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JP6065032B2 - Laminated core manufacturing method and laminated core - Google Patents

Laminated core manufacturing method and laminated core Download PDF

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JP6065032B2
JP6065032B2 JP2015007784A JP2015007784A JP6065032B2 JP 6065032 B2 JP6065032 B2 JP 6065032B2 JP 2015007784 A JP2015007784 A JP 2015007784A JP 2015007784 A JP2015007784 A JP 2015007784A JP 6065032 B2 JP6065032 B2 JP 6065032B2
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dowel
adhesive
iron core
laminated
dowels
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JP2015164389A (en
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千田 邦浩
邦浩 千田
大村 健
大村  健
広朗 戸田
広朗 戸田
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JFE Steel Corp
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Description

本発明は、カシメと接着剤との併用により鋼板を締結することによりモータや発電機に用いられる積層鉄心を製造する積層鉄心製造方法、積層鉄心製造装置、および積層鉄心に関する。   The present invention relates to a laminated iron core manufacturing method, a laminated iron core manufacturing apparatus, and a laminated iron core for producing a laminated iron core used for a motor or a generator by fastening a steel plate by using a caulking and an adhesive together.

一般に、モータや発電機の鉄心として電磁鋼板の積層体(積層鉄心)が用いられる。このような積層鉄心では、モータや発電機の製造時および使用時に、積層体を構成する電磁鋼板が一定以上の力で結合(締結)されている必要がある。   Generally, a laminated body (laminated iron core) of electromagnetic steel sheets is used as an iron core of a motor or a generator. In such a laminated iron core, it is necessary that the electromagnetic steel sheets constituting the laminated body be coupled (fastened) with a certain force or more when the motor or the generator is manufactured and used.

鋼板の締結方法として、ボルトによる固定や溶接、あるいは鋼板同士の接着などもあるが、もっとも頻繁に使用される鋼板の締結方法として、カシメと呼ばれる方法がある。カシメとは、鋼板のそれぞれに対してカシメパンチにより押し出し加工を施して、部分的に鋼板のカシメパンチとの反対側に凸形状(カシメパンチ側は凹形状)を形成し、各鋼板に形成された凸形状の部位(凸形状部)を嵌合させることで鋼板同士を互いに固定する方法である。このような凸形状部をダボと称する。   As a method for fastening steel plates, there are fixing with bolts and welding, or adhesion between steel plates, and the most frequently used method for fastening steel plates is a method called caulking. Caulking is an extruding process for each steel plate by caulking punches, forming a convex shape partially on the opposite side of the steel plate from the caulking punch (the caulking punch side is a concave shape). This is a method of fixing the steel plates to each other by fitting the portions (convex shape portions). Such a convex portion is referred to as a dowel.

具体的に、カシメ加工では、鉄心のプレス加工工程で形成されたダボに対して、プレス金型内での次工程あるいは金型の外に設けられた次工程で、ダボの位置を合わせて上下から圧力をかけてダボ同士を互いに嵌合させることにより、鋼板を一体化させている。   Specifically, in the caulking process, the dowel formed in the pressing process of the iron core is moved up and down by aligning the position of the dowel in the next process inside the press mold or the next process provided outside the mold. The steel plates are integrated by applying pressure to the dowels to fit each other.

このようにカシメ加工が施されて製造された積層鉄心において、積層された鋼板同士の締結力が弱いと、モータや発電機の製造中に積層鉄心の鋼板同士が剥離したり、製品(モータや発電機)の使用中に積層鉄心の鋼板が剥離したりするため、好ましくない。一方、鋼板同士の締結力を高めようとカシメ点数を増加させると、ダボ周辺の加工歪や弾性応力場によって鉄心の磁気特性が劣化する。そのため、カシメ1点あたりの締結力を高くすることが求められる。   In the laminated core manufactured by caulking in this way, if the fastening force between the laminated steel sheets is weak, the laminated core steel sheets peel off during the manufacture of the motor or generator, and the product (motor or Since the steel sheet of the laminated core peels off during use of the generator, this is not preferable. On the other hand, when the number of caulking points is increased so as to increase the fastening force between the steel plates, the magnetic properties of the iron core deteriorate due to the processing strain and elastic stress field around the dowel. Therefore, it is required to increase the fastening force per caulking point.

カシメによる締結力(剥離強度)は、ダボの高さ(カシメ深さ)や、ダボを形成するカシメパンチとダイ穴との間のクリアランスなどに影響されるため、これらを調整することによって、ある程度制御することは可能である。しかしながら、ダボの高さを高くするには限界がある。また、ダボの高さを高くするに従って鋼板のダボ周辺の加工領域が広がるので、鋼板の磁気特性が劣化する。また、クリアランスの調整にも、安定的な加工を行う上で限界がある。したがって、これらの調整に依らずに剥離強度を向上させる技術が期待されている。   The fastening force (peeling strength) by caulking is affected by the height of the dowel (caulking depth) and the clearance between the caulking punch that forms the dowel and the die hole. It is possible to do. However, there is a limit to increasing the height of the dowel. Further, as the height of the dowel is increased, the processing area around the dowel of the steel sheet is expanded, so that the magnetic properties of the steel sheet are deteriorated. In addition, there is a limit to the clearance adjustment for stable processing. Therefore, a technique for improving the peel strength without depending on these adjustments is expected.

