US495591A - knight - Google Patents
knight Download PDFInfo
- Publication number
- US495591A US495591A US495591DA US495591A US 495591 A US495591 A US 495591A US 495591D A US495591D A US 495591DA US 495591 A US495591 A US 495591A
- Authority
- US
- United States
- Prior art keywords
- press
- plate
- plungers
- die
- plunger
- 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.)
- Expired - Lifetime
Links
- 230000000153 supplemental Effects 0.000 description 38
- 239000002184 metal Substances 0.000 description 36
- 238000000034 method Methods 0.000 description 8
- 239000012530 fluid Substances 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 4
- 240000000800 Allium ursinum Species 0.000 description 2
- 230000000994 depressed Effects 0.000 description 2
- 230000000630 rising Effects 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D22/00—Shaping without cutting, by stamping, spinning, or deep-drawing
- B21D22/20—Deep-drawing
- B21D22/30—Deep-drawing to finish articles formed by deep-drawing
Definitions
- This invention consists in a novel apparatus for dishing or bulging metal plates whereby the original thickness of the plate is substantially preserved throughout the dished or bulged portion.
- the invention is particularly applicable for the forming of bulges in wrought metal plates used in the process of manufacturing cross boxes or saddles for attachment to the steam and water drum or reservoir of a sectional steam generator of the well known Babcock 8n Wilcox type, although it is equally applicable to the manufacture of plates having a dished or bulged surface adapted for other uses.
- the supplemental press consists of a cylinder E forming a base for that press and provided with an upper casing F. Within the cylinder and the casing there is mounted a plurality of plungers or rams D, D, D arranged telescopically, one within the other, as shown,and each provided at its upper end with a ring or annular die C, C, C respectively, which are also arranged telescopically one within the other. These ring dies are formed independent of the plungers and rest upon their respective heads as shown.
- the ring dies are held, for a purpose that will afterward appear, substantially level with the upper surface of the casing F as in
- the ring dies may be of circular shape and arranged concentrically one within the other, or they may be of any other shape such as oblong or rectangular suited to the form of dish or bulge that is to be imparted to the plate, and by making the said ring dies independent of the plungers they may be removed and others substituted for them.
- the motor fluid under say eight hundred pounds pressure, will be allowed to pass to the supplemental press A thereby forcing each of its plungers to the limit of their upward movement to bring the upper surface of each of the ring dies in substantially the same plane and preferably in the same plane with the top surface of the casing F.
- the metal plate Y Upon the top of this casing is placed the metal plate Y to be bulged, having been previously heated, see Fig. 2.
- the motor fluid is then allowed to pass to the main hydraulic press A under the same pressure as that in the supplemental press A, thereby causing the ram or plunger to move the supplemental press bodily upward toward the die-block B causing the heated plate to be partially bulged or dished around the end of the dieblook as shown in Fig.
- the ring die of the inner plunger supports the metataround its edge in contact with the outer surface of the die block so that it partakes of its shape as in Fig. 3.
- the inner ring die still supports the plate against the die block, but the adjacent ring die is aiding the support and has also forced the plate to conform still more with the shape of the die block; and in Fig. 5, all three of the ring dies are supporting the dished portion of the plate against the die block, while in Fig.
- the upward movement of the intermediate plunger D will be limited by the head of the inner plunger, while the upward movement of the outer plunger D will be limited by the head of the intermediate plunger, and the upward movement of all three plungers will be limited by the head of the outer plunger meeting the top of the cylinder E, as shown in the bulged portion of the plate upon the die die block and is bent or turned over the Fig. 6.
- the plate may be reheated if desired.
- the stop disks placed around the die block are merely to limit the maximum movement of the supplemental press at each step of the process and by being pressed against that portion of the plate surrounding the depression insures the definite position of the depressed metal to the fiat portion and to form the proper radius or curve of the corners of the depression Where they join said flat portion.
- a greater pressure is turned onto the main cylinder of the press after the first depression has been formed and the plate is tightly squeezed between the stop disk and the head of the auxiliary press to straighten out the metal.
- each of the plungers thereof with its ring die acts upon the metal until it is backed off or yields by the superior pressure of the main cylinder, and thereafter during the continuance of the operation merely acting as a clamp to hold the metal already formed in shape against the die block.
Description
(No Model.) 2 Sheets-Sheet 1, O. A. KNIGHT & 0. P. HIGGINS. HYDRAULIC STAMPING PRESS.
No. 496,591 Patented Apr. 18, 1893.
