JP2005228649A

JP2005228649A - Storage battery gas discharge structure

Info

Publication number: JP2005228649A
Application number: JP2004037419A
Authority: JP
Inventors: Takeyuki Matsumoto; 健之松本; Shuichi Yabuki; 修一矢吹; Hisashi Ouchi; 久士大内; Kenji Nakano; 憲二中野
Original assignee: Furukawa Battery Co Ltd
Current assignee: Furukawa Battery Co Ltd
Priority date: 2004-02-13
Filing date: 2004-02-13
Publication date: 2005-08-25
Anticipated expiration: 2024-02-13
Also published as: JP4698153B2

Abstract

<P>PROBLEM TO BE SOLVED: To prevent leakage of an electrolytic solution because liquid mist enters into an exhaust gas chamber accompaning gas generation in a storage battery and a vapor-liquid separated liquid stays in the exhaust gas chamber. <P>SOLUTION: In the storage battery, an exhaust gas chamber 2, the outer exhaust gas port, and a communicating exhaust gas passage 3 by which the exhaust gas chamber and the outer exhaust gas are communicated are formed, a maze is formed in the exhaust gas chamber by forming a splashproof plate 4 by which a gap 5 is formed in the exhaust gas chamber so that the exhaust gas chamber is not to be sectioned in the exhaust gas chamber. An introducing hole 6a by which the generated gas in the storage battery is introduced into the exhaust gas chamber, an exhaust hole 2b by which the gas is exhausted from the exhaust gas chamber to the communicating exhaust gas passage, and a liquid reflux hole 6b at which a liquid which has advanced into the exhaust gas chamber is refluxed to the lower end part of the exhaust gas chamber are installed. The exhaust gas chamber bottom face is made as an inclined face to obliquely descend toward the liquid reflux hole, the splashproof plate is also formed so as to obliquely descend toward the gap and the liquid reflux hole side, the communicating exhaust gas chamber bottom face is also made as an inclined face obliquely descending toward the exhaust hole of the exhaust gas chamber, and the communicating exhaust gas passage bottom face is made so as to obliquely descend toward the liquid reflux hole of the exhaust gas chamber. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、蓄電池の排気構造に関するものである。 The present invention relates to an exhaust structure for a storage battery.

蓄電池、特に鉛蓄電池において、蓄電池の充放電に伴い発生する内部ガスを排出するために排気孔を設けているが、使用中の振動に伴う電解液の飛散による飛沫や液滴の漏洩を防止し発生ガスのみを排出する為に、蓄電池の上部、例えば蓋に形成した排気室に発生ガスを排気室内に導入するための導入孔と排気室内に導入したガスを排気するための排気孔を設け、該排気室内に多数の防沫板を形成して迷路を形成しかつ、該排気室の底面を導入孔に向かい傾斜して形成することが知られている（特許文献１参照）。
実開昭５５−１０９２７３号公報（第３図参照） In storage batteries, especially lead storage batteries, exhaust holes are provided to discharge internal gas generated by charging and discharging of storage batteries, but it prevents leakage of droplets and liquid droplets due to splashing of electrolyte due to vibration during use. In order to discharge only the generated gas, an exhaust hole for introducing the generated gas into the exhaust chamber and an exhaust hole for exhausting the gas introduced into the exhaust chamber are provided in the exhaust chamber formed in the upper part of the storage battery, for example, the lid, It is known that a number of splash-proof plates are formed in the exhaust chamber to form a maze, and the bottom surface of the exhaust chamber is inclined toward the introduction hole (see Patent Document 1).
Japanese Utility Model Publication No. 55-109273 (see FIG. 3)