剥離強度に加え、鉄心の剛性を確保することも、製品の信頼性確保や騒音低減の点で重要である。すなわち、モータ自体の電磁振動や外力により鉄心が変形すると、鉄心の振動による騒音増加の原因となる。さらに、変形により積層鉄心の鋼板同士が剥離すると、さらに騒音が大きくなるばかりでなく、製品の長期的な信頼性が低下する。したがって、剥離強度に加え、鉄心の剛性を確保する技術が期待されている。   In addition to peel strength, securing the rigidity of the iron core is also important in terms of ensuring product reliability and reducing noise. That is, if the iron core is deformed by electromagnetic vibration or external force of the motor itself, it causes an increase in noise due to the vibration of the iron core. Furthermore, when the steel sheets of the laminated iron core are separated from each other due to deformation, not only the noise is increased, but also the long-term reliability of the product is lowered. Therefore, a technique for ensuring the rigidity of the iron core in addition to the peel strength is expected.

鉄心材の剥離強度と剛性とを確保するために、鋼板同士を接着することが有効なことが知られている。しかしながら、金型の内部で全面に接着剤を塗布してから積層・固着することには種々の困難が伴う。例えば、鉄心材の全面を接着しようとする場合、接着剤の塗布量が多いと、占積率が低下するだけでなく、鉄心端部から接着剤が漏れ出て種々のトラブルを招く原因となる。反対に、接着剤の塗布量が少ないと、有効に接着力が確保されない。電磁鋼板の表面に接着性絶縁被膜を有する鋼板を適用する場合には、高温・長時間の焼鈍を必要とするなどの困難が伴う。   It is known that it is effective to bond steel plates in order to ensure the peel strength and rigidity of the iron core material. However, various difficulties are involved in laminating and fixing after applying an adhesive to the entire surface of the inside of the mold. For example, when trying to bond the entire surface of the iron core material, if the amount of adhesive applied is large, not only will the space factor decrease, but the adhesive will leak from the end of the iron core, causing various troubles. . On the contrary, if the application amount of the adhesive is small, the adhesive force is not effectively secured. When applying a steel sheet having an adhesive insulating coating on the surface of an electromagnetic steel sheet, there are difficulties such as requiring high temperature and long time annealing.

そこで、鉄心の締結をカシメで行いつつ、鉄心材を部分的に接着する技術が開示されている。例えば、特許文献1には、交互に積層されたカシメを形成した鋼板とジャンピングカットした鋼板との間を接着剤で固着する技術が記載されている。   Then, the technique which adhere | attaches an iron core material partially, performing the fastening of an iron core by crimping is disclosed. For example, Patent Document 1 describes a technique in which an adhesive is used to fix a steel plate formed by alternately laminating and a jumped steel plate.

また、特許文献2には、カシメ加工の際に鋼板表面に形成されている絶縁被膜を破壊しないようにすることにより鉄心の磁気特性を改善する技術やカシメ嵌合部分の剪断面間に接着剤を注入する技術が記載されている。   Patent Document 2 discloses a technique for improving the magnetic characteristics of the iron core by preventing the insulation coating formed on the surface of the steel sheet from being destroyed during caulking, and an adhesive between the shearing surfaces of the caulking fitting portions. Techniques for injecting are described.

特開2009−72014号公報JP 2009-72014 A 特開2008−36671号公報JP 2008-36671 A

しかしながら、特許文献1に記載の技術では、ダボ位置と接着剤による固着位置とは別の位置となっているため、カシメ1点当たりの剥離強度を高めることはできない。また、特許文献2にはカシメ嵌合部分の剪断面間に接着剤を注入する理由は開示されていないが、特許文献2記載の技術の課題を考えるとカシメ嵌合部分での短絡を防止することを目的としていると考えられる。また、特許文献2記載の技術には、本発明が意図するような、カシメ嵌合部分を含む限定的な部分に接着剤を塗布することによる生産性の向上及び高い鉄心強度の確保という観点はなく、接着剤の適用方法としては、接着剤を剪断面間に浸透させる方法又は接着性のコーティングを適用する方法しか開示されていない。   However, in the technique described in Patent Document 1, since the dowel position and the fixing position by the adhesive are different positions, the peel strength per caulking point cannot be increased. Moreover, although the reason for injecting an adhesive between the shearing surfaces of the caulking fitting portion is not disclosed in Patent Document 2, short-circuiting at the caulking fitting portion is prevented in view of the technical problem described in Patent Document 2. It is thought that the purpose is. In addition, in the technique described in Patent Document 2, the viewpoint of improving productivity and ensuring high iron core strength by applying an adhesive to a limited portion including a caulking fitting portion as intended by the present invention is as follows. However, as the method of applying the adhesive, only a method of allowing the adhesive to penetrate between the shear surfaces or a method of applying an adhesive coating is disclosed.

本発明は、上記に鑑みてなされたものであって、高い剥離強度と剛性とを有する積層鉄心を製造可能な積層鉄心製造方法および積層鉄心製造装置を提供することを目的とする。また、本発明の他の目的は、高い剥離強度と剛性とを有する積層鉄心を提供することにある。   This invention is made | formed in view of the above, Comprising: It aims at providing the laminated core manufacturing method and laminated core manufacturing apparatus which can manufacture the laminated core which has high peeling strength and rigidity. Another object of the present invention is to provide a laminated iron core having high peel strength and rigidity.

