JPH09147827A - Terminal internal installation type interchangeable storage battery - Google Patents
Terminal internal installation type interchangeable storage batteryInfo
- Publication number
- JPH09147827A JPH09147827A JP7326427A JP32642795A JPH09147827A JP H09147827 A JPH09147827 A JP H09147827A JP 7326427 A JP7326427 A JP 7326427A JP 32642795 A JP32642795 A JP 32642795A JP H09147827 A JPH09147827 A JP H09147827A
- Authority
- JP
- Japan
- Prior art keywords
- terminal
- battery
- terminals
- built
- storage battery
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- 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
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Landscapes
- Sealing Battery Cases Or Jackets (AREA)
- Connection Of Batteries Or Terminals (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、交換可能な端子内
装式互換型蓄電池に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a replaceable internal battery with interchangeable terminals.
【0002】[0002]
【従来の技術】情報化の社会活動の頻繁につれて、コン
ピューターそのものの応用は、もう既に集中処理から発
展して情報の分散処理に形成され、そのため一般ではシ
ステム構築するに際して主に考慮すべき要素は電流供給
の信頼度である。そしてその電流供給の信頼度を確保す
るには、家庭内に応用されたパーソナルコンピューター
に表現することだけでなく、さらにコンピューターセン
ター全体又は社会システムにおける地域性の信頼ある電
源の供給にも必要とされている。そのため、業者は長時
間が作業でき、しかも安全である情報・通信施設システ
ム非遮断性電源システム(以下、UPSと称す)を考え
だした。それは電源にパルス、トラップウエーブ及び断
電など不良電源の発生によるコンピューター通信システ
ムならびにコンピューター制御機器の影響を抑制するた
めのもので、このUPSを通じて上記電流により生じた
不良現象を除去し、設備の負荷または運転の安定性など
の效果を向上させる。しかし、現に存在したコンピュー
ターを補助する前記UPSにおける電池寿命の設計はほ
ぼメンボードの寿命の40〜50%しか過ぎず、そのた
め、一旦電池の使用寿命が終えた時点、必ず電池と一体
になったメンボードと同時に捨てなければならない。一
般では、廃棄物としてメンボードと分離して処理できな
いため、電池の硫酸液が環境に対して厳重な汚染問題に
つながる。2. Description of the Related Art With the increasing frequency of information-oriented social activities, the application of computers themselves has already evolved from centralized processing to distributed processing of information. Therefore, in general, the main factors to consider when constructing a system are It is the reliability of the current supply. And in order to secure the reliability of the current supply, it is necessary not only to express it on a personal computer applied at home, but also to supply reliable power with locality in the whole computer center or social system. ing. For this reason, the vendor has come up with an information / communication facility system non-interruptible power supply system (hereinafter referred to as UPS) that can work for a long time and is safe. It is intended to suppress the influence of the computer communication system and computer control equipment due to the generation of defective power source such as pulse, trap wave and disconnection in the power source, remove the defective phenomenon caused by the above current through this UPS, and load the equipment. Or improve effects such as driving stability. However, the design of battery life in the above-mentioned UPS that assists the existing computer is only 40 to 50% of the life of the Menboard, and therefore, once the life of the battery is over, the Menboard which is always integrated with the battery is required. At the same time, you have to throw it away. Generally, since it cannot be treated as a waste separately from the membrane, the sulfuric acid solution of the battery leads to a severe pollution problem with respect to the environment.
【0003】上記従来に使用された電池は、汚染などの
問題の他、さらに慣用する一般の電気機器に使用された
電池は主にその電子機器の上に置き接触式となり、例え
ばV8撮影機に使用されるものは、電池が設置される空
間の両壁側に向かい合った溝を設け、さらに電池本体の
両側に上記溝に対応した凸条が設けられている。前記の
溝に上記の一対凸条を滑らせ嵌合することにより、一般
電池面の端子と電気機器接触面端子との結合が達成でき
る。In addition to problems such as pollution, the above-mentioned conventional battery is a contact type battery which is mainly used for a commonly used general electric device and is placed on the electronic device. What is used is provided with grooves facing each other on both wall sides of the space where the battery is installed, and further, ridges corresponding to the grooves are provided on both sides of the battery main body. By sliding and fitting the above-mentioned pair of ridges into the groove, the connection between the terminal on the general battery surface and the terminal on the electric device contact surface can be achieved.