しかしながら、上記従来の排気構造において、傾斜面が排気室の底面のみであるので、排気室内に進入した飛沫や液滴はその防沫板により遮られて排出孔からの排出が阻止されるも、遮られた液が防沫板面から離れず該防沫板下部に留まり、蓄電池の振動等によりこの液がやがて隣のセルに対応する排気室に侵入し、該隣のセルの導入孔から液がセル室内に還流する或いは排気孔から外部へ漏れ出るとか該排気孔に設けられた防爆フィルターを濡らす等の不具合をもたらす恐れがあった。 However, in the above-described conventional exhaust structure, since the inclined surface is only the bottom surface of the exhaust chamber, the splashes and droplets entering the exhaust chamber are blocked by the splash-proof plate and are prevented from being discharged from the discharge hole. The blocked liquid stays at the bottom of the splash-proof plate without leaving the surface of the splash-proof plate, and this liquid eventually enters the exhaust chamber corresponding to the adjacent cell due to the vibration of the storage battery, etc. May circulate back into the cell chamber or leak outside through the exhaust hole, or may cause problems such as wetting the explosion-proof filter provided in the exhaust hole.

本発明は、これら従来の課題を解決するもので、請求項１の発明では、蓄電池に、排気室と、外部排気口と、該排気室と該外部排気口を連通する連通排気路とを形成し、該排気室内には排気室内を区分することのない様に隙間を形成した防沫板を形成して該排気室内に迷路を形成すると共に、該排気室に、蓄電池の発生ガスを該排気室内に導入する導入孔と、該排気室から連通排気路へガスを排出する排出孔と、該排気室の下端部に排気室内に進入した液を還流する液還流孔を設け、該排気室底面を液還流孔に向かって下降傾斜する傾斜面とすると共に、防沫板も隙間と液還流孔側に向かって下降傾斜するよう形成し、前記連通排気路底面も該排気室の排出孔に向かって下降傾斜する傾斜面とし、該連通排気路底面が該排気室の液還流孔へ向かい下降傾斜していることを特徴とするものである。 The present invention solves these conventional problems. In the invention of claim 1, the storage battery is formed with an exhaust chamber, an external exhaust port, and a communication exhaust path that communicates the exhaust chamber with the external exhaust port. In addition, a splash-proof plate having a gap is formed in the exhaust chamber so as not to divide the exhaust chamber to form a maze in the exhaust chamber, and the gas generated in the storage battery is exhausted into the exhaust chamber. An introduction hole for introducing into the chamber, a discharge hole for discharging gas from the exhaust chamber to the communication exhaust path, and a liquid return hole for returning the liquid that has entered the exhaust chamber at the lower end of the exhaust chamber, And a splash-proof plate formed so as to be inclined downward toward the gap and the liquid reflux hole side, and the bottom surface of the communication exhaust path is also directed toward the exhaust hole of the exhaust chamber. The bottom surface of the communication exhaust passage is directed toward the liquid return hole of the exhaust chamber. We have had downward inclination is characterized in.

また、請求項２の発明では、排気室を区画形成する区画壁、連通排気路を形成する区画壁の上端面を同一平面上に位置させたことを特徴とするものである。 Further, the invention of claim 2 is characterized in that the partition wall forming the exhaust chamber and the upper end surface of the partition wall forming the communication exhaust passage are located on the same plane.

本発明は、排気室の底面を傾斜させ且つ防沫板を傾斜させると共に、連通排気路の底面も傾斜させて液の戻りを良くしたので、該排気室内や連通排気路中に液が滞留することなく速やかに各セル室内に還流するので、排気室を介して隣接のセル室へ液が移動したり外部へ漏れ出ることが解消される効果を奏するものである。 In the present invention, the bottom of the exhaust chamber is inclined and the splash-proof plate is inclined, and the bottom of the communication exhaust passage is also inclined to improve the return of the liquid, so that the liquid stays in the exhaust chamber and the communication exhaust passage. Since the liquid quickly recirculates into each cell chamber, the liquid can be prevented from moving to the adjacent cell chamber via the exhaust chamber or leaking outside.

また、請求項２において、排気室や連通排気路を形成する区画壁の上端面を同一平坦面にしたので、蓄電池の気密試験を容易に行い得る効果を奏するものである。 Moreover, in Claim 2, since the upper end surface of the partition wall which forms an exhaust chamber and a communication exhaust path was made into the same flat surface, there exists an effect which can perform the airtight test of a storage battery easily.