上述した課題を解決し、目的を達成するために、本発明に係る積層鉄心製造方法は、複数の鋼板のそれぞれに凸形状のダボを形成し、鋼板同士の該ダボを嵌合させて一体化する積層鉄心製造方法であって、前記鋼板同士のダボを嵌合させる際、前記ダボ同士を接着剤で固着させるステップを含むことを特徴とする。   In order to solve the above-described problems and achieve the object, the laminated iron core manufacturing method according to the present invention forms a convex dowel on each of a plurality of steel plates and integrates the dowels between the steel plates. A method for manufacturing a laminated iron core, comprising: a step of fixing the dowels to each other with an adhesive when fitting the dowels between the steel plates.

また、本発明に係る積層鉄心製造方法は、上記発明において、前記凸形状のダボを鋼板表面から突出させる際のダボの高さが前記鋼板の板厚の105〜400%の範囲内にあることを特徴とする。   Moreover, the laminated core manufacturing method which concerns on this invention WHEREIN: The height of the dowel at the time of making the said convex dowel project from the steel plate surface exists in the range of 105-400% of the plate | board thickness of the said steel plate in the said invention. It is characterized by.

また、本発明に係る積層鉄心製造方法は、上記発明において、前記接着剤は、前記ダボを嵌合させる前に前記ダボの凸形状の外周に塗布されることを特徴とする。   Moreover, the laminated iron core manufacturing method according to the present invention is characterized in that, in the above-mentioned invention, the adhesive is applied to a convex outer periphery of the dowel before the dowel is fitted.

また、本発明に係る積層鉄心製造方法は、上記発明において、前記接着剤が塗布および/または進展した領域が、前記ダボの中心位置を中心とする半径10mmの円領域および前記ダボの中心位置を中心とし、該中心位置と積層鉄心の端部との間の距離を半径とする円領域のうちの小さい方の領域内であることを特徴とする。   Further, in the laminated core manufacturing method according to the present invention, in the above invention, the region where the adhesive is applied and / or developed includes a circular region having a radius of 10 mm centered on the center position of the dowel and the center position of the dowel. It is characterized by being in the smaller region of the circular region having a radius that is the distance between the center position and the end of the laminated core.

また、本発明に係る積層鉄心製造方法は、上記発明において、前記接着剤の塗布面積は、前記鋼板の面積の50%以下であることを特徴とする。   In the laminated core manufacturing method according to the present invention, the application area of the adhesive is 50% or less of the area of the steel sheet.

また、本発明に係る積層鉄心製造方法は、上記発明において、前記鋼板に形成される複数のダボのうちの80%以上が接着剤で固着されることを特徴とする。   Moreover, the laminated iron core manufacturing method according to the present invention is characterized in that, in the above invention, 80% or more of the plurality of dowels formed on the steel sheet is fixed with an adhesive.

また、本発明に係る積層鉄心製造装置は、複数の鋼板のそれぞれに凸形状のダボを形成し、鋼板同士の該ダボを嵌合させて一体化する積層鉄心製造装置であって、前記鋼板同士のダボを嵌合させる際、前記ダボ同士を接着剤で固着させる手段を備えることを特徴とする。   The laminated core manufacturing apparatus according to the present invention is a laminated core manufacturing apparatus in which convex dowels are formed on each of a plurality of steel plates, and the dowels of the steel plates are fitted and integrated, and the steel plates are integrated with each other. When the dowels are fitted, the dowels are provided with means for fixing the dowels with an adhesive.

また、本発明に係る積層鉄心は、複数の鋼板のそれぞれに凸形状のダボが形成され、鋼板同士の該ダボが嵌合されて一体化した積層鉄心であって、前記鋼板同士のダボが嵌合され、前記ダボ同士が接着剤で固着されていることを特徴とする。   The laminated iron core according to the present invention is a laminated iron core in which convex dowels are formed on each of a plurality of steel plates, and the dowels of steel plates are fitted and integrated, and the dowels of the steel plates are fitted. The dowels are fixed with an adhesive.

また、本発明に係る積層鉄心は、上記発明において、前記凸形状のダボが鋼板表面から突出する高さが前記鋼板の板厚の105〜400%の範囲内にあることを特徴とする。   The laminated core according to the present invention is characterized in that, in the above-described invention, a height at which the convex dowel protrudes from a steel sheet surface is in a range of 105 to 400% of a thickness of the steel sheet.

また、本発明に係る積層鉄心は、上記発明において、前記接着剤が塗布および/または進展した領域が、前記ダボの中心位置を中心する半径10mmの円領域および前記ダボの中心位置を中心とし、該中心位置と積層鉄心の端部との間の距離を半径とする円領域のうちの小さい方の領域内であることを特徴とする。   Further, in the laminated iron core according to the present invention, in the above invention, the region where the adhesive is applied and / or developed is centered on a circular region having a radius of 10 mm centered on the center position of the dowel and the center position of the dowel, It is characterized in that it is in the smaller one of the circular regions whose radius is the distance between the center position and the end of the laminated iron core.

また、本発明に係る積層鉄心は、上記発明において、前記接着剤の塗布面積は、前記鋼板の面積の50%以下であることを特徴とする。   The laminated iron core according to the present invention is characterized in that, in the above invention, the application area of the adhesive is 50% or less of the area of the steel sheet.

また、本発明に係る積層鉄心は、上記発明において、前記鋼板に形成された複数のダボのうちの80%以上が接着剤で固着されていることを特徴とする。   The laminated core according to the present invention is characterized in that, in the above invention, 80% or more of a plurality of dowels formed on the steel plate is fixed with an adhesive.

