EP0732162A2 - Presse zum Stanzen von Blechtafeln und zum Formen becherförmiger Gegenstände wie Kappen, Verschlüsse und Deckel zum Verschliessen von Flaschen, Dosen und ähnlichem - Google Patents

Presse zum Stanzen von Blechtafeln und zum Formen becherförmiger Gegenstände wie Kappen, Verschlüsse und Deckel zum Verschliessen von Flaschen, Dosen und ähnlichem Download PDF

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Publication number
EP0732162A2
EP0732162A2 EP96103758A EP96103758A EP0732162A2 EP 0732162 A2 EP0732162 A2 EP 0732162A2 EP 96103758 A EP96103758 A EP 96103758A EP 96103758 A EP96103758 A EP 96103758A EP 0732162 A2 EP0732162 A2 EP 0732162A2
Authority
EP
European Patent Office
Prior art keywords
blanking
punch
stem
piston
ring
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.)
Withdrawn
Application number
EP96103758A
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English (en)
French (fr)
Other versions
EP0732162A3 (de
Inventor
Rodiero Alieri
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.)
Sacmi Imola SC
Original Assignee
Sacmi Imola SC
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 Sacmi Imola SC filed Critical Sacmi Imola SC
Publication of EP0732162A2 publication Critical patent/EP0732162A2/de
Publication of EP0732162A3 publication Critical patent/EP0732162A3/de
Withdrawn legal-status Critical Current

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Classifications

    • 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
    • B21D51/00Making hollow objects
    • B21D51/16Making hollow objects characterised by the use of the objects
    • B21D51/38Making inlet or outlet arrangements of cans, tins, baths, bottles, or other vessels; Making can ends; Making closures
    • B21D51/44Making closures, e.g. caps

Definitions

  • the present invention relates to a press for blanking metal sheets and for forming cup-shaped items such as caps, closures, and lids for closing bottles, jars, cans, and the like.
  • Presses of the described type are already commercially available. They comprise at least one annular blanking element that is actuated with a reciprocating motion and cuts a disk of metal from a sheet or strip. A forming punch runs inside the annular blanking element and, by advancing with respect to the blanking element, said punch draws the disk inside a die, forming a cup.
  • a collar of the punch provided with a cutting edge, in cooperation with a complementary cutting edge of the die, trims the cup by cutting its rim.
  • a principal aim of the present invention is to provide a press that allows to obviate substantially the above drawbacks, i.e., that can be adapted to the formation of sheet metal items having any shape.
  • a press for blanking a metal sheet and for forming drawn cup-shaped items such as caps, closures, and lids for closing bottles, jars, cans, and the like, characterized by: a fixed beam, in which a first part of at least one forming unit is supported, said first part comprising a sleeve that is supported in the beam and has a seat in which a stem is slidingly guided, said stem having, at one end, a forming punch, the opposite end being instead subjected to the action of return means for the return of said stem, said punch being guided in a blanking ring whereon a fluid-actuated actuator connected to a pressure source acts; a first movable beam, in which a second part of said forming unit is supported, said second part comprising a die that is coaxial to said stem and has a seat for receiving said blanking ring and a rim that forms, with said ring, the means for blanking the metal sheet, a contrast bush for said blanking ring, a counter
  • the press comprises a frame 1 having two pairs of parallel posts 2 connected by a fixed beam 3 (hereinafter termed upper beam).
  • a movable beam 4 termed lower beam, slides on the posts 2 and is actuated reciprocatingly by eccentric elements 5 mounted on a rotating shaft 5a and acting on the beam 4 by means of bearings 5b.
  • An intermediate fixed beam 6 is arranged above the movable beam 4 and an additional movable beam 7 is guided on the posts 2 between the fixed beams 3 and 6.
  • the activation of the upper movable beam 7 is actuated by two connecting rods 7a that connect the upper beam 7 to respective eccentric elements 8 that are keyed to the shaft 5a outside the posts 2.
  • the eccentric elements 8 are offset with respect to the eccentric elements 5, so as to produce a movement of the upper beam 7 towards the fixed beam 6 when the stroke for approaching the lower movable beam 4 towards said beam 6 has ended.
  • the blanking and forming units are mounted on the intermediate beam 6 and on the lower beam 4 and are arranged on two parallel rows; one of said units is shown in detail in figures 2 and 3.
  • Said figures show the movable beam 4 and the intermediate beam 6, each whereof supports part of the blanking and forming unit.
  • the reference numeral 8a designates a seat of the beam 6 wherein a sleeve 9 is centered; said sleeve is locked between a shoulder 10 and a ring 11 that is screwed on a threaded portion 12 lying below the beam 6.
  • the sleeve 9 is prevented from rotating by a pin 13 driven into the beam 6 and protrudes, with a portion 14, above the beam 6 so as to form a cylindrical seat 15.