蓄電池は、正・負極板をセパレータを介して積層してなる極板群を収納した電槽と、該電槽の開口上面を封口する蓋と、蓋に形成された排気室等を覆う覆蓋等を備えるものである。図１は蓄電池の上面図として蓋１の上面が描かれているが、蓋に形成された排気室２等を覆う覆蓋が取り除かれた状態の図である。この蓄電池は２点鎖線で示す通り、電槽内部が隔壁により区画された６セルモノブッロック式の蓄電池であり、６つのセル室に１つの共通の蓋１が用いられているものである。従って排気室２は各セル室に対応し６つ形成されている。この排気室２は蓋１の上面に凹部を形成し、底面を傾斜させ且つ周囲に区画壁２ａを形成して構成され、各排気室２は区画壁２ａの一部を切り欠いた排出孔２ｂにより連通排気路３と連通している。この連通排気路３も凹部と区画壁３ａにより形成されている。この連通排気路３はその両端に広い部屋３ｂを有し、後述する外部排気口へと連通するものである。この部屋３ｂも凹部と区画壁３ａにより形成され、切欠部３ｃにより連通されている。 A storage battery includes a battery case that houses a group of electrode plates formed by laminating positive and negative electrode plates through a separator, a lid that seals the upper surface of the opening of the battery case, a cover that covers an exhaust chamber formed on the lid, etc. Is provided. FIG. 1 shows a state in which the upper surface of the lid 1 is drawn as a top view of the storage battery, but the cover that covers the exhaust chamber 2 and the like formed on the lid is removed. As shown by a two-dot chain line, this storage battery is a 6-cell monoblock type storage battery in which the inside of the battery case is partitioned by a partition wall, and one common lid 1 is used for 6 cell chambers. Accordingly, six exhaust chambers 2 are formed corresponding to each cell chamber. The exhaust chamber 2 is formed by forming a recess on the upper surface of the lid 1, inclining the bottom surface and forming a partition wall 2 a around the exhaust chamber 2, and each exhaust chamber 2 has a discharge hole 2 b in which a part of the partition wall 2 a is cut out. Is communicated with the communication exhaust passage 3. The communication exhaust path 3 is also formed by a recess and a partition wall 3a. This communication exhaust passage 3 has wide chambers 3b at both ends thereof, and communicates with an external exhaust port described later. This room 3b is also formed by a recess and a partition wall 3a, and is communicated by a notch 3c.

また、この連通排気路３は蓄電池の電槽の隔壁に対応する部分に形成された区画壁３ｄにより仕切られているが、後述するようにこれら排気室２等を覆う覆蓋に形成された凹部により互いに連通しているものである。そして、その底面は各排出孔２bに向かい傾斜しているものである。 The communication exhaust passage 3 is partitioned by a partition wall 3d formed in a portion corresponding to the partition wall of the battery case of the storage battery. As will be described later, the communication exhaust passage 3 is formed by a recess formed in a cover that covers the exhaust chamber 2 and the like. They are in communication with each other. And the bottom face inclines toward each discharge hole 2b.

これら、排気室２の区画壁２a、連通排気路３の区画壁３aおよび連通排気路３を仕切る区画壁３dの上端面は同一面に形成されており、電槽へ蓋１を施した後で各セル室の気密試験をする際に該気密試験機のヘッドをこれら上端面に押し付けることで各セル室を独立した密閉空間に容易にすることが出来るものであり、結果、これら気密試験機により各セル室内へ空気を送って加圧して各セル室内の気密性を容易に確認することが出来る。 The partition wall 2a of the exhaust chamber 2, the partition wall 3a of the communication exhaust passage 3, and the upper end surface of the partition wall 3d partitioning the communication exhaust passage 3 are formed on the same surface, and after the lid 1 is applied to the battery case Each cell chamber can be easily made into an independent sealed space by pressing the head of the hermetic tester against these upper end surfaces when performing the hermetic test of each cell chamber. The airtightness in each cell chamber can be easily confirmed by sending air into each cell chamber and pressurizing it.

