electrode and the negative electrode of the battery, and power distribution / charging is performed via the electrode plate.
If it is set as the charging method and power distribution method which provided the electrode plate, it can be set as the charging method and power distribution method which do not require a branch and a wiring board.
(Invention of Claim 2)
The electric unit according to the present invention is mounted on a battery using the power distribution / charging method according to claim 1.
When the electric unit is attached (mounted) to the upper surface portion, the side surface portion, the lower surface portion, or the like of the battery, the invention according to claim 1 can be used for wiring to the electric unit.

(Invention of Claim 3)
The electrode plate according to the present invention has a holding member that holds and conducts a positive electrode or a negative electrode of a battery, and a flat surface performs power distribution and charging.
When a gripping member that grips and conducts an electrode is used, the electrode plate can be firmly fixed.
(Invention of Claim 4)
The electrode plate according to the present invention relates to the invention described in claim 3, and is characterized in that a screw hole or a screw hole is provided to enable wiring fixing by a screw.
It is preferable that a screw hole or a screw hole is provided in the electrode plate, the wiring terminal is fixed by the screw, and energized.
(Invention of Claim 5)
The electric unit according to the present invention is mounted on a battery using the electrode plate according to claim 3 or claim 4.
The firmly fixed electrode plate can be firmly attached to the cover. As appliances connected to the above-mentioned electric unit, household appliances (bulb, fluorescent lamp, personal computer, DVD player, rice cooker, hot plate, karaoke equipment, etc.) using 6V, 12V, 24V DC power supply, AC100V power supply are listed. These may be attached.

(Invention of Claim 6)
The electric unit according to the present invention relates to the invention described in claim 2 or 5, characterized in that an inverter, a battery charger, and a plug terminal are mounted alone or in combination.
As an electric unit, an inverter, a battery charger, and a plug terminal can be provided alone or in combination. When combined, charging from the AC 100V power source and distribution to the AC 100V power source can be automatically switched, and a battery equipped with an electric unit can also be used as an emergency power source in the event of a power failure.
(Invention of Claim 7)
The electric unit according to the present invention relates to the inventions according to claims 2, 5, and 6, and is characterized in that the electrode plate of the battery is covered so as to be hidden.
Providing a cover can prevent a short circuit accident or the like.

The present invention is configured as described above and has the following effects.
When the electrode plate of the present invention is used, no branching or wiring board is required. When this electrode plate is used, it is easy to handle and maintain, and wiring with a clean appearance can be performed.
In addition, since the wiring can be shortened and easily performed, it can be made into a compact electric unit (inverter, battery charger, plug terminal), and the electric unit is thin and can be mounted on the battery. It will be something.

  Hereinafter, examples will be described in detail as the best mode for carrying out these inventions.

[Example 1]
FIG. 1 is an overall perspective view of a battery distribution / charging method, an electrode plate, and an electric unit using the same according to the present invention. FIG. 2 is a partially enlarged view of a battery distribution / charging method and electrode plate of the present invention, and an electric unit using the same.

(1. Battery distribution and charging methods)
The battery 1 may be a 12V lead storage battery used in automobiles, a 24V lead storage battery used in trucks, a 6V lead storage battery used in motorcycles, or the like.

  The battery 1 has a positive electrode 2 and a negative electrode 3 as shown in FIG. Electrode plates (positive plate 20 and negative plate 30) are provided on each of positive electrode 2 and negative electrode 3.

  The positive electrode 2 and the negative electrode 3 are held using the positive electrode holding member 21 and the negative electrode holding member 31, and the positive electrode 2 and the negative electrode 3 are electrically connected to the positive electrode plate 20 and the negative electrode plate 30 using the positive electrode bonding member 22 and the negative electrode bonding member 32. Make it possible.

  The positive electrode plate 20 and the negative electrode plate 30 that can conduct electricity have a flat surface, and a positive electrode screw hole 23 and a negative electrode screw hole 33 are provided on the flat surface as shown in FIG. The positive electrode screw hole 23 and the negative electrode screw hole 33 may be positive electrode screw holes / negative electrode screw holes.

  The positive electrode wiring 25 and the negative electrode wiring 35 can be fixed to the positive electrode screw hole 23 and the negative electrode screw hole 33 by using the positive electrode screw 24 and the negative electrode screw 34 so as to be conductive.

(2. About the electrode plate)
A conductive metal plate can be used for the electrode plates (the positive electrode plate 20 and the negative electrode plate 30).
As the conductive metal plate, a copper plate, a silver plate, a gold plate, an iron plate, a steel plate, a stainless steel plate, a brass plate, or the like can be used.
If a stainless steel plate is used, the strength can be improved. In this example, a 6 mm thick plate of SUS4 was used. Moreover, when a brass plate is used, conductivity can be improved. It is good also as an electrode plate which gave the stainless steel plate the brass plating.