Fly]
WITNESSES: @w-xwa l. INVYENTUBS 6%0 1 W 112 (LE/14 I 6 4 1 BY V 42 M (No Model.) 2 Sheets-Sheet 2; G. A. KNIGHT & 0. P. HIGGINS,
HYDRAULIC STAMPING PRESS.
No. 495,591. Patented Apr. 18, 1893..
////4 All 1 m I u Fly;
WITNESSES:
6% My "WW2 3%; w: aw! ATTY.
UNrTno STATES PATENT @Trrcn.
CHARLES A. KNIGHT, OF GLASGOW, AND CAMPBELL P. HIGGINS, OF KILBOVVIE, SCOTLAND.
HYDRAULIC STAMPING-PRESS.
$PEGIFIGATION forming part of Letters Patent No. 495,591, dated April 18, 1893.
Application filed March 26. 1891. Serial No. 386,578. (No model.) Patented in England April 3, 189 0 No. 5,165 in France May 8, 1890, No. 205,555; in Belgium May 8,1890, No. 90,4189, and in Germany May 8, 1890, Nos. 56,681 and 57,534.
To all whom it may concern.-
Be it known that'we, CHARLES A. KNIGHT, residing at Glasgow, in the county of Lanark, and CAMPBELL P. I-Irecuus, residing at Ki1- bowie,in the county of Dumbarton, Scotland, citizens of the United States, have invented certain new and useful Improvements in Hydraulic Stamping-Presses, (for which we have obtained patents in Great Britain April 3, 1890, No. 5,165; in France, No. 205,555, dated May 8, 1890; in Belgium, No. 90,489, dated May 8, 1890, andin Germany,Nos. 56,681 and 57,534, dated May 8, 1890,) of which the following is a specification.
This invention consists in a novel apparatus for dishing or bulging metal plates whereby the original thickness of the plate is substantially preserved throughout the dished or bulged portion.
It may be stated that the invention is particularly applicable for the forming of bulges in wrought metal plates used in the process of manufacturing cross boxes or saddles for attachment to the steam and water drum or reservoir of a sectional steam generator of the well known Babcock 8n Wilcox type, although it is equally applicable to the manufacture of plates having a dished or bulged surface adapted for other uses.
As a more complete understanding of the invention will be had from a detailed description of the improved apparatus employed in carrying it out, such description will now be given, reference being had to the accompanying drawings, in wl1ich:
Figure 1 is a side elevation of an ordinary hydraulic press provided with the improved apparatus. Fig. 2 is an enlarged sectional elevation of a portion of the apparatus shown in Fig. 1, the hydraulic press proper not being shown. Fig. 3 is asimilar view partly in elevation showing the firststep of the method of operation. Figs. 4, 5 and 6 are similar views showing successive steps of the method of operation and the completion of the dishing or bulging of the plate.
The apparatus consists essentially of a hydraulic press adapted to be used as a tool or as a supplemental press A in a hydraulicpress Fig. 2.
of the usual form. Thus, as shown in Fig. 1, it is mounted upon the end of a movable ram or plunger A of the usual hydraulic press A and may when occasion requires be entirely removed therefrom so that the press may be employed for other purposes.
The supplemental press consists of a cylinder E forming a base for that press and provided with an upper casing F. Within the cylinder and the casing there is mounted a plurality of plungers or rams D, D, D arranged telescopically, one within the other, as shown,and each provided at its upper end with a ring or annular die C, C, C respectively, which are also arranged telescopically one within the other. These ring dies are formed independent of the plungers and rest upon their respective heads as shown. The upward movement of the plungers is limited first by the head of the outer plunger striking a shoulder 10 of the casing F,while the other two plungers are limited bya key 12 that is supported by the outer plunger and passes diametrically through slotted openings in the other plungers as shown. The downward movements of the plungers are also limited by the meeting of the head of the innermost plunger with the head of the surrounding plunger and likewise by the meeting of the head of the latter plunger with the head of the outer plunger, and the outer one is limited by its head meeting the cylinder E. By reason of the limitation of the movement of the plungers in their upward position, the ring dies are held, for a purpose that will afterward appear, substantially level with the upper surface of the casing F as in The ring dies may be of circular shape and arranged concentrically one within the other, or they may be of any other shape such as oblong or rectangular suited to the form of dish or bulge that is to be imparted to the plate, and by making the said ring dies independent of the plungers they may be removed and others substituted for them.
Co-operating with the supplemental press described there is a die block B secured to the top sill of the press and having a number of removable stop disks Gthereon for determining the extent to which the plate will be bulged at each operation, and forming stops limiting the upward movement of the supplemental press in the successive steps of the process.