また、本発明に係る積層鉄心は、上記発明において、前記鋼板の板厚が0.25mm以下であることを特徴とする。   The laminated iron core according to the present invention is characterized in that, in the above invention, the thickness of the steel sheet is 0.25 mm or less.

また、本発明に係る積層鉄心は、上記発明において、直径または最大長が100mmより大きいことを特徴とする。   In the above invention, the laminated core according to the present invention is characterized in that the diameter or the maximum length is larger than 100 mm.

本発明によれば、高い剥離強度と剛性とを有する積層鉄心を得ることができる。   According to the present invention, a laminated iron core having high peel strength and rigidity can be obtained.

図1は、本発明の一実施形態に係る積層鉄心製造装置の概略構成を示す模式 図である。FIG. 1 is a schematic diagram showing a schematic configuration of a laminated core manufacturing apparatus according to an embodiment of the present invention. 図2は、本実施の形態の積層鉄心のダボの短辺方向の断面を示す模式図であ る。FIG. 2 is a schematic diagram showing a cross section in the short side direction of the dowel of the laminated iron core of the present embodiment. 図3は、本実施の形態のダボ周辺各部を示す模式図である。FIG. 3 is a schematic diagram showing each part around the dowel in the present embodiment. 図4は、本実施の形態の接着剤の塗布・進展領域を示す模式図である。FIG. 4 is a schematic diagram showing an application / progress region of the adhesive according to the present embodiment. 図5は、本実施例の剥離強度測定に用いる本発明例の鉄心材の概略構成を示 す模式図である。FIG. 5 is a schematic diagram showing a schematic configuration of the iron core material of the present invention used for the peel strength measurement of this example. 図6は、本実施例の剥離強度測定に用いる比較例の鉄心材の概略構成を示す 模式図である。FIG. 6 is a schematic diagram showing a schematic configuration of a core material of a comparative example used for measurement of peel strength of this example. 図7は、本実施例の剥離強度試験に用いる積層鉄心の概略構成を示す模式図 である。FIG. 7 is a schematic diagram showing a schematic configuration of the laminated core used in the peel strength test of this example. 図8は、本実施例の鉄心材の板厚ごとの本発明例と比較例との剥離強度比を 示す図である。FIG. 8 is a diagram showing the peel strength ratio between the inventive example and the comparative example for each thickness of the iron core material of this example. 図9は、本実施例の鉄心材のダボ高さごとの本発明例と比較例との剥離強度比を示す図である。FIG. 9 is a diagram showing the peel strength ratio between the inventive example and the comparative example for each dowel height of the iron core material of this example.

以下、図面を参照して、本発明の一実施形態を詳細に説明する。なお、この実施の形態により本発明が限定されるものではない。また、図面の記載において、同一部分には同一の符号を付して示している。   Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. Moreover, in description of drawing, the same code | symbol is attached | subjected and shown to the same part.

図1は、本発明の一実施形態に係る積層鉄心製造装置の概略構成を示す模式図である。図1に示すように、積層鉄心製造装置は、金型1と、カシメパンチ2と、接着剤吐出口3とを備える。金型1は、下型11と上型12を備える。下型11には、ダイ穴4が形成され、接着剤吐出口3が配置されている。上型12には、締結用突起5が形成され、カシメパンチ2が昇降可能に配置されている。カシメパンチ2は、先端部の長辺方向の断面がV字状に形成されており、V字状のダボDを形成する。これにより、この積層鉄心製造装置は、Vカシメによる積層鉄心を製造する。   FIG. 1 is a schematic diagram showing a schematic configuration of a laminated core manufacturing apparatus according to an embodiment of the present invention. As shown in FIG. 1, the laminated core manufacturing apparatus includes a mold 1, a caulking punch 2, and an adhesive discharge port 3. The mold 1 includes a lower mold 11 and an upper mold 12. A die hole 4 is formed in the lower mold 11 and an adhesive discharge port 3 is disposed. A fastening protrusion 5 is formed on the upper die 12 and the caulking punch 2 is disposed so as to be movable up and down. The crimping punch 2 has a V-shaped cross section in the long side direction of the tip, and forms a V-shaped dowel D. Thereby, this laminated core manufacturing apparatus manufactures the laminated iron core by V caulking.

この積層鉄心製造装置において、下型11に形成されたダイ穴4の真上に搬送された鋼板(電磁鋼板)Sが、上型12から下降したカシメパンチ2によってダイ穴4に押し込まれることにより、鋼板Sに下方に凸形状のダボDが形成される。次に、この鋼板SのダボDが接着剤吐出口3の真上に位置するように搬送され、接着剤吐出口3から吐出した接着剤Aが鋼板SのダボDの下方から、ダボDの凸形状の外周に塗布される。次に、鋼板SのダボDが締結用突起5の真下に位置するように搬送され、先に搬送された鋼板Sの上にダボD同士が重なるように積み重ねられ、上方から下降した締結用突起5によって、ダボDが下の鋼板SのダボDに嵌合する。その際、各ダボDの下方から塗布された接着剤Aにより、ダボD同士が固着する。このようにして、鋼板S同士がVカシメおよび接着剤Aの併用により締結される。   In this laminated core manufacturing apparatus, a steel plate (electromagnetic steel plate) S conveyed immediately above the die hole 4 formed in the lower die 11 is pushed into the die hole 4 by the caulking punch 2 lowered from the upper die 12. A convex dowel D is formed on the steel sheet S downward. Next, the dowel D of the steel sheet S is conveyed so as to be positioned directly above the adhesive discharge port 3, and the adhesive A discharged from the adhesive discharge port 3 is transferred from below the dowel D of the steel plate S to the dowel D. It is applied to the outer periphery of the convex shape. Next, the dowel D of the steel plate S is conveyed so as to be positioned directly below the fastening protrusion 5, and the dowel D is stacked on the previously conveyed steel plate S so as to overlap each other, and the fastening protrusion lowered from above 5, the dowel D is fitted to the dowel D of the lower steel sheet S. At that time, the dowels D are fixed to each other by the adhesive A applied from below the dowels D. In this way, the steel plates S are fastened together by the combined use of V-caulking and the adhesive A.

