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JPH09225547A - Production of bottomed circular cylindrical vessel with flange - Google Patents

Production of bottomed circular cylindrical vessel with flange

Info

Publication number
JPH09225547A
JPH09225547A JP8209682A JP20968296A JPH09225547A JP H09225547 A JPH09225547 A JP H09225547A JP 8209682 A JP8209682 A JP 8209682A JP 20968296 A JP20968296 A JP 20968296A JP H09225547 A JPH09225547 A JP H09225547A
Authority
JP
Japan
Prior art keywords
flange
spinning
cylindrical container
bottomed cylindrical
radius
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP8209682A
Other languages
Japanese (ja)
Inventor
Naoto Maekawa
直人 前川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Steel Corp
Original Assignee
Sumitomo Metal Industries Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sumitomo Metal Industries Ltd filed Critical Sumitomo Metal Industries Ltd
Priority to JP8209682A priority Critical patent/JPH09225547A/en
Publication of JPH09225547A publication Critical patent/JPH09225547A/en
Pending legal-status Critical Current

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  • Cookers (AREA)
  • Shaping Metal By Deep-Drawing, Or The Like (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a producing method of a bottomed circular cylindrical vessel with a flange from a different kinds of metal clad sheet. SOLUTION: This is a producing method of a bottomed circular cylindrical vessel with a flange with deep drawing from different kinds of clad sheet, and spinning is executed after previous press-forming. The drawing depth (h) in this press forming is preferably made within the range larger than a radius R1 of punch shoulder part and less than 0.8 times the punch diameter (d). Further, the radius R1 of punch shoulder part is preferably made more than five times the plate thickness (t) and the radius R2 of a die shoulder part is preferably made more than four times as large as the plate tickness (t). Further, spinning is preferably executed from the bottom corner radius part of the press forming material over the side wall part or from the bottom corner radius part over the side wall part and the flange part.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、異種金属クラッド
板、たとえばアルミニウムとステンレス鋼とを重ね合わ
せたクラッド板からフランジ付き有底円筒容器を製造す
る方法に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a bottomed cylindrical container with a flange from a clad plate of dissimilar metal, for example, a clad plate obtained by laminating aluminum and stainless steel.

【0002】[0002]

【従来の技術】異種金属クラッド板、たとえば非鉄金属
と鉄鋼材料とを重ね合わせた異種金属クラッド板は、爆
着法や圧延法による接合で製造され、それぞれの金属の
特性を生かして種々の工業製品や家庭用調理容器などに
使用されてきた。なかでもアルミニウムとステンレス鋼
とのクラッド板(以下、これを「アルミ−ステンレスク
ラッド板」という)は、軽量で、しかも電磁調理が可能
な上に熱伝導性、保温性ならびに耐食性等に優れている
ので、鍋等の高級ハウスウェア用素材として用いられて
いる。
2. Description of the Related Art Dissimilar metal clad plates, for example, dissimilar metal clad plates in which a non-ferrous metal and a steel material are superposed are manufactured by joining by an explosive deposition method or a rolling method, and various industrial properties are utilized by utilizing the characteristics of each metal. It has been used in products and household cooking containers. Among them, the clad plate made of aluminum and stainless steel (hereinafter referred to as "aluminum-stainless clad plate") is lightweight, capable of electromagnetic cooking, and excellent in heat conductivity, heat retention and corrosion resistance. Therefore, it is used as a material for high-class houseware such as pots.

【0003】アルミ−ステンレスクラッド板には、アル
ミニウムとステンレス鋼との二層クラッド板、および二
枚のステンレス鋼の間にアルミニウムを挟んだ三層クラ
ッド板がある。
The aluminum-stainless clad plate includes a two-layer clad plate made of aluminum and stainless steel, and a three-layer clad plate in which aluminum is sandwiched between two pieces of stainless steel.