排気室２内には、多数の防沫板４が形成されている。該防沫板４は排気室２の対向する区画壁２ａに交互に一体に形成され、同一方向に傾斜すると共にその先端がくの字状に曲げられ対向する区画壁２ａとの間に隙間５を形成するようにしている。 A large number of splash-proof plates 4 are formed in the exhaust chamber 2. The splash-proof plate 4 is alternately formed integrally with the opposing partition wall 2a of the exhaust chamber 2, and is inclined in the same direction and bent at the tip thereof in a U-shape to form a gap 5 between the opposing partition wall 2a. Try to form.

この排気室２は蓋１を貫通する注液口６とは、端部の防沫板４ａを境に隣接して形成され、一体の区画壁２ａで囲われている。 The exhaust chamber 2 is formed adjacent to the liquid injection port 6 penetrating the lid 1 with a splash-proof plate 4a at the end as a boundary, and is surrounded by an integral partition wall 2a.

端部の防沫板４ａは、その先端がくの字状に曲げられていることは他の防沫板４と同じであるが、該先端と対向する区画壁２ａ間に壁６ａが形成され、その上下に切欠きがあり、下部の切欠きを液還流孔、上部の切欠きをガスの導入孔６ｂとしている。また、この端部の防沫板４ａの先端くの字状に曲げられている先端部４ａａは肉厚に形成されている。 The end of the splash-proof plate 4a is the same as the other splash-proof plate 4 in that its tip is bent in a U-shape, but a wall 6a is formed between the partition walls 2a facing the tip, There are notches on the top and bottom, and the lower notch serves as a liquid reflux hole and the upper notch serves as a gas introduction hole 6b. Moreover, the front-end | tip part 4aa bent by the front-end | tip shape of the splash-proof board 4a of this edge part is formed in thickness.

なお、図中、７は正負極端子、８は電解液の比重および液面を見るインジケーター、９は蓄電池搬送用のベルトを挿通する溝であり、その近傍に記載される点線示部分は溝９の下部に形成された凹溝１０である。 In the figure, 7 is a positive / negative electrode terminal, 8 is an indicator for checking the specific gravity and liquid level of the electrolyte, 9 is a groove for inserting a belt for conveying the storage battery, and the dotted line portion shown in the vicinity thereof is the groove 9. It is the ditch | groove 10 formed in the lower part of this.

図２は覆蓋１１の裏面図である。上記蓋１の排気室２、連通排気路３及び部屋３ｂの区画壁２ａ、３ａに対向して垂下壁１１ａが形成され、また防沫板４に対向して垂下壁１１ｂが形成され、その先端はくの字状に折り曲げられていることは蓋１の防沫板４と同じであるが、その屈曲先端部１１ｂａは高さ方向に切り欠かれ段差を有している。この段差により該覆蓋１１を蓋１へ熱融着して施す際にこの屈曲先端部１１ｂａを融かさず、熱融着の際の融着代部分のはみ出しにより隙間５が閉塞されることを防止するものである。 FIG. 2 is a rear view of the cover 11. A drooping wall 11a is formed opposite to the partition wall 2a, 3a of the lid 1, the exhaust passage 3, and the chamber 3b, and a drooping wall 11b is formed opposite to the splash proof plate 4. The bent shape is the same as the splash-proof plate 4 of the lid 1, but the bent tip portion 11ba is notched in the height direction and has a step. This step prevents the bent tip 11ba from being melted when the cover 11 is heat-sealed to the cover 1 and prevents the gap 5 from being blocked by the protrusion of the fusion allowance at the time of heat-sealing. To do.

