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JP5896552B2 - Electricity storage element - Google Patents

Electricity storage element Download PDF

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JP5896552B2
JP5896552B2 JP2011231770A JP2011231770A JP5896552B2 JP 5896552 B2 JP5896552 B2 JP 5896552B2 JP 2011231770 A JP2011231770 A JP 2011231770A JP 2011231770 A JP2011231770 A JP 2011231770A JP 5896552 B2 JP5896552 B2 JP 5896552B2
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power generation
generation element
pair
portions
electrode plate
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JP2013089558A (en
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殿西 雅光
雅光 殿西
伸之 長縄
伸之 長縄
岸本 知徳
知徳 岸本
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Honda Motor Co Ltd
GS Yuasa International Ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/13Energy storage using capacitors
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/62Hybrid vehicles

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Description

本発明は、発電要素と該発電要素に電気的に接続された集電体とがケースに収容され、該集電体が、ケースの外側に配置された出力端子と電気的に接続された状態でケースに固定された構造の蓄電素子に関する。   In the present invention, a power generation element and a current collector electrically connected to the power generation element are accommodated in a case, and the current collector is electrically connected to an output terminal disposed outside the case. It relates to a power storage element having a structure fixed to the case.

近年、各種機器の電力源として、充放電可能な蓄電素子が採用されている。なお、本明細書中において、「蓄電素子」とは、電池(リチウムイオン電池、ニッケル水素電池等)、及びキャパシタ(電気二重層キャパシタ等)の双方を包含する概念である。   In recent years, chargeable / dischargeable storage elements have been adopted as power sources for various devices. In the present specification, the “storage element” is a concept including both a battery (such as a lithium ion battery and a nickel metal hydride battery) and a capacitor (such as an electric double layer capacitor).

かかる蓄電素子は、図7に示す如く、発電要素2と、該発電要素2に電気的に接続された一対の集電体3a,3bと、発電要素2及び一対の集電体3a,3bを収容したケース4と、該ケース4の外側に配置された一対の出力端子5a,5bとを備えている。   As shown in FIG. 7, the power storage element includes a power generation element 2, a pair of current collectors 3a and 3b electrically connected to the power generation element 2, and a power generation element 2 and a pair of current collectors 3a and 3b. The housing 4 is provided with a pair of output terminals 5a and 5b arranged outside the case 4.

発電要素2は、正極板20aと、負極板20bと、セパレータ20cとを含んでいる。すなわち、発電要素2は、金属箔上に正極用活物質層が形成された極薄な正極板20aと、金属箔上に負極用活物質層が形成された極薄な負極板20bと、電気絶縁性を有するセパレータ20cとを備えている。正極板20a及び負極板20bは、図8に示す如く、セパレータ20cを間に挟んで第一方向に相対的に位置ずれした状態で重ね合わされている。そして、第一方向における発電要素2の両端部の正極板20a及び負極板20bのそれぞれに集電体3a,3bが接続される。第一方向における発電要素2の両端部の正極板20a及び負極板20bのそれぞれは、集電体3a,3bに接続されるに当り、第一方向と直交する第二方向の中央側で集結される。   The power generation element 2 includes a positive electrode plate 20a, a negative electrode plate 20b, and a separator 20c. That is, the power generation element 2 includes a very thin positive electrode plate 20a having a positive electrode active material layer formed on a metal foil, a very thin negative electrode plate 20b having a negative electrode active material layer formed on a metal foil, And an insulating separator 20c. As shown in FIG. 8, the positive electrode plate 20a and the negative electrode plate 20b are overlapped with each other in a state of being relatively displaced in the first direction with the separator 20c interposed therebetween. The current collectors 3a and 3b are connected to the positive electrode plate 20a and the negative electrode plate 20b at both ends of the power generation element 2 in the first direction, respectively. Each of the positive electrode plate 20a and the negative electrode plate 20b at both ends of the power generation element 2 in the first direction is concentrated on the center side in the second direction orthogonal to the first direction when connected to the current collectors 3a and 3b. The

一対の集電体3a,3bのそれぞれは、図7に示す如く、第一方向及び第二方向と直交する第三方向に沿って配置された発電要素接続部30a,30bと、該発電要素接続部30a,30bから延出された固定用片部31a,31bとを備えている。   As shown in FIG. 7, each of the pair of current collectors 3 a and 3 b includes power generation element connection portions 30 a and 30 b disposed along a third direction orthogonal to the first direction and the second direction, and the power generation element connection. And fixing pieces 31a and 31b extending from the portions 30a and 30b.

一方の集電体3aの発電要素接続部30aは、第一方向における発電要素2の一端部の正極板20a(第二方向に集結された正極板20a)に機械的及び電気的に接続されている(図8参照)。一方の集電体3aの固定用片部31aは、ケース4の内面に沿うように配置されている。そして、該固定用片部31aは、ケース4に挿通された締結部材(例えば、リベット)6aによってケース4に固定されるとともに、ケース4の外側に配置された正極用の出力端子5aに締結部材6aを介して電気的に接続されている。   The power generation element connecting portion 30a of one current collector 3a is mechanically and electrically connected to the positive electrode plate 20a (the positive electrode plate 20a concentrated in the second direction) at one end of the power generation element 2 in the first direction. (See FIG. 8). The fixing piece 31 a of one current collector 3 a is disposed along the inner surface of the case 4. The fixing piece 31a is fixed to the case 4 by a fastening member (for example, a rivet) 6a inserted through the case 4, and is fastened to the positive output terminal 5a disposed outside the case 4. It is electrically connected via 6a.

他方の集電体3bの発電要素接続部30bも、一方の集電体3aの発電要素接続部30aと同様である。これにより、蓄電素子1は、一対の集電体3a,3bを介して発電要素2からの電力を一対の出力端子5a,5bに供給できるようになっている。   The power generation element connection portion 30b of the other current collector 3b is the same as the power generation element connection portion 30a of the one current collector 3a. Thereby, the electrical storage element 1 can supply the electric power from the electric power generation element 2 to a pair of output terminal 5a, 5b via a pair of electrical power collector 3a, 3b.

特開2011−14276号公報JP 2011-14276 A

ところで、前記蓄電素子1は、駆動時に振動が発生する機器(例えば、ハイブリッド電気自動車(HEV)、電気自動車(EV)、電動バイク、航空機、船舶等の各種機器)の電源として採用される場合がある。しかし、このような機器に前記蓄電素子1が採用された場合、機器の振動で発電要素2や集電体3a,3bが破損してしまう虞がある。   By the way, the electric storage element 1 may be employed as a power source for devices that generate vibrations when driven (for example, various devices such as a hybrid electric vehicle (HEV), an electric vehicle (EV), an electric motorcycle, an aircraft, and a ship). is there. However, when the said electrical storage element 1 is employ | adopted as such an apparatus, there exists a possibility that the electric power generation element 2 and collector 3a, 3b may be damaged by the vibration of an apparatus.

具体的に説明すると、第一方向における発電要素2の両端部の正極板20a及び負極板20bのそれぞれは、上述の如く、第一方向と直交する第二方向の中央側で集結されている。そのため、図8に示す如く、第一方向における発電要素2の一端側及び他端側のそれぞれの外面であって、第二方向における発電要素2の両側の外面には、傾斜部200a,200bが形成されている。すなわち、発電要素2の四隅の外面には、傾斜部200a,200bが形成されている。   Specifically, each of the positive electrode plate 20a and the negative electrode plate 20b at both ends of the power generation element 2 in the first direction is concentrated on the center side in the second direction orthogonal to the first direction as described above. Therefore, as shown in FIG. 8, inclined portions 200 a and 200 b are provided on the outer surfaces of the power generation element 2 in the first direction on the one end side and the other end side, respectively, and on the outer surfaces on both sides of the power generation element 2 in the second direction. Is formed. That is, inclined portions 200 a and 200 b are formed on the outer surfaces of the four corners of the power generation element 2.

これに伴い、傾斜部200a,200bのそれぞれの内側で積層状態にある極板20a,20bの傾斜態様(或いは湾曲態様)は、積層方向の内外で相違している。そのため、傾斜部200a,200bを構成する極板20a,20b及び該傾斜部200a,200bの内側にある極板20a,20bは、変形し易い状態になっている。   In connection with this, the inclination aspect (or curvature aspect) of the electrode plates 20a and 20b in the laminated state inside the inclined portions 200a and 200b is different between inside and outside in the lamination direction. Therefore, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b and the electrode plates 20a and 20b inside the inclined portions 200a and 200b are in a state of being easily deformed.

従って、機器の振動が伝わり、蓄電素子1全体が第二方向に振動した場合、発電要素2における傾斜部200a,200bを構成する極板20a,20b、及び該傾斜部200a,200bの内側にある極板20a,20bが繰り返し変形する。その結果、傾斜部200a,200bを構成する極板20a,20b、及び該傾斜部200a,200bの内側にある極板20a,20bが最終的に破断する可能性がある。   Therefore, when the vibration of the device is transmitted and the entire storage element 1 vibrates in the second direction, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b in the power generation element 2 and the inner sides of the inclined portions 200a and 200b are present. The electrode plates 20a and 20b are repeatedly deformed. As a result, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b and the electrode plates 20a and 20b inside the inclined portions 200a and 200b may eventually break.

具体的に説明すると、第一方向における発電要素2の中央部分は、積層された極板20a,20bが密集している。そのため、機器の振動(第二方向の振動)が蓄電素子1に伝達されたときに第一方向における発電要素2の中央部分を中心にして該発電要素2が第二方向に揺動しようとする。そうすると、発電要素接続部30a,30bとの接続位置の近傍にある極板(傾斜部200a,200bを構成する極板及び該傾斜部200a,200bの内側で積層された極板)20a,20bが発電要素2の中央部分の揺動に追従する。従って、傾斜部200a,200bを構成する極板20a,20b及び該傾斜部200a,200bの内側の極板20a,20bが変形を繰り返すことになる。そのため、発電要素2の極板20a,20bが破断し、電力の供給ができなくなる可能性があった。   If demonstrating it concretely, the laminated | stacked electrode plates 20a and 20b are densely packed in the center part of the electric power generation element 2 in a 1st direction. Therefore, when the vibration of the device (vibration in the second direction) is transmitted to the power storage element 1, the power generation element 2 tries to swing in the second direction around the central portion of the power generation element 2 in the first direction. . Then, electrode plates (electrode plates constituting the inclined portions 200a and 200b and electrode plates stacked inside the inclined portions 200a and 200b) 20a and 20b in the vicinity of the connection positions with the power generation element connection portions 30a and 30b are provided. The oscillation of the central portion of the power generation element 2 is followed. Therefore, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b and the electrode plates 20a and 20b inside the inclined portions 200a and 200b are repeatedly deformed. For this reason, there is a possibility that the electrode plates 20a and 20b of the power generation element 2 are broken, and the power cannot be supplied.

また、機器の振動で発電要素2がケース4内で第二方向に揺動しようとすると、該発電要素2を支持する集電体3a,3bも第二方向に揺動しようとする。その結果、集電体3a,3bの固定用片部31a,31b(隔壁41に固定される部位)や集電体3a,3bにおける発電要素接続部30a,30bと固定用片部31a,31bとの境界近傍に曲げ応力(曲げ作用)が繰り返し生じる。そのため、集電体3a,3bが疲労破壊(破断)してしまう虞もある。   Further, when the power generation element 2 tries to swing in the second direction in the case 4 due to the vibration of the device, the current collectors 3a and 3b supporting the power generation element 2 also try to swing in the second direction. As a result, the fixing pieces 31a and 31b (portions fixed to the partition wall 41) of the current collectors 3a and 3b and the power generating element connection portions 30a and 30b and the fixing pieces 31a and 31b in the current collectors 3a and 3b Bending stress (bending action) is repeatedly generated in the vicinity of the boundary. For this reason, the current collectors 3a and 3b may be fatigued (broken).

そこで、本発明は、斯かる実情に鑑み、振動環境下で集電体や発電要素が破損してしまうことを防止することのできる蓄電素子を提供することを課題とする。   Then, an object of this invention is to provide the electrical storage element which can prevent that a collector and an electric power generation element are damaged in a vibration environment in view of such a situation.

本発明に係る蓄電素子は、
電気絶縁性を有するセパレータと該セパレータを間に挟んで第一方向に相対的に位置ずれした状態で重ね合わされた正極板及び負極板とが巻回されている発電要素と、
前記第一方向における前記発電要素の両端部の前記正極板及び前記負極板のうちの対応する極性の極板にそれぞれ電気的に接続された一対の集電体と、
前記発電要素及び前記一対の集電体を収容する内部空間を画定した隔壁を有するケースと、
該ケースの外側に配置された一対の出力端子と、
前記第一方向における前記発電要素の両端縁のうちの少なくとも何れか一方の端縁に沿って配置されるスペーサ部材と、を備え、
前記第一方向における前記発電要素の両端部の前記正極板及び前記負極板のそれぞれは、前記第一方向と直交する第二方向における前記発電要素の巻回中心の両側それぞれで中央側に集結され、
前記第一方向における前記発電要素の一端側及び他端側のそれぞれの外面であって、前記第二方向における前記発電要素の両側の外面上に、前記発電要素の両端部の前記正極板及び前記負極板のそれぞれの集結に伴って傾斜部が形成され、
前記一対の集電体のそれぞれは、
前記第一方向及び前記第二方向と直交する第三方向に沿って配置される発電要素接続部であって、前記第一方向における前記発電要素の両端部で集結された前記正極板及び前記負極板のうちの対応する極性の極板に電気的に接続される発電要素接続部と、
該発電要素接続部から延出された固定用片部であって、前記ケースの前記隔壁に固定されつつ前記一対の出力端子のうちの対応する極性の出力端子に対して電気的に接続された固定用片部と、を備え、
前記スペーサ部材は、前記第一方向における前記発電要素の両端部のうちの対応する端部の前記第二方向における両側に配置される一対のスペーサ本体部であって、前記ケースの前記隔壁に密接する一対のスペーサ本体部と、前記発電要素の巻回中心と対応する位置で前記第二方向に間隔をあけた状態の該一対のスペーサ本体部同士を連結する連結部とを備え、
前記一対のスペーサ本体部のそれぞれは、前記発電要素の前記傾斜部と密接するサポート部を備える。
The electricity storage device according to the present invention is:
A power generating element is a positive electrode plate and the negative electrode plate transgressions wound superimposed while relatively displaced position in the first direction in between the separator and the separator having an electrically insulating,
A pair of current collectors each electrically connected to a corresponding polar plate of the positive electrode plate and the negative electrode plate at both ends of the power generation element in the first direction;
A case having a partition wall defining an internal space for accommodating the power generation element and the pair of current collectors;
A pair of output terminals disposed outside the case;
A spacer member disposed along at least one of the two end edges of the power generation element in the first direction,
Each of the positive electrode plate and the negative electrode plate at both ends of the power generation element in the first direction is concentrated on the center side at both sides of the winding center of the power generation element in the second direction orthogonal to the first direction. And
On the outer surfaces of the one end side and the other end side of the power generation element in the first direction, on the outer surfaces on both sides of the power generation element in the second direction, the positive plates at both ends of the power generation element and the An inclined part is formed with each concentration of the negative electrode plate,
Each of the pair of current collectors is
A power generation element connection portion disposed along a third direction orthogonal to the first direction and the second direction, the positive electrode plate and the negative electrode being concentrated at both ends of the power generation element in the first direction A power generating element connection that is electrically connected to a corresponding polarity plate of the plates;
A fixing piece extending from the power generating element connecting portion, and is electrically connected to an output terminal having a corresponding polarity of the pair of output terminals while being fixed to the partition wall of the case. A fixing piece,
The spacer member is a pair of spacer main body portions disposed on both sides in the second direction of corresponding end portions of the power generation elements in the first direction, and is in close contact with the partition wall of the case. A pair of spacer body portions, and a connecting portion that connects the pair of spacer body portions in a state spaced from each other in the second direction at a position corresponding to the winding center of the power generation element ,
Each of the pair of spacer main body portions includes a support portion that is in close contact with the inclined portion of the power generation element.