【0004】フランジ付き有底円筒容器とは、板材を深
絞り成形することなどによって製作される容器、例えば
調理用鍋のように容器の内径が深さ方向にほぼ一定で、
かつ内径と深さの比がほぼ1以下であるものをいう。
A bottomed cylindrical container with a flange is a container manufactured by deep-drawing a plate material, for example, a cooking pot having a substantially constant inner diameter in the depth direction,
The ratio of the inner diameter to the depth is about 1 or less.

【0005】図2は、フランジ付き有底円筒容器の模式
的縦断面を示す図であり、(a) は単一板(素板)からな
るフランジ付き有底円筒容器、(b) は二層クラッド板か
らなるフランジ付き有底円筒容器、(c) は三層クラッド
板からなるフランジ付き有底円筒容器である。本発明で
対象とするフランジ付き有底円筒容器とは、例えば調理
用鍋のように容器の内径Dが深さ方向にほぼ一定で、か
つ内径Dと深さHの比(H/D)がほぼ1(0.8 以上、
好ましくは0.9 以上)であるものをいう。
FIG. 2 is a schematic vertical cross-sectional view of a bottomed cylindrical container with a flange, where (a) is a bottomed cylindrical container with a flange made of a single plate (raw plate), and (b) is a two-layered container. A bottomed cylindrical container with a flange made of a clad plate, and (c) a bottomed cylindrical container with a flange made of a three-layer clad plate. A bottomed cylindrical container with a flange according to the present invention has an inner diameter D that is substantially constant in the depth direction, such as a cooking pot, and has a ratio (H / D) of the inner diameter D and the depth H. Almost 1 (0.8 or more,
It is preferably 0.9 or more).

【0006】通常、フランジ付き有底円筒容器は、プレ
スによる深絞り成形加工方法、またはローラーや箆によ
るスピニング加工方法によって製作される。
Generally, a bottomed cylindrical container with a flange is manufactured by a deep drawing forming method using a press or a spinning processing method using a roller or a whisk.

【0007】図3は、フランジ付き有底円筒容器のプレ
スによる深絞り成形加工中の素板と工具との関係を示す
縦断面図であり、(a) は絞り成形加工前の状況、(b) は
絞り成形加工中の状況を示す図である。ここで、符号M
は素板、2 はプレス成形用ポンチ、3はプレス成形用ダ
イス、4は素板の周辺部を押さえる押さえ金具である。
同図に示すように、素板Mをプレス成形用ダイス3 の上
に配置し、素板の周囲を押さえ金具4 で押さえ、ポンチ
2 で素板の中央上面から押し下げ、絞り成形加工するこ
とによってフランジ付き有底円筒容器が製作される。
FIG. 3 is a vertical cross-sectional view showing the relationship between a blank and a tool during deep drawing by pressing a bottomed cylindrical container with a flange. (A) is a situation before drawing and (b) [Fig. 4] is a diagram illustrating a situation during drawing processing. Here, the code M
Is a blank plate, 2 is a punch for press molding, 3 is a die for press molding, and 4 is a metal fitting for holding the peripheral portion of the blank plate.
As shown in the figure, the blank M is placed on the press-molding die 3, and the periphery of the blank is pressed by the metal fittings 4, and the punch is pressed.
A bottomed cylindrical container with a flange is manufactured by pushing down from the center upper surface of the blank plate in step 2 and drawing.

【0008】図3に示すプレス成形機を用いた深絞り法
によってアルミ−ステンレスクラッド板からフランジ付
き有底円筒容器を成形すると、成形の途中で破断する
か、フランジに皺が発生し、製品とならない。また、ス
ピニング加工によって成形すると、両材料の変形抵抗の
差が大きいため、容器の深さHと内径Dとの比(H/
D)が2/3 以上になると破断することが多い。
When a bottomed cylindrical container with a flange is molded from an aluminum-stainless steel clad plate by a deep drawing method using a press molding machine shown in FIG. 3, it breaks during the molding or wrinkles are generated on the flange, resulting in a product. I won't. Further, when formed by spinning, the difference in deformation resistance between both materials is large, so the ratio of the depth H of the container to the inner diameter D (H /
It often breaks when D) is 2/3 or more.

