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US2989019A - Method of deep drawing sheet material - Google Patents

Method of deep drawing sheet material
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Publication number
US2989019A
US2989019AUS660312AUS66031257AUS2989019AUS 2989019 AUS2989019 AUS 2989019AUS 660312 AUS660312 AUS 660312AUS 66031257 AUS66031257 AUS 66031257AUS 2989019 AUS2989019 AUS 2989019A
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blank
punch
pressure
deep drawing
sheet material
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US660312A
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Ii Herbert D Van Sciver
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ThyssenKrupp Budd Co
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Budd Co
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J1me 1961 H. D. VAN SCIVER u 2,989,019
METHOD OF DEEP DRAWING SHEET MATERIAL Filed May 20, 1957 4 Sheets-Sheet 1 INVENTOR June 20, 1961 H. D. VAN SCIVER 11 METHOD OF DEEP DRAWINGSHEET MATERIAL 4 Sheets-Sheet 2 Filed May 20, 1957 INVENTOR Hal burl DVanSciverll iOOO LOO
June 20, 1961 H. D. VAN SCIVER ll METHOD OF DEEP DRAWING SHEET MATERIAL Filed May 20, 1957 4 Sheets-Sheet 3INVENTOR 45 BY Herbafi DVanSciuavII 1a 7 AGE June 20, 1961 H. D. VAN SCIVER 11 2,989,019
METHOD OF DEEP DRAWING SHEET MATERIAL Filed May 20, 1957 4 Sheets-Sheet 4 i 2 3 4- 5 L INVENTOR Hm barf DVanSdverH United tates The invention relates to a method of forming spheroidal articles of sheet material, particularly sheet metal, by deep drawing with the help of a spheroidal punch having projecting forming surfaces and of means stretching the sheet material across the punch while the latter is moved transversely to the material. The term spheroidal includes not only true spheres but all convex surfaces of rotation in which the instantaneous peripheral line of contact between the blank and forming punch increases from an interior point of initial engagement to the outer margin of the final formed article. This is to be distinguished from flat-bottomed cupped articles in which the bottom portion is not actively involved in the drawing action and in which there is no change in the length of the instantaneous periphery of action at the outer portion of the punch.
In forming spheroidal sheet metal articles by deep drawing it is customary to tightly hold opposite marginal regions or the entire circumferential region of a sheet ,metal blank and to exert a force restraining the marginal regions from moving toward the center of the punch during the forming operation.
Known procedures and equipment lead to conditions in which the blank is subjected to different stretching in different areas so that the finished article has varying thickness. Often the different stretching leads to rupturing the blank while in other regions the stretch is so small that practically no change of the original thickness of the blank is obtained.
It may help the understanding of the invention to first describe in some greater detail what occurs in conventional deep drawing where the metal blank is first positioned and held in a blank holder, and the punch then contacts the blank and starts forming it. At any given instant after the start there are three fairly distinct areas to be considered, namely: (a) a static area of metal which has been formed around the punch, '(b) an active transition area where the metal is tangent to the punch, and (c) a stretching area, extending from the transition area to the blank holder, in which the metal is under tension. It is within the instantaneous transition area, line or zone where work is being done. If the blank is held tightly and the draw is deep, the metal may be stretched to failure before sufiicient load can be developed by the increasing cross-sectional area of the transition or instantaneous forming zone to cause metal to move through the blank holder. This may be further complicated by the speed-sensitive static friction factor.
The object of the invention is to provide .a method of deep drawing spheroids by which all areas of the blank are subjected to virtually the same specific amount of stretching to produce a substantially constant wall thickness of the completed article over its entire area.
The object of the invention is achieved by varying the restraining forces exerted on marginal portions of the blank throughout the forming operation so that the ratio between the restraint at the instantaneous cross- .sectional area or line of deformation to the length of this line or the size of said cross-sectional area is kept virtually constant. Instantaneous means .in this connection .the area -.or line subject to deformation at any given instant. When the instantaneous area or line of deforma- .tion increases, the restraining force will be increased correspondingly with the result that the same specific stretch is imparted to this instantaneous line or area as to a smaller line or area of deformation having correlated thereto a correspondingly smaller restraining force. Preferably the variations of the restraining force are programmed in advance by calculations and/ or trail runs.
More specifically, the invention deals with the type of deep drawing in which a circumferential marginal area of the blank is held between margin holders while a punch forces or draws the central portion of the blank into an opening of the margin holders or the cavity of another die, in which case the restraining force is preferably varied by varying the pressure between the margin holders.