In the operation of the apparatus, the motor fluid under say eight hundred pounds pressure, will be allowed to pass to the supplemental press A thereby forcing each of its plungers to the limit of their upward movement to bring the upper surface of each of the ring dies in substantially the same plane and preferably in the same plane with the top surface of the casing F. Upon the top of this casing is placed the metal plate Y to be bulged, having been previously heated, see Fig. 2. The motor fluid is then allowed to pass to the main hydraulic press A under the same pressure as that in the supplemental press A, thereby causing the ram or plunger to move the supplemental press bodily upward toward the die-block B causing the heated plate to be partially bulged or dished around the end of the dieblook as shown in Fig. 3; all further movement of the press being stopped by the meeting of the lower stop disk with the plate and confining the latter between the said disk and the ring dies and top of the casing F. The pressure in the main press is then temporarily out olf to lower the supplemental press from the die block and allow the removal of one or more of the stop disks G. The pressure is then allowed to pass to the main press under an increased pressure over that in the supplemental press and thus raise thesupplementalpressandwithit the partially bulged plate again against the die block. This increased pressure which may be two thousand pounds is sufficient to overcome the lesser pressure upon the plungers of the supplementalpress so that the inner plunger D and its ring die will yield with respect to the upward movementofthesupplementalpressasawhole; in other words said plunger and its ring remain in position in contact with the previously bulged portion of the plate while the remaining plungers and their ringdies with the supplemental press as a whole move bodily upward. The rising movement of said remaining plungers and the supplemental press as a Whole, independent of the inner plunger and its ring die, thereby gradually increases the effective diameter of the lower die face. In the change from the ring die 0 to the next adjacent ring die 0', which is nowin position to bear against the metal plate, its edge acts as a drawing face over which the metal is drawn uniformly inwardly from all sides while it is constantly holding the inwardly drawn metal against the die block until the further movement of the supplemental press and its dies is stopped by the stop disk meeting the plate as in Fig. 4, the plate having been further dished or bulged. If a yet larger dish or bulge is desired in the plate, the pressure is relieved from the main press and the supplemental press allowed to drop from the die block so that one or more of its stop disks I may be removed, when the increased pressure will again pass to the main press sufficient to more than overcome that in the supplemental press acting upon the inner and intermediate plungers D D, and their ring dies 0 C, which in this case will both yield as did the inner plunger and its ring die in the previous step; or in other words the inner and intermediate plungers D and D with their ring dies will remain still in forcible contact with block while the remaining plungerD, its ring die 0 and the supplemental press move still farther bodily upward until the press assumes the position shown in Fig. 5, and the stop disk meets the metal plate whereby that plate is still further dished around the edge of the ring die 0 of the outer plunger. If a still more enlarged dish or bulge is necessary to the plate, a similar operation will be followed first removingthe remaining stop disk from the die block and applying the increased pressure to the main press so that all three plungers with their ring dies yield while the supplemental press moves still farther upward leaving the said three ring dies in forcible contact with the bulged plate against the die block, the plate being then bent or turned over the edge of the casing F, as shown in Fig.6. In the first step in the dishing of the plate, the ring die of the inner plunger supports the metataround its edge in contact with the outer surface of the die block so that it partakes of its shape as in Fig. 3. In the second step, as shown in Fig. 4, the inner ring die still supports the plate against the die block, but the adjacent ring die is aiding the support and has also forced the plate to conform still more with the shape of the die block; and in Fig. 5, all three of the ring dies are supporting the dished portion of the plate against the die block, while in Fig. ,their support is supplemented by the edge of the casing F, and as each ring die has acted in succession against different portions of the metal plate in the upward movement of the press, each has aided in the drawing of the metal inwardly in a uniform manner to provide sufficient metal to form the bulge without drawing upon that portion already bulged. The drawing action of each ring die is made uniform by providing a stop limiting its upward movement at theend of each step in the process and insuring the simultaneous yielding movement of one, two and then of all three ring dies and their plungers. At the same time the upward movement of the intermediate plunger D will be limited by the head of the inner plunger, while the upward movement of the outer plunger D will be limited by the head of the intermediate plunger, and the upward movement of all three plungers will be limited by the head of the outer plunger meeting the top of the cylinder E, as shown in the bulged portion of the plate upon the die die block and is bent or turned over the Fig. 6. Of course between each successive action of the dies and die block B, the plate may be reheated if desired. The stop disks placed around the die block are merely to limit the maximum movement of the supplemental press at each step of the process and by being pressed against that portion of the plate surrounding the depression insures the definite position of the depressed metal to the fiat portion and to form the proper radius or curve of the corners of the depression Where they join said flat portion. Thus a greater pressure is turned onto the main cylinder of the press after the first depression has been formed and the plate is tightly squeezed between the stop disk and the head of the auxiliary press to straighten out the metal. The area of the main cylinder being more than sufficient to overcome the combined areas of the plungers of the supplemental press and the resistance of the metal as the plate of the main cylinder rises carrying the supplemental press With it, each of the plungers thereof with its ring die in turn acts upon the metal until it is backed off or yields by the superior pressure of the main cylinder, and thereafter during the continuance of the operation merely acting as a clamp to hold the metal already formed in shape against the die block.