【0009】成形性の劣る材料または軟鋼とステンレス
鋼を接合したクラッド板などから、プレス成形加工また
はスピニング加工によってフランジ付き有底円筒容器を
製作するには、成形加工する前および成形の途中におい
て、材料を軟化熱処理することが行われる。しかし、ア
ルミ−ステンレスクラッド板では、両金属の軟化温度が
異なるのでクラッドに接合した後の軟化熱処理は困難で
ある。しかも、それぞれの金属の変形抵抗に差があるた
め、安定した絞り成形加工は困難であった。
In order to manufacture a bottomed cylindrical container with a flange by press forming or spinning from a material having poor formability or a clad plate obtained by joining mild steel and stainless steel, before and during forming, A softening heat treatment is performed on the material. However, in the aluminum-stainless steel clad plate, the softening temperature of both metals is different, so that the softening heat treatment after joining to the clad is difficult. Moreover, since there is a difference in the deformation resistance of each metal, it is difficult to perform stable drawing processing.

【0010】[0010]

【発明が解決しようとする課題】本発明の目的は、異種
金属板を接合したクラッド板、とりわけアルミ−ステン
レスクラッド板のようにクラッドした後に軟化熱処理が
できなくて、それぞれの金属の変形抵抗に差のある材料
を絞り成形加工素材とした場合であっても、フランジ付
き有底円筒容器(深さHが内径Dの0.8 倍以上)を安定
して製作できる深絞り成形方法を提供するにある。
DISCLOSURE OF THE INVENTION An object of the present invention is to prevent a softening heat treatment from being performed after a clad plate obtained by joining dissimilar metal plates, particularly an aluminum-stainless clad plate, to prevent deformation resistance of each metal. A deep-drawing method capable of stably manufacturing a bottomed cylindrical container with a flange (the depth H is 0.8 times or more of the inner diameter D) even when different materials are drawn. .

【0011】[0011]

【課題を解決するための手段】本発明者は、アルミ−ス
テンレスクラッド板のような異種金属クラッド板の成形
加工性について数多くの試験と研究を繰り返し、プレス
成形加工とスピニング加工を併用することによってフラ
ンジ付き有底円筒容器の深さを大きくできることを見出
し、本発明を完成した。
The present inventor has repeated numerous tests and studies on the formability of a dissimilar metal clad plate such as an aluminum-stainless clad plate, and by combining press forming and spinning. The present invention has been completed by finding that the depth of a bottomed cylindrical container with a flange can be increased.

【0012】本発明の要旨は、下記の有底円筒容器の製
造方法にある(図1参照)。
The gist of the present invention resides in the following method for manufacturing a bottomed cylindrical container (see FIG. 1).

【0013】異種金属クラッド板から深絞り加工によっ
てフランジ付き有底円筒容器を製造する方法であって、
予めプレス成形加工した後にスピニング加工を施すフラ
ンジ付き有底円筒容器の製造方法。
A method of manufacturing a bottomed cylindrical container with a flange from a dissimilar metal clad plate by deep drawing,
A method for manufacturing a bottomed cylindrical container with a flange, which is preformed by press forming and then subjected to spinning.

【0014】上記のプレス成形加工における絞り深さh
は、ポンチ肩部半径R1よりも大きくポンチ直径dの0.8
倍以下の範囲とするのが望ましい。更に、プレス成形絞
りでのポンチ肩部半径R1を板厚tの5倍以上、ダイス肩
部半径R2を板厚tの4倍以上とするのが望ましい。
The drawing depth h in the above press forming process
Is larger than the punch shoulder radius R1 and 0.8 of the punch diameter d.
It is desirable that the range be less than or equal to twice. Further, it is desirable that the punch shoulder radius R1 in the press forming drawing is 5 times or more the plate thickness t, and the die shoulder radius R2 is 4 times or more the plate thickness t.