While the primary object and advantage of the invention is to obtain an article of controlled wall thickness over its entire area, other important advantages are obtained which sometimes may even outweight or take precedence over the primary object and advantage. It is mentioned hereinbefore that customary methods and procedures often lead to rupturing the metal due to overstretching in one area. The novel method of the present invention avoids such over-stretching by uniformly subjecting the entire area to a controlled amount of specific stretching. This fact not only permits deeper drawing of easily deformable metals but permits drawing of relatively hard and brittle metals or alloys which were hit-herto considered as unfit for forming by deep drawing. Among such alloys are for instance certain stainless steels and titanium.
Further objects, advantages and features of theinvem tion will be disclosed in connection with or following the description of the embodiment of the invention diagrammatically illustrated in the drawings.
In the drawing:
FIG. 1 is a fragmentary vertical section, substantially along line 11.of FIG. 2, througha drawing press;
FIG. 2 is a fragmentary section and plan view, substantially along 22 of FIG. 1;
FIGS. 3 and 4 are partial replicas of FIG. .1 though showing difiierent stages of the drawing operation; and
FIGS. 5 and 6 are diagrams of different factors influencing the drawing process shown as functions of the movement of the forming punch.
The invention is illustrated in the attached drawing and will be described in the following as applied to the deep drawing of a simple, symmetrical article, to wit a hemisphere.
The diagrammatically illustrated draw press has abase 10 in whichupright columns 11 are firmly held. Supported by and secured to thecolumns 11 is alower margin holder 12. Rigidly connected with the upper ends of thecolumn 11 is a stationary head 13. Ascrew 14, threaded into head 13 and provided with ahand wheel 15, carries at its lower end amovable head 16 which is guided for up and down movement on thecolumns 11.
Anupper margin holder 17 is connected with therods 18 ofpistons 19 which are movable in cylinders .20. Thecylinders 20 are secured to themovable head 16 and have their tops in communication with a pressurefluid supply line 21. The provision of a plurality ofcylinders 20 and their arrangement on a circle insure equal pressure distribution.Springs 22 within thecylinders 20 urge the pistons upwardly. Thepressure fluid line 22 leads to apressure control valve 23 which in turn is fed through by aline 24 with an incompressible liquid.
Alarger work cylinder 25 is mounted onbase 10 and has apiston 26 which, byrod 27, carries apunch 28. Punch 28 fits into openings surrounded by lower andupper margin holders 12 and 17. The space ofcylinder 25 above and belowpiston 26 communicates, respectively, withconduits 29, 30 which lead to avalve 31. Thevalve 31 has aslide 32 and is connected with apressure fluid line 33, avent line 34 andline 24 leading tovalve 23.
Pressure line 33 is fed from a (not shown) source of pressure fluid. Depending on the position ofslide 32, pressure fluid is admitted either to the top or the bottom ofcylinder 25 so as to pushpiston 26 withrod 27 and punch 28 upwardly into the position shown in FIG. 1 or to retract it into the position shown in FIG. 3. In the position admitting fluid to the bottom ofcylinder 25, 2figid is also admitted tocontrol valve 23 through pipe Anelongated cam member 35 is connected withpiston rod 27 andpunch 28 and is movable inguides 36 provided oncylinder 25.Cam surface 37 ofmember 35 is engaged by acam follower 38, the position of which governspressure control valve 23 and thereby the pressure inconduit 21 andcylinders 20.
Punch 28 has ahemispherical working surface 39 and slidingly fits into thecylindrical opening 40 oflower margin holder 12. Thecylindrical opening 41 inupper margin holder 17 has a diameter sufficiently larger than the diameter ofpunch 28 and opening 40 so as to provide space for the sheet material of blank 42 betweenpunch 28 andsurface 41. The upper andlower margin holders 12, 17 haveplane surfaces 43 and 44, respectively, which face each other and are adapted to engage opposite surfaces of a marginal orcircumferential zone 45 of blank 42, which surrounds thecentral portion 46 thereof.Cylindrical surface 41 andplane surface 44 ofupper margin holder 17 merge into each other by a generously rounded edge 47.
For operating the machine,movable head 16 andupper margin holder 17 are raised byscrew 14 into the position indicated by dash-and-dot lines in FIG. 1. A blank 42 is placed on thelower margin holder 12,movable head 16 is lowered by means ofscrew 14 untilsurface 44 ofupper margin holder 17 engages the upper surface ofmarginal zone 45 of blank 42. The insertion of the blank is done whilepunch 28 is in its lowermost position (FIG. 3) and pressure fluid is shut-off fromcontrol valve 23 and thereby fromcylinders 20.