各区画壁２ａ、３ａに対向する垂下壁１１ａは、排出孔２ｂや切欠部３ｃに対向する部分が切欠かれている。そして、連通排気路３に対向する部分には全長に渡り凹部１１ｃが形成されている。区画壁３ｄに対向するものは形成されていない。このことにより連通排気路３は互いに連通される。そして、その両端にある、蓋１の部屋３ｂに対向する部分にある円形状のものは防爆用のフィルター１２であり、そこから外方に延出する筒体１３は先端が膨径に形成され、その断面は円形で、その内部が貫通する中空筒状体に形成され、一端はフィルター１２の上方に開口し、他端は外部へ開口し、外部排気口１４を形成している。そして、図示しないが、該筒体１３の先端膨径に形成された部分に排気管が取り付けられるものである。 The hanging wall 11a facing each of the partition walls 2a and 3a is notched at a portion facing the discharge hole 2b and the notch 3c. A recess 11c is formed over the entire length of the portion facing the communication exhaust passage 3. What is opposed to the partition wall 3d is not formed. As a result, the communication exhaust passages 3 communicate with each other. And the circular thing in the part which opposes the room | chamber 3b of the lid | cover 1 in the both ends is the filter 12 for explosion-proof, and the cylinder 13 extended outward from there has the front-end | tip formed in an expanded diameter. The cross section is circular and formed into a hollow cylindrical body through which the inside penetrates. One end opens above the filter 12 and the other end opens to the outside, forming an external exhaust port 14. And although not shown in figure, an exhaust pipe is attached to the part formed in the tip bulge diameter of this cylinder 13. As shown in FIG.

図中１５は、蓋１の注液口６に対向する部分に形成された突起体であり、図３に示す覆蓋の側面図に記載される通り、垂下壁１１ａより更に長く垂下し、覆蓋１１を蓋１に施した際に、これら突起体１５が蓋１の注液口６の周壁に係合し、蓋１と覆蓋１１の位置合わせを容易にしたものである。なお、両端部に位置するこれら注液口に対向する部分には更に突起体１５ａ、１５ｂが各々形成されている。更に１６は覆蓋１１を蓋１へ所定位置へ合わせるため位置合わせ用のガイド片で、覆蓋の外周縁の４箇所に垂下して形成され、該覆蓋１１を蓋１へ施す際の位置合わせを便ならしめるものであるが、このガイド片１６又は突起体１５、１５ａ、１５ｂのいずれか一方は省いても良い。 In the figure, reference numeral 15 denotes a protrusion formed on a portion of the lid 1 that faces the liquid injection port 6. As shown in the side view of the cover shown in FIG. When these are applied to the lid 1, these protrusions 15 engage with the peripheral wall of the liquid injection port 6 of the lid 1 to facilitate the alignment of the lid 1 and the cover 11. In addition, protrusions 15a and 15b are further formed at portions facing these liquid injection ports located at both ends. Further, 16 is a positioning guide piece for aligning the cover lid 11 with the lid 1 in a predetermined position, and is formed by hanging down at four locations on the outer peripheral edge of the cover lid for convenient alignment when the cover lid 11 is applied to the lid 1. However, one of the guide piece 16 and the protrusions 15, 15a, 15b may be omitted.

図４は、蓋１へ覆蓋１１を施した状態を示す部分断面図で、図１のA−A線に沿った断面図であり、蓋１の凹部に形成された排気室２の底面２ｃは液還流孔６ｃへ向かい傾斜する傾斜面に形成され、更に連通排気路３の底面３ｅや部屋３ｂの底面３ｂａも傾斜面に形成されている。 4 is a partial cross-sectional view showing a state in which the cover 1 is applied to the lid 1, and is a cross-sectional view taken along the line AA in FIG. 1. The bottom surface 2 c of the exhaust chamber 2 formed in the concave portion of the lid 1 is shown in FIG. The bottom surface 3e of the communication exhaust passage 3 and the bottom surface 3ba of the room 3b are also formed on the inclined surface.