なお、ここで「密接」とは、対象となる部分や部材との間に隙間が無い状態、或いは対象となる部分や部材との間に略隙間が無い状態で配置されることを意味し、対象となる部分や部材と直接接触して該対象となる部分や部材に密に配置されることや、絶縁シートや絶縁袋等を間に挟んだ状態で対象となる部分や部材に対して密に配置されることを意味する。   Here, “closely” means that there is no gap between the target portion or member, or that there is no substantial gap between the target portion or member, It is placed in close contact with the target part or member in direct contact with the target part or member, or with the insulating sheet or bag sandwiched in between. Means to be placed in.

上記構成の蓄電素子によれば、第二方向の振動を受けたときに、スペーサ部材が第一方向における発電要素の一端側及び他端側の少なくとも何れか一方に形成される傾斜部を構成する極板及び該傾斜部の内側で積層される極板の変形を規制することができるとともに、発電要素全体の揺動を規制することができる。   According to the electricity storage device having the above configuration, when subjected to vibration in the second direction, the spacer member constitutes an inclined portion formed on at least one of the one end side and the other end side of the power generation element in the first direction. The deformation of the electrode plate and the electrode plate laminated inside the inclined portion can be restricted, and the oscillation of the entire power generating element can be restricted.

具体的には、スペーサ部材が発電要素の第一方向の両端縁のうちの少なくとも何れか一方の端縁に沿って配置されることで、スペーサ部材における一対のスペーサ本体部のそれぞれがケースの隔壁に直接的又は間接的に密接した状態で発電要素の第一方向の端部の両側に配置される。すなわち、一対のスペーサ本体部が、ケースの内部側から外方に向けての移動が規制された状態で該ケース内に配置される。   Specifically, the spacer member is disposed along at least one of the both end edges in the first direction of the power generation element, so that each of the pair of spacer body portions in the spacer member is a partition wall of the case. Are arranged on both sides of the end portion in the first direction of the power generation element in direct or indirect contact with the power generation element. That is, the pair of spacer main body portions are arranged in the case in a state where movement from the inner side to the outer side of the case is restricted.

これにより、移動の規制されたスペーサ本体部のそれぞれのサポート部は、対向する発電要素の傾斜部に沿った状態(密接した状態)で維持する。従って、発電要素における傾斜部(極板)がサポート部に拘束され、第二方向の振動に対する傾斜部の変形が規制される。これに伴い、第二方向の振動に対する傾斜部の内側にある極板の変形も規制される。従って、発電要素における傾斜部を構成する極板及び該傾斜部の内側にある極板が自由に変形することを防止でき、当該極板の破損を防止することができる。   Thereby, each support part of the spacer main-body part by which movement was controlled is maintained in the state (close state) along the inclined part of the power generation element which counters. Therefore, the inclined portion (electrode plate) in the power generation element is restrained by the support portion, and deformation of the inclined portion with respect to the vibration in the second direction is restricted. Accordingly, deformation of the electrode plate inside the inclined portion with respect to the vibration in the second direction is also restricted. Therefore, it is possible to prevent the electrode plate constituting the inclined portion in the power generation element and the electrode plate inside the inclined portion from being freely deformed, and to prevent the electrode plate from being damaged.

従って、発電要素や該発電要素に接続された集電体に曲げ作用が繰り返し作用することがなく、発電要素や集電体の破損が防止される。   Therefore, the bending action does not repeatedly act on the power generation element and the current collector connected to the power generation element, and the power generation element and the current collector are prevented from being damaged.

また、前記蓄電素子において、スペーサ本体部(サポート部)は、発電要素の傾斜部に対して面接触する。そのため、スペーサ本体部が発電要素を拘束するに当たって、スペーサ本体部に極板(正極板又は負極板)が衝突するといった事態にならず、スペーサ部材を設けることによって発電要素が破損することもない。   Further, in the power storage element, the spacer main body portion (support portion) is in surface contact with the inclined portion of the power generation element. Therefore, when the spacer main body restrains the power generation element, the electrode plate (positive electrode plate or negative electrode plate) does not collide with the spacer main body, and the power generation element is not damaged by providing the spacer member.

前記スペーサ部材を一対備え、該一対のスペーサ部材は、前記第一方向における前記発電要素の両端縁に沿って配置されていることが好ましい。かかる蓄電素子は、一対のスペーサ部材によって、第一方向及び第二方向における発電要素の揺動を規制することができる。   It is preferable that a pair of the spacer members are provided, and the pair of spacer members are arranged along both end edges of the power generation element in the first direction. Such a power storage element can regulate swinging of the power generation element in the first direction and the second direction by the pair of spacer members.

具体的には、一対のスペーサ部材が発電要素の第一方向の両端縁に沿って配置されることで、一方のスペーサ部材における一対のスペーサ本体部のそれぞれがケースの隔壁に直接的又は間接的に密接した状態で発電要素の第一方向の一端部の両側に配置される。また、他方のスペーサ部材における一対のスペーサ本体部のそれぞれがケースの隔壁に直接的又は間接的に密接した状態で発電要素の第一方向の他端部の両側に配置される。すなわち、四つのスペーサ本体部が、ケースの内部側から外方に向けての移動が規制された状態で該ケース内の四隅に配置される。   Specifically, the pair of spacer members are disposed along both end edges in the first direction of the power generation element, so that each of the pair of spacer main bodies in one spacer member is directly or indirectly on the partition wall of the case. Are arranged on both sides of one end portion of the power generation element in the first direction. Moreover, each of a pair of spacer main-body part in the other spacer member is arrange | positioned in the both sides of the other end part of the 1st direction of an electric power generation element in the state which contact | connected directly or indirectly to the partition of a case. That is, the four spacer main body portions are arranged at the four corners in the case in a state in which the movement from the inner side to the outer side of the case is restricted.

これにより、移動の規制されたスペーサ本体部のそれぞれのサポート部は、対向する発電要素の傾斜部に沿った状態(密接した状態)で維持する。従って、発電要素における傾斜部(極板)のそれぞれがサポート部に拘束され、第一方向の振動及び第二方向の振動に対する傾斜部のそれぞれの変形が規制される。これに伴い、傾斜部の内側にある極板の変形も規制される。従って、発電要素における傾斜部を構成する極板及び該傾斜部の内側にある極板が自由に変形することを防止でき、当該極板の破損を防止することができる。   Thereby, each support part of the spacer main-body part by which movement was controlled is maintained in the state (close state) along the inclined part of the power generation element which counters. Therefore, each of the inclined portions (electrode plates) in the power generation element is restrained by the support portion, and the deformation of the inclined portions with respect to the vibration in the first direction and the vibration in the second direction is restricted. Accordingly, deformation of the electrode plate inside the inclined portion is also restricted. Therefore, it is possible to prevent the electrode plate constituting the inclined portion in the power generation element and the electrode plate inside the inclined portion from being freely deformed, and to prevent the electrode plate from being damaged.

また、前記発電要素の傾斜部は、発電要素の揺動方向(第一方向及び第二方向)の合成方向と交差方向に延びる部分であるため、該傾斜部に沿ったスペーサ本体のサポート部は、発電要素が移動しようとしたときに作用する力(第一方向の力、及び第二方向の力)を受け得る。これにより、ケース内の四隅に配置された四つのスペーサ本体部は、発電要素全体を拘束し、第一方向の振動及び第二方向の振動に対するケース内での発電要素全体の揺動(移動)を確実に阻止する。   Further, since the inclined portion of the power generation element is a portion extending in a direction intersecting with the combined direction of the swinging directions (first direction and second direction) of the power generation element, the support portion of the spacer body along the inclined portion is The force (the force in the first direction and the force in the second direction) acting when the power generation element is about to move can be received. As a result, the four spacer main body portions arranged at the four corners in the case constrain the entire power generating element, and the entire power generating element swings (moves) in the case with respect to the vibration in the first direction and the vibration in the second direction. Is surely prevented.

従って、発電要素や該発電要素に接続された集電体に曲げ作用が繰り返し作用することがなく、発電要素や集電体の破損が防止される。   Therefore, the bending action does not repeatedly act on the power generation element and the current collector connected to the power generation element, and the power generation element and the current collector are prevented from being damaged.

また、前記蓄電素子において、スペーサ本体部(サポート部)は、発電要素の傾斜部に対して面接触する。そのため、スペーサ本体部が発電要素を拘束するに当たって、スペーサ本体部に極板(正極板又は負極板)が衝突するといった事態にならず、スペーサ部材を設けることによって発電要素が破損することもない。   Further, in the power storage element, the spacer main body portion (support portion) is in surface contact with the inclined portion of the power generation element. Therefore, when the spacer main body restrains the power generation element, the electrode plate (positive electrode plate or negative electrode plate) does not collide with the spacer main body, and the power generation element is not damaged by providing the spacer member.

前記発電要素接続部は、前記固定用片部に接続される第一端部と、前記固定用片部の固定された前記隔壁と対向する隔壁近傍に位置する第二端部とを有し、前記スペーサ部材の前記連結部は、前記固定用片部の固定された前記隔壁と対向する前記隔壁に沿って配置され、前記一対の集電体のうちの対応する集電体における前記発電要素接続部の第二端部が連結されていることが好ましい。このようにすれば、発電要素接続部の第二端部が自由端にならない。そのため、集電体(発電要素接続部)の揺動が確実に規制される。従って、発電要素の破損や集電体の破損が確実に防止される。   The power generation element connection portion has a first end connected to the fixing piece, and a second end located in the vicinity of the partition facing the partition fixed to the fixing piece, The connecting portion of the spacer member is disposed along the partition facing the partition fixed to the fixing piece, and the power generating element connection in the corresponding current collector of the pair of current collectors It is preferable that the 2nd edge part of a part is connected. In this way, the second end portion of the power generation element connection portion does not become a free end. Therefore, the swinging of the current collector (power generation element connection portion) is reliably regulated. Therefore, the power generation element and the current collector are reliably prevented from being damaged.

前記スペーサ部材における一対のスペーサ本体部間に前記一対の集電体のうちの対応する集電体の前記発電要素接続部が介装され、該発電要素接続部の第二方向の両端部のそれぞれが両側に配置された一対のスペーサ本体のそれぞれに嵌合されていることが好ましい。このようにすれば、一対の集電体のそれぞれにおける発電要素接続部の少なくとも両端部がスペーサ部材(一対のスペーサ本体部)に拘束される。これにより、一対の集電体のそれぞれにおける発電要素接続部の揺動をより確実に規制でき、発電要素の破損や集電体の破損をより確実に防止することができる。
また、本発明に係る蓄電素子は、
電気絶縁性を有するセパレータと該セパレータを間に挟んで第一方向に相対的に位置ずれした状態で重ね合わされた正極板及び負極板とが巻回されている発電要素と、
前記発電要素を収容するケースと、
前記第一方向における前記発電要素の両端部のうちの少なくとも何れか一方の端縁に沿って配置されるスペーサ部材と、を備え、
前記発電要素は、前記第一方向における前記発電要素の両端部のうちの前記一方において、前記正極板又は前記負極板が前記第一方向と直交する第二方向における前記発電要素の巻回中心の両側それぞれで中央側に集結されることに伴って、前記第二方向における前記発電要素の外面上に形成される傾斜部を有し、
前記スペーサ部材は、前記第一方向における前記発電要素の両端部のうちの前記一方において、前記発電要素の前記第二方向における両側に配置される一対のスペーサ本体部であって、前記ケースに密接する一対のスペーサ本体部と、前記発電要素の巻回中心と対応する位置で前記第二方向に間隔をあけた状態の該一対のスペーサ本体部同士を連結する連結部とを備え、
前記一対のスペーサ本体部のそれぞれは、前記発電要素の前記傾斜部と密接するサポート部を備える。
Between the pair of spacer main bodies in the spacer member, the power generation element connection portion of the corresponding current collector of the pair of current collectors is interposed, and each of both ends in the second direction of the power generation element connection portion. Is preferably fitted to each of a pair of spacer bodies disposed on both sides. If it does in this way, at least both ends of the power generation element connection part in each of a pair of current collectors will be restrained by a spacer member (a pair of spacer main-body parts). Thereby, the rocking | fluctuation of the electric power generation element connection part in each of a pair of electrical power collector can be controlled more reliably, and the failure | damage of an electric power generation element and the electric power collector can be prevented more reliably.
Moreover, the electricity storage device according to the present invention is:
A power generating element is a positive electrode plate and the negative electrode plate transgressions wound superimposed while relatively displaced position in the first direction in between the separator and the separator having an electrically insulating,
A case for housing the power generation element;
A spacer member disposed along an edge of at least one of both end portions of the power generation element in the first direction,
In the one of the both ends of the power generation element in the first direction, the power generation element has a winding center of the power generation element in a second direction in which the positive electrode plate or the negative electrode plate is orthogonal to the first direction . Along with being concentrated on the center side on each of both sides , it has an inclined portion formed on the outer surface of the power generating element in the second direction,
The spacer member is a pair of spacer main body portions disposed on both sides of the power generation element in the second direction in the one of the both ends of the power generation element in the first direction, and is in close contact with the case. A pair of spacer body portions, and a connecting portion that connects the pair of spacer body portions in a state spaced from each other in the second direction at a position corresponding to the winding center of the power generation element ,
Each of the pair of spacer main body portions includes a support portion that is in close contact with the inclined portion of the power generation element.

以上のように、本発明の蓄電素子は、振動環境下で集電体や発電要素が破損してしまうことを防止することができるという優れた効果を奏し得る。   As described above, the electricity storage device of the present invention can have an excellent effect that the current collector and the power generation element can be prevented from being damaged under a vibration environment.

図1は、本発明の一実施形態に係る蓄電素子(電池)の全体斜視図である。FIG. 1 is an overall perspective view of a power storage element (battery) according to an embodiment of the present invention. 図2は、同実施形態に係る蓄電素子(電池)の分解斜視図である。FIG. 2 is an exploded perspective view of the energy storage device (battery) according to the embodiment. 図3は、同実施形態に係る蓄電素子(電池)の部分分解斜視図であって、ケースのケース本体から発電要素及び集電体を取り出した状態の部分分解斜視図である。FIG. 3 is a partially exploded perspective view of the energy storage device (battery) according to the embodiment, and is a partially exploded perspective view of the case in which the power generation element and the current collector are taken out from the case main body. 図4は、同実施形態に係る蓄電素子(電池)の部分拡大断面図を含む横断面図である。FIG. 4 is a cross-sectional view including a partially enlarged cross-sectional view of the energy storage device (battery) according to the embodiment. 図5は、本発明の他実施形態に係る蓄電素子(電池)の部分分解斜視図であって、ケースのケース本体から発電要素及び集電体を取り出した状態の部分分解斜視図である。FIG. 5 is a partially exploded perspective view of a power storage element (battery) according to another embodiment of the present invention, and is a partially exploded perspective view showing a state where a power generation element and a current collector are taken out from a case main body of the case. 図6は、本発明の他実施形態に係る蓄電素子(電池)の部分拡大断面図を含む横断面図である。FIG. 6 is a cross-sectional view including a partially enlarged cross-sectional view of a power storage element (battery) according to another embodiment of the present invention. 図7は、従来の蓄電素子の斜視図である。FIG. 7 is a perspective view of a conventional power storage element. 図8は、従来の蓄電素子の部分拡大断面図を含む横断面図である。FIG. 8 is a cross-sectional view including a partially enlarged cross-sectional view of a conventional power storage element.