このようにして、接着剤AでダボDの内部(積層上下のダボDの内外周)が固着された場合、固着された部位に加わる応力の方向が引張(剥離)方向から剪断方向になることや、ダボDでの剥離の起点の生成が抑制されることなどから、製造された積層鉄心の剥離強度が高くなる。   In this way, when the inside of the dowel D (the inner and outer peripheries of the upper and lower dowels D) is fixed with the adhesive A, the direction of stress applied to the fixed portion is changed from the tensile (peeling) direction to the shearing direction. In addition, since the generation of the starting point of peeling at the dowel D is suppressed, the peel strength of the manufactured laminated iron core is increased.

図2は、締結された鋼板SのダボDの短辺方向の断面を示す模式図である。なお、以下では、図3に示すように、ダボDの周辺各部を、ダボ上面d1、ダボ下面d2、ダボ凸側側面d3、ダボ凹側側面d4、鋼板上面c1、鋼板下面c2と称する。図2に示すように、鋼板S1および鋼板S2のブロックと、鋼板S3より下方のブロックとが剥離しようとする場合、鋼板S2と鋼板S3との間に図2に矢印で示す剥離力f1が働く。また、対向するダボ凸側側面d3とダボ凹側側面d4とが接着剤Aにより固着されることにより、ダボDの側面(ダボ凸側側面d3、ダボ凹側側面d4)に充填された接着剤Aに、図2に矢印で示す剪断力f2が働く。この場合には、ダボ凸側側面d3とダボ凹側側面d4とが固着されずに鋼板S2、S3同士が剥離しようとする場合より、剥離強度が増すと考えられる。   FIG. 2 is a schematic diagram showing a cross section in the short side direction of the dowel D of the fastened steel sheet S. FIG. In the following, as shown in FIG. 3, the respective peripheral parts of the dowel D are referred to as a dowel upper surface d1, a dowel lower surface d2, a dowel convex side surface d3, a dowel concave side surface d4, a steel plate upper surface c1, and a steel plate lower surface c2. As shown in FIG. 2, when the blocks of the steel plate S1 and the steel plate S2 and the block below the steel plate S3 are about to peel, a peeling force f1 indicated by an arrow in FIG. 2 acts between the steel plate S2 and the steel plate S3. . Further, the dowel convex side surface d3 and the dowel concave side surface d4 which are opposed to each other are fixed by the adhesive A, so that the side surface of the dowel D (the dowel convex side surface d3 and the dowel concave side surface d4) is filled. A shearing force f2 indicated by an arrow in FIG. In this case, it is considered that the peel strength is increased as compared with the case where the dowel convex side surface d3 and the dowel concave side surface d4 are not fixed and the steel plates S2 and S3 are about to peel apart.

このように、本発明では、図3に示すダボ凹側側面d4およびダボ凸側側面d3に接着剤が付着し、カシメ締結状態において対向するダボ凹側側面d4とダボ凸側側面d3とが固着されていることが重要である。したがって、本発明はVカシメに適用し、鋼板表面から突出するダボの高さを鋼板の板厚の105〜400%の範囲内とすることが好ましい。これは、Vカシメの深さが鋼板の板厚を超えた場合、ダボの側面が完全に破断・分離した部分(図3におけるダボ側面空隙部)が生じ、この部分に接着剤が浸透・固化することによって、鋼板と接着剤との結合が高まり、剥離強度が増加するためである。   As described above, in the present invention, the adhesive adheres to the dowel concave side surface d4 and the dowel convex side surface d3 shown in FIG. 3, and the dowel concave side surface d4 and the dowel convex side surface d3 which face each other in the crimped state are fixed. It is important that Therefore, the present invention is preferably applied to V-caulking, and the height of the dowel protruding from the steel plate surface is preferably in the range of 105 to 400% of the plate thickness of the steel plate. This is because when the depth of the V-caulking exceeds the thickness of the steel plate, a portion where the side surface of the dowel is completely broken and separated (the dowel side surface gap portion in FIG. 3) is generated, and the adhesive penetrates and solidifies in this portion. This is because the bonding between the steel sheet and the adhesive is increased, and the peel strength is increased.