【0004】一方、今広く使用された携帯用コンピュー
ター(例えば、ノート型パーソナルコンピュータ等)に
用いられた電池に関しては、適切な固定装置(例えば、
バネなど)を使用してコンピューターメンボードと電池
との接触により導電されるが、大気に露出した電池にお
ける上記の当該部分は、空気の酸化により電気機器端子
との間の接触面積をかなり減少し易く、または両接触平
面の間と有効に接触できなくなり電気の使用効率を影響
する問題に至った。On the other hand, regarding batteries used in portable computers (eg, notebook type personal computers) which are now widely used, appropriate fixing devices (eg,
It is conducted by the contact between the computer board and the battery using a spring, etc.), but the above-mentioned part of the battery exposed to the atmosphere significantly reduces the contact area with the electrical equipment terminals due to the oxidation of air. This leads to a problem that it is easy or cannot effectively contact between the contact planes, which affects the efficiency of use of electricity.
【0005】また、一般の電池では、いわゆる二次電池
と称する(1)リード蓄電池と、(2)アルカリ蓄電池
両種類充電式に分けられる。政府または民衆など、より
良き国民に必要な生活品質の確保に応じて汚染の防止と
環境に対する保護は一層厳しく要求される。環境の保護
に対して、現在使用されていた一般電池の代わりに重複
充電使用できるリード蓄電池またはアルカリ蓄電池は段
々重視されつつある。そして現に使用されている電池の
信頼性および経済性の点から考えてみると、リード蓄電
池の使用量はほぼ電池全使用量の95%に占めている点
から見て、そのリード蓄電池の重要性が確定できる。そ
のため、現にそのリード蓄電池だけに存在した問題を下
記のとおり説明する。伝統的なVRLA電池(すなわ
ち、バルブ制御式リード蓄電池)において、上述した繰
替え使用できる電池と同様な利点を持っていたが、その
使用寿命を延長するために設計された密封式電池は、そ
の内部に誤用または濫用により過大な気体圧力を生じさ
せる恐れがあるので、バルブの制御により電池の中から
気体が自動的に大気に排除されるが、長時間の使用につ
れて電池内部の電解質がやはり段々枯れていく状態にな
り、使えなくなった蓄電池を新しく交換しなければなら
ない。しかし、電池の交換に際して、使用者が上記突出
したVRLA電池の端子に接触または不注意により生じ
た短絡などの危険にあう恐れがある。In addition, general batteries are classified into (1) lead storage batteries, which are so-called secondary batteries, and (2) both types of rechargeable alkaline storage batteries. Prevention of pollution and protection of the environment are more severely required to ensure the quality of life required by the better people such as the government or the people. For the protection of the environment, lead storage batteries or alkaline storage batteries, which can be used by overlapping charging instead of the currently used general batteries, are becoming increasingly important. Considering the reliability and economic efficiency of the currently used batteries, the lead storage battery usage is almost 95% of the total battery usage. Can be confirmed. Therefore, the problem that actually existed only in the lead storage battery will be explained as follows. Traditional VRLA batteries (ie, valve-controlled lead-acid batteries) have similar advantages to the repeatable batteries described above, but sealed batteries designed to extend their service life are Excessive gas pressure may be generated inside due to misuse or abuse, so gas is automatically removed from the battery to the atmosphere by controlling the valve. A storage battery that is dead and must no longer be used must be replaced. However, when replacing the battery, there is a risk that the user may come into contact with the protruding terminal of the VRLA battery or cause a short circuit caused by carelessness.
【0006】[0006]
【発明が解決しようとする課題】その他、前記したVR
LA電池におけるバルブ制御式リード蓄電池に使用され
た電池表面に突出した端子が、一般の電池では大きい電
流の放電に使用でき、しかしそれをもった正負極端子は
共に電池の表面に突き出して、大きいな電流が電池の内
部に流れるため、極めて短絡が発生されやすい。また、
上記の通り密封式通風口を有する一般の蓄電池では、そ
の中の気体圧力を緩むには、通風口を開け、当該通風口
から大気に持続的に排気操作が行われるが、長期間使用
の為、その内部の電解質は必ず減っていき、その欠点は
充電できない一回しか使用できない寿命である。Other than the above-mentioned VR
The terminal protruding to the surface of the battery used for the valve-controlled lead storage battery in the LA battery can be used for discharging a large current in a general battery, but the positive and negative terminals having the terminal both protrude to the surface of the battery and are large. Since a large current flows inside the battery, a short circuit is likely to occur. Also,
As described above, in a general storage battery having a sealed ventilation port, in order to loosen the gas pressure therein, the ventilation port is opened, and exhaust operation is continuously performed from the ventilation port to the atmosphere, but for long-term use. However, the electrolyte inside is always reduced, and the drawback is that it cannot be recharged and it has a one-time usable life.