以下、本発明の一実施形態に係る蓄電素子について、添付図面を参照しつつ説明する。なお、本実施形態においては、蓄電素子の一例として、リチウムイオン電池(以下、単に電池という)について説明する。   Hereinafter, a power storage device according to an embodiment of the present invention will be described with reference to the accompanying drawings. In the present embodiment, a lithium ion battery (hereinafter simply referred to as a battery) will be described as an example of a power storage element.

本実施形態に係る電池は、図1乃至図3に示す如く、発電要素2と、該発電要素2に電気的に接続された一対の集電体3a,3bと、発電要素2及び一対の集電体3a,3bを収容したケース4と、該ケース4の外側に配置された一対の出力端子5a,5bとを備えている。   As shown in FIGS. 1 to 3, the battery according to this embodiment includes a power generation element 2, a pair of current collectors 3 a and 3 b electrically connected to the power generation element 2, and the power generation element 2 and a pair of current collectors. A case 4 containing the electric bodies 3a and 3b and a pair of output terminals 5a and 5b disposed outside the case 4 are provided.

発電要素2は、図2に示す如く、金属箔上に正極活物質層が形成された正極板20aと、金属箔上に負極活物質層が形成された負極板20bと、電気絶縁性を有するセパレータ20cとを含んでいる。発電要素2は、セパレータ20cを間に挟んで正極板20a及び負極板20bが第一方向に相対的に位置ずれした状態で重ね合わされることにより構成されている。そのため、第一方向における発電要素2の一端部には、正極板20aのみが存在する正極リード部21aが形成され、第一方向における発電要素2の他端部には、負極板20bのみが存在する負極リード部21bが形成されている。   As shown in FIG. 2, the power generation element 2 has an electrical insulation property between a positive electrode plate 20 a having a positive electrode active material layer formed on a metal foil and a negative electrode plate 20 b having a negative electrode active material layer formed on a metal foil. Separator 20c. The power generating element 2 is configured by overlapping the positive electrode plate 20a and the negative electrode plate 20b with the separator 20c interposed therebetween in a state of being relatively displaced in the first direction. Therefore, a positive electrode lead portion 21a in which only the positive electrode plate 20a exists is formed at one end portion of the power generation element 2 in the first direction, and only a negative electrode plate 20b exists in the other end portion of the power generation element 2 in the first direction. A negative electrode lead portion 21b is formed.

正極板20a、負極板20b及びセパレータ20cは、それぞれ帯状に形成されている。正極板20a、負極板20b及びセパレータ20cは、長手方向を一致させた状態で重ね合わされ、該長手方向に巻回されている。より具体的に説明すると、正極板20a及び負極板20bは、長手方向と直交する方向(第一方向に対応する方向)で相対的に位置ずれした状態で重ね合わされ、長手方向に巻回されている。これにより、巻回中心方向(第一方向に対応する方向)における該発電要素2の一端部に、正極板20aのみが積層された正極リード部21aが形成され、巻回中心方向における発電要素2の他端部に、負極板20bのみが積層された負極リード部21bが形成されている。   The positive electrode plate 20a, the negative electrode plate 20b, and the separator 20c are each formed in a strip shape. The positive electrode plate 20a, the negative electrode plate 20b, and the separator 20c are overlapped in a state in which the longitudinal directions are matched, and are wound in the longitudinal direction. More specifically, the positive electrode plate 20a and the negative electrode plate 20b are overlapped with each other while being relatively displaced in a direction orthogonal to the longitudinal direction (direction corresponding to the first direction) and wound in the longitudinal direction. Yes. Thus, a positive electrode lead portion 21a in which only the positive electrode plate 20a is laminated is formed at one end of the power generation element 2 in the winding center direction (direction corresponding to the first direction), and the power generation element 2 in the winding center direction is formed. The negative electrode lead portion 21b in which only the negative electrode plate 20b is laminated is formed at the other end of the electrode.

本実施形態において、発電要素2は、扁平状に形成されている。これにより、発電要素2は、巻回中心方向(第一方向と対応する方向)から見て該巻回中心の両側に真っ直ぐに延びる一対の直線部22,22と、該一対の直線部22,22同士を接続した一対の円弧部23,23とを備える。これに伴い、巻回中心方向における発電要素2の一端部における直線部22,22が正極リード部21aとされ、巻回中心方向における発電要素2の他端部における直線部22,22が負極リード部21bとされている。   In the present embodiment, the power generation element 2 is formed in a flat shape. Thus, the power generating element 2 includes a pair of straight portions 22 and 22 that extend straight on both sides of the winding center when viewed from the winding center direction (the direction corresponding to the first direction), and the pair of straight portions 22 and 22 And a pair of arc portions 23 and 23 connected to each other. Accordingly, the straight portions 22 and 22 at one end portion of the power generating element 2 in the winding center direction become the positive electrode lead portion 21a, and the straight portions 22 and 22 at the other end portion of the power generating element 2 in the winding center direction are the negative electrode lead. Part 21b.

セパレータ20cの長手方向における長さは、正極板20a及び負極板20bの長手方向における長さよりも長くなっている。また、セパレータ20cの長手方向と直交する方向における長さ(第一方向に対応する方向の幅)は、重ね合わされた正極板20aと負極板20bとの重複領域における長手方向と直交する方向における長さ(幅)よりも僅かに長くなっている。これにより、セパレータ20cは、重ね合わされた正極板20aと負極板20bとの重複領域の全領域に配置されている。また、セパレータ20cは、正極板20a及び負極板20bよりも余分に巻回されている。これにより、セパレータ20cは、当該発電要素2の最外周に位置している。   The length in the longitudinal direction of the separator 20c is longer than the length in the longitudinal direction of the positive electrode plate 20a and the negative electrode plate 20b. The length in the direction orthogonal to the longitudinal direction of the separator 20c (the width in the direction corresponding to the first direction) is the length in the direction orthogonal to the longitudinal direction in the overlapping region of the superimposed positive electrode plate 20a and negative electrode plate 20b. It is slightly longer than the width (width). Thereby, the separator 20c is arrange | positioned in the whole area | region of the overlapping area | region of the superimposed positive electrode plate 20a and the negative electrode plate 20b. The separator 20c is wound more than the positive electrode plate 20a and the negative electrode plate 20b. Thereby, the separator 20c is located in the outermost periphery of the said electric power generation element 2. FIG.

そして、第一方向における発電要素2の両端部の正極板20a及び負極板20b(正極リード部21a、及び負極リード部21b)は、図4に示す如く、集電体3a,3bが接続されるに当り、第一方向と直交する第二方向の中央側(巻回中心側)に集結される。すなわち、第一方向における発電要素2の両端部の正極板20a及び負極板20b(正極リード部21a、及び負極リード部21b)のそれぞれは、集電体3a,3bが接続されるに当り、板材を二つ折りにしたクリップ部材32a,32bによって挟み込まれ、第一方向と直交する第二方向(巻発電要素2の巻回中心方向と直交する方向であって、発電要素2の扁平方向)の中央側(巻回中心側)に集結される。   Then, as shown in FIG. 4, current collectors 3a and 3b are connected to positive electrode plate 20a and negative electrode plate 20b (positive electrode lead portion 21a and negative electrode lead portion 21b) at both ends of power generation element 2 in the first direction. And concentrated in the center side (winding center side) in the second direction orthogonal to the first direction. That is, each of the positive electrode plate 20a and the negative electrode plate 20b (the positive electrode lead portion 21a and the negative electrode lead portion 21b) at both ends of the power generation element 2 in the first direction is a plate material when the current collectors 3a and 3b are connected. Is sandwiched between clip members 32a and 32b that are folded in half, and the center of the second direction (the direction perpendicular to the winding center direction of the wound power generation element 2 and the flat direction of the power generation element 2) perpendicular to the first direction Concentrated on the side (winding center side).

これに伴い、第一方向における発電要素2の一端側及び他端側の外面上であって、第二方向における発電要素2の両側の外面上には、傾斜部200a,200bが形成されている。すなわち、第一方向における発電要素2の両端部の正極板20a(正極リード部21a)及び負極板20b(負極リード部21b)の第二方向での集結に伴い、第一方向及び第二方向と直交する第三方向(発電要素2の巻回中心方向と発電要素2の扁平方向とに直交する方向)から見た発電要素2の四隅に傾斜部200a,200bが形成されている。傾斜部200a,200bは、リード部21a,21b(正極リード部21a、負極リード部21b)に対して第一方向における発電要素2の中央側で連続して形成されている。傾斜部200a,200bのそれぞれは、第一方向の外側に向かうにつれて第二方向の中央側に傾斜している。   Accordingly, inclined portions 200a and 200b are formed on the outer surfaces on one end side and the other end side of the power generation element 2 in the first direction and on both outer surfaces of the power generation element 2 in the second direction. . That is, as the positive electrode plate 20a (positive electrode lead portion 21a) and the negative electrode plate 20b (negative electrode lead portion 21b) at both ends of the power generation element 2 in the first direction are assembled in the second direction, Inclined portions 200a and 200b are formed at the four corners of the power generation element 2 as viewed from the third orthogonal direction (the direction orthogonal to the winding center direction of the power generation element 2 and the flat direction of the power generation element 2). The inclined portions 200a and 200b are continuously formed on the center side of the power generating element 2 in the first direction with respect to the lead portions 21a and 21b (the positive electrode lead portion 21a and the negative electrode lead portion 21b). Each of the inclined portions 200a and 200b is inclined toward the center side in the second direction as it goes outward in the first direction.

図2に戻り、一対の集電体3a,3bのそれぞれは、第三方向に沿って配置される発電要素接続部30a,30bと、該発電要素接続部30a,30bから延出された固定用片部31a,31bと、を備えている。本実施形態において、一対の集電体3a,3bのそれぞれは、長方形状の金属プレートを長手方向で直角又は略直角になるように屈曲させて形成されており、該金属プレートの折曲稜線を境にした一端側が発電要素接続部30a,30bとされ、該金属プレートの折曲稜線を境にした他端側が固定用片部31a,31bとされている。   Returning to FIG. 2, each of the pair of current collectors 3 a and 3 b includes power generation element connection portions 30 a and 30 b arranged along the third direction, and fixing members extending from the power generation element connection portions 30 a and 30 b. Pieces 31a and 31b. In the present embodiment, each of the pair of current collectors 3a and 3b is formed by bending a rectangular metal plate so as to be perpendicular or substantially perpendicular in the longitudinal direction, and the bent ridge line of the metal plate is formed. One end side that is the boundary is the power generation element connection portions 30a and 30b, and the other end side that is the boundary of the bent ridge line of the metal plate is the fixing pieces 31a and 31b.

発電要素接続部30a,30bは、固定用片部31a,31bに接続された第一端部P1と、固定用片部31a,31bの固定された隔壁(蓋板)41と対向する隔壁(ケース4の後述する底部)401近傍に位置させた第二端部P2とを有している。これに伴い、発電要素接続部30a,30bの長手方向における長さは、ケース4の内部空間を画定すべく互いに対向する隔壁間(蓋板41と底部401との間)よりも僅かに短くなっている。   The power generation element connection portions 30a and 30b are a first end P1 connected to the fixing pieces 31a and 31b, and a partition (case) facing the fixed partition (lid plate) 41 of the fixing pieces 31a and 31b. 4 (bottom part to be described later) 401 and a second end portion P2 located in the vicinity of 401. Accordingly, the length in the longitudinal direction of the power generation element connection portions 30a and 30b is slightly shorter than between the partition walls facing each other (between the cover plate 41 and the bottom portion 401) so as to define the internal space of the case 4. ing.

発電要素接続部30a,30bは、第一方向における発電要素2の端部であって、第三方向に延びる端部に沿って配置される。そして、該発電要素接続部30a,30bは、第一端部P1と第二端部P2との間に、発電要素2と電気的及び機械的に接続するための接続片300a,300bを備えている。より具体的には、発電要素接続部30a,30bは、第一端部P1と第二端部P2との間に、第二方向に間隔をあけて第三方向に延びる一対の接続片300a,300bを備えている。一対の接続片300a,300bは、発電要素2の巻回中心部に挿入可能に形成されている。本実施形態において、接続片300a,300bは、当該集電体3a,3bを構成する金属プレートの一端側の領域(発電要素接続部30a,30bとなる領域)内に長手方向に延びるように形成されたスリットの両側を捻ることで形成されている。   The power generation element connection portions 30a and 30b are arranged along the end portion of the power generation element 2 in the first direction and extending in the third direction. And this electric power generation element connection part 30a, 30b is provided with connection piece 300a, 300b for connecting with the electric power generation element 2 electrically and mechanically between the 1st end part P1 and the 2nd end part P2. Yes. More specifically, the power generation element connection portions 30a and 30b are a pair of connection pieces 300a extending in the third direction with a space in the second direction between the first end portion P1 and the second end portion P2. 300b. The pair of connection pieces 300 a and 300 b are formed so as to be insertable into the winding center portion of the power generation element 2. In the present embodiment, the connection pieces 300a and 300b are formed so as to extend in the longitudinal direction in a region on one end side of the metal plate constituting the current collectors 3a and 3b (region to be the power generation element connection portions 30a and 30b). It is formed by twisting both sides of the slit.

固定用片部31a,31bは、長方形状に形成されている。そして、固定用片部31a,31bには、後述する締結部材6a,6bを挿通するための貫通穴310a,310bが形成されている。   The fixing pieces 31a and 31b are formed in a rectangular shape. The fixing pieces 31a and 31b are formed with through holes 310a and 310b through which fastening members 6a and 6b described later are inserted.

一方の集電体3aは、図4に示す如く、接続片300aを第一方向における発電要素2の一端部の巻回中心に挿入した状態で、発電要素2の正極リード部21aに電気的及び機械的に接続される。より具体的には、巻回中心の両側にある正極リード部21a(積層状態になった正極板20a)は、別個独立したクリップ部材32a(薄板を二つ折りにしたもの)で挟み込まれる。これにより、正極リード部21a(正極板20a)は、第二方向における中央側に集結される。一方の集電体3aの接続片300aは、発電要素2の直線部22,22に沿うように発電要素2の一端側にある巻回中心に挿入される。そして、該一方の集電体3aの接続片300a、該接続片300aと隣接するクリップ部材32a、及び該クリップ部材32aに挟み込まれた正極リード部21aは、超音波溶接やレーザー溶接等の種々の溶接で一体的に連結される。これにより、正極リード部21a(積層状態になった正極板20a)は、クリップ部材32aを介して一方の集電体3aの接続片300aと通電可能に接続されている。   As shown in FIG. 4, one of the current collectors 3 a is electrically and electrically connected to the positive electrode lead portion 21 a of the power generation element 2 with the connection piece 300 a inserted into the winding center of one end of the power generation element 2 in the first direction. Mechanically connected. More specifically, the positive electrode lead portions 21a (the positive electrode plate 20a in a laminated state) on both sides of the winding center are sandwiched between separate clip members 32a (thin plates are folded in two). Thereby, the positive electrode lead part 21a (positive electrode plate 20a) is concentrated on the center side in the second direction. The connection piece 300a of one current collector 3a is inserted into the winding center on one end side of the power generation element 2 along the straight portions 22 and 22 of the power generation element 2. Then, the connection piece 300a of the one current collector 3a, the clip member 32a adjacent to the connection piece 300a, and the positive electrode lead portion 21a sandwiched between the clip members 32a can be used in various ways such as ultrasonic welding and laser welding. They are connected together by welding. Thereby, the positive electrode lead portion 21a (the positive electrode plate 20a in a laminated state) is connected to the connection piece 300a of one current collector 3a through the clip member 32a so as to be energized.

