JP2009245788A - Roll press device - Google Patents

Roll press device Download PDF

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JP2009245788A
JP2009245788A JP2008091753A JP2008091753A JP2009245788A JP 2009245788 A JP2009245788 A JP 2009245788A JP 2008091753 A JP2008091753 A JP 2008091753A JP 2008091753 A JP2008091753 A JP 2008091753A JP 2009245788 A JP2009245788 A JP 2009245788A
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electrode
sheet
rollers
preheating
roll press
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JP5173533B2 (en
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Mutsumi Tsujiide
睦 辻出
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Vehicle Energy Japan Inc
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Hitachi Vehicle Energy 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

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Abstract

<P>PROBLEM TO BE SOLVED: To provide a roll press device capable of restraining undulation or curving of an electrode and wrinkles of a plain part, at pressing by a press roller. <P>SOLUTION: The roll press device 20 is provided with a pair of heat rollers 2, 3 (press rollers) for pressurizing an active material layer of sheet-shaped electrode 1 up to a prescribed density, and a far infrared heater for preheating the sheet-shaped electrode 1 over the entire width is arranged on the upstream side front of the heat rollers 2, 3 in a transport direction of the sheet-shaped electrode 1. Immediately in front of the heat pollers 2, 3, the surface temperature of the sheet-shaped electrode 1 becomes substantially uniform. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明はロールプレス装置に係り、特に、一対の加熱機能付きプレスローラを備えた電池用電極のロールプレス装置に関する。   The present invention relates to a roll press apparatus, and more particularly to a roll press apparatus for battery electrodes provided with a pair of press rollers with a heating function.

例えば、リチウムイオン電池の電極を作製する場合には、一般に、厚さ約15μm程度のアルミニウムや銅の金属箔の基材(集電体)上に、約50μm〜200μm程度の正極用又は負極用の活物質層を塗着し、乾燥させてシート状の電極を形成する。   For example, in the case of producing an electrode for a lithium ion battery, in general, a positive electrode or a negative electrode having a thickness of about 50 μm to 200 μm on an aluminum or copper metal foil substrate (current collector) having a thickness of about 15 μm. The active material layer is applied and dried to form a sheet-like electrode.

活物質層は、塗着のみでは乾燥時の空隙により密度が低く、電池形成時に十分な電池容量を確保することができない。このため、乾燥後の電極はシート状のまま熱間或は冷間(常温)ロールプレス装置で圧縮加工が施される(例えば、特許文献1参照)。ここで用いられる熱ロールプレスは、約100〜120°C程度の温度で圧縮されるが、活物質層に熱を奪われるため、予熱ローラと称される予備の加温用のローラを一対のプレスローラの上流側に配置し、活物質層を予熱する方式が採られている。   The active material layer has a low density due to voids during drying only by coating, and a sufficient battery capacity cannot be ensured during battery formation. For this reason, the electrode after drying is compressed by a hot or cold (normal temperature) roll press apparatus in the form of a sheet (see, for example, Patent Document 1). The hot roll press used here is compressed at a temperature of about 100 to 120 ° C., but heat is taken away by the active material layer. Therefore, a pair of preheating rollers called preheating rollers are used. A method of preheating the active material layer is provided on the upstream side of the press roller.

特開2005−44539号公報JP 2005-44539 A

しかしながら、従来のロールプレス装置での予熱ローラによる予熱では、実際には、電極の幅方向での予熱が均一には行われない。具体的には、図2の符号a、b、cは予熱ローラ4、5通過後のシート状電極1の温度分布状態を模式的に示しているが、温度の高い順にa>b>cのような温度分布となる。このため、プレス後のシート状電極の密度分布、伸びの状態が不均一になり、シート状電極にうねりや歪曲が発生する。特に、活物質層がストライプ状に塗着されたシート状電極では、基材の伸びが不均一のため、無地部分に皺11が発生し、最悪の場合亀裂となりシート状電極の破断が生ずる場合がある。   However, in the preheating by the preheating roller in the conventional roll press apparatus, the preheating in the width direction of the electrodes is not actually performed uniformly. Specifically, symbols a, b, and c in FIG. 2 schematically show the temperature distribution state of the sheet-like electrode 1 after passing through the preheating rollers 4 and 5, but a> b> c in order of increasing temperature. The temperature distribution is as follows. For this reason, the density distribution and elongation state of the sheet-like electrode after pressing become non-uniform, and undulation and distortion occur in the sheet-like electrode. In particular, in the case of a sheet-like electrode in which the active material layer is applied in a stripe shape, the base material is unevenly stretched, so that wrinkles 11 are generated in the plain portion, and in the worst case, it becomes a crack and the sheet-like electrode breaks There is.

