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Method and apparatus for changing the relative lengths of the intermediate and edge portions of metal strips

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US2600442A
US2600442A US68607346A US2600442A US 2600442 A US2600442 A US 2600442A US 68607346 A US68607346 A US 68607346A US 2600442 A US2600442 A US 2600442A
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strip
roll
portion
metal
rolls
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Stanius Godfrey
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Acme Steel Co
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Acme Steel Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D53/00Making other particular articles
    • B21D53/74Making other particular articles frames for openings, e.g. for windows, doors, handbags

Description

June 17, 1952 s us 2,600,442

METHOD AND APPARATUS FOR CHANGING THE RELATIVE LENGTHS OF THE INTERMEDIATE AND EDGE PORTIONS OF METAL STRIPS Filed July 25, 1946 2 SHEETS-SHEET 1 yag 4W2 QodfrgShmws,

June 17, 1952 s us 2,600,442

METHOD AND APPARATUS FOR CHANGING THE RELATIVE LENGTHS OF THE INTERMEDIATE AND EDGE PORTIONS 0F METAL STRIPS Filed July 25, 1946 2 Sl-lEETS-SHEET 2 lll IN VEN TOR.

Patented June 17, 1952 METHOD AND APPARATUS FUR CHANGING THE RELATIVE LENGTHS OF THE INTER- MEDIATE AND EDGE PORTIONS OF METAL STRIPS Godfrey Stanius, Chicago, 1.11., assignor to. Acme Steel Company, C ic go, 111-, a corporation.- of

Illinois.

Application July 25, 1946, serialNo. 6365073 3 Claims. 1

This invention. relates to improvements in methods'and apparatus for treating a metal strip and its purpose is to provide mean for effecting a; permanent change in the relative lengths of two, or more longitudinally extending portions of the strip which are displaced laterally of the strip with respect to each other.

The present invention may be, used with particular advantage in the manufacture of Venetian blind slats; in a manner similar to the method which is. described and claimed in the United States Letters Patent of Allen B. Wilson No. 2,294,434, dated September 1.1942. In the practice of the first stage of that patented method, a long metal strip is progressively stretched longitudinally in its middle portion so that the centralpart'of the strip becomes permanently elongated with respect} to its lateral. edge. portions. thereby forming a product known in the trade as slat stock, and this center stretched material is then subjected to asecond stage operation in which. the. strip is moved longitudinally under tension through crowned working rolls and supported immediately in advance of and following the rolls, with the result that a permanent transverse: curvature. is imparted to the strip and its edge. portions are stretched. longitudinally sothat the strip emerges from the secondstage operation longitudinally straight and transversely curved and..- with all portions thereof permanently stretched longitudinally. By this two, stage. operation the unequal stresses whichmay have. ex.- isted in the original, metalstrip are removed and a substantially uniform condition with respect to the. stresses. in, the strip is obtained so that a straight. and flexible but self-sustaining transversely curved slat is; obtained even. though it be formed of thin steel orother metal.

In. said Wilson Letters Patent there is disclosed onemethod of carrying out the first stage of said process by pulling the metal strip endwiseunder tension over a crowned roll, and depressing the strip on opposite sides of the roll in such a manher. that the central portion of the strip, being causedto traverse a path of greater length than that travelled by its edge portions, is progressively and. permanently stretched longitudinally.

The present invention involves the discovery that a product which is the equivalent of that produced by the first stage of the two stage proc-. ess discussed above may be produced by passing the metal strip endwise over a crowned rolland pressing the strip against the crowned roll by means of a compressible member suchasa cyl-. inder having a peripheral portion formed of rubber. whereby the metal stripis caused to con.- formto the curvature of a portionof the roll both laterally and circumferentially so that the middle portion of the strip iscompelled to travel a path of greater length than that travelled by its edge portions, or may be said to travel at a faster rate than the edge portions so thatthe middle portion may be thereby stretched longitudinally and the edge portions are permanently com-5 pressed and shortened longitudinally so that the resulting product has an intermediate portion which is longer than its edge portions. This specificmethod of forming the slat stock has the ad; vantage that it may be easily controlled and may be. readily adjusted to vary the degree of the center stretch efiectin the product while the operation is in progress. In one embodiment oi the invention the compressible member may be formed as an annular inflated tube or pneumatic tire which may be inflated to various degrees to regulate the compressive force which is exerted upon the metal. strip and consequently the ex tent of the change in the relative-lengths of the intermediate andlateral edge portions, 1. e., center stretch effect, which is brought about by the passing, of the strip between the rolls. By suits ably regulating the extent of the center stretch efiect in the metal strip in this first stage'of the process it i possible to employ this method of practicing the first stagein conjunction with the stretchingor the edge portions ofthe strip during a second. stage. like that disclosed in said Wilson patent, when carriedon in a continuous procedure, in such a way that the metal strip will emerge in its final form from the second stage transversely curved and longitudinally straight.