  It is preferable to install the electrode plates (positive electrode plate 20 and negative electrode plate 30) apart from the upper surface 10 on which the terminals of the battery 1 are installed. Specifically, it is preferable to adjust the height of the electrode plates (the positive electrode plate 20 and the negative electrode plate 30) by inserting an insulating shim washer through each terminal of the battery 1 and installing the shim washer on the upper surface 10. . In such a mode, even if a liquid having a low electrical resistance value (water containing ions, etc.) is applied to the upper surface 10, a power distribution / charging method in which the current is not short-circuited.

(3. About the positive electrode holding member 21 and the negative electrode holding member 31)
Similarly to the electrode plates (positive electrode plate 20 and negative electrode plate 30), the positive electrode holding member 21 and the negative electrode holding member 31 can be made of a conductive metal.
In this example, as the positive electrode holding member 21 and the negative electrode holding member 31, “ITEM No. B657 battery terminal manufactured by Amon Kogyo Co., Ltd. (the attached butterfly bolt was removed and the joining members 22 and 32 were used)” was used.

  The conductive method is not particularly limited as long as it can conduct electricity from the positive electrode 2 / negative electrode 3 to the electrode plate (positive electrode plate 20, negative electrode plate 30), but is held so as to be in contact with the entire cylindrical positive electrode 2 / negative electrode 3. Is preferred. When the entire electrode is held, the conductivity is improved and the fixing strength is improved.

  The positive electrode bonding member 22 and the negative electrode bonding member 32 that conduct the conduction between the positive electrode plate 20 and the negative electrode plate 30 and the positive electrode holding member 21 and the negative electrode holding member 31 may be made of a conductive metal. In this embodiment, stainless steel hexagon bolts were used as shown in FIGS.

(4. About wiring method)
A device 4 that uses the power of the battery 1 can be provided on the top surface 10.

  As shown in FIG. 1 and FIG. 2, wirings for supplying power to the device 4 (positive wirings 25 and negative wirings 35) are threaded through the electrode plates (positive electrodes 20 and 30). Holes 33), and screws (positive electrode 24 / negative electrode screw 34) are used in the screw holes, and terminals (positive electrode terminal 26 / negative electrode terminal 36) provided at the tip of the wiring (positive electrode wiring 25 / negative electrode wiring 35). Can be fixed.

  If the wiring can be connected in such a manner, it is not necessary to use a burrow or the like, the wiring and the maintenance are good, and the wiring with a clean appearance can be performed.

  The screw holes (the positive electrode screw hole 23 and the negative electrode screw hole 33) may be screw holes. However, since a screw longer than the thickness of the electrode plate can be used, the screw hole is preferably used. Screws or bolts can be used for the screws (the positive electrode screw 24 and the negative electrode screw 34).

(5. Electric unit 6)
The device 4 and the cover 5 are combined to form an electric unit 6. The device 4 and the cover 5 may be separable or may be integrated.
The apparatus 4 can be mounted on an electrode plate (positive electrode plate 20 / negative electrode plate 30) as shown in FIG. Alternatively, the device 4 may be provided on the side surface or the bottom surface of the battery 1 by extending the positive electrode wiring 25 and the negative electrode wiring 35.

The device 4 that has obtained power through the positive electrode wiring 25 and the negative electrode wiring 35 can supply power to the AC plug terminal 50 and the DC plug terminal 51 through the wiring 40.
Further, the battery 1 can be charged from the AC plug terminal 50 or the DC plug terminal 51. In addition, the battery 1 may be connected in series or in parallel using the AC plug terminal 50.

Specifically, the device 4 can be an inverter, a battery charger or the like. It is preferable that the charging of the battery and the use of the battery power can be switched using a switch.
When the device 4 is provided on the side surface or bottom surface of the battery 1, the AC plug terminal 50, the DC plug terminal 51, and the switch 52 do not need to be provided on the cover 5 as shown in FIG. Is preferred.

  The device 4 can be attached to the screw holes 23 and 33 provided in the electrode plates 20 and 30 using the screws 24 and 34. At this time, the connection between the electrode plates 20 and 30 and the electrodes 2 and 3 is not just a contact point, but is made by using the holding members 21 and 31. When the device 4 is attached to the gripped electrode plates 20 and 30 with screws 24 and 34, it can be firmly attached.