また、鉄心内部に接着剤が広がる領域はダボを中心とする限定された部分とすることが好ましい。これは、接着剤が広範囲に広がった場合、鉄心の端部から接着剤が浸み出して金型に付着してトラブルを発生するおそれがあるためである。一方、接着剤が鉄心の端部まで達しない場合であっても接着剤の塗布領域が広い(接着剤の塗布量が多い)と、多くの薬剤を使用するためにコストが上昇するだけでなく、積層間の空隙高さが不均一となり、鉄心の寸法精度が不良となりやすい。これらの観点から、図4(a),(b)に示すように、接着剤が塗布および/または進展した領域は、ダボDの中心位置を中心とする半径10mmの円領域R1内(図4(a))およびダボDの中心位置を中心とし、ダボDの中心位置と鉄心S1の端部との間の距離を半径とする円領域R2内(図4(b))のうちの小さい方の領域内とすることが望ましい。より望ましくは、接着剤が塗布および/または進展した領域は、ダボDの中心位置を中心とする半径10mmの円領域R1内(図4(a))およびダボDの中心位置を中心とし、ダボDの中心位置と鉄心S1の端部との間の距離から0.5mmを減算した値を半径とする円領域R3内(図4(c))のうちの小さい方の領域内とする。   Moreover, it is preferable that the area | region where an adhesive agent spreads in an iron core is made into the limited part centering on a dowel. This is because if the adhesive spreads over a wide range, the adhesive may ooze out from the end of the iron core and adhere to the mold, causing trouble. On the other hand, even if the adhesive does not reach the end of the iron core, if the adhesive application area is wide (the amount of adhesive applied is large), not only will the cost increase due to the use of many chemicals. The gap height between the layers becomes uneven, and the dimensional accuracy of the iron core tends to be poor. From these viewpoints, as shown in FIGS. 4A and 4B, the region where the adhesive is applied and / or developed is within a circular region R1 having a radius of 10 mm centering on the center position of the dowel D (FIG. 4). (A)) and the smaller one in the circular region R2 (FIG. 4B) centering on the center position of the dowel D and having a radius between the center position of the dowel D and the end of the iron core S1. It is desirable to be within the area of More preferably, the area where the adhesive is applied and / or developed is within a circular area R1 having a radius of 10 mm centered on the center position of the dowel D (FIG. 4A) and centered on the center position of the dowel D. It is set within the smaller region of the circular region R3 (FIG. 4C) having a radius that is a value obtained by subtracting 0.5 mm from the distance between the center position of D and the end of the iron core S1.

ここで、接着剤Aを鋼板Sの全面に塗布すると、前述したように、鋼板の全面に必要最低量の接着剤Aを均一に塗布することに種々の困難が伴ううえに、接着剤Aによる鋼板S面間の固着力が強固なため、カシメを併用する効果が現れにくい。したがって、本発明では、ダボD位置を含む積層鉄心の面積の50%以下の部分に接着剤Aを塗布する。なお、必ずしも個々のダボDの内部の空隙の全てが接着剤Aで充填されている必要はない。また、積層鉄心全体の80%以上のダボDに対して接着剤Aが塗布されていればよい。   Here, when the adhesive A is applied to the entire surface of the steel sheet S, as described above, various difficulties are involved in uniformly applying the minimum amount of the adhesive A to the entire surface of the steel sheet, and the adhesive A is used. Since the adhesive strength between the steel sheet S surfaces is strong, the effect of using caulking together hardly appears. Therefore, in the present invention, the adhesive A is applied to a portion of 50% or less of the area of the laminated core including the dowel D position. It should be noted that not all of the voids inside the individual dowels D need to be filled with the adhesive A. Moreover, the adhesive agent A should just be apply | coated to the dowel D of 80% or more of the whole laminated iron core.

以上、説明したように、本実施の形態の積層鉄心製造方法および積層鉄心製造装置によれば、必要最低限の接着剤を使用して、ダボDの内部が接着剤Aにより固着された積層鉄心を製造することができる。これにより、ダボD同士の嵌合の摩擦力のみで締結された積層鉄心より、高い剥離強度と剛性とを有する積層鉄心を得ることできる。   As described above, according to the laminated core manufacturing method and the laminated core manufacturing apparatus of the present embodiment, the laminated core in which the inside of the dowel D is fixed by the adhesive A using the minimum necessary adhesive. Can be manufactured. Thereby, the laminated iron core which has higher peeling strength and rigidity than the laminated iron core fastened only by the frictional force of fitting of the dowels D can be obtained.

また、実施の形態の積層鉄心製造方法および積層鉄心製造装置によれば、接着剤Aの塗布は締結用突起5の反対面としたので、金型1に接着剤Aが付着することによるトラブルを防止できる。   In addition, according to the laminated core manufacturing method and the laminated core manufacturing apparatus of the embodiment, since the adhesive A is applied on the opposite surface of the fastening protrusion 5, troubles due to the adhesive A adhering to the mold 1 are caused. Can be prevented.

また、特に板厚が0.25mm以下の薄い鋼板Sを使用して製造された積層鉄心では、ダボD位置の強度が低下するため剥離強度が低下するが、本実施の形態の積層鉄心製造方法および積層鉄心製造装置によれば、剥離強度を向上させることが可能である。   In particular, in the laminated iron core manufactured using a thin steel sheet S having a thickness of 0.25 mm or less, the strength at the dowel D position is lowered, so that the peel strength is lowered. However, the laminated iron core manufacturing method according to the present embodiment According to the laminated core manufacturing apparatus, the peel strength can be improved.

なお、本発明は、上記したVカシメの他、丸みを帯びた凸形状のダボDによる丸カシメなど、通常のいずれのカシメ方法にも適用可能である。   The present invention can be applied to any normal caulking method such as round caulking with a rounded convex dowel D in addition to the above-described V caulking.