In the use of the apparatus following the method of operation described, it has been found that in stead of straining the metal around the apex or end of the die block B at each successive operation, thereby reducing the thickness of the metal, the metal is drawn uniformly from the outside of the die inwardly so that the dished or bulged portion of the plate is kept of substantially the same plate that die, a stop limiting the movement of each plunger, and a die block coactingtherewith substantially as described.
4. The combination of a plurality of telescopically arranged plungers, each carrying a die, a stop limiting the movement of each plunger, and another stop limiting the combined movement of the plungers, substantially as described.
5. The combination of a cylinder and its casing, a plurality of telescopically arranged plungers in said cylinder and within the easing, a plurality of dies one for each plunger, the head of the outer plunger or plungers forming a stop for the adjacent inner plunger, and the cylinder forming a stop for all of the plungers.
CHARLES A. KNIGHT. O. P. HIGGINS.
Witnesses:
G. W. THODE,
21 Bothwcll Sir. WALLACE FAIRW'EATHER,
C. E. 62 St. Vincent St, Glasgow.
Publications (1)
Publication Number | Publication Date |
---|---|
US495591A true US495591A (en) | 1893-04-18 |
Family
ID=2564429
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US495591D Expired - Lifetime US495591A (en) | knight |
Country Status (1)
Country | Link |
---|---|
US (1) | US495591A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3031993A (en) * | 1958-05-01 | 1962-05-01 | Engineering Supervision Compan | Metal-forming press |
US3285045A (en) * | 1964-04-13 | 1966-11-15 | Bendix Corp | Two stage forming with expanding skirt step |
US3372569A (en) * | 1963-08-01 | 1968-03-12 | Continental Can Co | Die to form and trim a round tapered container in one operation |
US5168740A (en) * | 1988-12-24 | 1992-12-08 | Albert Griesemer | Method for producing drawn bores in sheet-metal pieces |
-
0
- US US495591D patent/US495591A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3031993A (en) * | 1958-05-01 | 1962-05-01 | Engineering Supervision Compan | Metal-forming press |
US3372569A (en) * | 1963-08-01 | 1968-03-12 | Continental Can Co | Die to form and trim a round tapered container in one operation |
US3285045A (en) * | 1964-04-13 | 1966-11-15 | Bendix Corp | Two stage forming with expanding skirt step |
US5168740A (en) * | 1988-12-24 | 1992-12-08 | Albert Griesemer | Method for producing drawn bores in sheet-metal pieces |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US1475032A (en) | Bubgh | |
US4195510A (en) | Draw bead having alternating pressure surfaces and grooves | |
JP3579936B2 (en) | Molding method for bottomed tubular products | |
US2586029A (en) | Apparatus for forming drop-center rims | |
US495591A (en) | knight | |
US2285903A (en) | Apparatus for making metallic receptacles | |
US1920303A (en) | Method of and machine for making wheel rims | |
US1699361A (en) | Method of forming integral tubular projections on a sheet of metal | |
US3131758A (en) | Heat exchanger apparatus | |
US3509755A (en) | Method and apparatus for producing vehicle rims | |
US3672194A (en) | Forming and trimming apparatus for hydroform press | |
US3481293A (en) | Method for manufacturing wheel covers | |
US1940305A (en) | Method of making rear axle housings | |
US2058007A (en) | Production of preliminarily shaped annular blanks | |
US2124923A (en) | Metalworking machine | |
US1707891A (en) | Process of manufacturing manhole covers | |
US1513644A (en) | Method and apparatus for forming brake drums | |
US736551A (en) | Manufacture of wheels and pulleys. | |
US2639495A (en) | Method for producing a sharply bent corner in a plate | |
US1609785A (en) | Method and die for producing forged circular disks | |
US2154983A (en) | Metalworking machine | |
SU925480A1 (en) | Apparatus for forming barrel-shaped parts | |
US3420088A (en) | Manufacturing of containers by deep drawing | |
US3307388A (en) | Wheel manufacture | |
US1000002A (en) | Dies. |