The nature of the invention will be understood fromthe following specification taken with the accompanying drawings in which two embodiments of the improved apparatus are disclosed.

In the drawings,

Figure 1 shows a side elevation of one form of apparatus embodying the features of the present invention;

Fig. 2 shows a vertical section taken on the line 22 of Fig. 1;

Fig. 3 shows a plan view of the metal strip which is operated upon by the apparatus shown in Figs. 1 and 2;

Fig. 4 shows a side elevation of the strip or slat stock which is produced by the operation of the apparatus shown in Figs. 1 and 2;

Fig. 5 shows a side elevation of the apparatus which may be employed in carrying on the second stage of the process mentioned above with the use of the slat stock shown in Fi 4:

Fig. 6 shows a side elevation of a modified form of apparatus embodying the features of the present invention wherein one of the rolls is provided with an annular pneumatic member capable of being inflated in varying degrees for the purpose of varying the extent of the contact of the metal strip with the complementary rolls;

Fig. 7 shows a vertical section on the line ll of Fig. 6; and

Fig. 8 shows a side elevation of an arrangement of apparatus, including the form of rolls shown in Figs. 6 and 7 whereby-the first and second stages of the method of forming Venetian blind slats may be carried out in a continuone process.

As illustrated in Figs. 1 to 5 of the drawings, the improved apparatus comprises a frame or standard Ill having a base plate Hi from which extend two vertically extending parallel plates Ni and 3. The plate 10 carries at its upper end a hub portion le and these parts are reinforced and united with the base plate "i by side flanges it). A plate I0 extends upwardly from the hub Ill and is united therewith by flanges I0 The vertical plates lil and ID of the frame have mounted therein a fixed shaft ll upon which is mounted a crowned roll l2 formed of hard steel having an outwardly convex or crowned surface 12 which is preferably bounded on its lateral edges by the flanges l2 which are formed on the side portions of the roll. This roll is journalled on the shaft H by ball bearing units l3 and it is adapted to cooperate with a pressure roll or cylinder M which is normally of cylindrical form. The pressure roll l4 comprises an inner cylindrical part I l formed of hard steel or other metal and an outer annular portion Hl which is formed of rubber or other compressible resilient material adapted to be deformed when the roll [4 is compressed against the strip of metal engaging the surface of the roll 12 so that a portion of the compressible part N of the pressure roll will conform to the contour of the crowned roll l2 both laterally and longitudinally. In Fig. 1 the metal strip I5 is shown passing between the rolls l2 and I4 and in contact with the crowned annular surface of the roll i2 between the flanges I2 The compressible portion M of the pressure roll extends inwardly between the flanges 12 and is compressed against the metal strip l5 so that the strip is caused to conform to the contour of the crowned roll 12 through a substantial annular distance in the zone 16. Inasmuch as the metal strip I5 is thus curved both longitudinally and transversely as it passes through the zone 15, it will be apparent that the middle portion of the metal strip is necessarily stretched in order to permit it to pass through this longer path of travel while the edge portions of the strip are following the shorter paths adjacent to the edges of the crown of the roll IE, but it has been found that the intermediate portion is or may be only temporarily stretched below the elastic limit of the metal and that the edge portions are permanently compressed and shortened longitudinally so that the resulting product exhibits a center stretch effect, 1. e., its middle portion is longer than its edge portions. The metal strip 15 may be moved through the rolls l2 and 13 either by pulling endwise on the strip or by rotating one of the rolls through the agency of a positive drive, inasmuch as tension in the strip is not essential to create the center stretch effect which is brought about while the strip is passing through the zone l5.