【0007】電池を交換する使用者にとって短絡の危険
性を冒さなければならなく、その上交換の不便でもあ
る。従来上述した慣用リード蓄電池は一旦使用終えた
時、その電池と一体したメンボード全体(例えば、UP
S非遮断性電源システム)を捨てる他ない。かくして、
資源の使用の無駄にもなるし、廃棄電池による環境の汚
染にもなる。The user who replaces the battery must run the risk of a short circuit and is also inconvenient to replace. Conventionally, the conventional lead-acid storage battery described above, once it has been used, is integrated with the whole battery (for example, UP
There is no choice but to discard the S non-interruptible power supply system). Thus,
It wastes the use of resources and pollutes the environment with waste batteries.
【0008】その次に重要な地位を占めるアルカリ蓄電
池においても、一般の平面式接触端子は、上記のような
短絡の問題が発生し難いが、接触面積の減少を生じたの
で、電池に大きいな電流が流れず、単なる小さい電流し
か流れないため、電池の適用範囲が限られている。Also in the alkaline storage battery, which occupies the next most important position, the general planar contact terminal is unlikely to cause the above-mentioned short circuit problem, but the contact area is reduced, so that the battery is not large. Since no current flows, and only a small current flows, the applicable range of batteries is limited.
【0009】[0009]
【課題を解決するための手段】上記の問題を鑑みて、本
発明における端子が互換型電池の内部に埋設され、それ
と同時に従来の電線連接用伝統的端子を具備させ、使用
者が使用不注意により、接触して短絡の危険性を避けら
れるほか、別に設置されたPCボードに挿入され接続す
る時に使用される挿入式端子は、新しい電池に交換の時
に便利である。In view of the above problems, the terminal according to the present invention is embedded inside a compatible battery, and at the same time, a conventional terminal for connecting electric wires is provided, so that the user is careful not to use it. Thus, the risk of short circuit due to contact is avoided, and the insertable terminal used when connecting to a separately installed PC board is convenient when replacing with a new battery.
【0010】上記の目的を達成するため、本発明におけ
る端子内装式互換型蓄電池の内部に端子収納槽が設けら
れ、そして、電池の内部に上記の端子を隠すには、この
収納槽に形成された内部に凹む特定形状を持った凹槽と
挿入式端子の承接部の弾性が利用できる。当該挿入式端
子は従来電線の連接用伝統の電池端子の構造を持ってい
るほか、PCボードを挿入使用可能の挿入接触式構造を
設置し、自らの電池交換の便宜性を有するだけでなく、
本発明における端子全体の接触面積の増大によって、大
きいな電流放電だけでなく、小さい電流放電にも使用で
きるため、電池の適用範囲が一層広くなる。In order to achieve the above-mentioned object, a terminal accommodating tank is provided inside the terminal-equipped type compatible accumulator of the present invention, and in order to hide the above-mentioned terminals inside the battery, it is formed in this accommodating tank. In addition, the elasticity of the receiving part of the insertable terminal and the recessed tank with a specific shape that is recessed inside can be used. In addition to the traditional battery terminal structure for connecting electric wires, the insertion type terminal has an insertion contact type structure that can insert and use a PC board, which not only has the convenience of replacing the battery itself,
By increasing the contact area of the entire terminal in the present invention, not only large current discharge but also small current discharge can be used, so that the range of application of the battery becomes wider.