【0015】[0015]

【発明の実施の形態】図1は、本発明の方法でクラッド
板からフランジ付き有底円筒容器を製作する状況を示す
図であり、(a) は絞り成形加工前の状況、(b) は絞り成
形加工中の状況、(c) はスピニング加工中の状況を示す
図である。ここで、符号1は非鉄金属材料と鉄鋼材料と
を重ね合わせた異種金属クラッド板、たとえばアルミ−
ステンレスクラッド板、1aはステンレス鋼(SUS 430J1
L、SUS 304Lなど)、1bはアルミニウム(A1000系、A1
100系など)、5 はスピニング用マンドレル、6 はスピ
ニング用ローラーを示す。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a diagram showing a situation in which a bottomed cylindrical container with a flange is manufactured from a clad plate by the method of the present invention. (A) is the situation before drawing and (b) is It is a figure which shows the state during drawing process, (c) shows the state during spinning process. Here, reference numeral 1 is a dissimilar metal clad plate obtained by stacking a non-ferrous metal material and a steel material, for example, aluminum-
Stainless clad plate, 1a is stainless steel (SUS 430J1
L, SUS 304L, etc., 1b is aluminum (A1000 series, A1
100 series), 5 is a spinning mandrel, and 6 is a spinning roller.

【0016】本発明のフランジ付き有底円筒容器の製造
方法は、次に示す2つの工程からなる。
The method of manufacturing a bottomed cylindrical container with a flange of the present invention comprises the following two steps.

【0017】(1) 図1(a)に示すように、材料のアルミニ
ウム側1bを上にしてダイス3 に配置する。次いで同図
(b) に示すように、材料の中央上部からポンチ2 を押し
下げ、絞り成形加工する。
(1) As shown in FIG. 1 (a), it is placed in the die 3 with the aluminum side 1b of the material facing up. Then the same figure
As shown in (b), the punch 2 is pushed down from the upper center of the material to draw it.

【0018】(2) 次に同図(c) に示すように、絞り成形
加工された側壁部をスピニング加工により所定の深さま
で成形し、有底円筒容器とする。
(2) Next, as shown in FIG. 2C, the side wall portion formed by drawing is formed by spinning to a predetermined depth to obtain a bottomed cylindrical container.

【0019】このとき、絞り成形加工の絞り深さhが、
ポンチ肩部半径R1よりも大きくポンチ直径dの0.8 倍以
下の範囲とするのが望ましい。また、側壁部およびフラ
ンジ部をスピニング加工することによって、側壁の厚さ
の減少を均一にして所定の深さまで成形し、有底円筒容
器とすることもできる。
At this time, the drawing depth h of the drawing process is
It is desirable that the radius be larger than the punch shoulder radius R1 and not larger than 0.8 times the punch diameter d. Further, by spinning the side wall portion and the flange portion, it is possible to make the thickness of the side wall uniform and mold to a predetermined depth to obtain a bottomed cylindrical container.

【0020】本発明は、スピニング加工によって仕上げ
成形されるので、成形品肌が平滑になり、仕上げの研磨
が不要となる。また、プレス成形のみの方法で製造する
場合では、板厚の変化が部位によって異なるため、板厚
の減少量には限界がある。これに対し、スピニング加工
では、圧延のように材料を展伸するため、プレス成形よ
り薄く、より深く成形することができる。つまり深さを
等しく成形するとき、プレス成形とスピニング加工を組
み合わせることにより、少ない材料で成形することがで
きる。
In the present invention, since the finish molding is performed by the spinning process, the surface of the molded product becomes smooth and the polishing for the finish becomes unnecessary. Further, in the case of manufacturing by the method only by press molding, the change in plate thickness differs depending on the site, and therefore there is a limit to the amount of decrease in plate thickness. On the other hand, in the spinning process, since the material is expanded like rolling, it can be formed thinner and deeper than press forming. That is, when forming at the same depth, it is possible to form with a small amount of material by combining press forming and spinning.