(6. Cover 5)
The cover 5 may be attached using the screws 24 and 34 with respect to the screw holes 23 and 33 in the same manner as the attachment of the device 4 described above. In such an embodiment, even if a handle is attached to the cover 5 and the battery 1 is lifted, the electrode plates 20 and 30 are firmly attached to the electrodes 2 and 3 by the gripping members 21 and 31. 5 can be lifted without coming off.

  As shown in FIG. 1, the cover 5 is preferably attached in such a manner as to cover the electrode plates (the positive electrode plate 20 and the negative electrode plate 30). In this way, a woman who is afraid of an electric shock due to electrical components can also carry the battery 1 with the electrode plates (the positive plate 20 and the negative plate 30) attached thereto. In addition, short circuit accidents caused by mischief of children can be prevented.

  The cover 5 is preferably installed on the upper surface 10 of the battery, and an AC plug terminal 50, a DC plug terminal 51, and a switch 52 are preferably provided. When installed on the upper surface 10, the AC plug terminal 50, the DC plug terminal 51, and the switch 52 can be provided in the empty space of the device 4, and the size can be reduced. Further, the attachment is simple, and the use of the AC plug 50 and the DC plug 51 and the operation of the switch 52 are facilitated.

[Example 2]
FIG. 3 is an overall perspective view when the electric unit 6 is provided on the side surface of the battery.

(About the electrode plate)
When the electric unit 6 is provided on the side surface of the battery 1, it is preferable to provide the electrode plates (the positive electrode plate 20 and the negative electrode plate 30) on the side surface of the battery 1. At this time, the electrode plates (the positive electrode plate 20 and the negative electrode plate 30) are attached by being bent in an L shape as shown in FIG. The attachment is held by a holding member (positive electrode holding member 21 / negative electrode holding member 31) as in the first embodiment, and the holding member and the electrode plate are bonded by a bonding member (positive electrode bonding member 22 / negative electrode bonding member 32). ing.

  When the electrode plate is provided on the side surface, it is preferable that the electrode plate (the positive electrode plate 20 and the negative electrode plate 30) is not in contact with the upper surface 10 and the side surface as in the first embodiment.

  Further, a screw hole (positive electrode screw hole 23 / negative electrode screw hole 33) is provided in the plane of the electrode plate (positive electrode plate 20 / negative electrode plate 30), and wiring (positive electrode wiring) is made using screws (positive electrode screw 24 / negative electrode screw 34). Terminals (positive terminal 26 and negative terminal 36) attached to the tip of the 25 and negative electrode wiring 35) can be attached and energized.

(Effect when attached to the side of the battery 1)
Since the device 4 and the cover 5 (electric unit 6) can be attached to the side surface of the battery 1, even if there is no space above the battery 1, it can be attached to the side space.

  Moreover, when wiring is installed in the vehicle body from the electrodes (the positive electrode 2 and the negative electrode 3), the electrodes and the electric unit 6 do not get in the way, which is a preferable mode.

  When the electrodes (the positive electrode 2 and the negative electrode 3) are not used, the cover 5 may be provided as in the first embodiment.

1 is a perspective view of a battery distribution / charging method, an electrode plate, and an electric unit using the same. It is a partial enlarged view of a battery distribution / charging method, an electrode plate, and an electric unit using the same. It is a whole perspective view at the time of providing an electric unit in the battery side.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Battery 10 Upper surface 2 Positive electrode 20 Positive electrode plate 21 Positive electrode holding member 22 Positive electrode bonding member 23 Positive electrode screw hole 24 Positive electrode screw 25 Positive electrode wiring 26 Positive electrode terminal 3 Negative electrode 30 Negative electrode plate 31 Negative electrode holding member 32 Negative electrode bonding member 33 Negative electrode screw hole 34 Negative electrode screw 35 Negative electrode wiring 36 Negative electrode terminal 4 Device 40 Wiring 5 Cover 50 AC plug terminal 51 DC plug terminal 52 Switch 6 Electric unit

Claims (7)

A battery power distribution / charging method, wherein electrode plates are provided on a positive electrode and a negative electrode of a battery, and power distribution / charging is performed through the electrode plates. An electric unit mounted on a battery using the power distribution / charging method according to claim 1. An electrode plate characterized by having a gripping member for gripping and conducting a positive electrode or a negative electrode of a battery, and performing power distribution / charging on a flat surface. The electrode plate according to claim 3, wherein a screw hole or a screw hole is provided to enable wiring fixation by a screw. An electric unit mounted on a battery using the electrode plate according to claim 3. 6. The electric unit according to claim 2, wherein the inverter, the battery charger, and the plug terminal are mounted alone or in combination. The electric unit according to claim 2, wherein the battery is covered so that an electrode plate of the battery is hidden.

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