これに対し、他方の集電体3bは、接続片300bを第一方向における発電要素2の他端部の巻回中心に挿入した状態で、発電要素2の負極リード部21bに電気的及び機械的に接続される。より具体的には、巻回中心の両側にある負極リード部21b(積層状態になった負極板20b)は、別個独立したクリップ部材32b(薄板を二つ折りにしたもの)で挟み込まれる。これにより、負極リード部21b(負極板20b)は、第二方向における中央側に集結される。一方の集電体3bの接続片300bは、発電要素2の直線部22,22に沿うように発電要素2の一端側にある巻回中心に挿入される。そして、該一方の集電体3bの接続片300b、該接続片300bと隣接するクリップ部材32b、及び該クリップ部材32bに挟み込まれた負極リード部21bは、超音波溶接やレーザー溶接等の種々の溶接で一体的に連結される。これにより、負極リード部21b(積層状態になった負極板20b)は、クリップ部材32bを介して一方の集電体3bの接続片300bと通電可能に接続されている。   On the other hand, the other current collector 3b is electrically and mechanically connected to the negative electrode lead portion 21b of the power generation element 2 with the connection piece 300b inserted into the winding center of the other end of the power generation element 2 in the first direction. Connected. More specifically, the negative electrode lead portions 21b (the negative electrode plate 20b in a laminated state) on both sides of the winding center are sandwiched by separate and independent clip members 32b (thin plates folded in two). Thereby, the negative electrode lead part 21b (negative electrode plate 20b) is concentrated on the center side in the second direction. The connection piece 300 b of one current collector 3 b is inserted into the winding center on one end side of the power generation element 2 along the straight portions 22 and 22 of the power generation element 2. Then, the connection piece 300b of the one current collector 3b, the clip member 32b adjacent to the connection piece 300b, and the negative electrode lead portion 21b sandwiched between the clip members 32b can be used in various ways such as ultrasonic welding and laser welding. They are connected together by welding. Thus, the negative electrode lead portion 21b (the negative electrode plate 20b in a laminated state) is connected to the connection piece 300b of one current collector 3b through the clip member 32b so as to be energized.

図2に戻り、ケース4は、一面に開口部400を形成した箱状のケース本体40と、該ケース本体40の開口部400を閉塞する蓋板41とを備えている。本実施形態においては、ケース本体40及び蓋板41の何れも金属製である。そして、ケース本体40に蓋板41が溶接されることで、ケース4の内部空間が気密に形成されている。   Returning to FIG. 2, the case 4 includes a box-shaped case main body 40 having an opening 400 formed on one surface thereof, and a lid plate 41 that closes the opening 400 of the case main body 40. In the present embodiment, both the case main body 40 and the lid plate 41 are made of metal. Then, the cover plate 41 is welded to the case main body 40 so that the internal space of the case 4 is formed in an airtight manner.

ケース本体40は、発電要素2及び集電体3a,3bを収容可能に形成されている。ケース本体40は、本実施形態においては、発電要素2が扁平状(扁平渦巻き状)に形成されるのに伴い、平面視長方形状に形成されている。すなわち、ケース本体40は、平面視長方形状の底部401と、該底部401の長手方向の両端から起立した一対の側壁部402,402と、底部401の長手方向と直交する両端から起立した一対の前後壁部403,403とで構成されている。そして、隣り合う側壁部402と前後壁部403とが接続されることで、ケース本体40には、底部401の平面形状に対応する開口部400が形成されている。   The case main body 40 is formed so as to accommodate the power generation element 2 and the current collectors 3a and 3b. In the present embodiment, the case body 40 is formed in a rectangular shape in plan view as the power generating element 2 is formed in a flat shape (flat spiral shape). That is, the case body 40 includes a bottom portion 401 having a rectangular shape in plan view, a pair of side wall portions 402 and 402 erected from both longitudinal ends of the bottom portion 401, and a pair of erected from both ends orthogonal to the longitudinal direction of the bottom portion 401. It is comprised by the front-and-back wall part 403,403. And the opening part 400 corresponding to the planar shape of the bottom part 401 is formed in the case main body 40 by the adjacent side wall part 402 and the front-and-back wall part 403 being connected.

ケース本体40は、底部401の長手方向と発電要素2の巻回中心方向とが同方向になるように、集電体3a,3b(発電要素接続部30a,30b)が接続された発電要素2を収容可能となっている。そして、集電体3a,3b(発電要素接続部30a,30b)の接続された発電要素2を収容した状態で、一対の前後壁部403,403と発電要素2の外周(直線部22,22)との間に隙間が形成されるとともに、一対の側壁部402,402と集電体3a,3b(発電要素接続部30a,30b)との間に隙間が形成されるように、ケース本体40のサイズが設定されている。   The power generation element 2 to which the current collectors 3a and 3b (power generation element connection portions 30a and 30b) are connected so that the longitudinal direction of the bottom portion 401 and the winding center direction of the power generation element 2 are in the same direction. Can be accommodated. And in the state which accommodated the electric power generation element 2 to which the electrical power collector 3a, 3b (electric power generation element connection part 30a, 30b) was accommodated, a pair of front-and-back wall part 403,403 and the outer periphery (linear part 22, 22) of the electric power generation element 2 ) And a gap between the pair of side wall portions 402, 402 and the current collectors 3a, 3b (power generation element connection portions 30a, 30b). The size of is set.

蓋板41は、ケース本体40の開口部400に対応して長方形状に形成されている。そして、該蓋板41には、締結部材6a,6bを挿通するための貫通穴410a,410bが長手方向に間隔をあけて一対設けられている。該蓋板41の一方の面側の外周部には、段部(図示しない)が形成されている。そして、その段部がケース本体40の開口部400に嵌入された状態で、蓋板41の外周がケース本体40の上端部(側壁部402,402及び前後壁部403,403の上端)に溶接されることで、該蓋板41がケース本体40の開口部400を封止する(図1参照)。   The lid plate 41 is formed in a rectangular shape corresponding to the opening 400 of the case body 40. The lid plate 41 is provided with a pair of through holes 410a and 410b for inserting the fastening members 6a and 6b at intervals in the longitudinal direction. A step portion (not shown) is formed on the outer peripheral portion on one surface side of the cover plate 41. The outer periphery of the cover plate 41 is welded to the upper end portion of the case main body 40 (the upper ends of the side wall portions 402 and 402 and the front and rear wall portions 403 and 403) with the stepped portion being fitted into the opening 400 of the case main body 40. As a result, the cover plate 41 seals the opening 400 of the case body 40 (see FIG. 1).

出力端子5a,5bは、電気的な負荷や別の電池に接続されるものである。出力端子5a,5bは、軸状に形成されている。より具体的に説明すると、出力端子5a,5bは、軸状の端子部50a,50bと、該端子部50a,50bの一端に連設された回止部51a,51bとで構成されている。出力端子5a,5bは、端子部50a,50bの外周に、図示しない雌ネジ部材(例えば、ナット)が螺合可能なネジ溝を備えている。すなわち、本実施形態においては、出力端子5a,5bとして、ボルト端子が採用されている。なお、本実施形態に係る出力端子5a,5bは、ケース4(蓋板41)の外面に固定された回止部材52a,52bに回止部51a,51bが係合することで、蓋板41の外面と直交する方向に延びる軸線回りでの回転が阻止される。   The output terminals 5a and 5b are connected to an electrical load or another battery. The output terminals 5a and 5b are formed in a shaft shape. More specifically, the output terminals 5a and 5b are constituted by shaft-like terminal portions 50a and 50b, and rotation-stop portions 51a and 51b connected to one end of the terminal portions 50a and 50b. The output terminals 5a and 5b are provided with screw grooves on the outer periphery of the terminal portions 50a and 50b, into which female screw members (for example, nuts) (not shown) can be screwed. That is, in this embodiment, bolt terminals are employed as the output terminals 5a and 5b. Note that the output terminals 5a and 5b according to the present embodiment are configured such that the rotation stop portions 51a and 51b are engaged with the rotation stop members 52a and 52b fixed to the outer surface of the case 4 (the cover plate 41). Rotation about an axis extending in a direction perpendicular to the outer surface of the slab is prevented.

そして、集電体3a,3bは、上述の如く、蓋板41(貫通穴410a,410b)に挿通された締結部材6a,6bによって、ケース4内に固定されるとともに、一対の出力端子5a,5bのうちの対応する極性の出力端子5a,5bと電気的に接続されている。すなわち、本実施形態に係る電池1は、集電体3a,3bをケース4に固定した状態で、一対の出力端子5a,5bのうちの対応する極性の出力端子5a,5bに電気的に接続するための締結部材6a,6bを二つ備えている。   The current collectors 3a and 3b are fixed in the case 4 by the fastening members 6a and 6b inserted through the cover plate 41 (through holes 410a and 410b), as described above, and the pair of output terminals 5a and 5b. Electrically connected to the output terminals 5a and 5b of the corresponding polarity of 5b. That is, the battery 1 according to the present embodiment is electrically connected to the corresponding output terminals 5a and 5b of the pair of output terminals 5a and 5b with the current collectors 3a and 3b fixed to the case 4. Two fastening members 6a and 6b are provided.

締結部材6a,6bは、ケース4の蓋板41と一対の集電体3a,3bのうちの対応する集電体3a,3bの固定用片部31a,31bとに挿通される軸状のリベット部60a,60bと、該リベット部60a,60bの一端に連設された鍔部61a,61bとを備えている。締結部材6a,6bは、リベット部60a,60bとは反対側に別のリベット部(以下、接続杆用リベット部という)62a,62bを備えている。   The fastening members 6a and 6b are shaft-like rivets that are inserted into the cover plate 41 of the case 4 and the fixing pieces 31a and 31b of the corresponding current collectors 3a and 3b of the pair of current collectors 3a and 3b. Parts 60a and 60b, and flange parts 61a and 61b connected to one end of the rivet parts 60a and 60b. The fastening members 6a and 6b are provided with other rivet portions (hereinafter referred to as connecting rod rivet portions) 62a and 62b on the side opposite to the rivet portions 60a and 60b.

そして、締結部材6a,6bは、出力端子5a,5bと独立した構成になっている。従って、電池1は、締結部材6a,6bと出力端子5a,5bとを電気的に接続するための接続杆64a,64bを二つ備えている。すなわち、電池1は、正極用の出力端子5aと一方の締結部材6aとを電気的に接続する接続杆64aと、負極用の出力端子5bと他方の締結部材6bとを電気的に接続する接続杆64bとを備えている。   The fastening members 6a and 6b are independent of the output terminals 5a and 5b. Accordingly, the battery 1 includes two connection rods 64a and 64b for electrically connecting the fastening members 6a and 6b and the output terminals 5a and 5b. That is, the battery 1 has a connection rod 64a that electrically connects the positive output terminal 5a and one fastening member 6a, and a connection that electrically connects the negative output terminal 5b and the other fastening member 6b. And a collar 64b.

接続杆64a,64bは、短冊状の金属プレートで構成されている。接続杆64a,64bには、長手方向に間隔をあけて一対の貫通穴(採番しない)が形成されている。   The connecting rods 64a and 64b are constituted by strip-shaped metal plates. A pair of through holes (not numbered) are formed in the connecting rods 64a and 64b at intervals in the longitudinal direction.

そして、一方の貫通穴に、一対の出力端子5a,5bのうちの対応する出力端子5a,5bの端子部50a,50bが挿通され、他方の貫通穴に、二つの締結部材6a,6bのうちの対応する締結部材6a,6bの接続杆用リベット部62a,62bが挿通されるように、接続杆64a,64bは構成されている。   Then, the terminal portions 50a and 50b of the corresponding output terminals 5a and 5b of the pair of output terminals 5a and 5b are inserted into the one through hole, and the two fastening members 6a and 6b are inserted into the other through hole. The connecting rods 64a and 64b are configured such that the connecting rod rivet portions 62a and 62b of the corresponding fastening members 6a and 6b are inserted.

そして、電池1は、金属製のケース4との電気絶縁を図りつつケース4内を気密にするために、集電体3a,3bの配置に対応するように、ケース4の蓋板41の内面に沿って配置される一対の内部ガスケット7a,7bと、集電体3a,3bの配置に対応するように、ケース4の蓋板41の外面に沿って配置される一対の外部ガスケット8a,8bとを備えている。   The battery 1 has an inner surface of the cover plate 41 of the case 4 so as to correspond to the arrangement of the current collectors 3a and 3b in order to make the inside of the case 4 airtight while achieving electrical insulation from the metal case 4. A pair of external gaskets 8a and 8b disposed along the outer surface of the cover plate 41 of the case 4 so as to correspond to the arrangement of the pair of internal gaskets 7a and 7b and the current collectors 3a and 3b. And.

内部ガスケット7a,7bは、電気絶縁性及び封止性を備えた合成樹脂成型品である。本実施形態において、内部ガスケット7a,7bは、平面視長方形状に形成されている。また、内部ガスケット7a,7bの一方の面(蓋板41の内面に沿う面とは反対側の面)には、一対の集電体3a,3bのうちの対応する集電体3a,3bの固定用片部31a,31bを受け入れ可能な凹部70a,70bが形成されている。また、内部ガスケット7a,7bには、貫通穴71a,71bが形成されている。該貫通穴71a,71bは、一対の集電体3a,3bのうちの対応する集電体3a,3bの固定用片部31a,31bが凹部70a,70bに受け入れられた状態で、該固定用片部31a,31bに形成された貫通穴310a,310bと一致する。   The internal gaskets 7a and 7b are synthetic resin molded products having electrical insulation and sealing properties. In the present embodiment, the internal gaskets 7a and 7b are formed in a rectangular shape in plan view. Further, on one surface of the internal gaskets 7a and 7b (surface opposite to the surface along the inner surface of the cover plate 41), the corresponding current collectors 3a and 3b of the pair of current collectors 3a and 3b are arranged. Recesses 70a and 70b that can receive the fixing pieces 31a and 31b are formed. Further, through holes 71a and 71b are formed in the internal gaskets 7a and 7b. The through holes 71a and 71b are used for fixing in a state where the fixing pieces 31a and 31b of the corresponding collectors 3a and 3b of the pair of collectors 3a and 3b are received in the recesses 70a and 70b. It coincides with the through holes 310a and 310b formed in the pieces 31a and 31b.

外部ガスケット8a,8bは、内部ガスケット7a,7bと同様、電気絶縁性と封止性を備えた合成樹脂成型品である。外部ガスケット8a,8bは、締結部材6a,6bの鍔部61a,61bよりも一回り大きいサイズとなっている。そして、外部ガスケット8a,8bは、外周部を除いて上面が窪んでおり、一対の締結部材6a,6bのうちの対応する締結部材6a,6bの鍔部61a,61bを収容可能になっている。すなわち、外部ガスケット8a,8bには、締結部材6a,6bの鍔部61a,61bを受け入れ可能な平面視四角形状の凹部80a,80bが形成されている。これに伴い、外部ガスケット8a,8bの凹部80a,80bの周囲には、外壁部81a,81bが形成されている。   The outer gaskets 8a and 8b are synthetic resin molded products having electrical insulation and sealing properties, like the inner gaskets 7a and 7b. The external gaskets 8a and 8b have a size slightly larger than the flanges 61a and 61b of the fastening members 6a and 6b. The outer gaskets 8a and 8b are recessed on the upper surface except for the outer peripheral portion, and can accommodate the flange portions 61a and 61b of the corresponding fastening members 6a and 6b of the pair of fastening members 6a and 6b. . That is, the external gaskets 8a and 8b are formed with concave portions 80a and 80b having a rectangular shape in plan view that can receive the flange portions 61a and 61b of the fastening members 6a and 6b. Accordingly, outer wall portions 81a and 81b are formed around the recesses 80a and 80b of the outer gaskets 8a and 8b.