【0021】1.プレス成形による絞り深さhをポンチ
肩部半径R1よりも大きくポンチ直径dの0.8 倍以下とす
るのが望ましい理由:プレス成形による絞り深さhがポ
ンチ肩部半径R1未満では、スピニング加工による深さ出
し量が大きくなり、スピニング加工の成形限界を超え、
成形品深さHを成形品内径Dの0.9 倍以上にすることが
困難である。また、プレス成形による絞り深さhがポン
チ直径dの0.8 倍を超えると、プレス成形の段階で成形
材に割れが発生し易くなるとともに、成形限界に近いと
ころまで材料が加工を受けているため、スピニング加工
を施しても、成形深さHを成形品の内径Dの0.9 倍以上
にすることは困難である。したがって、プレス成形にお
ける絞り深さhは、(R1)から 0.8×(d) までの範囲とす
るのが望ましい。
1. The reason why it is desirable to make the drawing depth h by press forming larger than the punch shoulder radius R1 and not more than 0.8 times the punch diameter d is: If the drawing depth h by press forming is less than the punch shoulder radius R1, the depth obtained by spinning is increased. The amount of protrusion increases, exceeding the molding limit of spinning processing,
It is difficult to make the depth H of the molded product 0.9 times or more the inner diameter D of the molded product. Also, if the drawing depth h by press molding exceeds 0.8 times the punch diameter d, cracks will easily occur in the molding material at the stage of press molding, and the material will be processed up to near the molding limit. Even if the spinning process is performed, it is difficult to make the forming depth H to be 0.9 times or more the inner diameter D of the formed product. Therefore, it is desirable that the drawing depth h in the press molding be in the range of (R1) to 0.8 × (d).

【0022】2.プレス成形絞りでのポンチ肩部半径R1
を板厚tの5倍以上とするのが望ましい理由:ポンチ肩
部半径R1が板厚の5倍未満では、圧延法により接着され
たクラッド板では、プレス成形の際のポンチ肩半径部で
の板厚の減少量が大きくなり破断することがあるからで
ある。
2. Punch shoulder radius R1 in press forming drawing
Is preferable to be 5 times or more of the plate thickness t: If the punch shoulder radius R1 is less than 5 times the plate thickness, in the clad plate bonded by the rolling method, the punch shoulder radius part at the time of press forming is This is because the reduction amount of the plate thickness becomes large and it may break.

【0023】3.プレス成形絞りでのダイス肩部半径R2
を板厚tの4倍以上とするのが望ましい理由:ダイス肩
部の半径R2は、成形品のフランジ部形状を左右する値で
ある。しかし、板厚tの4倍未満では、ダイス肩部での
引張曲げ・曲げ戻し変形により材料の板厚が小さくな
り、スピニング加工で破断することがある。また、上限
は特に制約されないが、成形品の形状から40mmを超える
ことはない。
3. Die shoulder radius R2 in press forming drawing
Is preferably four times the plate thickness t or more: The radius R2 of the die shoulder is a value that influences the shape of the flange of the molded product. However, if it is less than 4 times the plate thickness t, the plate thickness of the material becomes small due to tensile bending / bending back deformation at the shoulder portion of the die, and the material may break during spinning. The upper limit is not particularly limited, but it does not exceed 40 mm due to the shape of the molded product.

【0024】ポンチ直径dの大きさについては特に限定
はしないが、円筒容器の内径に見合う大きさが選ばれ
る。
The size of the punch diameter d is not particularly limited, but a size commensurate with the inner diameter of the cylindrical container is selected.

【0025】なお、スピニング加工は、プレス成形加工
材の底隅半径部から側壁部にかけて、または底隅半径部
から側壁部およびフランジ部にかけて行うのが望まし
い。
The spinning process is preferably performed from the bottom corner radius part to the side wall part or from the bottom corner radius part to the side wall part and the flange part of the press-formed material.

【0026】本発明で対象とする材料は、アルミ−ステ
ンレスクラッド板に限らず、軟化温度または変形抵抗に
差のある異種金属を組み合わせたクラッド板は全て対象
になる。その接合方法も爆着法、圧延法等の何れの方法
であってもよい。このようなクラッド板には、銅−ステ
ンレス鋼クラッド、アルミニウム−チタンクラッドなど
がある。
The material to be used in the present invention is not limited to the aluminum-stainless steel clad plate, but any clad plate formed by combining different metals having different softening temperatures or deformation resistances can be used. The joining method may be any method such as an explosion-bonding method and a rolling method. Such clad plates include copper-stainless steel clad, aluminum-titanium clad, and the like.