【0011】[0011]
【発明の実施の形態】以下にUPSに応用された本発明
の端子内装式互換型蓄電池の好適実施例を図面を参照し
ながら説明する。図においては、UPSに応用した本発
明端子内装式互換型蓄電池の具体実施参考例である。そ
の、1はカバー、11、12は端子開口、13は回路基
板位置決め穴、2は中蓋リリースバルブ、21は通気
口、22は端子差し口、3は端末、4は電池箱である。BEST MODE FOR CARRYING OUT THE INVENTION A preferred embodiment of a compatible battery with a built-in terminal of the present invention applied to a UPS will be described below with reference to the drawings. The drawing is a reference example of a specific embodiment of the compatible battery with a built-in terminal of the present invention applied to UPS. The reference numeral 1 is a cover, 11 and 12 are terminal openings, 13 is a circuit board positioning hole, 2 is an inner lid release valve, 21 is a vent, 22 is a terminal insertion opening, 3 is a terminal, and 4 is a battery box.
【0012】図1に示すように、本発明の端子内装式互
換型蓄電池の立体概略分解図において、上記電池箱4の
上方にそれと密封状態に構成された中蓋リリースバルブ
2と、この中蓋リリースバルブ2の縦中央部に一字状に
形成される複数の通気口21と、電池箱4の一端縁に上
記複数の通気口21とほぼ平行をなし左右対称となる端
子差し口22を形成し、当該端子差し口22の内側は相
異なった深さを有する長方形凹槽221、222が形成
され、さらに上記凹槽222の内側に上記端子差し口2
2と一体に形成した複数のスペーサ223、224を設
置することによって、上記端子3が隔てられ電線及び/
または挿入できる両段階を有する端子となる。As shown in FIG. 1, in the three-dimensional schematic exploded view of the compatible battery with a built-in terminal of the present invention, an inner lid release valve 2 formed above and above the battery box 4 in a sealed state, and this inner lid. A plurality of air vents 21 formed in a single letter at the vertical center of the release valve 2 and a terminal inlet 22 that is substantially parallel to the air vents 21 and is symmetrical at one end of the battery box 4. Then, rectangular recessed tanks 221 and 222 having different depths are formed inside the terminal insertion opening 22, and the terminal insertion opening 2 is formed inside the recessed opening 222.
By installing a plurality of spacers 223 and 224 integrally formed with the terminal 2, the terminal 3 is separated and the electric wire and / or
Alternatively, it becomes a terminal having both stages that can be inserted.
【0013】図2に示すように、本発明の端子内装式互
換型蓄電池は蓋を封じて使用する前、上記端子3が上記
端子電池箱4の端子差し口22に完全に嵌合する具体実
施例である。図3に示された端子3は導電金属プレート
をプレスして端子の雛型を形成し、平行になした両対脚
部33、33を湾曲形成させ、その上左右任意端部を湾
曲させて段差つけする前方に延伸する頭部34を形成す
る。そして、この頭部34に電池内部と導電接続できる
円孔35を開設し、さらに、上記両対脚部33、33を
湾曲すると同時に上記脚部33、33に挟まれ当該端子
の腹部となった一対異なった長さを有する金属プレート
36、37が形成される。当該金属プレート36、37
は上記端末3の中空背部から底部まで、上下は広く中央
部が狭い橋状に表した縦断面を形成するため、その間に
回路基板位置を挟む可能な回路基板位置承接部31とな
り、その上、金属片の長い部分37は挿入式端子の承接
部32となる。As shown in FIG. 2, the terminal-equipped type compatible storage battery of the present invention has a specific embodiment in which the terminal 3 is completely fitted into the terminal insertion port 22 of the terminal battery box 4 before use with the lid sealed. Here is an example. The terminal 3 shown in FIG. 3 is formed by pressing a conductive metal plate to form a model of the terminal, and curving both parallel leg portions 33, 33, and further curving the left and right arbitrary end portions thereof. A head portion 34 extending forward is formed to make a step. Then, a circular hole 35 that can be electrically conductively connected to the inside of the battery is opened in the head portion 34, and further, the pair of leg portions 33, 33 are curved and, at the same time, sandwiched between the leg portions 33, 33 to form an abdominal portion of the terminal. Metal plates 36 and 37 having different lengths are formed. The metal plates 36, 37
Forms a bridge-like vertical section from the hollow back to the bottom of the terminal 3 in which the top and bottom are wide and the center is narrow, so that the circuit board position contact portion 31 between which the circuit board position can be sandwiched is formed. The long portion 37 of the metal piece serves as the receiving portion 32 of the insertable terminal.