また、本発明により製造された積層鉄心は、直径(もしくは最大長)が100mmを超えるような大きな鉄心に有効である。これは、鉄心の外径が大きいと、鉄心に局部的な応力が作用した場合に、作用点から締結点までの距離が長くなるため剥離力として作用するトルクが大きくなり、鉄心材の剥離が起こりやすく、かつ、鉄心の剛性低下に伴う変形量も大きくなるからである。   Moreover, the laminated iron core manufactured by this invention is effective for a big iron core in which a diameter (or maximum length) exceeds 100 mm. This is because when the outer diameter of the iron core is large, when a local stress acts on the iron core, the distance from the point of application to the fastening point becomes longer, so the torque acting as a peeling force increases, and the iron core material peels off. This is because it tends to occur and the amount of deformation accompanying a decrease in the rigidity of the iron core also increases.

また、本発明により製造された積層鉄心は、モータや発電機用の鉄心にも適している。モータや発電機用の鉄心は、電磁振動による騒音が大きく、かつ振動に耐えて長期の信頼性が必要とされ、強い締結力が求められるからである。   Moreover, the laminated iron core manufactured by this invention is suitable also for the iron core for motors or generators. This is because the iron cores for motors and generators are noisy due to electromagnetic vibrations, are resistant to vibrations, require long-term reliability, and require a strong fastening force.

上記実施の形態は本発明を実施するための例にすぎず、本発明はこれらに限定されるものではなく、仕様などに応じて種々変形することは本発明の範囲内であり、更に本発明の範囲内において、他の様々な実施の形態が可能であることは上記記載から自明である。   The above-described embodiments are merely examples for carrying out the present invention, and the present invention is not limited to these embodiments. Various modifications according to specifications and the like are within the scope of the present invention. It is obvious from the above description that various other embodiments are possible within the scope of the above.

[実施例]
本実施例では、表1に示す板厚の電磁鋼板を鉄心材に用いて、本発明例として、図1に示す積層鉄心製造装置を用いて、図5に示すモータコア(直径120mmのステータコア)を製造し、剥離強度を測定した。図5に長方形で示す位置にダボDを形成し、ダボDの周囲に丸で示す接着剤Aの塗布領域の面積の、鉄心材の面積に対する面積率を算定した。なお、ダボの高さは表1に示すような種々の条件とした。また、比較例として、図6に示すモータコアを製造し、同様に剥離強度を測定した。図6に示す比較例のモータコアは、図5に示す本発明例のモータコアとは、同量の接着剤Aが、ダボD位置から離れた丸で示す位置に塗布されている点のみが異なる。図5および図6に示す鉄心の積層方向の高さは50mmとした。剥離強度として、図7に矢印で示すように、鉄心(モータコア)を軸方向に平行に引っ張って、剥離が生じたときの力を測定した。
[Example]
In this embodiment, the motor core shown in FIG. 5 (stator core having a diameter of 120 mm) is used as an example of the present invention by using the electromagnetic steel sheet having the thickness shown in Table 1 as the iron core material and using the laminated core manufacturing apparatus shown in FIG. Manufactured and measured peel strength. The dowel D was formed at a position indicated by a rectangle in FIG. 5, and the area ratio of the area of the application region of the adhesive A indicated by a circle around the dowel D to the area of the iron core was calculated. The height of the dowel was set to various conditions as shown in Table 1. Further, as a comparative example, the motor core shown in FIG. 6 was manufactured, and the peel strength was measured in the same manner. The motor core of the comparative example shown in FIG. 6 is different from the motor core of the example of the present invention shown in FIG. 5 only in that the same amount of adhesive A is applied to a position indicated by a circle away from the dowel D position. The height in the stacking direction of the iron cores shown in FIGS. 5 and 6 was 50 mm. As the peel strength, as indicated by an arrow in FIG. 7, the iron core (motor core) was pulled parallel to the axial direction, and the force when the peel occurred was measured.

表1は、鉄心材の板厚ごとの剥離強度の測定結果を示す。また、図8は、鉄心材の板厚ごとの本発明例と比較例との剥離強度比を、図9は、ダボ高さごとの本発明例と比較例との剥離強度比を示す。表1に示すように、本発明例では、接着剤の塗布領域の面積率が同じ場合に、ダボD位置から離れた位置に接着剤を塗布した比較例より、高い剥離強度が得られることが確認された。また、図8に示すように、板厚が0.25mm以下の鋼板を用いた場合や、図9に示すように、ダボ高さが板厚比で105%以上の場合に、特に剥離強度比が高く、高い効果が得られることが確認された。   Table 1 shows the measurement results of the peel strength for each thickness of the iron core material. FIG. 8 shows the peel strength ratio between the present invention example and the comparative example for each sheet thickness of the iron core material, and FIG. 9 shows the peel strength ratio between the present invention example and the comparative example for each dowel height. As shown in Table 1, in the example of the present invention, when the area ratio of the adhesive application region is the same, a higher peel strength can be obtained than the comparative example in which the adhesive is applied at a position away from the dowel D position. confirmed. Further, as shown in FIG. 8, when a steel plate having a plate thickness of 0.25 mm or less is used, or when the dowel height is 105% or more as shown in FIG. It was confirmed that a high effect was obtained.