排気室２の注液口６と隣接する防沫板の先端に設けられた壁６ａの上部にはガスの導入孔６ｂが下部には液還流孔６cが貫通して形成されている。注液口６と隣接する防沫板の先端部４ａａは図示の通り排気室２より更に下方へ垂下して形成されている。これら排気室２、連通排気路３、その両端に形成された広い部屋３aの上に覆蓋１１が熱融着されてこれら排気室２等の上面を覆うと共に、注液口６をも覆われて注液口６を閉塞するものである。その際、排気室２の区画壁２ａ、防沫板４および連通排気路３の区画壁３aの上端面に覆蓋１１の各垂下壁１１a、１１ｂが対向し互いに熱融着される。そして、覆蓋１１に設けられたフィルター１２は部屋３aに位置して配置される。図中１７は電槽内に収納された極板群に接続された極柱で蓋１に鋳込まれたブッシング端子とをその上部で互いに溶接して蓄電池の端子７が形成されている。１８は蓋１の裏面に形成された隔壁１９に設けられたガイド片で、電槽の隔壁を誘導し蓋と電槽の各隔壁間の熱融着を確実なものにするためのものである。 A gas introduction hole 6b is formed in the upper portion of the wall 6a provided at the tip of the splash-proof plate adjacent to the liquid injection port 6 of the exhaust chamber 2, and a liquid reflux hole 6c is formed in the lower portion. The tip portion 4aa of the splash-proof plate adjacent to the liquid injection port 6 is formed so as to hang downward from the exhaust chamber 2 as shown. A cover 11 is heat-sealed on the exhaust chamber 2, the communication exhaust passage 3, and the large chamber 3 a formed at both ends thereof to cover the upper surface of the exhaust chamber 2 and the liquid injection port 6. The liquid injection port 6 is closed. At that time, the hanging walls 11a and 11b of the cover 11 are opposed to the upper end surfaces of the partition wall 2a of the exhaust chamber 2, the splashproof plate 4 and the partition wall 3a of the communication exhaust passage 3, and are heat-sealed to each other. And the filter 12 provided in the cover 11 is located in the room 3a. In the figure, reference numeral 17 denotes a storage battery terminal 7 formed by welding a bushing terminal cast into the lid 1 with a pole column connected to a group of electrode plates housed in the battery case at the upper part thereof. Reference numeral 18 denotes a guide piece provided on the partition wall 19 formed on the back surface of the lid 1 for guiding the partition wall of the battery case and ensuring heat fusion between the partition wall of the lid and the battery case. .

なお、フィルターや外部排気口を有する筒体を蓋に設け、覆蓋１１を上記の様な裏面構造を有さす平坦な板状体であっても良い。 Note that a cylindrical body having a filter and an external exhaust port may be provided on the lid, and the cover 11 may be a flat plate having the back surface structure as described above.

電槽および上記詳述した蓋１や覆蓋１１はポリプロピレンで成形されている。正負極として鉛粉を希硫酸で練った活物質ペーストを鉛合金の格子基板に充填した極板を使用し、セパレータは耐酸性高分子多孔板とガラスマットを積層したものを使用し、これらを正負極板と交互に積層して極板群を得た。これら極板群を各セル室内に収容し、極板群と一体となったセル間接続体により、隣接するセル室内の極板群を、隔壁を貫通してセル間接続体同士を抵抗溶接することで直列に接続し、端部に位置するセル室内の極板群から極柱１７をブッシング端子内に挿通して蓋１を施し、電槽と蓋１を熱融着した。また、極柱１７とブッシング端子をその上端で互いに溶接して蓄電池の端子７を形成した。次いで、注液口６より希硫酸電解液を各セル室内に注入し、化成を施した後排気室２等を覆う覆蓋１１を蓋１に熱融着し、比重の異なり異なる色に着色された２つの合成樹脂球を備え、全体が透明の合成樹脂で形成されたインジケータ８を取付け鉛蓄電池を完成した。 The battery case and the lid 1 and the cover 11 described above are formed of polypropylene. As the positive and negative electrodes, an electrode plate in which an active material paste prepared by kneading lead powder with dilute sulfuric acid is filled in a lead alloy lattice substrate is used, and a separator is a laminate of an acid-resistant polymer porous plate and a glass mat. An electrode group was obtained by alternately laminating positive and negative electrodes. These electrode plate groups are accommodated in each cell chamber, and the electrode plate groups in adjacent cell chambers are resistance-welded to each other through the partition wall by the inter-cell connection body integrated with the electrode plate group. By connecting in series, the pole column 17 was inserted into the bushing terminal from the electrode plate group in the cell chamber located at the end, the lid 1 was applied, and the battery case and the lid 1 were heat-sealed. Moreover, the pole column 17 and the bushing terminal were welded to each other at the upper end to form a storage battery terminal 7. Next, a dilute sulfuric acid electrolyte solution was injected into each cell chamber from the liquid injection port 6, and after chemical conversion, the cover lid 11 covering the exhaust chamber 2 and the like was heat-sealed to the lid 1 and colored in different colors with different specific gravity. A lead storage battery was completed by attaching an indicator 8 provided with two synthetic resin balls and made entirely of a synthetic resin.