【0014】挿入して組み立てる時、蓋1の端子開口1
1、11を介して、中蓋リリースバルブ2の端子収納槽
22内に嵌挿された電池端子部32に挿入する電線(図
示しない)が挿入される。そして上記端子開口11、1
1と平行に設けた端子開口12、12を通して回路基板
位置(図示しない)が上記端子3の挿入式端子部32、
32内に挿入され、そして蓋1の中央縁部に設置された
回路基板位置決め穴13によって電池交換の固定性が保
たれる。When inserting and assembling, the terminal opening 1 of the lid 1
An electric wire (not shown) to be inserted into the battery terminal portion 32 fitted and inserted in the terminal storage tank 22 of the inner lid release valve 2 is inserted through the terminals 1 and 11. And the terminal openings 11, 1
1, the circuit board position (not shown) is inserted through the terminal openings 12, 12 provided in parallel with the insertable terminal portion 32 of the terminal 3,
The circuit board positioning hole 13 inserted into the cover 32 and installed at the central edge of the lid 1 maintains the fixability of battery replacement.
【0015】[0015]
【発明の効果】本発明の端子内装式互換型蓄電池には、
電池の内部に隠された端子により電池更新する時の安全
性及び便宜性を達成できるほか、さらに慣用電線を接続
ための伝統的な電池端子を有したため、使用者が不注意
による接触により生ずる短絡の危険性が避けられると同
時に、それに設置されたその他の挿入式端子は回路基板
を挿入接続させ使用できるため、電池の更新に使用でき
る。また、その端子全体接触面積の増大により、大きい
電流の放電または小さい電流の放電両方ともに適用で
き、より一層広い範囲に使用できる。EFFECTS OF THE INVENTION In the terminal-equipped type compatible storage battery of the present invention,
The terminal hidden inside the battery can achieve safety and convenience when renewing the battery, and also has a traditional battery terminal for connecting a conventional electric wire, so that a short circuit caused by the user's inadvertent contact While avoiding the risk of, the other insertable terminals installed on it can be used by inserting and connecting the circuit board, and thus can be used for battery renewal. Further, by increasing the contact area of the entire terminal, both a large current discharge and a small current discharge can be applied, and it can be used in a wider range.
【図1】本発明の端子内装式互換型電池の一具体実施例
を示す概略分解斜面図である。FIG. 1 is a schematic exploded perspective view showing a specific example of a terminal-equipped type compatible battery of the present invention.
【図2】図1の中蓋リリースバルブを示す平面図であ
る。FIG. 2 is a plan view showing an inner lid release valve of FIG.
【図3】本発明の端子内装式互換型蓄電池を示す斜面図
である。FIG. 3 is a perspective view showing a compatible storage battery with a built-in terminal according to the present invention.
【図4】本発明の端子内装式互換型電池の使用状態参考
図である。FIG. 4 is a reference view of a state in which the compatible battery with a built-in terminal of the present invention is used.
1 カバー 11、12 端子開口 13 回路基板位置決め穴 2 中蓋リリースバルブ 21 通気孔 22 端子差し口 3 端子 4 電池箱 1 Cover 11, 12 Terminal opening 13 Circuit board positioning hole 2 Inner lid release valve 21 Vent hole 22 Terminal socket 3 Terminal 4 Battery box
Claims (2)
て、導電接続用電線はその電池のカバーに開設された端
子開口を介して中蓋リリースバルブの端子に設置した溝
に挿入し内装された電池端子の端子部と嵌合し接続さ
れ、そして、前記端子開口と並列に設けられた他端子開
口を通して前記電池端子の挿入式端子部内に挿入され、
前記カバーの中央縁部に設置されたPCボード定位孔か
らPCボードを挿入して定位させることによって、電池
の交換はさらにし易く、安全性を有し、便宜性または蓄
電池の寿命を有効に延長できることを特徴とする端子内
装式互換型蓄電池。1. A replaceable battery with a built-in terminal, in which a conductive connecting wire is installed by being inserted into a groove provided in a terminal of an inner lid release valve through a terminal opening formed in a cover of the battery. Fitted and connected to the terminal portion of the battery terminal, and inserted into the insertable terminal portion of the battery terminal through the other terminal opening provided in parallel with the terminal opening,
By inserting and positioning the PC board through the PC board positioning hole installed at the central edge of the cover, the battery can be replaced more easily and safely, and convenience or the life of the storage battery can be effectively extended. A compatible battery with built-in terminals that can be used.