【0027】[0027]

【実施例】図1(発明例)および図3(比較例)に示し
た方法で、二層および三層クラッド板を用い、内径Dを
160 mmとしてプレス成形加工、スピニング加工、および
プレス成形加工とスピニング加工とを併用して、割れが
発生する深さまで加工し、フランジ付き有底円筒容器を
製作した。
EXAMPLES Using the method shown in FIGS. 1 (invention example) and 3 (comparative example), two-layer and three-layer clad plates were used, and the inner diameter D was
A flanged bottomed cylindrical container was manufactured by pressing to a depth of 160 mm using a combination of press molding, spinning, and press molding and spinning.

【0028】クラッド板は、ステンレス鋼とアルミニウ
ムを圧延法により接合したもので、いずれも厚さ2.0 mm
の二層クラッド板および三層クラッド板を用いた。ステ
ンレス鋼とアルミニウムを日本工業規格(JIS)によ
って表示すると、二層クラッド板は「Al A1100/SUS 43
0J1L」、三層クラッド板は「SUS 430J1L/Al A1100/SU
S 304L」の組み合わせからなっている。これらの材料か
ら直径が320 mmおよび380 mmの試験材を切り出し、絞り
成形試験に供した。
The clad plate is made by joining stainless steel and aluminum by a rolling method, and each has a thickness of 2.0 mm.
The two-layer clad plate and the three-layer clad plate were used. When displaying stainless steel and aluminum according to Japanese Industrial Standards (JIS), the double-layer clad plate is "Al A1100 / SUS 43
0J1L ", three-layer clad plate is" SUS 430J1L / Al A1100 / SU "
S 304L ”combination. Test materials having a diameter of 320 mm and 380 mm were cut out from these materials and subjected to a draw forming test.

【0029】プレス成形加工の工具として、直径dが16
0 mm、肩部半径R1が15 mm のポンチ、内径が164 mm、肩
部半径R2が15mmのダイスを用いた。スピニング加工の工
具には、直径が160 mmのマンドレル、および直径が100
mmのローラーを用いた。絞り加工は、「プレス成形加工
のみ」、「スピニング加工のみ」および「プレス成形加
工とスピニング加工の組み合わせ加工」の3通りの加工
を行った。なお、「プレス成形加工のみ」には前記直径
が380 mmの試験材を使用し、「スピニング加工のみ」お
よび「プレス成形加工とスピニング加工の組み合わせ加
工」には前記直径が320 mmの試験材を使用した。そして
「プレス成形の絞り深さh」を変化させ、スピニング加
工で割れが発生するまで絞り加工をおこない、成形材の
H/Dを測定した。その結果を表1および表2に示す。
As a tool for press forming, the diameter d is 16
A punch having a diameter of 0 mm and a shoulder radius R1 of 15 mm was used. A die having an inner diameter of 164 mm and a shoulder radius R2 of 15 mm was used. Spinning tools include a 160 mm diameter mandrel and a 100 mm diameter mandrel.
A mm roller was used. The drawing process was performed in three ways: "press forming only", "spinning only" and "combination of press forming and spinning". In addition, the test material with a diameter of 380 mm was used for "press forming only", and the test material with a diameter of 320 mm was used for "spinning only" and "combination of press forming and spinning." used. Then, the "drawing depth h of the press forming" was changed, and the drawing process was performed until cracks occurred in the spinning process, and the H / D of the formed material was measured. The results are shown in Tables 1 and 2.