本発明は上記事案に鑑み、プレスローラによるプレス時に、電極のうねりや歪曲、無地部分の皺発生を抑制することができるロールプレス装置を提供することを課題とする。   An object of the present invention is to provide a roll press device capable of suppressing the undulation and distortion of an electrode and the generation of wrinkles in a plain portion during pressing with a press roller.

上記課題を解決するために、本発明は、一対の加熱機能付きプレスローラを備えた電池用電極のロールプレス装置において、前記プレスローラの前記電極の搬送方向上流側手前に、全幅に亘って前記電極を予備加熱するヒータを配置したことを特徴とする。   In order to solve the above-described problems, the present invention provides a battery electrode roll press apparatus including a pair of press rollers with a heating function, over the entire width of the press roller upstream of the electrode in the transport direction. A heater for preheating the electrodes is arranged.

本発明において、ヒータで予備加温された電極の表面温度が、プレスローラにより加熱プレスされたときの表面温度に対し、温度差が20°C以内となるようにヒータの加熱温度が設定されていることが好ましい。   In the present invention, the heating temperature of the heater is set so that the surface temperature of the electrode preheated by the heater is within 20 ° C. with respect to the surface temperature when heated and pressed by the press roller. Preferably it is.

本発明によれば、プレスローラの電極の搬送方向上流側手前に、全幅に亘って電極を予備加熱するヒータを配置したので、ヒータで予備加熱された電極の温度分布が、プレスローラの直前で、電極幅方向に略均一な温度分布となり、プレスローラによる電極の加熱プレス時に電極のうねり、歪曲または無地部分の皺発生を抑制することができる、という効果を得ることができる。   According to the present invention, since the heater that preheats the electrode over the entire width is arranged in front of the press roller in the conveying direction, the temperature distribution of the electrode preheated by the heater is immediately before the press roller. The temperature distribution is substantially uniform in the width direction of the electrode, and it is possible to obtain an effect that the undulation, distortion, or wrinkle of the plain portion can be suppressed when the electrode is heated and pressed by the press roller.

以下、図面を参照して、本発明に係るロールプレス装置の実施の形態について説明する。   Hereinafter, an embodiment of a roll press apparatus according to the present invention will be described with reference to the drawings.

(構成)
本実施形態のロールプレス装置は、電極供給ロール側から供給されたシート状電極を一対のヒートローラで加熱しながら加圧(プレス)して電極を構成する活物質層の密度を高め、プレス後の電極を電極巻取ロールに巻き取る態様のものである。 (Constitution)
The roll press apparatus of this embodiment increases the density of the active material layer constituting the electrode by pressing (pressing) the sheet-like electrode supplied from the electrode supply roll side while heating with a pair of heat rollers, and after pressing The electrode is wound on an electrode winding roll.

図1に示すように、本実施形態のロールプレス装置20は、プレスローラとしての一対のヒートローラ2、3を備えている。ヒートローラ2、3は駆動ローラであり、軸心の周りにヒートランプやニクロム線等の熱源を内蔵している。ヒートローラ2、3間は油圧力で規制され、シート状電極1が熱間で加圧される構造が採られている。   As shown in FIG. 1, the roll press apparatus 20 of this embodiment is provided with a pair of heat rollers 2 and 3 as press rollers. The heat rollers 2 and 3 are drive rollers, and incorporate a heat source such as a heat lamp or a nichrome wire around an axis. The structure between the heat rollers 2 and 3 is regulated by the oil pressure, and the sheet electrode 1 is hot pressed.