また、外部ガスケット8a,8bは、締結部材6a,6bの鍔部61a,61bが凹部80a,80bに収容された状態で、締結部材6a,6bの前記リベット部60a,60bを挿通可能な貫通穴82a,82bが形成されている。また、外部ガスケット8a,8bの下面には、締結部材6a,6bのリベット部60a,60bを挿通させる貫通穴82a,82bと同心の筒状部83a,83bが設けられている。該筒状部83a,83bは、内穴(採番しない)に締結部材6a,6bのリベット部60a,60bを挿通可能になっている。また、筒状部83a,83bは、蓋板41の貫通穴410a,410bと、該貫通穴410a,410bと連なる内部ガスケット7a,7bの貫通穴71a,71bとに挿入される。外部ガスケット8a,8bの下面(凹部80a,80bの開放部分の反対側の面)は、筒状部83a,83bが蓋板41の貫通穴410a,410b及び内部ガスケット7a,7bの貫通穴71a,71bに挿入された状態で、蓋板41の外面に接着される。これにより、蓋板41の外面と直交する方向に延びる軸線回りでの回転が阻止されている。   The external gaskets 8a and 8b are through holes through which the rivet portions 60a and 60b of the fastening members 6a and 6b can be inserted in a state where the flange portions 61a and 61b of the fastening members 6a and 6b are accommodated in the recesses 80a and 80b. 82a and 82b are formed. Further, cylindrical portions 83a and 83b concentric with the through holes 82a and 82b through which the rivet portions 60a and 60b of the fastening members 6a and 6b are inserted are provided on the lower surfaces of the external gaskets 8a and 8b. The cylindrical portions 83a and 83b can be inserted into the inner holes (not numbered) of the rivet portions 60a and 60b of the fastening members 6a and 6b. The cylindrical portions 83a and 83b are inserted into the through holes 410a and 410b of the lid plate 41 and the through holes 71a and 71b of the internal gaskets 7a and 7b connected to the through holes 410a and 410b. The lower surfaces of the external gaskets 8a and 8b (surfaces opposite to the open portions of the recesses 80a and 80b) are formed on the cylindrical portions 83a and 83b through holes 410a and 410b in the cover plate 41 and through holes 71a in the internal gaskets 7a and 7b. In the state inserted in 71b, it adhere | attaches on the outer surface of the cover board 41. FIG. Thereby, the rotation around the axis extending in the direction orthogonal to the outer surface of the cover plate 41 is prevented.

そして、締結部材6a,6bのリベット部60a,60bは、外部ガスケット8a,8b(貫通穴82a,82b及び筒状部83a,83b)と、内部ガスケット7a,7bの凹部70a,70b内に配置された集電体3a,3bの固定用片部31a,31b(貫通穴310a,310b)とに連続して挿通される。そして、締結部材6a,6bのリベット部60a,60bにおいて、集電体3a,3b(固定用片部31a,31b)から内方に突出した先端部は、かしめ処理される。また、締結部材6a,6bの接続杆用リベット部62a,62bは、接続杆64a,64bの他方の貫通穴に挿通される。そして、締結部材6a,6bの接続杆用リベット部62a,62bにおいて、接続杆64a,64bから外方に突出した先端部は、かしめ処理される。   The rivet portions 60a and 60b of the fastening members 6a and 6b are disposed in the outer gaskets 8a and 8b (through holes 82a and 82b and the cylindrical portions 83a and 83b) and the recesses 70a and 70b of the inner gaskets 7a and 7b. The current collectors 3a and 3b are continuously inserted into the fixing pieces 31a and 31b (through holes 310a and 310b). In the rivet portions 60a and 60b of the fastening members 6a and 6b, the tip portions protruding inward from the current collectors 3a and 3b (fixing pieces 31a and 31b) are caulked. The connecting rod rivet portions 62a and 62b of the fastening members 6a and 6b are inserted into the other through holes of the connecting rods 64a and 64b. Then, in the connecting rod rivet portions 62a and 62b of the fastening members 6a and 6b, the tip portions protruding outward from the connecting rods 64a and 64b are caulked.

これにより、集電体3a,3bは、ケース4に固定された状態で、締結部材6a,6b及び接続杆64a,64bに電気的に接続されている。また、これに併せて、締結部材6a,6bは、内部ガスケット7a,7b及び外部ガスケット8a,8bを蓋板41の内外面に圧接させるとともに、外部ガスケット8a,8bの筒状部83a,83bを圧縮変形(径方向に拡径)させている。これにより、リベット部60a,60bと蓋板41の貫通穴410a,410bを画定する内周面との間が封止されている。なお、出力端子5a,5bは、端子部50a,50bを接続杆64a,64bの一方の貫通穴に挿通されているだけである。しかし、端子部50a,50bに図示しない雌ネジ部材が螺合されて締め付けられることで、回止部51a,51bと接続杆64a,64bとが密接し、一対の出力端子5a,5bのそれぞれは、該接続杆64a,64b、締結部材6a,6bを介して集電体3a,3bに電気的に接続された状態になる。   Thus, the current collectors 3 a and 3 b are electrically connected to the fastening members 6 a and 6 b and the connecting rods 64 a and 64 b in a state of being fixed to the case 4. At the same time, the fastening members 6a and 6b press the inner gaskets 7a and 7b and the outer gaskets 8a and 8b against the inner and outer surfaces of the cover plate 41, and the cylindrical portions 83a and 83b of the outer gaskets 8a and 8b. It is compressed and deformed (expanded in the radial direction). Thereby, the space between the rivet portions 60a and 60b and the inner peripheral surface defining the through holes 410a and 410b of the lid plate 41 is sealed. The output terminals 5a and 5b are merely inserted through the terminal portions 50a and 50b into one through hole of the connecting rods 64a and 64b. However, when female screw members (not shown) are screwed and tightened to the terminal portions 50a and 50b, the locking portions 51a and 51b and the connecting rods 64a and 64b are brought into close contact with each other, and each of the pair of output terminals 5a and 5b is The connection rods 64a and 64b and the fastening members 6a and 6b are electrically connected to the current collectors 3a and 3b.

そして、本実施形態に係る電池1は、図2及び図3に示す如く、前記第一方向における発電要素2の両端縁に沿って配置される一対のスペーサ部材9a,9bを備えている。   And the battery 1 which concerns on this embodiment is equipped with a pair of spacer members 9a and 9b arrange | positioned along the both ends of the electric power generation element 2 in said 1st direction, as shown in FIG.2 and FIG.3.

一対のスペーサ部材9a,9bのそれぞれは、前記第一方向における発電要素2の両端部のうちの対応する端部の前記第二方向における両側に配置される一対のスペーサ本体部90a,90bであって、前記ケース4の前記隔壁403に密接する一対のスペーサ本体部90a,90bと、該一対のスペーサ本体部90a,90a,90b,90b同士を連結する連結部91a,91bと、を備えている。   Each of the pair of spacer members 9a and 9b is a pair of spacer main body portions 90a and 90b disposed on both sides in the second direction of the corresponding end portions of the power generation element 2 in the first direction. And a pair of spacer body portions 90a, 90b that are in close contact with the partition wall 403 of the case 4, and connecting portions 91a, 91b that connect the pair of spacer body portions 90a, 90a, 90b, 90b to each other. .

一対のスペーサ部材9a,9bのそれぞれにおいて、一対のスペーサ本体部90a,90a,90b,90bのそれぞれは、ケース4の内部空間を画定する隔壁のうちの対向する隔壁403に隣接する。これに伴い、一対のスペーサ本体部90a,90bは、隣接するケース4の隔壁の内面に沿う接触部94a,94bを備えている。本実施形態において、スペーサ本体部90a,90bの接触部94a,94bは、平面状に形成される。本実施形態において、スペーサ本体部90a,90bの接触部94a,94bは、隣接する隔壁である前後壁部403に対して密接している。すなわち、スペーサ本体部90a,90bの接触部94a,94bは、隣接する隔壁である前後壁部403に対して隙間なく或いは略隙間なく配置されている。なお、発電要素2、一対の集電体3a,3b及びスペーサ部材9a,9bは、電気絶縁性を有する絶縁袋(図示しない)に包み込まれた状態でケース4に収容される。そのため、本実施形態に係る電池1では、一対のスペーサ部材9a,9bのそれぞれにおけるスペーサ本体部90a,90b(接触部94a,94b)が絶縁袋を挟んでケース4の前後壁部403,403に密接している。すなわち、本実施形態に係る電池1のスペーサ部材9a,9bのスペーサ本体部90a,90b(接触部94a,94b)は、ケース4の前後壁部403に対して間接的に密接している。   In each of the pair of spacer members 9 a and 9 b, each of the pair of spacer main body portions 90 a, 90 a, 90 b, and 90 b is adjacent to the opposing partition 403 among the partitions that define the internal space of the case 4. Accordingly, the pair of spacer main body portions 90 a and 90 b include contact portions 94 a and 94 b along the inner surface of the partition wall of the adjacent case 4. In the present embodiment, the contact portions 94a and 94b of the spacer main body portions 90a and 90b are formed in a planar shape. In the present embodiment, the contact portions 94a and 94b of the spacer main body portions 90a and 90b are in close contact with the front and rear wall portions 403 that are adjacent partition walls. That is, the contact portions 94a and 94b of the spacer main body portions 90a and 90b are disposed without a gap or substantially without a gap with respect to the front and rear wall portions 403 that are adjacent partition walls. The power generating element 2, the pair of current collectors 3a and 3b, and the spacer members 9a and 9b are accommodated in the case 4 in a state of being encased in an insulating bag (not shown) having electrical insulation. Therefore, in the battery 1 according to the present embodiment, the spacer main body portions 90a and 90b (contact portions 94a and 94b) of the pair of spacer members 9a and 9b are placed on the front and rear wall portions 403 and 403 of the case 4 with the insulating bag interposed therebetween. Close. That is, the spacer main body portions 90 a and 90 b (contact portions 94 a and 94 b) of the spacer members 9 a and 9 b of the battery 1 according to this embodiment are in intimate contact with the front and rear wall portions 403 of the case 4.

一対のスペーサ本体部90a,90bのそれぞれは、図4に示す如く、自身と対向する発電要素2の端部に隣接する傾斜部200a,200bと密接するサポート部(以下、第一サポート部という)92a,92bを備えている。また、一対のスペーサ本体部90a,90bのそれぞれは、自身と対向する発電要素2の端部(正極板20a又は負極板20bを集結した発電要素2の端部)に直接的又は間接的に密接する別のサポート部(以下、第二サポート部という)93a,93bを備えている。   As shown in FIG. 4, each of the pair of spacer main body portions 90 a and 90 b is a support portion (hereinafter referred to as a first support portion) that is in close contact with the inclined portions 200 a and 200 b adjacent to the end portion of the power generation element 2 facing the self. 92a and 92b are provided. In addition, each of the pair of spacer main body portions 90a and 90b is directly or indirectly in close contact with the end of the power generation element 2 facing itself (the end of the power generation element 2 in which the positive electrode plate 20a or the negative electrode plate 20b are assembled). The other support part (henceforth the 2nd support part) 93a, 93b is provided.

第一サポート部92a,92b及び第二サポート部93a,93bは、接触部94a,94bの裏側で第一方向に連続して形成されている。第一サポート部92a,92b及び第二サポート部93a,93bのそれぞれは、滑面で構成される。第一サポート部92a,92bは、第二サポート部93a,93bと接続される基端から該基端の反対側の先端に向かうにつれて、接触部94a,94b側に傾斜している。本実施形態において、発電要素2の第一方向の両端部における正極板20a及び負極板20bは、クリップ部材32a,32bに包囲される(挟み込まれる)ことで、部分的に集結される。そのため、発電要素2の外周上の傾斜部200a,200bは、クリップ部材32a,32bの取り付けられる領域に対応して形成される。これに伴い、第一サポート部92a,92bは、クリップ部材32a,32bの配置を基準にして形成される。   The first support portions 92a and 92b and the second support portions 93a and 93b are formed continuously in the first direction on the back side of the contact portions 94a and 94b. Each of 1st support part 92a, 92b and 2nd support part 93a, 93b is comprised by the smooth surface. The first support portions 92a and 92b are inclined toward the contact portions 94a and 94b from the base ends connected to the second support portions 93a and 93b toward the tip opposite to the base ends. In the present embodiment, the positive electrode plate 20a and the negative electrode plate 20b at both ends in the first direction of the power generating element 2 are partially gathered by being surrounded (clipped) by the clip members 32a and 32b. Therefore, the inclined portions 200a and 200b on the outer periphery of the power generation element 2 are formed corresponding to the region to which the clip members 32a and 32b are attached. Accordingly, the first support portions 92a and 92b are formed with reference to the arrangement of the clip members 32a and 32b.

第二サポート部93a,93bは、前記接触部94a,94bに対して平行又は略平行になるように形成されている。本実施形態において、第二サポート部93a,93bは、リード部21a,21b(正極板20a又は負極板20b)を包み込んだクリップ部材32a,32bに密接している。   The second support portions 93a and 93b are formed to be parallel or substantially parallel to the contact portions 94a and 94b. In the present embodiment, the second support portions 93a and 93b are in close contact with the clip members 32a and 32b enclosing the lead portions 21a and 21b (the positive plate 20a or the negative plate 20b).

一対のスペーサ本体部90a,90bのそれぞれは、ケース4(前後壁部403)に対して接触部94a,94bが密接した状態で、第一サポート部92a,92bが発電要素2の傾斜部200a,200bに圧接するとともに、第二サポート部93a,93bがクリップ部材32a,32bに圧接するようになっている。   Each of the pair of spacer main body portions 90a and 90b is in a state where the contact portions 94a and 94b are in close contact with the case 4 (front and rear wall portions 403), and the first support portions 92a and 92b are inclined portions 200a, The second support portions 93a and 93b are in pressure contact with the clip members 32a and 32b while being in pressure contact with 200b.

本実施形態において、一対のスペーサ本体部90a,90bのそれぞれは、図3に示す如く、集電体3a,3bの発電要素接続部30a,30bの第二方向の両端部のそれぞれと嵌合可能に形成されている。具体的には、図2に示す如く、一対のスペーサ本体部90a,90bの互いに対向する面に、第三方向に延びる溝95a,95bが設けられている。該溝95a,95bは、発電要素接続部30a,30bの短手方向の端部を嵌合可能に形成される。これにより、一対のスペーサ本体部90a,90bは、図3に示す如く、集電体3a,3bの発電要素接続部30a,30bを第二方向で挟み込んでいる。すなわち、前記一対の集電体3a,3bのそれぞれの発電要素接続部30a,30bが一対のスペーサ本体部90a,90b間に介装され、該発電要素接続部30a,30bの第二方向の両端部のそれぞれが両側に配置された一対のスペーサ本体90a,90bのそれぞれに嵌合されている。   In the present embodiment, each of the pair of spacer main body portions 90a and 90b can be fitted to each of both end portions in the second direction of the power generation element connection portions 30a and 30b of the current collectors 3a and 3b, as shown in FIG. Is formed. Specifically, as shown in FIG. 2, grooves 95a and 95b extending in the third direction are provided on the mutually opposing surfaces of the pair of spacer main body portions 90a and 90b. The grooves 95a and 95b are formed so that the end portions in the short direction of the power generation element connection portions 30a and 30b can be fitted. Thereby, as shown in FIG. 3, the pair of spacer main body portions 90a and 90b sandwich the power generation element connecting portions 30a and 30b of the current collectors 3a and 3b in the second direction. That is, the power generation element connection portions 30a and 30b of the pair of current collectors 3a and 3b are interposed between the pair of spacer main body portions 90a and 90b, and both ends of the power generation element connection portions 30a and 30b in the second direction. Each of the portions is fitted to each of a pair of spacer main bodies 90a and 90b arranged on both sides.