て、前記端子が導電金属板をプレスして形成され、そし
て湾曲させることによって互いに平行した両対脚部を形
成し、さらに横に呈した左右任意側を湾曲して段差を有
する延伸端子の頭部を形成し、その上、当該頭部に電池
との内部に導電できる接続円孔が開設され、前記両対脚
部を湾曲させると同時に、両脚部に挟まれた湾曲した異
なった長さを持った一対の金属プレートを端子の腹部に
形成することによって、当該一対の金属プレートを端子
の中空背部から底部まで、上下に広げられ中央面が狭い
橋状縦断面をなしたPCボードか挿入嵌合可能な承接部
を形成し、さらに、前記長い金属プレートの方は承接型
挿入式端子が形成されることを特徴とする請求項1記載
の端子内装式互換型蓄電池。2. A replaceable battery with a built-in terminal, wherein the terminal is formed by pressing a conductive metal plate, and is bent to form two opposite leg portions parallel to each other, and is further laid sideways. The left and right sides are curved to form a head portion of the extension terminal having a step, and on the head portion, a connecting circular hole capable of conducting electricity inside the battery is formed, and at the same time the both leg portions are curved. , By forming a pair of curved metal plates sandwiched by both legs and having different lengths on the abdomen of the terminal, the pair of metal plates are spread vertically from the hollow back to the bottom of the terminal to the central plane. 2. A PC board having a narrow bridge-shaped vertical section or a receiving portion which can be inserted and fitted is formed, and further, the long metal plate is formed with a receiving insertion type terminal. Built-in terminal compatible type Storage battery.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7326427A JPH09147827A (en) | 1995-11-20 | 1995-11-20 | Terminal internal installation type interchangeable storage battery |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7326427A JPH09147827A (en) | 1995-11-20 | 1995-11-20 | Terminal internal installation type interchangeable storage battery |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH09147827A true JPH09147827A (en) | 1997-06-06 |
Family
ID=18187683
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP7326427A Pending JPH09147827A (en) | 1995-11-20 | 1995-11-20 | Terminal internal installation type interchangeable storage battery |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH09147827A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2018186060A (en) * | 2017-04-26 | 2018-11-22 | 張乃文 | Packaging method of lead acid battery and structure thereof |
Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS61171161U (en) * | 1985-04-12 | 1986-10-23 | ||
| JPS62180953A (en) * | 1986-01-21 | 1987-08-08 | スコット エル クレイマー | Battery device |
| JPS62145269U (en) * | 1986-03-10 | 1987-09-12 | ||
| JPS63127072U (en) * | 1987-02-10 | 1988-08-19 | ||
| JPH0412451A (en) * | 1990-04-27 | 1992-01-17 | Yamaha Motor Co Ltd | Battery |
| JPH05258813A (en) * | 1992-03-10 | 1993-10-08 | Yazaki Corp | Power distribution device for automobile |
| JPH06251762A (en) * | 1993-02-23 | 1994-09-09 | Matsushita Electric Ind Co Ltd | Sealed lead-acid battery |
-
1995
- 1995-11-20 JP JP7326427A patent/JPH09147827A/en active Pending
Patent Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS61171161U (en) * | 1985-04-12 | 1986-10-23 | ||
| JPS62180953A (en) * | 1986-01-21 | 1987-08-08 | スコット エル クレイマー | Battery device |
| JPS62145269U (en) * | 1986-03-10 | 1987-09-12 | ||
| JPS63127072U (en) * | 1987-02-10 | 1988-08-19 | ||
| JPH0412451A (en) * | 1990-04-27 | 1992-01-17 | Yamaha Motor Co Ltd | Battery |
| JPH05258813A (en) * | 1992-03-10 | 1993-10-08 | Yazaki Corp | Power distribution device for automobile |
| JPH06251762A (en) * | 1993-02-23 | 1994-09-09 | Matsushita Electric Ind Co Ltd | Sealed lead-acid battery |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2018186060A (en) * | 2017-04-26 | 2018-11-22 | 張乃文 | Packaging method of lead acid battery and structure thereof |
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Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20060612 |
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