  • the portion 14 has a threaded internal portion 16 wherein a tubular body 17 is screwed; said body forms an axial sliding seat 18 for a stem 19 having an axis A.
  • a piston 20 is fixed in the upper end of the stem 19, is hermetically guided in the seat 15, and is prevented from rotating by a pin 21 that is fixed thereon and slidingly engages a bush 22 supported by an arm 23 that is fixed on the portion 14.
  • the piston 20 encloses, together with the cylindrical portion 14 and the tubular body 17, a chamber 24 that can be connected to a source of compressed air by a union 25 and by valve means that are not shown.
  • the piston 20 is locked between a shoulder 26 of the stem 19 and a nut 27 screwed on a threaded portion of said stem.
  • the nut 27 protrudes partially from the top of the stem, so as to form a cavity wherein a pad 28 is inserted; a respective block 29 acting on said pad is mounted adjustably on the movable beam 7 (reference should be made to the following description relating to figure 7).
  • a forming punch 30 is shaped at the end of the stem 19 that lies opposite to the pad 28 and is composed of a cylindrical expansion 31 (see figure 3) that is provided, at the front, with an annular ridge 32 and is surrounded by a sort of cup 33.
  • the cup 33 has an internal flange 34 that is crossed by bolts 35 for fixing to the expansion 31.
  • the rim of the cup 33 forms an annular ridge 36 that is concentric to the ridge 32 and protrudes from the plane of a central region constituted by a bottom plate 37 fixed by a screw 38.
  • the ridges 32 and 36 delimit a groove 39 into which a plurality of holes 40 formed in the expansion 31 lead.
  • the holes 40 lead, together with other holes 41 that pass through the expansion 31 and the bottom plate 37, into a channel 42 running axially inside the stem 19.
  • the channel 42 at the level of the tubular body 17, branches radially into a plurality of channels 43 that lead into an annular groove 44 formed between the adjacent surfaces of the stem and of the tubular body. Additional channels 45 extend from the groove 44 and connect it to a groove 46 lying between the outside surface of the tubular body 17 and the inside surface of the sleeve 9.
  • a duct 47 branches off from the groove 46 and, after passing through the sleeve 9, it continues through the fixed beam 6 for connection to the outside environment or, as an alternative, to a compressed air source. The purpose of the compressed air is to keep the forming region clean.
  • Sealing rings are provided to prevent the compressed air from seeping between the contacting surfaces of the sleeve 9 and the tubular body 17 and the contacting surfaces of said tubular body 17 and of the stem 19, said rings being shown in the drawings but not designated by reference numerals for reasons of clarity.
  • the portion 12 of the sleeve 9 and the cup 33 externally and internally delimit an annular compartment inside which a tubular element 48 is inserted; a ring 49 extends from said tubular element and constitutes the sheet metal blanking ring.
  • the ring 49 forms, together with the tubular element 48, a step 50 which, with the interposition of a shim ring 51, rests on a collar lying inside the portion 12.
  • a shim ring 51 rests on a collar lying inside the portion 12.
  • the tubular element 48 is inserted on a tang 52 of a piston 53 that is sealingly guided in the sleeve 9 below the tubular body 17 and rests on the piston 53 with the interposition of a swivel ring 54.
  • a compartment 55 is enclosed between the stem 52 and the punch 30 and is connected to the outside environment by means of openings 56 of the tubular element 48, an annular groove 57, and passages 58 of the sleeve 9.
  • An abutment ring 59 made of elastic material is accommodated in the compartment 55, rests on the punch 30, and is adapted to abut against the tang 52 when the punch 30 is raised.
  • Raised portions 60 are formed above the piston 53 and keep the surface of the piston spaced from the surface of the tubular body 17, forming a narrow chamber 61 that is constantly connected to the compressed air duct by radial holes 62 of the sleeve 9. It should be noted that the action of the compressed air on the piston 53 produces only a minimal stroke of the piston that is substantially equal to the small distance between the raised portions 60 and the face of the tubular body 17 against which they abut.
  • the sheet presser plate 63 is arranged below the fixed plate 6 and has, at the forming units, circular openings 64 that are concentric to the axis A and have a diameter that is slightly larger than the outside diameter of the blanking ring 49, so that said blanking ring can pass therethrough.
  • the sheet presser plate 63 is guided by secondary posts that are guided in the fixed beam 6 so that it can move parallel to itself towards the fixed beam 6 when it abuts against the part of the forming unit that is supported in the movable lower beam 4.
  • the return of the sheet presser plate to a position spaced from the fixed beam is achieved by means of return springs.
  • the guiding and return elements of the sheet presser plate are not shown in the drawing because they are fully conventional.