シート状電極1には、以下のようなリチウムイオン電池用電極が用いられるが、本発明はこれに制限されるものではない。正極用電極には、例えば、リチウムマンガン複酸化物を正極活物質とし、導電剤と結着剤とを添加し、これに分散溶媒を添加、混練してスラリを作製しておき、得られたスラリを厚さ20μmのアルミニウム箔(集電体)の両面に均一に塗布して正極活物質層を形成した後、乾燥させたフープ状の電極を用いることができる。一方、負極用電極には、例えば、非晶質炭素を負極活物質とし、結着剤を添加し、これに分散溶媒を添加、混練してスラリを作製しておき、得られたスラリを厚さ10μmの圧延銅箔(集電体)の両面に均一に塗布して負極活物質層を形成した後、乾燥させたフープ状の電極を用いることができる。   Although the following lithium ion battery electrodes are used for the sheet-like electrode 1, this invention is not limited to this. For the positive electrode, for example, lithium manganese double oxide was used as a positive electrode active material, a conductive agent and a binder were added, and a dispersion solvent was added and kneaded to prepare a slurry. A hoop-like electrode that is dried after a slurry is uniformly coated on both surfaces of an aluminum foil (current collector) having a thickness of 20 μm to form a positive electrode active material layer can be used. On the other hand, for the negative electrode, for example, amorphous carbon is used as a negative electrode active material, a binder is added, a dispersion solvent is added to this, and a slurry is prepared by kneading the resulting slurry. After forming a negative electrode active material layer uniformly on both sides of a rolled copper foil (current collector) having a thickness of 10 μm, a dried hoop-like electrode can be used.

本実施形態では、量産性を高めるために(2つ分のフープ状の電極を得るために)、幅方向両側および幅方向中央に両面とも活物質が塗布されない未塗布部(以下、無地部分という。)を形成したストライプ状の電極が用いられている。この電極が上述した電極供給ロールとしてロールプレス装置20に装着される。   In this embodiment, in order to increase mass productivity (to obtain two hoop-shaped electrodes), an uncoated portion (hereinafter referred to as a plain portion) where no active material is coated on both sides in the width direction and in the center in the width direction. .) Is used. This electrode is attached to the roll press apparatus 20 as the electrode supply roll described above.

ヒートローラ2、3のシート状電極1の搬送方向(図1の矢印参照)上流側には、ヒートローラ2、3でシート状電極1を加熱、加圧する前にシート状電極1に予熱を付与するための一対の予熱ローラ4、5が配設されている。予熱ローラ4、5も駆動ローラであり、軸心の周りに熱源を内蔵している。   Preheating is applied to the sheet-like electrode 1 before heating and pressurizing the sheet-like electrode 1 with the heat rollers 2 and 3 on the upstream side in the conveying direction of the sheet-like electrode 1 of the heat rollers 2 and 3 (see arrows in FIG. 1). A pair of preheating rollers 4 and 5 are provided. The preheating rollers 4 and 5 are also driving rollers and have a heat source built in around the axis.

本実施形態のロールプレス装置20の特徴は、予熱ローラ4、5のシート状電極1の搬送方向下流側であって、ヒートローラ2、3のシート状電極1の搬送方向上流側手前(直前)に、搬送されるシート状電極1を全幅に亘って非接触状態で予備加熱するヒータとしての予熱炉9が配置されていることである。予熱炉9は、中央にシート状電極1が搬送可能な中空部が形成された箱状を呈しており、遠赤外線ヒータを内蔵している。このため、予熱ローラ4、5で予熱され搬送されるシート状電極1(の両面)は、ヒートローラ2、3の直前で、シート状電極1の温度分布が幅方向で略均一となる。   The roll press device 20 of the present embodiment is characterized by the downstream side in the transport direction of the sheet-like electrode 1 of the preheating rollers 4 and 5 and immediately upstream (immediately before) the transport direction of the sheet-like electrode 1 of the heat rollers 2 and 3. In addition, a preheating furnace 9 serving as a heater for preheating the sheet-like electrode 1 to be conveyed in a non-contact state over the entire width is disposed. The preheating furnace 9 has a box shape in which a hollow portion capable of transporting the sheet-like electrode 1 is formed at the center, and has a built-in far infrared heater. For this reason, the sheet-like electrode 1 (both sides) preheated and conveyed by the preheating rollers 4 and 5 has a substantially uniform temperature distribution in the width direction immediately before the heat rollers 2 and 3.

電極供給ロール(不図示)および予熱ローラ4、5間、予熱ローラ4、5および予熱炉9間、並びに、ヒートローラ2、3および電極巻取ロール(不図示)との間には、それぞれ、シート状電極1の搬送角度を調整して案内するためのガイドローラ6、7、8(従動ローラ)が配設されている。   Between the electrode supply roll (not shown) and the preheating rollers 4, 5, between the preheating rollers 4, 5 and the preheating furnace 9, and between the heat rollers 2, 3 and the electrode winding roll (not shown), respectively. Guide rollers 6, 7, 8 (driven rollers) for adjusting and guiding the conveyance angle of the sheet-like electrode 1 are provided.