前記発電要素接続部30a,30bは、上述の如く、金属プレートに設けたスリットの両側を捻ることで一対の接続片300a,300bが形成されている。そのため、発電要素接続部30a,30bは、第一端部P1と第二端部P2との間の途中位置(接続片300a,300bの存在する領域)における第二方向の幅が、第一端部P1側及び第二端部P2側における第二方向の幅よりも狭くなっている。   As described above, the power generation element connection portions 30a and 30b are formed with a pair of connection pieces 300a and 300b by twisting both sides of the slit provided in the metal plate. Therefore, the power generation element connection portions 30a and 30b have a width in the second direction at an intermediate position between the first end portion P1 and the second end portion P2 (region where the connection pieces 300a and 300b exist). It is narrower than the width in the second direction on the part P1 side and the second end part P2 side.

これに伴い、前記溝95a,95bは、スペーサ本体部90a,90a,90b,90bの長手方向における一端側の所定領域、及び他端側の所定領域に設けられている。すなわち、一対のスペーサ本体部90a,90bの溝95a,95bは、集電体3a,3bの発電要素接続部30a,30bの接続片300a,300bと対応する領域(クリップ部材32a,32bの取り付けられる領域)を除いて設けられている。   Accordingly, the grooves 95a, 95b are provided in a predetermined region on one end side and a predetermined region on the other end side in the longitudinal direction of the spacer main body portions 90a, 90a, 90b, 90b. That is, the grooves 95a and 95b of the pair of spacer main body portions 90a and 90b are regions corresponding to the connection pieces 300a and 300b of the power generation element connection portions 30a and 30b of the current collectors 3a and 3b (the clip members 32a and 32b are attached). (Except area).

本実施形態のスペーサ本体部90a,90a,90b,90bは、発電要素2の傾斜部200a,200b、クリップ部材32a,32b、集電体3a,3b(発電要素接続部30a,30b)の配置に対応するように、第一サポート部92a,92b、第二サポート部93a,93b、及び溝95a,95bは、第一方向の中央側から外側に向けて第一サポート部92a,92b、第二サポート部93a,93b、溝95a,95bの順に並んでいる。   The spacer main body portions 90a, 90a, 90b, 90b of the present embodiment are arranged in the arrangement of the inclined portions 200a, 200b, the clip members 32a, 32b, and the current collectors 3a, 3b (power generation element connection portions 30a, 30b) of the power generation element 2. Correspondingly, the first support portions 92a and 92b, the second support portions 93a and 93b, and the grooves 95a and 95b are formed in the first support portions 92a and 92b and the second support from the center side in the first direction toward the outside. The portions 93a and 93b and the grooves 95a and 95b are arranged in this order.

そして、前記連結部91a,91bは、前記別の隔壁(ケース4の底部401)に沿って配置される(図1参照)。そして、連結部91a,91bは、一対の集電体3a,3bのうちの対応する集電体3a,3bの発電要素接続部30a,30bの第二端部P2が連結されている。   And the said connection parts 91a and 91b are arrange | positioned along the said another partition (bottom part 401 of case 4) (refer FIG. 1). And as for connection part 91a, 91b, the 2nd end part P2 of the electric power generation element connection part 30a, 30b of corresponding current collector 3a, 3b among a pair of collectors 3a, 3b is connected.

具体的には、前記連結部91a,91bは、図2に示す如く、一対のスペーサ本体部90a,90bの端部同士を連結している。これに伴い、連結部91a,91bには、一対の集電体3a,3bのうちの対応する集電体3a,3bの発電要素接続部30a,30bの第二端部P2を圧入可能なスリット部96a,96bが形成されている。これにより、一対の集電体3a,3bのそれぞれの発電要素接続部30a,30bの第二端部P2は、スペーサ部材9a,9b(連結部91a,91b)によって、拘束されている。本実施形態において、前記スリット部97a,97bは、一対のスペーサ本体部90a,90bに形成された溝95a,95bと連続して形成されている。これにより、図3に示す如く、一対の集電体3a,3bのそれぞれの発電要素接続部30a,30bの第二端部P2の周辺が拘束された状態になっている。   Specifically, the connecting portions 91a and 91b connect the ends of the pair of spacer main body portions 90a and 90b as shown in FIG. Accordingly, the connecting portions 91a and 91b are slits capable of press-fitting the second end portions P2 of the power generation element connection portions 30a and 30b of the corresponding current collectors 3a and 3b of the pair of current collectors 3a and 3b. Portions 96a and 96b are formed. Thereby, the 2nd end part P2 of each electric power generation element connection part 30a, 30b of a pair of collectors 3a, 3b is restrained by spacer member 9a, 9b (connection part 91a, 91b). In the present embodiment, the slit portions 97a and 97b are formed continuously with the grooves 95a and 95b formed in the pair of spacer main body portions 90a and 90b. Thereby, as shown in FIG. 3, the periphery of the second end portion P2 of each of the power generation element connection portions 30a and 30b of the pair of current collectors 3a and 3b is constrained.

本実施形態に係る電池1は、以上の通りである。この電池1によれば、図4に示す如く、一対のスペーサ部材9a,9bのスペーサ本体部90a,90a,90b,90bにより、発電要素2の両端部(四隅)に形成される傾斜部200a,200b(極板20a,20b)及び該傾斜部200a,200bの内側にある極板20a,20bの変形(第一方向の振動及び第二方向の振動に伴う変形)が阻止される。   The battery 1 according to the present embodiment is as described above. According to this battery 1, as shown in FIG. 4, the inclined portions 200 a, formed at both ends (four corners) of the power generating element 2 by the spacer main body portions 90 a, 90 a, 90 b, 90 b of the pair of spacer members 9 a, 9 b. Deformation of 200b (electrode plates 20a and 20b) and electrode plates 20a and 20b inside the inclined portions 200a and 200b (deformation associated with vibration in the first direction and vibration in the second direction) is prevented.

具体的には、スペーサ部材9a,9bのスペーサ本体部90a,90a,90b,90bは、ケース4の隔壁(前後壁部403)との密接により、ケース4の内での移動が規制される。そして、移動の規制されたスペーサ本体部90a,90a,90b,90bのそれぞれの第一サポート部92a,92bが傾斜部200a,200bの変形を阻止する。すなわち、スペーサ本体部90a,90a,90b,90bの第一サポート部92a,92bが対向する傾斜部200a,200bに面接触することで、該傾斜部200a,200bを構成する極板20a,20bが第一サポート部92a,92bに沿った状態(引き延ばされた状態)で維持する。これに伴い、傾斜部200a,200bの内側で積層状態にある極板20a,20bの変形も規制される。従って、発電要素2における傾斜部200a,200bを構成する極板20a,20b及び該傾斜部200a,200bの内側にある極板20a,20bが自由に変形することを防止でき、当該極板20a,20bの破損を防止することができる。   Specifically, the movement of the spacer main bodies 90a, 90a, 90b, 90b of the spacer members 9a, 9b within the case 4 is restricted by the close contact with the partition walls (front and rear wall portions 403) of the case 4. Then, the first support portions 92a and 92b of the spacer main body portions 90a, 90a, 90b, and 90b whose movement is restricted prevent the inclined portions 200a and 200b from being deformed. That is, when the first support portions 92a and 92b of the spacer main body portions 90a, 90a, 90b, and 90b are in surface contact with the opposed inclined portions 200a and 200b, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b are formed. It maintains in the state (stretched state) along the 1st support parts 92a and 92b. Along with this, deformation of the electrode plates 20a and 20b in a laminated state inside the inclined portions 200a and 200b is also restricted. Therefore, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b in the power generation element 2 and the electrode plates 20a and 20b inside the inclined portions 200a and 200b can be prevented from being freely deformed, and the electrode plates 20a, 20b, Damage to 20b can be prevented.

そして、発電要素2の四隅にある傾斜部200a,200bは、発電要素2の揺動方向(第一方向及び第二方向)の合成方向と交差する方向に広がる部分である。従って、発電要素2が第一方向、第二方向又はこれらの合成方向の何れの方向に揺動しようとしたときの力(移動方向に対応する方向の力)を傾斜部200a,200bに沿った第一サポート部92a,92bが受ける。これにより、発電要素2の第一方向、第二方向又はこれらの合成方向への移動が規制される。これに伴い、発電要素2に接続された集電体3a,3bの揺動も規制される。   The inclined portions 200a and 200b at the four corners of the power generation element 2 are portions that extend in a direction that intersects the combined direction of the swinging directions (first direction and second direction) of the power generation element 2. Therefore, the force (the force in the direction corresponding to the moving direction) when the power generating element 2 tries to swing in any of the first direction, the second direction, or the combined direction thereof is along the inclined portions 200a and 200b. The first support portions 92a and 92b receive them. Thereby, the movement to the 1st direction of the electric power generation element 2, a 2nd direction, or these synthetic | combination directions is controlled. Accordingly, the swinging of the current collectors 3a and 3b connected to the power generation element 2 is also restricted.

従って、機器の振動が電池1に伝達されても、傾斜部200a,200bを構成する極板20a,20b及び該傾斜部200a,200bの内側の極板20a,20bが繰り返し変形することが抑制される。また、発電要素2に接続された集電体3a,3bに繰り返し応力が集中的に作用することも抑制される。これにより、電池1は、発電要素2の極板20a,20bや集電体3a,3bが破損することを防止することができる。   Therefore, even if the vibration of the device is transmitted to the battery 1, the electrode plates 20a and 20b constituting the inclined portions 200a and 200b and the electrode plates 20a and 20b inside the inclined portions 200a and 200b are prevented from being repeatedly deformed. The In addition, it is possible to suppress the repeated stress from acting on the current collectors 3 a and 3 b connected to the power generation element 2. Thereby, the battery 1 can prevent the electrode plates 20a and 20b and the current collectors 3a and 3b of the power generation element 2 from being damaged.

特に、発電要素接続部30a,30bの第一端部P1がケース4に固定された固定用片部31a,31bに接続されるとともに、該発電要素接続部30a,30bの第二端部P2がケース4内に固定されたスペーサ部材9a,9bの連結部91a,91bに連結されることで、発電要素接続部30a,30bの第一端部P1及び第二端部P2が一定位置に固定された状態になる。また、一対のスペーサ本体部90a,90a,90b,90bの溝95a,95a,95b,95bのそれぞれに対し、集電体3a,3bの発電要素接続部30a,30bにおける幅方向(第二方向)の両端部のそれぞれが嵌合されることで、発電要素接続部30a,30bにおける幅方向(第二方向)の両端部も定位置で固定された状態になる。   In particular, the first end portion P1 of the power generation element connection portions 30a and 30b is connected to the fixing pieces 31a and 31b fixed to the case 4, and the second end portion P2 of the power generation element connection portions 30a and 30b is By being connected to the connecting portions 91a and 91b of the spacer members 9a and 9b fixed in the case 4, the first end portion P1 and the second end portion P2 of the power generation element connecting portions 30a and 30b are fixed at fixed positions. It becomes a state. Further, the width direction (second direction) of the power generating element connection portions 30a and 30b of the current collectors 3a and 3b with respect to the grooves 95a, 95a, 95b and 95b of the pair of spacer main body portions 90a, 90a, 90b and 90b, respectively. By fitting each of the both ends, both ends of the power generation element connection portions 30a and 30b in the width direction (second direction) are also fixed in place.

これにより、一対の集電体のそれぞれにおける発電要素接続部全体が揺動することを確実に規制できる。従って、前記電池1は、集電体3a,3bが破損することを確実に防止することができる。   Thereby, it can control reliably that the whole electric power generation element connection part in each of a pair of electrical power collectors rock | fluctuates. Therefore, the battery 1 can reliably prevent the current collectors 3a and 3b from being damaged.

なお、本発明は、上記実施形態に限定されるものではなく、本発明の要旨を逸脱しない範囲で、適宜変更を加え得ることは勿論のことである。   In addition, this invention is not limited to the said embodiment, Of course, it can change suitably in the range which does not deviate from the summary of this invention.

上記実施形態において、蓄電素子の一例としてリチウムイオン電池が挙げられたが、蓄電素子は、リチウムイオン電池に限定されるものではない。例えば、蓄電素子は、ニッケル水素電池等の他の電池や、キャパシタ(電気二重層キャパシタ等)であってもよい。   In the said embodiment, although the lithium ion battery was mentioned as an example of an electrical storage element, an electrical storage element is not limited to a lithium ion battery. For example, the storage element may be another battery such as a nickel metal hydride battery or a capacitor (such as an electric double layer capacitor).

上記実施形態において、スペーサ部材9a,9bのスペーサ本体部90a,90b(接触部94a,94b)が絶縁袋を挟んでケース4の前後壁部403,403に密接した(間接的に密接した)が、これに限定されるものではない。例えば、電気絶縁性を有する絶縁袋(図示しない)に包み込まれた発電要素2、及び一対の集電体3a,3bにスペーサ部材9a,9bが取り付けられた上で、これらがケース4に収容されてもよい。この場合、スペーサ部材9a,9bのスペーサ本体部90a,90b(接触部94a,94b)がケース4の前後壁部403,403に直接密接する。これにより、上記実施形態と同様に、移動の規制されたスペーサ部材9a,9b(スペーサ本体部90a,90b)の第一サポート部92a,92bが発電要素2の傾斜部200a,200bに密接する。   In the above embodiment, the spacer main bodies 90a and 90b (contact portions 94a and 94b) of the spacer members 9a and 9b are in close contact (indirect contact) with the front and rear wall portions 403 and 403 of the case 4 with the insulating bag interposed therebetween. However, the present invention is not limited to this. For example, after spacer elements 9a and 9b are attached to a power generation element 2 and a pair of current collectors 3a and 3b wrapped in an insulating bag (not shown) having electrical insulation properties, these are accommodated in a case 4 May be. In this case, the spacer main body portions 90 a and 90 b (contact portions 94 a and 94 b) of the spacer members 9 a and 9 b are in direct contact with the front and rear wall portions 403 and 403 of the case 4. Thereby, like the said embodiment, the 1st support parts 92a and 92b of the spacer members 9a and 9b (spacer main-body part 90a, 90b) by which the movement was controlled closely_contact | adhere to the inclination parts 200a and 200b of the electric power generation element 2. FIG.

従って、上記実施形態と同様に、発電要素2の両端部(四隅)に形成される傾斜部200a,200b(極板20a,20b)及び該傾斜部200a,200bの内側にある極板20a,20bの変形(第一方向の振動及び第二方向の振動に伴う変形)が阻止される。これにより、発電要素2における傾斜部200a,200bを構成する極板(正極板20a、負極板20b)及び該傾斜部200a,200bの内側にある極板(正極板20a、負極板20b)が自由に変形することを防止でき、当該極板(正極板20a、負極板20b)の破損を防止することができる。従って、発電要素2や該発電要素2に接続された集電体3a,3bに曲げ作用が繰り返し作用することがなく、発電要素2や集電体3a,3bの破損が防止される。   Accordingly, as in the above embodiment, the inclined portions 200a and 200b (electrode plates 20a and 20b) formed at both ends (four corners) of the power generating element 2 and the electrode plates 20a and 20b inside the inclined portions 200a and 200b. Deformation (deformation associated with vibration in the first direction and vibration in the second direction) is prevented. Thereby, the electrode plates (positive electrode plate 20a and negative electrode plate 20b) constituting the inclined portions 200a and 200b in the power generation element 2 and the electrode plates (positive electrode plate 20a and negative electrode plate 20b) inside the inclined portions 200a and 200b are free. Deformation of the electrode plate (positive electrode plate 20a, negative electrode plate 20b) can be prevented. Therefore, the bending action does not repeatedly act on the power generation element 2 and the current collectors 3a and 3b connected to the power generation element 2, and the power generation element 2 and the current collectors 3a and 3b are prevented from being damaged.