  • the elements that form the part of the forming unit that is supported in the lower movable beam 4 comprise a die 65 constituted by a bush inserted in a tubular segment 66 that is accommodated in a cylindrical seat 67 of the beam 4 the axis whereof is A and is therefore coaxial to the seat 8 of the beam 6.
  • the die 65 rests on a shoulder 68 of the seat 67 that surrounds an opening 69 which is open towards the lower face of the beam 4.
  • a seat is provided for accommodating a ring 70 the inside edge whereof constitutes a cutter that cooperates with the external cutter of the ring 49 to blank the metal sheet, designated by L in the figures.
  • the die 65 is prevented from rotating by a pin 71 that is driven into the shoulder 68, and is internally provided with a step 72 acting as a support for a bush 73, the top whereof reaches below the cutter of the ring 70 and forms, therewith, a seat 74 wherein the cutting rim of the blanking ring 49 can engage.
  • the bush 73 has a rounded inner edge so as to allow the wrinkle-free stretching of the sheet metal during the drawing of the cup.
  • a disk 75 furthermore rests on the shoulder 72 and is provided with a peripheral lip adapted to retain the bush 73; the counterpunch 76 rests on said disk and cooperates with the punch 30 to form the item.
  • the counterpunch 76 is frontally provided with a perimetric ridge 77 that is shaped complementarily to the groove 39 of the punch 30.
  • the ridge 77 in turn surrounds a groove 78 that is shaped complementarily to the ridge 32 of the punch.
  • a bottom plate 79 is recessed in the central region of the counterpunch 76 and is fixed by a central screw 80 that delimits the groove 78 internally.
  • the counterpunch 76 has a tang 81 that is inserted in the central opening 82 of the die 65 and is prevented from rotating by an axial pin 83 driven into the shoulder 72 through the disk 75.
  • An annular compartment is formed between the bush 73 and the outside surface of the counterpunch 76 and has a complementary cross-section with respect to the ridge 36 of the punch 30, so as to receive it during the step for forming the item.
  • the element for expelling the formed item is arranged slidingly in the annular compartment and is constituted by a sleeve 84 which is fixed on secondary posts 85 that are parallel to the axis A and are slidingly driven through the disk 75 and through guides 86 of the die 65.
  • the ends of the secondary posts lying opposite to the sleeve 84 are fixed in a piston 87 that is sealingly guided in a cylinder 88 which is centered in the opening 69 and is closed by a disk 89 centered on the cylinder 88.
  • the disk 89 has a central sleeve 90 running axially inside the cylinder 88 and whereon the piston 87 is sealingly slideable.
  • the stem of a bolt 91 is driven through the sleeve 90, and said bolt is screwed into the counterpunch 76; the head of said bolt is recessed in a hollow of the disk 89.
  • the bolt 91 secures against the beam 4 the disk 89 and the cylinder 88 on one side and the punch 76, the disk 75, and the die 65 on the other side.
  • the piston 87 together with the cylinder 88 and the disk 89, encloses a chamber 92 that is connectable, through a hole 93 of the disk 89 and a union 94, to a compressed air source.
  • suction may form between the front face of the counterpunch 76 and the corresponding region of the formed item, thus hindering the removal of said item by the sleeve 84.
  • a plurality of axial holes 96 is provided in the counterpunch 76, said holes leading into the groove 78 and into the surface of the bottom plate 79 and being connected to the outside environment by radial channels 97 and by an axial channel 98 running along the bolt 91.
  • the radial channels 97 also lead into the compartment wherein the sleeve 84 is slidingly accommodated, so as to avoid the formation of counterpressure during the activation of the piston 87.
  • the beam 4 is lowered with respect to the fixed beam 6 and the punch 30 is spaced from the counterpunch 76.
  • the punch 30 is furthermore raised in the position for resting on the piston 52, whereas the sheet presser plate 63, through the action of the springs, is lowered so as to keep the metal sheet L below the blanking ring 49.
  • the counterpunch 76 and the sleeve 84 are lowered so that their upper edge lies below the edge of the contrast bush 73.
  • the metal sheet is normally held against the lower face of the sheet presser plate 63 by appropriately provided strips that pass between the various forming units.
  • the blanking and forming steps entail at this point the rise of the beam 4 by virtue of the action of the eccentric elements 5 up to a level at which the die 65 first locks the metal sheet L against the sheet presser plate 63 and then, as its rising stroke continues, causes the blanking of a disk D of sheet metal in cooperation with the ring 49 that enters the seat 74.
  • the blanked disk D remains accommodated inside the seat 74 and rests on the top of the bush 73 (see figure 4).
  • compressed air is fed into the chamber 61 and, by acting on the piston 53, it causes the descent of the ring 49 and the locking of the peripheral region of the blanked disk D between the oppositely arranged ends of the ring 49 and of the bush 73.