【0030】[0030]

【表1】 [Table 1]

【0031】[0031]

【表2】 [Table 2]

【0032】発明例のNo.1〜7 の方法では、予めプレス
成形加工で絞り成形したのちスピニング加工を行ったの
で、スピニング加工で割れが発生するまでの成形深さは
140〜200 mmとなり、最終成形品の深さを内径の0.88〜
1.25倍に成形できた。
In the methods of Nos. 1 to 7 of the invention example, since the spinning process was performed after the draw forming by the press forming process in advance, the forming depth until cracking occurs in the spinning process is
140 ~ 200 mm, the depth of the final molded product is 0.88 ~
It could be molded 1.25 times.

【0033】これに対して比較例のNo.8の方法では、プ
レス成形加工のみでポンチ直径dの0.78倍(125 mm)に
絞り加工したとき割れが発生した。また、比較例のNo.9
の方法では、スピニング加工のみで成形品の内径Dの0.
70倍(112 mm)に成形加工したとき割れが発生した。
On the other hand, in the method of No. 8 of the comparative example, cracks were generated when only the press forming work was carried out to draw 0.78 times (125 mm) the punch diameter d. In addition, No. 9 of the comparative example
In the method of, the inner diameter D of the molded product is 0.
Cracking occurred when molding 70 times (112 mm).

【0034】表2は、三層クラッド板を用いた場合であ
るが、二層クラッド板を用いた場合とほぼ同様な結果が
得られた。
Table 2 shows the case where the three-layer clad plate was used, and almost the same result as that when the two-layer clad plate was used was obtained.

【0035】[0035]

【発明の効果】本発明の方法によれば、アルミニウムと
ステンレス鋼とのクラッド板のように成形加工前の軟化
熱処理が困難な材料からでもH/Dが1に近いフランジ
付き有底円筒容器を製造することができる。
According to the method of the present invention, a bottomed cylindrical container with a flange having an H / D close to 1 can be obtained even from a material such as a clad plate made of aluminum and stainless steel which is difficult to be softened by heat before forming. It can be manufactured.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の方法でクラッド板からフランジ付き有
底円筒容器を製作する状況を示す図であり、(a) は絞り
成形加工前の状況、(b) は絞り成形加工中の状況、(c)
はスピニング加工中の状況を示す図である。
FIG. 1 is a diagram showing a situation in which a bottomed cylindrical container with a flange is manufactured from a clad plate by the method of the present invention, where (a) is a condition before drawing, and (b) is a condition during drawing. (c)
FIG. 8 is a diagram showing a situation during spinning processing.

【図2】板材から成形したフランジ付き有底円筒容器の
模式的縦断面図であり、(a) は単一板(素板)からなる
フランジ付き有底円筒容器、(b) は二層クラッド板から
なるフランジ付き有底円筒容器、(c) は三層クラッド板
からなるフランジ付き有底円筒容器である。
FIG. 2 is a schematic vertical cross-sectional view of a bottomed cylindrical container with a flange formed from a plate material, where (a) is a bottomed cylindrical container with a flange made of a single plate (raw plate), and (b) is a two-layer clad. A bottomed cylindrical container with a flange made of a plate, and (c) is a bottomed cylindrical container with a flange made of a three-layer clad plate.

【図3】フランジ付き有底円筒容器のプレスによる深絞
り成形加工中の素板と工具との関係を示す縦断面図であ
り、(a) は絞り成形加工前の状況、(b) は絞り成形加工
中の状況を示す図である。
FIG. 3 is a vertical cross-sectional view showing the relationship between a blank and a tool during deep drawing by pressing a bottomed cylindrical container with a flange, where (a) is the state before drawing and (b) is the drawing. It is a figure which shows the state during molding processing.