Admission of pressure fluid tovalve 23 has the effect of energizing thecylinders 20 so that themarginal area 45 of blank 42 is firmly gripped between thesurfaces 43, 44 of the upper and lower margin holders. The amount of pressure is determined by the position of cam 'follower 38 oncam surface 37 and bypressure control valve 23. As apparent, the pressure in the initial stage of the procedure is at its lowest. Pressure fluid is also admitted over valve 31 (see the position ofslide 32 in FIG. 3) to the lower part ofcylinder 25 with the effect thatpunch 28 is pushed upwardly against the freecentral part 46 of blank 42 and gradually deforms the blank to the shape oftheworking surface 39. An intermediate forming stage is shown in 'FIG. 4 and the final stage in FIG. 1. i
Afterpunch 28 has reached its final position (FIG. 1), it is withdrawn by admitting pressure fluid on top ofpiston 26, pressure fluid to controlvalve 23 is shut-off, andmovable head 16 andupper margin holder 17 are lifted into the position shown in FIG. 1 by dash-and-dot lines.
The remainingmarginal portions 45 of the finished article may be trimmed off, after removal of the article from'the press, at or near the edge between themand the hemispherical portion. So as to maintain constant wall thickness it is obviously necessary that the specific stresses S per unit of cross sectional area of the instantaneous zone or line of deformation be kept at a constant value throughout the entire forming operation. This means that the specificrestraining stresses S (FIG. 4), effective tangentially outwardly on the work pieec, have to be kept at a constant value and the total of thme stresses is to be kept directly proportional to the length C of the circle of instantaneous tangential contact as shown by the upper curve in FIG. 6.
-It has to be realized however that the specific restraining stresses S are not exclusively a function of the pressure P exerted on the marginal portions of the blank by the blank holders though it is the variable factor employed in the embodiment for keeping the specific stresses S at the desired constant value.
The main factors, other than the blank holder pressure, influencing the specific stresses S at the instantaneous line of deformation, which are to be taken into account in programming the blank holder pressure P, will now briefly be described and discussed.
One influencing factor is the varying angle A between thetangential portion 48 of blank 42 and the plane of itsmarginal zone 45 held between theblank holders 12, 17. The lower curve in FIG. 6 shows the angle A as a function of the movement L ofpunch 28. Angle A becomes larger and larger as the forming operation progresses with the effect that the forces required for drawing the marginalblank portions 45 inwardly from between theblank holders 12, 17 grows larger and larger. Moreover, the variation of the angle A leads to an increase in the width of the area of contact between blank 42 and rounded edge 47 of the upper blank holder also causing an increased resistance against inward movement of the marginal portions of the blank.
Another factor is that the width of theblank zone 45 held between the blank holders is comparatively great in the beginning and becomes smaller and smaller as the forming operation progresses and more and more of the original marginal zone of the blank is drawn inwardly.
A still further factor influencing the situation is that themarginal portions 45 of the blank have to be thickened up or pushed together as the blank is being drawn inwardly. At the start the outer circumference of, the blank has a relatively large diameter whereas this diameter has to decrease more and more as the forming operation progresses. Such decrease can only be accommodated, without the formation of wrinkles, by pushing the marginal portion together. Obviously such pushing together gets harder and harder as the formation progresses because it has to overcome the initial pushingtogether or fattening-up of the marginal portion.
The amount of deformation at the beginning and the change in direction between thetangential portion 48 of the blank and thegripping surfaces 43, 44 of theblank holders 12, 17 are comparatively small at the beginning and at the end of the forming operation. This explains the approximately horizontal initial and final end portions of the pressure curve, shown in FIG. 5 as a function of the punch travel L.
In spite of the numerous factors influencing the proper pressure curve for the blank holders, its theoretical development and calculation is possible. As a practical proposition it will however often be more practical and convenient to develop the curve by test runs preceding actual production runs. For the test runs as well as for the production runs great care has to be taken to keep the surfaces of the blank holder and of the blank always in the same condition for successive drawing operation because obviously differences in surface conditions, such as rust or oil, would introduce factors which could fundamentally change the situation.
Advisedly no units of length and specific pressure are given in the diagrams of FIGS. 5 and 6. It is immaterial whether these units are inches or centimeters or are pounds per square inch or kilograms per square centimeter. The general qualitative picture of the illustrated curves will be the same whatever units are used.