上記実施形態の蓄電素子1は、第一方向における発電要素2の両端縁に沿って配置された一対のスペーサ部材9a,9bを備えたが、蓄電素子1は、これに限定されるものではない。例えば、図5及び図6に示す如く、蓄電素子1は、第一方向における発電要素2の両端縁のうちの何れか一方の端縁(正極リード部21a又は負極リード部21b)に沿って配置されたスペーサ部材9aを備えたものであってもよい。すなわち、蓄電素子1は、一つのスペーサ部材9aを備えたものであってもよい。この場合においても、スペーサ部材9aの一対のスペーサ本体部90a,90aは、第一方向における前記発電要素2の両端部のうちの対応する端部の第二方向における両側に配置された状態でケース4の隔壁402,403に密接する。すなわち、一対のスペーサ本体部90a,90aは、ケース4の内部側から外方に向けての移動が規制された状態でケース4内に配置される。   Although the electrical storage element 1 of the said embodiment was provided with a pair of spacer members 9a and 9b arrange | positioned along the both ends of the electric power generation element 2 in a 1st direction, the electrical storage element 1 is not limited to this. . For example, as illustrated in FIGS. 5 and 6, the power storage element 1 is disposed along one of the both end edges (positive electrode lead portion 21 a or negative electrode lead portion 21 b) of the power generation element 2 in the first direction. The spacer member 9a may be provided. That is, the electricity storage element 1 may include one spacer member 9a. Also in this case, the pair of spacer main body portions 90a and 90a of the spacer member 9a are disposed on both sides in the second direction of the corresponding end portions of the power generating element 2 in the first direction. 4 close to the partition walls 402 and 403. That is, the pair of spacer main body portions 90 a and 90 a are arranged in the case 4 in a state where movement from the inside of the case 4 to the outside is restricted.

これにより、移動の規制されたスペーサ本体部90a,90aのそれぞれの第一サポート部(サポート部)92a,92aは、対向する発電要素2の傾斜部200a,200aに沿った状態(密接した状態)で維持する。従って、発電要素2における傾斜部200a,200a(極板20a)が第一サポート部92a,92aに拘束され、第二方向の振動に対する傾斜部200a,200aの変形が規制される。これに伴い、第二方向の振動に対する傾斜部200a,200aの内側にある極板20aの変形も規制される。これにより、発電要素2における傾斜部200a,200aを構成する極板(正極板)20a及び該傾斜部200a,200aの内側にある極板(正極板)20aが自由に変形することを防止でき、当該極板20aの破損を防止することができる。従って、発電要素2や該発電要素2に接続された集電体3a,3bに曲げ作用が繰り返し作用することがなく、発電要素2や集電体3a,3bの破損が防止される。   Accordingly, the first support portions (support portions) 92a and 92a of the spacer main body portions 90a and 90a whose movement is restricted are in a state (close state) along the inclined portions 200a and 200a of the opposing power generation element 2. Maintain with. Accordingly, the inclined portions 200a and 200a (electrode plate 20a) in the power generation element 2 are restrained by the first support portions 92a and 92a, and deformation of the inclined portions 200a and 200a with respect to vibration in the second direction is restricted. Accordingly, deformation of the electrode plate 20a inside the inclined portions 200a and 200a with respect to vibration in the second direction is also restricted. Thereby, it is possible to prevent the electrode plate (positive electrode plate) 20a constituting the inclined portions 200a and 200a in the power generation element 2 and the electrode plate (positive electrode plate) 20a inside the inclined portions 200a and 200a from being freely deformed, Damage to the electrode plate 20a can be prevented. Therefore, the bending action does not repeatedly act on the power generation element 2 and the current collectors 3a and 3b connected to the power generation element 2, and the power generation element 2 and the current collectors 3a and 3b are prevented from being damaged.

また、上記構成の蓄電素子1においても、スペーサ本体部90a,90a(第一サポート部92a,92a)は、発電要素2の傾斜部200a,200aに対して面接触する。そのため、スペーサ本体部90a,90aが発電要素2を拘束するに当たって、スペーサ本体部90a,90aに極板(正極板)20aが衝突するといった事態にならず、スペーサ部材9aを設けることによって発電要素2が破損することもない。なお、図5及び図6に示すスペーサ部材9aは、第一方向における発電要素2の両端縁のうちの一方の端縁(正極リード部21a)に沿って配置されているが、スペーサ部材は、第一方向における発電要素2の両端縁のうちの他方の端縁(負極リード部21b)に沿って配置されてもよい。   Also in the electricity storage device 1 having the above-described configuration, the spacer main body portions 90 a and 90 a (first support portions 92 a and 92 a) are in surface contact with the inclined portions 200 a and 200 a of the power generation element 2. Therefore, when the spacer main body portions 90a and 90a restrain the power generation element 2, the electrode plate (positive electrode plate) 20a does not collide with the spacer main body portions 90a and 90a, and the power generation element 2 is provided by providing the spacer member 9a. Will not be damaged. In addition, although the spacer member 9a shown in FIG.5 and FIG.6 is arrange | positioned along one edge (positive electrode lead part 21a) of the both ends of the electric power generation element 2 in a 1st direction, You may arrange | position along the other edge (negative electrode lead part 21b) of the both ends of the electric power generation element 2 in a 1st direction.

上記実施形態のスペーサ部材9a,9bにおいて、スペーサ本体部90a,90bの下端部同士が連結部91a,91bによって連結されたが、これに限定されるものではない。例えば、一対のスペーサ本体部90a,90bの上端同士が連結部91a,91bによって連結されるとともに該一対のスペーサ本体部90a,90bの下端同士が連結部91a,91bによって連結されてもよい。すなわち、スペーサ部材9a,9bは、枠状に形成されてもよい。また、一対のスペーサ本体部90a,90bの端部同士が連結されたものに限定されるものではなく、例えば、一対のスペーサ本体部90a,90bの途中位置同士が連結部によって連結されたものであってもよい。   In the spacer members 9a and 9b of the above embodiment, the lower end portions of the spacer main body portions 90a and 90b are connected by the connecting portions 91a and 91b. However, the present invention is not limited to this. For example, the upper ends of the pair of spacer main body portions 90a and 90b may be connected by the connecting portions 91a and 91b, and the lower ends of the pair of spacer main body portions 90a and 90b may be connected by the connecting portions 91a and 91b. That is, the spacer members 9a and 9b may be formed in a frame shape. Moreover, it is not limited to what the edge part of a pair of spacer main-body part 90a, 90b was connected, For example, the middle positions of a pair of spacer main-body part 90a, 90b are connected by the connection part. There may be.

上記実施形態において、集電体3a,3bにおける発電要素接続部30a,30bの第二端部P2を連結部91a,91bのスリット部96a,96bに圧入することで、集電体3a,3b(発電要素接続部30a,30b)がスペーサ部材9a,9b(連結部91a,91b)に連結されたが、これに限定されるものではない。例えば、集電体3a,3b(発電要素接続部30a,30b)の第二端部P2は、スペーサ部材9a,9b(連結部91a,91b)との連結なしに自由端にされてもよい。このようにしても、スペーサ本体部90a,90bの第一サポート部92a,92bが発電要素2の傾斜部200a,200bに沿った状態で該スペーサ本体部90a,90bがケース4の内面に密接することで、発電要素2の移動(揺動)を規制できる。これにより、発電要素2及び集電体3a,3bの揺動を規制することができる。従って、発電要素2及び集電体3a,3bの破損が防止される。但し、集電体3a,3bの揺動を確実に規制するためには、発電要素接続部30a,30bの第二端部P2が連結部91a,91bに連結されることが好ましい。   In the above embodiment, the current collectors 3a and 3b (the current collectors 3a and 3b (the current collectors 3a and 3b) are press-fitted into the slits 96a and 96b of the connecting portions 91a and 91b. Although the power generation element connection portions 30a and 30b) are connected to the spacer members 9a and 9b (connection portions 91a and 91b), the present invention is not limited to this. For example, the second ends P2 of the current collectors 3a and 3b (power generation element connection portions 30a and 30b) may be free ends without being connected to the spacer members 9a and 9b (connection portions 91a and 91b). Even in this case, the spacer main body portions 90 a and 90 b are in close contact with the inner surface of the case 4 in a state where the first support portions 92 a and 92 b of the spacer main body portions 90 a and 90 b are along the inclined portions 200 a and 200 b of the power generation element 2. Thus, the movement (swing) of the power generation element 2 can be restricted. Thereby, rocking | fluctuation of the electric power generation element 2 and current collector 3a, 3b can be controlled. Therefore, damage to the power generation element 2 and the current collectors 3a and 3b is prevented. However, in order to reliably regulate the swinging of the current collectors 3a and 3b, it is preferable that the second ends P2 of the power generation element connection portions 30a and 30b are coupled to the coupling portions 91a and 91b.

上記実施形態において、一対の集電体3a,3bのそれぞれの発電要素接続部30a,30bの第二方向の両端部が一対のスペーサ本体部90a,90bの互いに対向する面に設けられた溝95a,95bに嵌合されたが、これに限定されるものではない。例えば、一対のスペーサ本体部90a,90b間に発電要素接続部30a,30bを介装した状態で、発電要素接続部30a,30bの第二方向の両端部が一対のスペーサ本体部90a,90bに対して非接触になるようにしてもよい。すなわち、スペーサ部材9a,9bを構成する連結部91a,91bに発電要素接続部30a,30bの第二端部P2のみが連結されたものや、スペーサ部材9a,9bに集電体3a,3bが一切連結されていない(支持されていない)ものであってもよい。このようにしても、スペーサ本体部90a,90bの第一サポート部92a,92bが発電要素2の傾斜部200a,200bに沿った状態で該スペーサ本体部90a,90bがケース4の内面に密接することで、発電要素2の移動(揺動)を規制できる。   In the above-described embodiment, the grooves 95a provided at the opposite ends of the pair of spacer main body portions 90a and 90b at both ends in the second direction of the power generation element connection portions 30a and 30b of the pair of current collectors 3a and 3b, respectively. , 95b, but is not limited to this. For example, in a state where the power generation element connection portions 30a and 30b are interposed between the pair of spacer main body portions 90a and 90b, both end portions in the second direction of the power generation element connection portions 30a and 30b are connected to the pair of spacer main body portions 90a and 90b. On the other hand, it may be non-contact. That is, only the second end portion P2 of the power generation element connecting portions 30a and 30b is connected to the connecting portions 91a and 91b constituting the spacer members 9a and 9b, and the current collectors 3a and 3b are connected to the spacer members 9a and 9b. It may not be connected at all (not supported). Even in this case, the spacer main body portions 90 a and 90 b are in close contact with the inner surface of the case 4 in a state where the first support portions 92 a and 92 b of the spacer main body portions 90 a and 90 b are along the inclined portions 200 a and 200 b of the power generation element 2. Thus, the movement (swing) of the power generation element 2 can be restricted.

上記実施形態において、第二方向に集結させた極板20a,20bを包囲するクリップ部材32a,32bに対して発電要素接続部30a,30b(接続片300a,300b)が接続されたが、これに限定されるものではない。例えば、第二方向に集結させた極板20a,20bに発電要素接続部30a,30b(接続片300a,300b)が直接重ね合わされたものであってもよい。この場合、極板20a,20bと発電要素接続部30a,30b(接続片300a,300b)とが一括してクリップ部材32a,32bに包囲されることが好ましい。   In the above embodiment, the power generation element connection portions 30a and 30b (connection pieces 300a and 300b) are connected to the clip members 32a and 32b surrounding the electrode plates 20a and 20b gathered in the second direction. It is not limited. For example, the power generation element connection portions 30a and 30b (connection pieces 300a and 300b) may be directly superimposed on the electrode plates 20a and 20b concentrated in the second direction. In this case, it is preferable that the electrode plates 20a and 20b and the power generation element connection portions 30a and 30b (connection pieces 300a and 300b) are collectively surrounded by the clip members 32a and 32b.

上記実施形態において、出力端子5a,5bと締結部材6a,6bとが別個独立した構成にされたが、これに限定されるものではない。例えば、出力端子5a,5bと締結部材6a,6bとが一体的に形成されてもよい。この場合、回止部材52a,52bや接続杆64a,64bが不要となる。そのため、外部ガスケット8a,8b及び出力端子5a,5b(又は締結部材6a,6b)に回り止め機能を付与されることが好ましい。   In the said embodiment, although the output terminals 5a and 5b and fastening member 6a, 6b were set as the independent structure, it is not limited to this. For example, the output terminals 5a and 5b and the fastening members 6a and 6b may be integrally formed. In this case, the locking members 52a and 52b and the connecting rods 64a and 64b are not necessary. Therefore, it is preferable that the external gaskets 8a and 8b and the output terminals 5a and 5b (or the fastening members 6a and 6b) have a rotation preventing function.

上記実施形態において、長尺な正極板20aと負極板20bとが重ね合わされた状態で巻回された巻回型の発電要素2を備えた蓄電素子1について説明したが、これに限定されるものではない。例えば、電気絶縁性を有する枚葉状のセパレータ20cと、該セパレータ20cを挟んで第一方向に相対的に位置ずれした状態で重ね合わされた枚葉状の正極板20a及び負極板20bとを含む発電要素2を備えた蓄電素子1であってもよい。この場合においても、発電要素2の第一方向の一端部に正極板20aのみが積層されるとともに、発電要素2の第一方向の他端部に負極板20bのみが積層される。そして、集電体3a,3bが発電要素2に接続されるに当り、発電要素2の第一方向の両端部の極板20a,20bが第二方向の中央側に集結される。これにより、発電要素2の第一方向の一方側及び他方側のそれぞれにおいて、第二方向の両側の外面上に傾斜部200a,200bが形成される。従って、上記実施形態と同様に、スペーサ部材9a,9bが設けられることで、発電要素2や集電体3a,3bの揺動を規制し、これらの破損を防止することができる。   In the said embodiment, although the electrical storage element 1 provided with the winding type electric power generation element 2 wound in the state in which the elongate positive electrode plate 20a and the negative electrode plate 20b were piled up was demonstrated, it is limited to this is not. For example, a power generation element including a sheet-like separator 20c having electrical insulation, and a sheet-like positive electrode plate 20a and a negative electrode plate 20b that are stacked in a state of being relatively displaced in the first direction across the separator 20c. 2 may be a power storage device 1 having two. Also in this case, only the positive electrode plate 20 a is stacked on one end portion of the power generation element 2 in the first direction, and only the negative electrode plate 20 b is stacked on the other end portion of the power generation element 2 in the first direction. Then, when the current collectors 3a and 3b are connected to the power generation element 2, the electrode plates 20a and 20b at both ends in the first direction of the power generation element 2 are concentrated on the center side in the second direction. Thereby, inclined part 200a, 200b is formed on the outer surface of the both sides of a 2nd direction in each of the one side of the 1st direction of the electric power generation element 2, and the other side. Therefore, similarly to the above-described embodiment, by providing the spacer members 9a and 9b, the swinging of the power generating element 2 and the current collectors 3a and 3b can be restricted and the breakage thereof can be prevented.