なお、ロールプレス装置20は、図示しないモータを備えており、このモータがギア、ベルト等で構成される駆動伝達機構を介して、ヒートローラ2、3、予熱ローラ4、5および電極巻取ロールの軸心に駆動力を供給している。   The roll press device 20 includes a motor (not shown), and the motors 2 and 3, the preheating rollers 4 and 5, and the electrode take-up roll via a drive transmission mechanism including a gear, a belt, and the like. The driving force is supplied to the shaft center.

(動作)
次に、本実施形態のロールプレス装置20の動作について、予熱炉9を欠く従来のロールプレス装置と比較しつつ説明する。 (Operation)
Next, operation | movement of the roll press apparatus 20 of this embodiment is demonstrated, comparing with the conventional roll press apparatus which lacks the preheating furnace 9. FIG.

まず、ロールプレス装置20の全体動作について説明すると、電極供給ロール側から供給されたシート状電極1は、ガイドローラ6で搬送方向を変え、予熱ローラ4、5で予熱(例えば、120°C)され、ローラガイド7で再度搬送方向を変え、予熱炉9により(ヒートローラ2、3の直前で、換言すれば、予熱炉9の出口で)シート状電極1の温度分布が幅方向で略均一となるように(例えば、120°Cで)予熱され、ヒートローラ2、3で加熱(例えば、120°C)、加圧されて所望の密度が確保され、ガイドローラ8で搬送方向をさらに変えて電極巻取ロール側に巻き取られる。   First, the overall operation of the roll press apparatus 20 will be described. The sheet-like electrode 1 supplied from the electrode supply roll side is changed in the conveying direction by the guide roller 6 and preheated by the preheating rollers 4 and 5 (for example, 120 ° C.). Then, the conveying direction is changed again by the roller guide 7, and the temperature distribution of the sheet-like electrode 1 is substantially uniform in the width direction by the preheating furnace 9 (immediately before the heat rollers 2 and 3, in other words, at the exit of the preheating furnace 9). (For example, at 120 ° C.), heated by the heat rollers 2 and 3 (for example, 120 ° C.) and pressed to ensure a desired density, and the conveying direction is further changed by the guide roller 8. Is wound on the electrode winding roll side.

活物質層がストライプ状に塗着されたシート状電極1は、ヒートローラ2、3で加熱、加圧される前に、例えば、120°Cに加温された予熱ローラ4、5で、表裏面が加温される。この加温されたシート状電極1は、予熱ローラ4、5からヒートローラ2、3に搬送される際に搬送路上で若干冷却される。図2に示すように、このときのシート状電極1表面の温度分布は、高温側からa>b>cの順になる。特に、本実施形態のように活物質層がストライプ状に塗着されたシート状電極1では、温度分布が双山型の様相を示し、シート状電極1の幅方向中央の無地部分11は、その両側の活物質層部分10に比べ、温度低下が大きくなる。シート状電極1がヒートローラ2、3で加圧されるとき、シート状電極1の無地部分11は、両側の活物質層部分10よりも薄いため加圧はされずに、ヒートローラ2、3による再加熱のみが作用する。この再加熱により無地部分11には伸びが発生するが、両側の活物質層部分10には加圧力が働くため無地部分11の伸びは縦皺となって現れる(図2参照)。無地部分11に皺の発生したシート状電極1は、電極巻取ロールで巻き取る際に亀裂が発生し電極破断を生じさせる。また、シート状電極1にうねりや歪曲を発生させる原因となる。   The sheet-like electrode 1 on which the active material layer is applied in stripes is displayed on the preheating rollers 4 and 5 heated to 120 ° C., for example, before being heated and pressed by the heat rollers 2 and 3. The back side is heated. The heated sheet-like electrode 1 is slightly cooled on the conveyance path when it is conveyed from the preheating rollers 4 and 5 to the heat rollers 2 and 3. As shown in FIG. 2, the temperature distribution on the surface of the sheet-like electrode 1 at this time is in the order of a> b> c from the high temperature side. In particular, in the sheet-like electrode 1 in which the active material layer is applied in a stripe shape as in the present embodiment, the temperature distribution shows a double-mountain aspect, and the plain portion 11 at the center in the width direction of the sheet-like electrode 1 is Compared with the active material layer portions 10 on both sides, the temperature drop is large. When the sheet-like electrode 1 is pressed by the heat rollers 2 and 3, the plain portion 11 of the sheet-like electrode 1 is thinner than the active material layer portions 10 on both sides, so that no pressure is applied. Only reheating by means of. This reheating causes elongation in the plain portion 11, but since the applied pressure acts on the active material layer portions 10 on both sides, the elongation of the plain portion 11 appears as vertical lines (see FIG. 2). When the sheet-like electrode 1 in which wrinkles are generated in the plain portion 11 is wound with an electrode winding roll, a crack is generated to cause electrode breakage. Further, it causes swell and distortion in the sheet-like electrode 1.