It will be understood that, for simplicitys sake and for restricting the disclosure to easily and clearly explainable basic aspects of the invention, a press of very primitive construction has been diagrammatically illustrated. It is self-evident that foractual production screw 14 for lifting and lowering the movable head with the upper blank holder would be replaced by more conveniently operating means or that for moving the punch a diiferent source of pressure fluid, eg. a compressible fluid, might be used than the incompressible fluid preferably used for the blank holder pressure.
It will also be realized that the conditions will grow more complicated if the article to be deformed is not of symmetrical simple shape such as the illustrated hemisphere and that for irregular shapes the pressures of the margin holders and thereby the restraining forces opposing the inward movement of the blank, will have to be difierent from each other in diiferent circumferential zones apart from the variations of pressure to be imparted during the progress of the drawing operation.
It may be added that hemispheres of a metal, known to be very diflicult to draw, have actually been manufactured to an accuracy of plus/minus one-thousandth of an inch in wall thickness variation. Hitherto the manufacture of such parts with such closely controlled wall thickness was considered an impossibility and is still considered as such by the experts in the art, who are not acquainted with the invention. The so produced hemispheres had a diameter of 6" and were formed from a blank of 11 diameter and .025 gauge. The initial pressure applied to the blank holders was 450 lbs. per square inch and grew to over about 1050 lbs. per square inch. increasing the blank holder pressure may cause tearing the metal right at the start while too strong a decrease in the pressure will lead to wrinkles of the marginal portions. It was found that the radius of edge 47 has an influence on the pressure to be used between the blank holders. The production was carried out with approximately constant speed of punch travel; changes in the speed and interruptions were found to influence the result.
The invention is, of course, not restricted to the illustrated and described embodiment and its details but is susceptible to modifications and adaptations which will easily occur to those skilled in the art.
What is claimed is:
1. The method of draw-die forming a hemispherical sheet metal article having a uniform wall thickness without rupture throughout its entire surface area, which oomprises, clamping a flat sheet metal blank around its outer peripheral edges, starting at the middle point and forcing the blank sheet material transversely intermediately of its clamped peripheral edges by a hemispherical-ended die punch, and increasing the edge restraining force proportionately to the increase in the length of tangential contact at the instantaneous line of engagement between the die punch and blank, and finally trimming off the edges of the blank which were clamped and not brought to the same thickness as the draw-formed hemispherical portion.
2. The method of draw-die forming a spheroidal sheet metal article having a uniform wall thickness without rupture throughout its entire surface area, which comprises, clamping a flat sheet metal blank around its outer peripheral edges, starting at a point interiorly and forcing the blank sheet material transversely intermediately of its clamped peripheral edges by a spheroidal die punch, and increasing the edge restraining force proportionately to the increase in the length of tangential contact at the instantaneous line of engagement between the die punch and blank.
References Cited in the file of this patent UNITED STATES PATENTS 55,944 Wilm-ot June 26, 1866 1,528,365 Brown Mar. 3, 1925 2,312,749 Bullock Mar. 2, 1943 2,403,339 Byerlein July 2, 1946 2,581,663 Ingersoll Jan. 8, 1952 2,605,731 S'chulze et al r Aug. 5, 1952 2,642,023 Zimmerman June 16, 1953 2,725,025 Ernst Nov. 29, 1953 2,735,390 Engel Feb. 21, 1956 2,781,015 Dehn et al. Feb. 12, 1957 2,783,728 Hoffman Mar. 5, 1957
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US3113596A (en)*1958-01-161963-12-10Ass Elect Ind Woolwich LtdManufacture of thermionic valve grids
US3135045A (en)*1961-04-191964-06-02Budd CoMethod for forming articles from thin sheet material
US3152718A (en)*1962-03-081964-10-13Weatherhead CoCylinder boss