In order that the degree of relative change in the lengths of the intermediate portion and the edge portions of the strip, 'i. e., center stretch effect, may be varied as desired, the roll M is mounted upon a shaft l1 through the agency of two ball bearing units 18. The roll M is held in position on this shaft by a nut is and the inner end of the shaft 11 is formed integrally with a collar H against which the inner ball bearing unit (8 seats. The shaft IT and the collar H are formed integrally with and in eccentric relation to the shaft l'l which is journaled in roller bearing units mounted in the hub portion Hi of the frame. These roller bearing units are separated by a collar 2! and another collar or washer 22 is mounted on the shaft H at the end of the hub portion lil It will be apparent that by rotating the shaft Il in its bearings, the position of the eccentric shaft i! may be varied in order to vary the compression of the annular part Hi of the roll hi, thereby varying the extent of the zone IS in which the metal strip is compelled to conform laterally and longitudinally to the curvature of the outer crowned surface of the roll (2.

This rotation of the shaft H is eifected by a worm wheel 24 secured on the end of the shaft I'I by a lock nut 25. The worm wheel 24 meshes with a worm 26 mounted on a shaft 21 which is journaled in bearings 28 formed on the upper flange i of the frame. An operating crank 33 has a hub portion 30 secured on one end of the shaft 21 and bearing against one of the bearing members 28, and a collar 31 is secured to the other end of the shaft 21 to bear against the other bearing member 28 so that the shaft 21 is thereby held against endwise movement. The worm wheel 24 secured on the shaft H has a series of graduations on its front face which are adapted to move in proximity to a stationary index pointer 33 carried by a plate 34 attached to the Webs I0 of the frame. By noting the position of the graduations 24 with respect to the pointer 33, the operator may determine in advance the degree of relative changes in the lengths of different portions of the strip which will be effected by its passage between the rolls.

For the purpose of guiding the strip 15 as it passes toward the roll i2 in the direction indicated by the arrow 35, there is mounted on the frame ii! an entering or guide roll 36 which is journaled on a short shaft 31 secured in the bearing flange 38 projecting laterally from one of the webs w of the frame. In the drawings, the roll 36 is shown as being mounted with its lower part somewhat below the horizontal plane v of the: zone of? contact metal strip for moreieffectively guiding? the strip to the: region where the changes in the relative lengths of its'p'artsare effected, but this'is'not essential to. the operation since the guideroll 36 might, if desired, be positioned withits lower strip engaging part substantially in the horizontal' plane. of" the zone of contact of the roll l-2 with the metal strip. As the metal strippassse to the apparatus-shown in Figs. 1 and-2, as

shownat' the right of the; roller 36 in Fig. 1, it is flat or substantially so, but when it" emerges from. the roll I2. at the left-hand side of the apparatus as viewed in Fig. l. the edge portions have been permanently shortened with respect to'th'e intermediateportion without imparting a permanent transverse curvature thereto, so that the strip has the characteristics which are illustrated in Fig. 4 where the'strip is illustrated as being buckled between its edges in order to accommodate the greater length of the intermediate portion of the strip.

After the strip-having the form illustrated in Fig. 4 has been produced by the operation of the apparatus shown in Figs. 1 and 2, it may be acted upon by forming rolls, such as those shown in Fig. 5, in order to perform the second stage of the operation which is described in the abovementioned Letters Patent of Allen B. Wilson. These forming rolls comprise a lower crowned roll and an upper convex roll; 4! having a pcripheral transverse curvature which is complementary to the convex curvature of theroll 4 3, and th strip [5 having the center stretch eifect is then moved enclwise under'tension between the rolls 40 and 4! which rotate in the direction of thearrows 42 and which impart to the strip 85 a permanent transverse'curvature. The metal strip [5 is supported in advance of and immediately following the place of engagement there- 'with 01' the rolls 4!! and M, by two supporting rollers=l3 and M, respectively, which hold the center portion of the strip substantially in the same horizontal plane as the uppermost part of the central peripheral portion of the roll 40'. This arrangement makes it necessary for the edges'of the metal strip to follow paths of travel of greater length than that followed by the middle portion of the strip as it passes between the rolls 40 and 3! so that the'edge portions of the strip are thereby stretched or permanently elongated, with the result that the strip emerges-from the rolls All and 4! in the direction of the arrow 46 in a longitudinally straight'and transversely curved condition, as morefully described in said Letters Patent of Allen B. Wilson.