このような鉛蓄電池は、使用中、充電による発生ガスや振動により電解液が排気室２内に浸入し、防沫板４により凝縮して水滴となっても排気室２の底面が傾斜し、且つ排気室２内の防沫板４も傾斜して形成されているので、浸入した電解液は該排気室２内に滞留することなく速やかに液還流孔６ｃからセル室内に還流することが出来る。更に該液が連通排気路３内へ浸入した場合であっても、該連通排気路３の底面が排気室２と連通する切欠部２bへ向かい傾斜しているので滞留することなく還流するものである。 In such a lead storage battery, even if the electrolyte is intruded into the exhaust chamber 2 due to gas generated by vibration or vibration during use, and the bottom of the exhaust chamber 2 is inclined even if it is condensed by the splash-proof plate 4 into water droplets, In addition, since the splash-proof plate 4 in the exhaust chamber 2 is also formed to be inclined, the infiltrated electrolyte can quickly return to the cell chamber from the liquid reflux hole 6c without staying in the exhaust chamber 2. . Further, even when the liquid enters the communication exhaust passage 3, the bottom surface of the communication exhaust passage 3 is inclined toward the cutout portion 2b communicating with the exhaust chamber 2, so that the liquid flows back without being retained. is there.

従って、排気室２や連通排気路３内に液が滞留することがなく該滞留した液が隣接するセル室内に入ったり、外部へ漏れ出る等の問題は無くなり、従来に比し溢液特性の優れたもの得られる。例えば振動周波数３０Ｈｚで加速度を６０ｍ／ｓ²の条件では従来品は液漏れがあったが、本実施例品では液漏れは無かった。 Therefore, the liquid does not stay in the exhaust chamber 2 or the communication exhaust passage 3, and there is no problem that the staying liquid enters the adjacent cell chamber or leaks to the outside. An excellent one is obtained. For example, under the conditions of a vibration frequency of 30 Hz and an acceleration of 60 m / s ² , the conventional product leaked liquid, but the product of this example did not leak.

なお、発生ガスは、防沫板４により液と分離され、排気室２の排出孔２bから連通排気路３を通り該連通排気路３内の区画壁３aを覆蓋１１の下面より通り抜け端部の部屋３bからフィルター１２を介して筒体１３内を通り外部排気口１４及びこれに装着された排気管より安全に外部へ排出されるものである。 The generated gas is separated from the liquid by the splash-proof plate 4, passes through the communication exhaust passage 3 from the discharge hole 2 b of the exhaust chamber 2, passes through the partition wall 3 a in the communication exhaust passage 3 from the lower surface of the cover 11, and is at the end. From the room 3b, it passes through the inside of the cylinder 13 through the filter 12, and is safely discharged to the outside from the external exhaust port 14 and the exhaust pipe attached thereto.

また、排気室２の導入孔６ｂは排気室２上部に形成し、液還流孔６ｃを排気室２下部に形成した例を示したが、排気室２上部の導入孔６bを省き、液還流孔６ｃが導入孔を兼ねるようにしても良い。 Moreover, although the introduction hole 6b of the exhaust chamber 2 is formed in the upper portion of the exhaust chamber 2 and the liquid reflux hole 6c is formed in the lower portion of the exhaust chamber 2, the introduction hole 6b in the upper portion of the exhaust chamber 2 is omitted, and the liquid reflux hole is shown. 6c may also serve as an introduction hole.