US3182482A (en)*1961-03-151965-05-11Reynolds Metals CoThin metal sheet tapered receptacles and method and apparatus for producing the same
US3208255A (en)*1961-07-071965-09-28Siemens Elektrogeraete GmbhMethod and apparatus for hydraulic deep-drawing of sheet material
US3236404A (en)*1962-05-151966-02-22Richard Boscamp BReceptacle with improved corner unit
US3248000A (en)*1963-08-301966-04-26Continental Can CoPlastic container
US3420089A (en)*1966-02-161969-01-07Mc Donnell Douglas CorpVariable pressure drawpress and method
US3453848A (en)*1965-06-071969-07-08Dro Eng Co DiApparatus for deep drawing metal with hydraulically controlled dies
US3503245A (en)*1967-10-041970-03-31Ben BrandlMethod and apparatus for removing defects from sheet metal
US3580041A (en)*1968-02-051971-05-25Universal Alufolien VerfahrenDie assembly
US3668914A (en)*1969-12-311972-06-13Bogdan Vyacheslavovich VoitsekMethod of stamping metal convex articles from sheets
US4056965A (en)*1975-11-051977-11-08Heiser Elmer FPress system or the like
DE3204941A1 (en)*1981-02-131982-08-26Nissan Motor Co., Ltd., Yokohama, Kanagawa DRAWING PRESS
DE3431162A1 (en)*1984-08-241986-03-06August Läpple GmbH & Co, 7100 Heilbronn PRESS IN PARTICULAR TO BE USED FOR DRAWING AND DRAWING OPERATIONS
US4712412A (en)*1985-02-211987-12-15L. Schuler GmbhDrawing apparatus in presses
US5660379A (en)*1994-10-081997-08-26Oest; BurkhardPneumatic spring
US5799532A (en)*1996-05-211998-09-01Lewis; Ronald O.Fully contained self adjusting nitrogen binder plate
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CN1077465C (en)*1994-09-302002-01-09J·迪芬巴赫机器制造有限公司Hydraulic deep dawing equipment of a pressing machine for mfg. streched thin plate former
US7237423B1 (en)*2004-11-122007-07-03Miller Tool And Die Company Inc.Apparatus for stretch forming blanks
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US8187163B2 (en)2007-12-102012-05-29Ethicon Endo-Surgery, Inc.Methods for implanting a gastric restriction device
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US8221439B2 (en)2008-02-072012-07-17Ethicon Endo-Surgery, Inc.Powering implantable restriction systems using kinetic motion
US8233995B2 (en)2008-03-062012-07-31Ethicon Endo-Surgery, Inc.System and method of aligning an implantable antenna
US8337389B2 (en)2008-01-282012-12-25Ethicon Endo-Surgery, Inc.Methods and devices for diagnosing performance of a gastric restriction system
US8377079B2 (en)2007-12-272013-02-19Ethicon Endo-Surgery, Inc.Constant force mechanisms for regulating restriction devices
US8591532B2 (en)2008-02-122013-11-26Ethicon Endo-Sugery, Inc.Automatically adjusting band system
US8591395B2 (en)2008-01-282013-11-26Ethicon Endo-Surgery, Inc.Gastric restriction device data handling devices and methods
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Cited By (52)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3113596A (en)*1958-01-161963-12-10Ass Elect Ind Woolwich LtdManufacture of thermionic valve grids
US3182482A (en)*1961-03-151965-05-11Reynolds Metals CoThin metal sheet tapered receptacles and method and apparatus for producing the same
US3135045A (en)*1961-04-191964-06-02Budd CoMethod for forming articles from thin sheet material
US3208255A (en)*1961-07-071965-09-28Siemens Elektrogeraete GmbhMethod and apparatus for hydraulic deep-drawing of sheet material
US3152718A (en)*1962-03-081964-10-13Weatherhead CoCylinder boss
US3236404A (en)*1962-05-151966-02-22Richard Boscamp BReceptacle with improved corner unit
US3248000A (en)*1963-08-301966-04-26Continental Can CoPlastic container
US3453848A (en)*1965-06-071969-07-08Dro Eng Co DiApparatus for deep drawing metal with hydraulically controlled dies
US3420089A (en)*1966-02-161969-01-07Mc Donnell Douglas CorpVariable pressure drawpress and method
US3503245A (en)*1967-10-041970-03-31Ben BrandlMethod and apparatus for removing defects from sheet metal
US3580041A (en)*1968-02-051971-05-25Universal Alufolien VerfahrenDie assembly
US3668914A (en)*1969-12-311972-06-13Bogdan Vyacheslavovich VoitsekMethod of stamping metal convex articles from sheets
US4056965A (en)*1975-11-051977-11-08Heiser Elmer FPress system or the like
DE3204941A1 (en)*1981-02-131982-08-26Nissan Motor Co., Ltd., Yokohama, Kanagawa DRAWING PRESS
DE3431162A1 (en)*1984-08-241986-03-06August Läpple GmbH & Co, 7100 Heilbronn PRESS IN PARTICULAR TO BE USED FOR DRAWING AND DRAWING OPERATIONS
US4712412A (en)*1985-02-211987-12-15L. Schuler GmbhDrawing apparatus in presses
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