In Figs. 6 and '7 of the drawings there is illustrated a mo'difiedform of apparatus for carrying out the first stage of the process ofthe present invention referred to above. ratus comprises a frame 50 having a base plate 50 and two upwardly extending parallel stand ard? Bil which are reinforced and united with the base plate by integral webs 50. In the lower portions of these standards 59 there is mounted a horizontal shaft 5| upon which there is fixed a roll 52. The shaft 5| is journalledin ball bearing units 53 mounted in the standardsbll 'andthe roll 52 is adapted to cooperate with another roll 54 in effecting a chang in the'relative longi tudinal dimensions of the metal strip 55 passing between the rolls. Although the metal strip might be pulled endwise between the rolls, the present embodiment of the invention is shown as comprising means for driving the shaft 5| of the roll I2:- with the.

This appathrough asbefedfreducerifiriromahelectriitmoiflr 511: so: that the; metal strip. is; rolledthrough the apparatus: as: distinguished! from. being pulled therethrough; The upper; roll,- 5:41 is mounted; on a shaft 6Q: journalled inr ball bearing: units; (H which are mounted; in";- the bearing members, 62 carried-by the upper; parts of thestandards 5.0.

I'h'eroll'S l comprises an-annul'ar compressible memberid' 'in the:form:=ofa rubber tube or pneumatic the which; is: capable of being; inflated through the passages 63 extending-through the shaft and through thebody portion. of, the roll. The 'usual valve member,ismountedatathe mouth of these passages so. that any desired-deigree of inflation of; the annular; compressible member-iil -mayl be smaintairied. Thewutei: portion of the member E l is preferably of'i-ncreased thickness as compared" with the remaining portions thereof and this thickened; portionis adapted to engage the upper partof: the; metal strip: 55. and to force it' against the lower roll 52;. thereby causing the intermediate portion of the: strip to be curved both longitudinallyand transversely during its passage through; a zone 68; shown in Fig 6; whereby the intermediate portion of the strip is compelled to travel a path of greater length than that traversed by-the edge portions of the strip so that the intermediate portion of the strip'may" be stretched longitudinally and the lateral edge portions are permanently compressed and shortened in' length, to produce'the center stretch effect; as in the form of the invention previously described. This form of the invention'has the advantage that the pressure exerted. by the rolls upon the strip may be varied readily by adjusting the degree of inflation of the annular pneumatic-portion 54 of the upper roll and there is the further advantage that as the rubber of the tube 54 wears away, this wear may be compensated'fo'r by increasing the inflation of the member.

With either form of the apparatus herein illustrated for carrying on a process capable of producing a product which is the-equivalent of that produced by the first stage of the process de scribed and claimed in'the above-mentioned Wilson Letters Patent, it is possible to adjust the extent of the relative change in the length of the edge portions with respect to the intermediate portion of the strip in such a way that thesub sequent stretching of the edge portions of the strip would cause the strip to emerge from-the second stage in a longitudinally straight form without the use of the supporting rollers 43 and G4 which have heretoforebeen described-in connection with the second stage apparatus illustrated in Fig. 5. If the first'stage rolls are-properly adjusted, the second stage operation may immediately follow the first stage and the Whole operation of forming the completed slat carried on as a continuous process; similar to that-Jdescribed. and claimed in the United States' Letters Patent of Allen B. Wilson No. 2,370,215, dated February 27, 19 15. In Fig; 8 there is illustrated a form of apparatus which may be thus 'arranged for carrying on both stages of the process i'na continuous operation with the use of the form of rollsillustrated in Figs; 5 ando. As showri-in Fig; 8, the apparatus comprises a reel 68 from which themetal strip 55 is drawn around'an-idler roller 69 and thence around a friction drag roller Ill which may be adjusted for varying theresistance to the rotation of this roller-for retarding the movement of the metal strip 55 as itis unwound from the coil; The strip 55 then passes through the rolls 52 and 54 which have the construction previously described and the strip, having its intermediate portion longer than its edge portions which have been compressed and shortened, then passes through the forming rolls I2 and I3 which are rotated in the direction indicated by the arrows I4 through suitable power driven mechanism, not shown. The transversely curved complementary peripheral surfaces of the rolls 12 and 1'3 impart a transverse curvature to the metal strip 55 as it passes between them. At the same time, the edge portions of the strip are stretched longitudinally so that the strip emerges from the discharge sides of the rolls l2 and I3 transversely curved and longitudinally straight.