更に、この実施例では排気室２の区画壁２a、連通排気路３の区画壁３aおよび連通排気路３を仕切る区画壁３dの上端面は同一面上に位置する平坦なものに形成したので、セル室の気密試験をする際これら上端面に気密試験をする為の試験ヘッド先端のゴムを当てることで、セル室を独立して完全に覆うことが出来、試験ヘッドよりセル室内に注液口６を介して空気を送り加圧してその圧力低下の無いことを確認してセル室の気密状態を容易に確認することが出来るものである。 Furthermore, in this embodiment, the partition wall 2a of the exhaust chamber 2, the partition wall 3a of the communication exhaust passage 3, and the upper end surface of the partition wall 3d that partitions the communication exhaust passage 3 are formed flat on the same plane. By applying rubber at the tip of the test head for the air tightness test to the upper end of the air tightness test of the cell chamber, the cell chamber can be completely covered independently, and the liquid injection port from the test head into the cell chamber Air can be sent through 6 and pressurized to confirm that there is no pressure drop, and the airtight state of the cell chamber can be easily confirmed.

本発明の実施形態の覆蓋を除いた蓄電池の蓋の上面図The top view of the lid | cover of the storage battery except the cover lid of embodiment of this invention 本発明の実施形態の覆蓋の裏面図The back view of the cover of the embodiment of the present invention 本発明の実施形態の覆蓋の側面図Side view of the cover of the embodiment of the present invention 図１のＡ−Ａ線相当の断面部分図1 is a cross-sectional partial view corresponding to the line AA in FIG.

符号の説明Explanation of symbols

１蓋
２排気室
３連通排気路
４防沫板
５隙間
６注液口
１４外部排気口
２ａ、３ａ区画壁
２ｂ排出孔
２ｃ底面
６a 導入孔
６ｂ液還流孔 DESCRIPTION OF SYMBOLS 1 Lid 2 Exhaust chamber 3 Communication exhaust path 4 Splash-proof board 5 Crevice 6 Injection hole 14 External exhaust port 2a, 3a Partition wall 2b Discharge hole 2c Bottom face 6a Inlet hole 6b Liquid return hole

Claims

蓄電池に、排気室と、外部排気口と、該排気室と該外部排気口を連通する連通排気路とを形成し、
該排気室内には排気室内を区分することのない様に隙間を形成した防沫板を形成して該排気室内に迷路を形成すると共に、
該排気室に、蓄電池の発生ガスを該排気室内に導入する導入孔と、該排気室から連通排気路へガスを排出する排出孔と、該排気室の下端部に排気室内に進入した液を還流する液還流孔を設け、
該排気室底面を液還流孔に向かって下降傾斜する傾斜面とすると共に、防沫板も隙間と液還流孔側に向かって下降傾斜するよう形成し、
前記連通排気路底面も該排気室の排出孔に向かって下降傾斜する傾斜面とし、該連通排気路底面が該排気室の液還流孔へ向かい下降傾斜していることを特徴とする蓄電池排気構造。 In the storage battery, an exhaust chamber, an external exhaust port, and a communication exhaust path that communicates the exhaust chamber and the external exhaust port are formed.
Forming a maze in the exhaust chamber by forming a splash-proof plate with a gap so as not to divide the exhaust chamber in the exhaust chamber;
Into the exhaust chamber, an introduction hole for introducing the generated gas of the storage battery into the exhaust chamber, a discharge hole for discharging the gas from the exhaust chamber to the communication exhaust path, and a liquid that has entered the exhaust chamber at the lower end of the exhaust chamber Provide a liquid reflux hole to reflux,
The bottom surface of the exhaust chamber is an inclined surface that is inclined downward toward the liquid reflux hole, and the splash-proof plate is also formed to be inclined downward toward the gap and the liquid reflux hole side,
The storage battery exhaust structure characterized in that the bottom surface of the communication exhaust passage is also an inclined surface inclined downward toward the discharge hole of the exhaust chamber, and the bottom surface of the communication exhaust passage is inclined downward toward the liquid reflux hole of the exhaust chamber. .

排気室を区画形成する区画壁、連通排気路を形成する区画壁の上端面を同一平面上に位置させたことを特徴とする請求項１記載の蓄電池排気構造。 2. The storage battery exhaust structure according to claim 1, wherein a partition wall forming the exhaust chamber and an upper end surface of the partition wall forming the communication exhaust path are positioned on the same plane.