これに対し、本実施形態のロールプレス装置20では、ヒートローラ2、3の加熱、加圧により発生するシート状電極1のうねり、湾曲、皺を防止するために、ヒートローラ2、3の手前に、シート状電極1を全幅に亘って略均一な温度に予備加熱する予熱炉9が配置されている。このため、本実施形態のロールプレス装置20によれば、無地部分11に皺が発生せず、また、シート状電極1にうねりや歪曲も発生しない。   On the other hand, in the roll press apparatus 20 of this embodiment, in order to prevent the swell, curvature, and wrinkle of the sheet-like electrode 1 generated by heating and pressurization of the heat rollers 2 and 3, the front of the heat rollers 2 and 3. In addition, a preheating furnace 9 for preheating the sheet electrode 1 to a substantially uniform temperature over the entire width is disposed. For this reason, according to the roll press apparatus 20 of this embodiment, a wrinkle does not generate | occur | produce in the plain part 11, and a wave | undulation and distortion do not generate | occur | produce in the sheet-like electrode 1, either.

(試験)
次に、本実施形態のロールプレス装置20の予熱炉9の加熱温度を設定するために行った試験について説明する。 (test)
Next, a test performed to set the heating temperature of the preheating furnace 9 of the roll press apparatus 20 of the present embodiment will be described.

この試験では、ヒートローラ2、3および予熱ローラ4、5の温度をともに120°Cに設定し、予熱炉9の設定温度を、80°Cから120°Cの間で10°Cずつ5段階に変化させて、シート状電極1の中央の無地部分11の皺発生状況を観察した。試験結果を下表1に示す。   In this test, the temperatures of the heat rollers 2 and 3 and the preheating rollers 4 and 5 are both set to 120 ° C., and the set temperature of the preheating furnace 9 is set in five steps of 10 ° C. between 80 ° C. and 120 ° C. The state of wrinkle generation in the plain portion 11 at the center of the sheet-like electrode 1 was observed. The test results are shown in Table 1 below.

Figure 2009245788
Figure 2009245788

表1から明らかなように、ヒートローラ2、3による加熱、加圧の直前で電極表面温度が均一となるようにシート状電極1を予熱炉9で加熱することにより、活物質層がストライプ状に塗着されたシート状電極1において、無地部分11への皺発生を抑止できる。また、皺を抑止するためには、ヒートローラ2、3とシート状電極の表面温度との温度差は、少なくとも20°C以内であり、10°C以内であることがより望ましい。   As is apparent from Table 1, the active material layer is striped by heating the sheet electrode 1 in the preheating furnace 9 so that the electrode surface temperature becomes uniform immediately before heating and pressurization by the heat rollers 2 and 3. In the sheet-like electrode 1 coated on the surface, generation of wrinkles on the plain portion 11 can be suppressed. Moreover, in order to suppress wrinkles, the temperature difference between the heat rollers 2 and 3 and the surface temperature of the sheet-like electrode is at least within 20 ° C., and more preferably within 10 ° C.