Although the rolls l2 and 1'3 may supply the power for moving the strip 55 through these rolls and also through the rolls 52 and 54, the strip may be withdrawn through both of these sets of rolls under tension by means of power actuated driving rolls l5 and 16 which engage opposite sides of the strip and which have cylindrical peripheral surfaces. These rolls l5 and Hi are preferably formed of steel and the metal strip, after passing around substantially one half of the peripheral surface of the roll 15, is reversed and passed around the major portion of the roll 16 with which it is maintained in close contact by a pressure roll IT having a peripheral portion formed of rubber or the like. The rolls I5 and T6 are of the same diameters and are power driven, being geared together so that their peripheral portions travel at the same speed. In passing around these rolls i5 and it, the concave strip is temporarily flattened but promptly resumes its :5

normal transverse curvature due to the resilience of the hard thin metal of which the strip is formed.

If, during the operation of the apparatus shown in Fig. 8, it is found that the portion of the strip on the discharge side of the rolls l2 and T3 is not longitudinally straight, or does not have any other longitudinal shape which is desired, this may be corrected by adjusting the inflation of the peripheral portion of the upper roll 54 to effect an adjustment of the change in the relative longitudinal dimensions of different laterally displaced portions of the strip as it passes through the' rolls 52 and 5G. The major portion of the longitudinal stretching and compression of the strip, by which the inequalities in the internal stresses in the metal are removed in the final product, may be effected largely or wholly by the rolls 52 and 54 but, in general, there will be some longitudinal stretching of the lateral edge portions of the strip as it passes through the forming rolls i2 and 13, by reason of the fact that, due to the increased concavity of the strip at the place where it contacts the forming rolls as compared with its shape at places in advance of and following said forming rolls, the edge portions of the strip are compelled to travel longer paths than the intermediate portions of the strip as the strip passes through the region which includes the forming rolls. In any case, the entire operation is carried on as a continuous process and when the parts are adjusted to produce a final product which is longitudinally straight, it is believed that all parts of the strip will have been worked longitudinally either by compression or stretching to substantially the same degree.

Although two forms of the apparatus of the present invention have been shown and described in connection with the disclosure of the preferred practice of the improved method of 8 producing a metal strip having an intermediate portion longer than its edge portions, it will be understood that both the method and the apparatus may be modified in various ways without departing from the scope of the appended claims.

I claim:

1. The method of treating a long, thin metal strip in a continuous process without imparting a permanent transverse curvature to the strip, which comprises continuously and progressively moving the strip longitudinally in thesame. direction along a path a portion of which is curved longitudinally and transversely of the strip, exerting pressure continuously on opposite sides of said strip at said curved path, said pressure being exerted transversely to said sides of the strip to flex that part of the strip in said curved portion, and moving the intermediate portion of the strip in said curved portion through a longer path and therefore at a faster rate than the edge portions to permanently longitudinally stress the strip as it moves along said curved path portion to produce in the strip a condition wherein said intermediate portion of the strip is longer than its edge portions, thereby leaving the strip in a buckled condition between its edges.

2. The combination in apparatus for treating a long metal strip, of a crowned roll over which the strip is adapted to be passed endwise continuously in the same direction, a deformable compressible member engaging the strip under pressure on the side thereof opposite said roll at the place of contact with said roll, means for holding the strip contacting portion of said deformable member in a deformed shape corresponding to the transverse curvature of a substantial annular distance of said crowned roll, and means for passing said strip continuously in the same direction over said crowned roll while it is being held in contact with said roll by the deformed portion of said member, whereby said member is deformed and compressed and said strip is caused to conform to the longitudinal curvature of said roll through a substantial annular distance and also to conform to the transverse curvature of said roll, thereby longitudinally stressing said strip and producing a condition wherein the intermediate portion of the strip is longer than its edges.