【符号の説明】[Explanation of symbols]

1.クラッド板 2.ポンチ 3.ダイス 4.押さえ金具 5.マンドレル 6.ローラー M.素板 V.フランジ付き有底円筒容器 1. Clad plate 2. Punch 3. Dice 4. Holding bracket 5. Mandrel 6. Roller M. Base plate V. Bottomed cylindrical container with flange

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 B21D 51/26 B21D 51/26 X // A47J 27/00 101 A47J 27/00 101B ─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification number Office reference number FI technical display location B21D 51/26 B21D 51/26 X // A47J 27/00 101 A47J 27/00 101B

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】異種金属クラッド板から深絞り加工によっ
てフランジ付き有底円筒容器を製造する方法であって、
予めプレス成形加工した後スピニング加工を施すことを
特徴とするフランジ付き有底円筒容器の製造方法。
1. A method for producing a bottomed cylindrical container with a flange from a dissimilar metal clad plate by deep drawing.
A method for manufacturing a bottomed cylindrical container with a flange, which comprises performing press forming in advance and then performing spinning.
【請求項2】前記のプレス成形加工における絞り深さ
が、ポンチ肩部半径R1よりも大きくポンチ直径dの0.8
倍以下の範囲であることを特徴とする請求項1に記載の
フランジ付き有底円筒容器の製造方法。
2. The drawing depth in the press forming process is larger than the punch shoulder radius R1 and is 0.8 of the punch diameter d.
The method for manufacturing a bottomed cylindrical container with a flange according to claim 1, wherein the range is not more than double.
JP8209682A 1995-08-11 1996-08-08 Production of bottomed circular cylindrical vessel with flange Pending JPH09225547A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP8209682A JPH09225547A (en) 1995-08-11 1996-08-08 Production of bottomed circular cylindrical vessel with flange

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
JP20566995 1995-08-11
JP33469995 1995-12-22
JP7-334699 1995-12-22
JP7-205669 1995-12-22
JP8209682A JPH09225547A (en) 1995-08-11 1996-08-08 Production of bottomed circular cylindrical vessel with flange

Publications (1)

Publication Number Publication Date
JPH09225547A true JPH09225547A (en) 1997-09-02

Family

ID=27328527

Family Applications (1)

Application Number Title Priority Date Filing Date
JP8209682A Pending JPH09225547A (en) 1995-08-11 1996-08-08 Production of bottomed circular cylindrical vessel with flange

Country Status (1)

Country Link
JP (1) JPH09225547A (en)

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102008031421A1 (en) * 2008-07-04 2010-01-07 Mühlhoff Umformtechnik GmbH Metallic cup-shaped component i.e. molding blank, producing method for gas suspension pot in vehicle suspension of automobile, involves producing blank from flat material in thermoforming process, where blank serves as starting workpiece
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CN101786126A (en) * 2010-03-23 2010-07-28 刘江 Manufacturing method of thin-wall metal cylinder body
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102008031421A1 (en) * 2008-07-04 2010-01-07 Mühlhoff Umformtechnik GmbH Metallic cup-shaped component i.e. molding blank, producing method for gas suspension pot in vehicle suspension of automobile, involves producing blank from flat material in thermoforming process, where blank serves as starting workpiece
JP2011025277A (en) * 2009-07-24 2011-02-10 Canon Inc Method of producing metallic member
CN101786125A (en) * 2010-03-23 2010-07-28 刘江 Production equipment of thin-wall metal cylinder body
CN101786126A (en) * 2010-03-23 2010-07-28 刘江 Manufacturing method of thin-wall metal cylinder body
CN102947019A (en) * 2010-04-25 2013-02-27 约翰·劳布舍尔 Cookware with non-deformable bottom and method for manufacturing same
CN102152083A (en) * 2011-04-28 2011-08-17 美的集团有限公司 Manufacturing method of spinning pot
CN102198579A (en) * 2011-04-28 2011-09-28 美的集团有限公司 Manufacturing method of spinning iron pan
CN102489576A (en) * 2011-12-05 2012-06-13 中国航天科技集团公司长征机械厂 Method for manufacturing high-precision rotor housings
WO2018218795A1 (en) * 2017-05-27 2018-12-06 苏州昊远达机械科技有限公司 Processing technique of crafted beer barrel
CN115488638A (en) * 2022-09-14 2022-12-20 陕西飞机工业有限责任公司 Processing method and processing device for waist-shaped deep-tube part
CN115488638B (en) * 2022-09-14 2024-10-29 陕西飞机工业有限责任公司 Waist-shaped deep cylinder part processing method and processing device

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