(効果等)
本実施形態のロールプレス装置20では、ヒートローラ2、3のシート状電極1の搬送方向上流側手前に、搬送されるシート状電極1を全幅に亘って予備加熱するヒータとしての予熱炉9が配置されている。このため、シート状電極1の活物質層プレス工程において、プレス時のうねりや湾曲、或は無地部分の皺発生を抑止でき、電極品質を飛躍的に向上させることができる。特に、活物質層がストライプ状に塗着されたシート状電極においては、従来、無地部分での皺発生のため非常に困難であった広幅の熱プレスが、比較的容易に実現可能となり、量産性が格段に向上する。 (Effects etc.)
In the roll press apparatus 20 of the present embodiment, a preheating furnace 9 as a heater for preheating the sheet-like electrode 1 to be conveyed over the entire width is provided upstream of the sheet-like electrode 1 of the heat rollers 2 and 3 in the conveyance direction. Has been placed. For this reason, in the active material layer pressing process of the sheet-like electrode 1, it is possible to suppress undulation and bending during pressing, or generation of wrinkles in the plain portion, and the electrode quality can be dramatically improved. In particular, in sheet-like electrodes in which the active material layer is applied in a stripe shape, it has become relatively easy to realize a wide heat press, which has heretofore been extremely difficult due to the occurrence of wrinkles in the plain area, and is mass-produced. Sexually improves.

なお、本実施形態では、シート状電極にリチウムイオン電池用電極、シート状電極の作製方法、加熱炉9に遠赤外線ヒータをそれぞれ例示したが、本発明がこれらに制限されないことは論を待たない。また、ヒートローラ、予熱ローラ、予熱炉の温度(120°C)を例示したが、これらはシート状電極の所望密度やロールプレス装置20のシート状電極の搬送速度等との関係で設定されるものであり、本発明が例示した温度に限るものでないことは云うまでもない。   In this embodiment, the lithium ion battery electrode, the sheet electrode production method, and the far-infrared heater are illustrated as the sheet-shaped electrode and the heating furnace 9, respectively, but it is not a matter of course that the present invention is not limited thereto. . Moreover, although the temperature (120 degreeC) of the heat roller, the preheating roller, and the preheating furnace was illustrated, these are set by the relationship with the desired density of a sheet-like electrode, the conveyance speed of the sheet-like electrode of the roll press apparatus 20, etc. Needless to say, the present invention is not limited to the temperature exemplified.

本発明はプレスローラによるプレス時に、電極のうねりや湾曲、無地部分の皺発生を抑制することができるロールプレス装置を提供するものであり、このロールプレス装置で製造された電極は品質、量産性に優れるため、ロールプレス装置の製造、販売に寄与するので、産業上の利用可能性を有する。   The present invention provides a roll press device capable of suppressing the occurrence of waviness and curvature of electrodes and wrinkles on plain portions during pressing with a press roller, and the electrodes manufactured with this roll press device are of quality and mass productivity. Since it contributes to the manufacture and sale of roll press devices, it has industrial applicability.

本発明が適用可能な実施形態のロールプレス装置の要部を示す外観斜視図である。1 is an external perspective view showing a main part of a roll press apparatus according to an embodiment to which the present invention is applicable. 従来のロールプレス装置の要部を示す外観斜視図である。It is an external appearance perspective view which shows the principal part of the conventional roll press apparatus.

符号の説明Explanation of symbols

2 ヒートローラ(プレスローラの一部)
3 ヒートローラ(プレスローラの一部)
9 予熱炉(ヒータ)
20 ロールプレス装置 2 Heat roller (part of the press roller)
3 Heat roller (part of press roller)
9 Preheating furnace (heater)
20 Roll press machine

Claims (2)

一対の加熱機能付きプレスローラを備えた電池用電極のロールプレス装置において、前記プレスローラの前記電極の搬送方向上流側手前に、全幅に亘って前記電極を予備加熱するヒータを配置したことを特徴とするロールプレス装置。   In the roll press device for a battery electrode provided with a pair of press rollers with a heating function, a heater for preheating the electrode over the entire width is disposed in front of the press roller in the transport direction of the electrode. A roll press device. 前記ヒータで予備加温された前記電極の表面温度が、前記プレスローラにより加熱プレスされたときの表面温度に対し、温度差が20°C以内となるように前記ヒータの加熱温度が設定されたことを特徴とする請求項1に記載のロールプレス装置。   The heating temperature of the heater was set so that the surface temperature of the electrode preheated by the heater was within 20 ° C. with respect to the surface temperature when heated and pressed by the press roller. The roll press apparatus according to claim 1.
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JP2022155763A (en) * 2021-03-31 2022-10-14 プライムプラネットエナジー&ソリューションズ株式会社 Electrode plate manufacturing method
JP7321204B2 (en) 2021-03-31 2023-08-04 プライムプラネットエナジー&ソリューションズ株式会社 Electrode plate manufacturing method
WO2023163073A1 (en) * 2022-02-22 2023-08-31 Apb株式会社 Method for producing electrode

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