3. The combination in apparatus for treating a long metal strip, of a crowned roll over which the strip is adapted to be passed endwise continuously in the same direction, a second roll having a deformable and resilient annular portion engaging said strip under pressure on the side thereof opposite said crowned roll at the place of contact with said crowned roll, means for holding the strip contacting portion of said second roll under pressure to hold a portion thereof in a deformed shape corresponding to the transverse curvature of a substantial annular portion of said crowned roll, and means for passing said strip continuously in the same3direction over said crowned roll while a portion of said second roll is so deformed, whereby said second roll is deformed and compressed and said strip is caused to conform to the longitudinal curvature of said crowned roll through a, substantial annular distance and also to conform to the transverse curvature of said crowned roll, thereby longitudinally stressing said strip and producing a condition wherein the intermediate portion of the strip is longer than its edges.

GODFREY STANIUS.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date Pocock Feb. 8, 1888 Hyde June 29, 1909 Drewes Apr. 15, 1919 Heinrichs Dec. 5, 1922 Ledwinka July 28, 1931 Best Feb. 1, 1938 Johnston July 5, 1938 Huston Sept. 20, 1938 Number Number

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2692003A (en) * 1951-11-07 1954-10-19 Bethlehem Steel Corp Apparatus for forming metal strips of curved cross-sections
US2717626A (en) * 1951-03-09 1955-09-13 Henry L Johnson Apparatus for producing edge compression stresses in metal strips
US2717625A (en) * 1951-03-09 1955-09-13 Glenn L Sherwood Apparatus for producing edge compression stresses in metal strips
US2735474A (en) * 1956-02-21 Method of producing compression
US2802509A (en) * 1952-04-30 1957-08-13 Aluminum Co Of America Apparatus for the fabrication of ribbed structural members
US2831521A (en) * 1949-09-09 1958-04-22 Nat Steel Corp Method and apparatus for forming a structural member by deforming a grooved portion of a metal strip
US2969826A (en) * 1956-10-03 1961-01-31 Valentine E Macy Jr Method and apparatus for forming compound curvatures in sheet material
US3006401A (en) * 1957-10-23 1961-10-31 Acme Steel Co Apparatus for conditioning metal strip having non-uniform stresses therein
US4145905A (en) * 1977-12-02 1979-03-27 Marathon Manufacturing Company Method and apparatus for controlling bow in venetian blind slats
US6751995B1 (en) * 2002-08-09 2004-06-22 Steven W. Sabasta Roll bending die
US7677505B2 (en) 2007-02-22 2010-03-16 Mack Deichman Arcuate saddle with partial ribs

Citations (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US357228A (en) * 1887-02-08 Machine for bending sheet metal
US926253A (en) * 1909-03-15 1909-06-29 George H Hyde Apparatus for deforming sheet-metal plates.
US1300704A (en) * 1917-04-14 1919-04-15 Johannes Drewes Power-press for bending plates or metal sheets.
US1437843A (en) * 1920-03-17 1922-12-05 Mid West Box Company Machine for feeding corrugated board
GB220766A (en) * 1923-06-29 1924-08-28 Frank Bazeley Coating articles or surfaces with sheet metal veneer
US1816594A (en) * 1930-05-29 1931-07-28 Budd Edward G Mfg Co Method of and apparatus for making sheets and irregular surface contours
GB399000A (en) * 1932-08-12 1933-09-28 J E Hanger & Company Ltd Improvements in and relating to apparatus for shaping or working sheet metal
US2106866A (en) * 1934-10-15 1938-02-01 Frank A Best Metalworking machine
US2122615A (en) * 1937-02-23 1938-07-05 Mckay Machine Co Aligning device for cold roll forming machines and the like
US2130586A (en) * 1936-02-18 1938-09-20 Huston Arch Charles Forming roller for tube-winding machines
US2180046A (en) * 1935-07-02 1939-11-14 Gleissner Paul Calendering machine
US2262550A (en) * 1937-11-23 1941-11-11 Joseph L Hunter Means for producing venetian blind slats
US2294434A (en) * 1938-11-07 1942-09-01 Acme Steel Co Method and apparatus for forming venetian blind slats and strip material therefor
US2333282A (en) * 1938-12-16 1943-11-02 Acme Steel Co Method of and apparatus for straightening strip steel
US2337047A (en) * 1939-06-19 1943-12-21 Acme Steel Co Method of and apparatus for stretching metal strips
US2338678A (en) * 1940-07-26 1944-01-04 Acme Steel Co Method of and apparatus for forming venetian blind slats
US2346990A (en) * 1942-04-20 1944-04-18 Leslie Dunn G Method and means for forming window blind slat stock
US2397608A (en) * 1942-02-19 1946-04-02 Corydon M Johnson Former for sheet metal parts