上記実施形態において、途中位置に接続片300a,300bの形成された発電要素接続部30a,30bを有する集電体3a,3bが採用されたが、これに限定されるものではない。例えば、第一端部P1側、又は第二端部P2側で二股状になった接続片300a,300bの形成された発電要素接続部30a,30bを有する集電体3a,3bが採用されてもよい。   In the said embodiment, although the electrical power collector 3a, 3b which has the electric power generation element connection part 30a, 30b in which the connection piece 300a, 300b was formed in the middle position was employ | adopted, it is not limited to this. For example, current collectors 3a and 3b having power generation element connection portions 30a and 30b formed with connection pieces 300a and 300b that are bifurcated on the first end portion P1 side or the second end portion P2 side are employed. Also good.

また、上記実施形態において、発電要素2を構成する積層状態の極板20a,20bの途中位置にある層間(上記実施形態では巻回中心)に発電要素接続部30a,30bの接続片300a,300bが挿入されたが、これに限定されるものではない。例えば、図8に示すように、発電要素接続部30a,30b(接続片300a,300b)が発電要素2の第一方向の端部における外面に沿って配置されたものであってもよい。   Further, in the above embodiment, the connecting pieces 300a, 300b of the power generating element connection portions 30a, 30b are disposed between layers (in the above embodiment, the winding center) in the middle of the stacked electrode plates 20a, 20b constituting the power generating element 2. However, the present invention is not limited to this. For example, as illustrated in FIG. 8, the power generation element connection portions 30 a and 30 b (connection pieces 300 a and 300 b) may be arranged along the outer surface at the end portion in the first direction of the power generation element 2.

また、上記実施形態において、スペーサ本体部90a,90bの接触部94a,94bが前後壁部403のみに密接したが、これに限定されるものではない。例えば、上記実施形態のように一対の前後壁部403,403及び一対の側壁部402,402が枠状をなす場合には、スペーサ本体部90a,90bは、前後壁部403と該前後壁部403と隣り合う側壁部402とに密接できるように形成されてもよい。すなわち、スペーサ本体部90a,90bが前後壁部403と密接する接触部と、該前後壁部403と隣り合う側壁部402に密接する別の接触部とを備えるようにしてもよい。このようにすれば、スペーサ本体部90a,90bの二つの接触部(二面)が拘束され、定位置に位置決めされる。   Moreover, in the said embodiment, although the contact parts 94a and 94b of the spacer main-body parts 90a and 90b were closely_contact | adhered only to the front-and-back wall part 403, it is not limited to this. For example, when the pair of front and rear wall portions 403 and 403 and the pair of side wall portions 402 and 402 form a frame shape as in the above embodiment, the spacer main body portions 90a and 90b include the front and rear wall portions 403 and the front and rear wall portions. It may be formed so as to be in close contact with the side wall portion 402 adjacent to 403. That is, the spacer main body portions 90 a and 90 b may include a contact portion that is in close contact with the front and rear wall portion 403 and another contact portion that is in close contact with the side wall portion 402 adjacent to the front and rear wall portion 403. If it does in this way, the two contact parts (two surfaces) of spacer main-body part 90a, 90b will be restrained, and it will be positioned in a fixed position.

上記実施形態において、ケース4の外側に配置される一対の出力端子5a,5bのそれぞれが同種のボルト端子で構成されたが、これに限定されるものではない。例えば、一対の出力端子5a,5bのうちの何れか一方の出力端子5a,5bがケース4の外面で構成されてもよい。すなわち、一対の集電体3a,3bのうちの何れか一方の集電体3a,3bが締結部材6a,6bを介してケース4(ケース本体40又は蓋板41)に機械的及び電気的に接続されることで、ケース4(ケース本体40又は蓋板41)の外面が該ケース4の外側に配置される何れか一方の出力端子5a,5bを構成してもよい。この場合、一対の出力端子5a,5bのうちの何れか他方の出力端子5a,5bは、上記実施形態と同様のボルト端子、又は、対応する極性の集電体3a,3bをケース4に固定する締結部材6a,6bで構成されればよい。   In the above embodiment, each of the pair of output terminals 5a and 5b arranged on the outside of the case 4 is composed of the same type of bolt terminals, but the present invention is not limited to this. For example, either one of the pair of output terminals 5 a and 5 b may be configured on the outer surface of the case 4. That is, one of the pair of current collectors 3a and 3b is mechanically and electrically connected to the case 4 (the case main body 40 or the cover plate 41) via the fastening members 6a and 6b. By being connected, the outer surface of the case 4 (the case main body 40 or the cover plate 41) may constitute any one of the output terminals 5a and 5b disposed outside the case 4. In this case, the other output terminal 5a, 5b of the pair of output terminals 5a, 5b is fixed to the case 4 with the same bolt terminal as in the above embodiment or the current collectors 3a, 3b of the corresponding polarity. What is necessary is just to be comprised by the fastening members 6a and 6b to perform.

1…蓄電素子、2…発電要素、3a,3b…集電体、4…ケース、5a,5b…出力端子、6a,6b…締結部材、7a,7b…内部ガスケット、8a,8b…外部ガスケット、9a,9b…スペーサ部材、20a…正極板(極板)、20b…負極板(極板)、20c…セパレータ、21a…正極リード部(リード部)、21b…負極リード部(リード部)、22…直線部、23…円弧部、30a,30b…発電要素接続部、31a,31b…固定用片部、32a,32b…クリップ部材、40…ケース本体、41…蓋板(隔壁)、50a,50b…端子部、51a,51b…回止部、52a,52b…回止部材、60a,60b…リベット部、61a,61b…鍔部、62a,62b…接続杆用リベット部(別のリベット部)、64a,64b…接続杆、70a,70b…凹部、71a,71b…貫通穴、80a,80b…凹部、81a,81b…外壁部、82a,82b…貫通穴、83a,83b…筒状部、90a,90b…スペーサ本体部、91a,91b…連結部、92a,92b…第一サポート部(サポート部)、93a,93b…第二サポート部(別のサポート部)、94a,94b…接触部、95a,95b…溝、96a,96b…スリット部、200a,200b…傾斜部、300a,300b…接続片、310a,310b…貫通穴、400…開口部、401…底部、402…側壁部、403…前後壁部、410a,410b…貫通穴、P1…第一端部、P2…第二端部   DESCRIPTION OF SYMBOLS 1 ... Power storage element, 2 ... Power generation element, 3a, 3b ... Current collector, 4 ... Case, 5a, 5b ... Output terminal, 6a, 6b ... Fastening member, 7a, 7b ... Internal gasket, 8a, 8b ... External gasket, 9a, 9b ... spacer member, 20a ... positive electrode plate (electrode plate), 20b ... negative electrode plate (electrode plate), 20c ... separator, 21a ... positive electrode lead part (lead part), 21b ... negative electrode lead part (lead part), 22 ... Linear part, 23 ... Arc part, 30a, 30b ... Power generation element connection part, 31a, 31b ... Fixing piece part, 32a, 32b ... Clip member, 40 ... Case body, 41 ... Cover plate (partition wall), 50a, 50b ... terminal part, 51a, 51b ... stop part, 52a, 52b ... stop member, 60a, 60b ... rivet part, 61a, 61b ... collar part, 62a, 62b ... rivet part for connection rod (another rivet part), 64a, 6 b: Connection rod, 70a, 70b ... Recess, 71a, 71b ... Through hole, 80a, 80b ... Recess, 81a, 81b ... Outer wall, 82a, 82b ... Through hole, 83a, 83b ... Cylindrical part, 90a, 90b ... Spacer main body, 91a, 91b ... connecting part, 92a, 92b ... first support part (support part), 93a, 93b ... second support part (another support part), 94a, 94b ... contact part, 95a, 95b ... Groove, 96a, 96b ... slit part, 200a, 200b ... inclined part, 300a, 300b ... connection piece, 310a, 310b ... through hole, 400 ... opening part, 401 ... bottom part, 402 ... side wall part, 403 ... front and rear wall part, 410a, 410b ... through hole, P1 ... first end, P2 ... second end

Claims (5)

電気絶縁性を有するセパレータと該セパレータを間に挟んで第一方向に相対的に位置ずれした状態で重ね合わされた正極板及び負極板とが巻回されている発電要素と、
前記第一方向における前記発電要素の両端部の前記正極板及び前記負極板のうちの対応する極性の極板にそれぞれ電気的に接続された一対の集電体と、
前記発電要素及び前記一対の集電体を収容する内部空間を画定した隔壁を有するケースと、
該ケースの外側に配置された一対の出力端子と、
前記第一方向における前記発電要素の両端縁のうちの少なくとも何れか一方の端縁に沿って配置されるスペーサ部材と、を備え、
前記第一方向における前記発電要素の両端部の前記正極板及び前記負極板のそれぞれは、前記第一方向と直交する第二方向における前記発電要素の巻回中心の両側それぞれで中央側に集結され、
前記第一方向における前記発電要素の一端側及び他端側のそれぞれの外面であって、前記第二方向における前記発電要素の両側の外面上に、前記発電要素の両端部の前記正極板及び前記負極板のそれぞれの集結に伴って傾斜部が形成され、
前記一対の集電体のそれぞれは、
前記第一方向及び前記第二方向と直交する第三方向に沿って配置される発電要素接続部であって、前記第一方向における前記発電要素の両端部で集結された前記正極板及び前記負極板のうちの対応する極性の極板に電気的に接続される発電要素接続部と、
該発電要素接続部から延出された固定用片部であって、前記ケースの前記隔壁に固定されつつ前記一対の出力端子のうちの対応する極性の出力端子に対して電気的に接続された固定用片部と、を備え、
前記スペーサ部材は、前記第一方向における前記発電要素の両端部のうちの対応する端部の前記第二方向における両側に配置される一対のスペーサ本体部であって、前記ケースの前記隔壁に密接する一対のスペーサ本体部と、前記発電要素の巻回中心と対応する位置で前記第二方向に間隔をあけた状態の該一対のスペーサ本体部同士を連結する連結部とを備え、
前記一対のスペーサ本体部のそれぞれは、前記発電要素の前記傾斜部と密接するサポート部を備える
蓄電素子。
A power generating element is a positive electrode plate and the negative electrode plate transgressions wound superimposed while relatively displaced position in the first direction in between the separator and the separator having an electrically insulating,
A pair of current collectors each electrically connected to a corresponding polar plate of the positive electrode plate and the negative electrode plate at both ends of the power generation element in the first direction;
A case having a partition wall defining an internal space for accommodating the power generation element and the pair of current collectors;
A pair of output terminals disposed outside the case;
A spacer member disposed along at least one of the two end edges of the power generation element in the first direction,
Each of the positive electrode plate and the negative electrode plate at both ends of the power generation element in the first direction is concentrated on the center side at both sides of the winding center of the power generation element in the second direction orthogonal to the first direction. And
On the outer surfaces of the one end side and the other end side of the power generation element in the first direction, on the outer surfaces on both sides of the power generation element in the second direction, the positive plates at both ends of the power generation element and the An inclined part is formed with each concentration of the negative electrode plate,
Each of the pair of current collectors is
A power generation element connection portion disposed along a third direction orthogonal to the first direction and the second direction, the positive electrode plate and the negative electrode being concentrated at both ends of the power generation element in the first direction A power generating element connection that is electrically connected to a corresponding polarity plate of the plates;
A fixing piece extending from the power generating element connecting portion, and is electrically connected to an output terminal having a corresponding polarity of the pair of output terminals while being fixed to the partition wall of the case. A fixing piece,
The spacer member is a pair of spacer main body portions disposed on both sides in the second direction of corresponding end portions of the power generation elements in the first direction, and is in close contact with the partition wall of the case. A pair of spacer body portions, and a connecting portion that connects the pair of spacer body portions in a state spaced from each other in the second direction at a position corresponding to the winding center of the power generation element ,
Each of the pair of spacer main body portions includes a support portion that is in close contact with the inclined portion of the power generation element.
前記スペーサ部材を一対備え、
該一対のスペーサ部材は、前記第一方向における前記発電要素の両端縁に沿って配置されている
請求項1に記載の蓄電素子。
A pair of the spacer members are provided,
The power storage element according to claim 1, wherein the pair of spacer members are disposed along both end edges of the power generation element in the first direction.
前記発電要素接続部は、前記固定用片部に接続される第一端部と、前記固定用片部の固定された前記隔壁と対向する隔壁近傍に位置する第二端部とを有し、
前記スペーサ部材の前記連結部は、前記固定用片部の固定された前記隔壁と対向する前記隔壁に沿って配置され、前記一対の集電体のうちの対応する集電体における前記発電要素接続部の第二端部が連結されている
請求項1又は2に記載の蓄電素子。
The power generation element connection portion has a first end connected to the fixing piece, and a second end located in the vicinity of the partition facing the partition fixed to the fixing piece,
The connecting portion of the spacer member is disposed along the partition facing the partition fixed to the fixing piece, and the power generating element connection in the corresponding current collector of the pair of current collectors The electric storage element according to claim 1, wherein second end portions of the portions are connected.
前記スペーサ部材における一対のスペーサ本体部間に前記一対の集電体のうちの対応する集電体の前記発電要素接続部が介装され、
該発電要素接続部の第二方向の両端部のそれぞれが両側に配置された一対のスペーサ本体のそれぞれに嵌合されている
請求項1乃至3の何れか1項に記載の蓄電素子。
The power generating element connection portion of the corresponding current collector of the pair of current collectors is interposed between the pair of spacer main body portions in the spacer member,
The electric storage element according to any one of claims 1 to 3, wherein each of both end portions in the second direction of the power generation element connection portion is fitted to each of a pair of spacer bodies arranged on both sides.
電気絶縁性を有するセパレータと該セパレータを間に挟んで第一方向に相対的に位置ずれした状態で重ね合わされた正極板及び負極板とが巻回されている発電要素と、
前記発電要素を収容するケースと、
前記第一方向における前記発電要素の両端部のうちの少なくとも何れか一方の端縁に沿って配置されるスペーサ部材と、を備え、
前記発電要素は、前記第一方向における前記発電要素の両端部のうちの前記一方において、前記正極板又は前記負極板が前記第一方向と直交する第二方向における前記発電要素の巻回中心の両側それぞれで中央側に集結されることに伴って、前記第二方向における前記発電要素の外面上に形成される傾斜部を有し、
前記スペーサ部材は、前記第一方向における前記発電要素の両端部のうちの前記一方において、前記発電要素の前記第二方向における両側に配置される一対のスペーサ本体部であって、前記ケースに密接する一対のスペーサ本体部と、前記発電要素の巻回中心と対応する位置で前記第二方向に間隔をあけた状態の該一対のスペーサ本体部同士を連結する連結部とを備え、
前記一対のスペーサ本体部のそれぞれは、前記発電要素の前記傾斜部と密接するサポート部を備える
蓄電素子。
A power generating element is a positive electrode plate and the negative electrode plate transgressions wound superimposed while relatively displaced position in the first direction in between the separator and the separator having an electrically insulating,
A case for housing the power generation element;
A spacer member disposed along an edge of at least one of both end portions of the power generation element in the first direction,
In the one of the both ends of the power generation element in the first direction, the power generation element has a winding center of the power generation element in a second direction in which the positive electrode plate or the negative electrode plate is orthogonal to the first direction . Along with being concentrated on the center side on each of both sides , it has an inclined portion formed on the outer surface of the power generating element in the second direction,
The spacer member is a pair of spacer main body portions disposed on both sides of the power generation element in the second direction in the one of the both ends of the power generation element in the first direction, and is in close contact with the case. A pair of spacer body portions, and a connecting portion that connects the pair of spacer body portions in a state spaced from each other in the second direction at a position corresponding to the winding center of the power generation element ,
Each of the pair of spacer main body portions includes a support portion that is in close contact with the inclined portion of the power generation element.
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