Figure 0006065032
Figure 0006065032

1 金型
11 下型
12 上型
2 カシメパンチ
3 接着剤吐出口
4 ダイ穴
5 締結用突起
S 鋼板(電磁鋼板)
D ダボ
A 接着剤
1 Mold 11 Lower mold 12 Upper mold 2 Caulking punch 3 Adhesive outlet 4 Die hole 5 Protrusion for fastening S Steel plate (Electromagnetic steel plate)
D Dowel A Adhesive

Claims (11)

複数の鋼板のそれぞれに凸形状のダボを形成し、鋼板同士の該ダボを嵌合させて一体化する積層鉄心製造方法であって、
前記鋼板同士のダボを嵌合させる際、前記ダボ同士を接着剤で固着させるステップを含み、
前記ダボの形状がV字状であり、前記ダボが鋼板表面から突出する高さが前記鋼板の板厚の105〜400%の範囲内にあることを特徴とする積層鉄心製造方法。
It is a laminated core manufacturing method in which a convex dowel is formed on each of a plurality of steel plates, and the dowels between steel plates are fitted and integrated,
When fitting the dowels of the steel sheets, it viewed including the step of securing said dowels together with an adhesive,
The method for producing a laminated core , wherein the dowel is V-shaped, and the height at which the dowel protrudes from the surface of the steel sheet is in the range of 105 to 400% of the thickness of the steel sheet .
前記接着剤は、前記ダボを嵌合させる前に前記ダボの凸形状の外周に塗布されることを特徴とする請求項に記載の積層鉄心製造方法。 The method for manufacturing a laminated iron core according to claim 1 , wherein the adhesive is applied to a convex outer periphery of the dowel before the dowel is fitted. 前記接着剤が塗布および/または進展した領域が、前記ダボの中心位置を中心とする半径10mmの円領域および前記ダボの中心位置を中心とし、該中心位置と積層鉄心の端部との間の距離を半径とする円領域のうちの小さい方の領域内であることを特徴とする請求項1または2に記載の積層鉄心製造方法。 An area where the adhesive is applied and / or developed is centered on a circular area having a radius of 10 mm centered on the center position of the dowel and the center position of the dowel, and between the center position and the end of the laminated core. 3. The method of manufacturing a laminated core according to claim 1, wherein the method is within a smaller region of circular regions having a radius as a distance. 前記接着剤の塗布面積は、前記鋼板の面積の50%以下であることを特徴とする請求項1〜のいずれか1項に記載の積層鉄心製造方法。 The method for manufacturing a laminated core according to any one of claims 1 to 3 , wherein an application area of the adhesive is 50% or less of an area of the steel plate. 前記鋼板に形成される複数のダボのうちの80%以上が接着剤で固着されることを特徴とする請求項1〜のいずれか1項に記載の積層鉄心製造方法。 The laminated core manufacturing method according to any one of claims 1 to 4 , wherein 80% or more of the plurality of dowels formed on the steel plate is fixed with an adhesive. 複数の鋼板のそれぞれに凸形状のダボが形成され、鋼板同士の該ダボが嵌合されて一体化した積層鉄心であって、
前記鋼板同士のダボが嵌合され、前記ダボ同士が接着剤で固着され、前記ダボの形状がV字状であり、前記ダボが鋼板表面から突出する高さが前記鋼板の板厚の105〜400%の範囲内にあることを特徴とする積層鉄心。
Convex dowels are formed on each of a plurality of steel plates, and the dowels of steel plates are fitted and integrated into a laminated iron core,
The dowels of the steel plates are fitted, the dowels are fixed with an adhesive, the shape of the dowels is V-shaped, and the height at which the dowels protrude from the surface of the steel plate is 105 to the thickness of the steel plate. A laminated iron core characterized by being in the range of 400% .
前記接着剤が塗布および/または進展した領域が、前記ダボの中心位置を中心とする半径10mmの円領域および前記ダボの中心位置を中心とし、該中心位置と積層鉄心の端部との間の距離を半径とする円領域のうちの小さい方の領域内であることを特徴とする請求項に記載の積層鉄心。 An area where the adhesive is applied and / or developed is centered on a circular area having a radius of 10 mm centered on the center position of the dowel and the center position of the dowel, and between the center position and the end of the laminated core. The laminated core according to claim 6 , wherein the laminated iron core is in a smaller one of circular regions having a radius as a distance. 前記接着剤の塗布面積は、前記鋼板の面積の50%以下であることを特徴とする請求項6または7に記載の積層鉄心。 The laminated iron core according to claim 6 or 7 , wherein an application area of the adhesive is 50% or less of an area of the steel plate. 前記鋼板に形成された複数のダボのうちの80%以上が接着剤で固着されていることを特徴とする請求項6〜8のいずれか1項に記載の積層鉄心。 The laminated iron core according to any one of claims 6 to 8 , wherein 80% or more of the plurality of dowels formed on the steel plate is fixed with an adhesive. 前記鋼板の板厚が0.25mm以下であることを特徴とする請求項6〜9のいずれか1項に記載の積層鉄心。 The laminated iron core according to any one of claims 6 to 9 , wherein a thickness of the steel plate is 0.25 mm or less. 直径または最大長が100mmより大きいことを特徴とする請求項6〜10のいずれか1項に記載の積層鉄心。 The laminated iron core according to any one of claims 6 to 10, wherein a diameter or a maximum length is larger than 100 mm.
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