Patent Citations (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US357228A (en) * 1887-02-08 Machine for bending sheet metal
US926253A (en) * 1909-03-15 1909-06-29 George H Hyde Apparatus for deforming sheet-metal plates.
US1300704A (en) * 1917-04-14 1919-04-15 Johannes Drewes Power-press for bending plates or metal sheets.
US1437843A (en) * 1920-03-17 1922-12-05 Mid West Box Company Machine for feeding corrugated board
GB220766A (en) * 1923-06-29 1924-08-28 Frank Bazeley Coating articles or surfaces with sheet metal veneer
US1816594A (en) * 1930-05-29 1931-07-28 Budd Edward G Mfg Co Method of and apparatus for making sheets and irregular surface contours
GB399000A (en) * 1932-08-12 1933-09-28 J E Hanger & Company Ltd Improvements in and relating to apparatus for shaping or working sheet metal
US2106866A (en) * 1934-10-15 1938-02-01 Frank A Best Metalworking machine
US2180046A (en) * 1935-07-02 1939-11-14 Gleissner Paul Calendering machine
US2130586A (en) * 1936-02-18 1938-09-20 Huston Arch Charles Forming roller for tube-winding machines
US2122615A (en) * 1937-02-23 1938-07-05 Mckay Machine Co Aligning device for cold roll forming machines and the like
US2262550A (en) * 1937-11-23 1941-11-11 Joseph L Hunter Means for producing venetian blind slats
US2294434A (en) * 1938-11-07 1942-09-01 Acme Steel Co Method and apparatus for forming venetian blind slats and strip material therefor
US2333282A (en) * 1938-12-16 1943-11-02 Acme Steel Co Method of and apparatus for straightening strip steel
US2337047A (en) * 1939-06-19 1943-12-21 Acme Steel Co Method of and apparatus for stretching metal strips
US2338678A (en) * 1940-07-26 1944-01-04 Acme Steel Co Method of and apparatus for forming venetian blind slats
US2397608A (en) * 1942-02-19 1946-04-02 Corydon M Johnson Former for sheet metal parts
US2346990A (en) * 1942-04-20 1944-04-18 Leslie Dunn G Method and means for forming window blind slat stock

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2735474A (en) * 1956-02-21 Method of producing compression
US2831521A (en) * 1949-09-09 1958-04-22 Nat Steel Corp Method and apparatus for forming a structural member by deforming a grooved portion of a metal strip
US2717626A (en) * 1951-03-09 1955-09-13 Henry L Johnson Apparatus for producing edge compression stresses in metal strips
US2717625A (en) * 1951-03-09 1955-09-13 Glenn L Sherwood Apparatus for producing edge compression stresses in metal strips
US2692003A (en) * 1951-11-07 1954-10-19 Bethlehem Steel Corp Apparatus for forming metal strips of curved cross-sections
US2802509A (en) * 1952-04-30 1957-08-13 Aluminum Co Of America Apparatus for the fabrication of ribbed structural members
US2969826A (en) * 1956-10-03 1961-01-31 Valentine E Macy Jr Method and apparatus for forming compound curvatures in sheet material
US3006401A (en) * 1957-10-23 1961-10-31 Acme Steel Co Apparatus for conditioning metal strip having non-uniform stresses therein
US4145905A (en) * 1977-12-02 1979-03-27 Marathon Manufacturing Company Method and apparatus for controlling bow in venetian blind slats
US6751995B1 (en) * 2002-08-09 2004-06-22 Steven W. Sabasta Roll bending die
US7677505B2 (en) 2007-02-22 2010-03-16 Mack Deichman Arcuate saddle with partial ribs

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