  • the descent of the upper movable beam 7 is actuated, and its blocks 29, by acting on the stems 19, cause the descent of the punches 30.
  • a cup S (see figure 5) which has a cylindrical wall obtained by stretching and drawing the region of the disk that is secured between the ring 49 and the bush 73.
  • the outside diameter of the punch 30 at the ridge 36 is smaller than the inside diameter of the upper portion of the bush 73 so that, when the ridge 36 has entered the bush 73, an interspace remains wherein the cylindrical wall of the cup S can be accommodated. Subsequently, the lower beam 4 is again lowered and the upper beam is raised, while the punch 30 is raised by feeding compressed air into the chamber 24.
  • the cup When the punch 30 rises, the cup remains rested on the counterpunch 76, wherefrom it is removed by activating the piston 87 which, by lifting the sleeve 84, disengages the cup S from the die, so that it can be removed by auxiliary means that are not shown.
  • the forming region is cleaned of any residues by feeding compressed air through the holes 40 and 41.
  • the metal sheet is moved forwards by one pitch and the operating steps are repeated in the above described manner.
  • a fundamental prerogative of the present invention is the fact that the blanking movement is separate from the forming movement. Accordingly, the stroke of the moving lower beam 4, by virtue of which the metal sheet is blanked, is fixed and very small in view of the thickness of the metal sheet.
  • the drawing depth can be adjusted by moving the block 29 with respect to the beam 7, the stroke whereof can remain constant.
  • the block 29 is screwed into a tubular body 99 fixed below the beam 7 and provided with a tang 100 that runs inside the body 99 to be associated, by virtue of a prismatic coupling 101, with an element 102 the actuation whereof causes the screwing or unscrewing of the block 29 and therefore a movement of the point of impact on the pad 28.
  • the tang 100 is diametrically crossed by a pin 103 the opposite ends whereof engage in notches of a swivel ring 104, so that said swivel ring too is rotationally coupled to the tang 100.
  • a spring 106 acts on the swivel ring 104 by virtue of a ring 105 and rests on a ring 107 supported by a shoulder 108 lying inside the tubular body.
  • the ring 105 is rotationally rigidly coupled to the tubular body 99, so that a friction coupling occurs between the swivel ring 104 and the ring 105, thus preventing the block 29 from rotating.
  • the sleeve 84 in fact allows to arrange the counterpunch 76 so as to cooperate with the punch 30 for shaping the central region of the cup.
  • Figure 8 is a view of a different embodiment provided to protect the elements of the forming die from excessive loads.
  • a cylinder 106 is rigidly coupled to the piston 20 and is closed at the top by a lid 107.
  • the cylinder 106 is sealingly guided in an appropriately elongated portion 14 of the sleeve 9 and has a plurality of radial openings 108 proximate to the piston 20.
  • a piston 109 is slideable in the cylinder 106, and its stem 110 passes through the lid 107 to cooperate with the block 29.
  • the cylinder 106 together with the pistons 20 and 109, forms a chamber 111 which, by means of the openings 108, the interspace 112 formed between the cylinder 106 and the portion 14, as well as by means of further openings 113 of the portion 14, is connected to a channel 114 formed in a ring 115 that surrounds the portion 14.
  • the channel 114 is connected to a pressurized manifold 116 by means of an accumulator that is appropriately pre-loaded.
  • a seat is formed in the lid 107 and leads into the chamber 111; a ball 117 is accommodated in said seat, acts as a transducer, and is capable of descending from a position in which it is retracted in the seat of the lid to a position in which it protrudes into the chamber 111 to cooperate with the piston 109.
  • the position of the ball 117 can be detected by a sensor 118 capable of making the press stop when the pressure with which the block 29 acts on the stem 110 exceeds a preset value.
  • the pressure in the chamber 111 is such as to keep the piston 109 in abutment against the lid 107, so that the ball is within its own seat and the sensor 118 remains inactive, ensuring the operation of the press.
  • the block 29 If for any reason, for example due to jamming in the forming dies, the block 29 generates in the chamber 11 a pressure that is higher than the set value, the piston 109 separates from the lid 107, allowing the ball 117 to descend, consequently changing the state of the sensor 118. This change of state of the sensor is followed by the opening of the quick venting valve, which allows the block 29 to complete its stroke without causing excessive efforts on the forming dies.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
  • Shaping Metal By Deep-Drawing, Or The Like (AREA)
EP96103758A 1995-03-13 1996-03-11 Presse zum Stanzen von Blechtafeln und zum Formen becherförmiger Gegenstände wie Kappen, Verschlüsse und Deckel zum Verschliessen von Flaschen, Dosen und ähnlichem Withdrawn EP0732162A3 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ITBO950098 1995-03-13
IT95BO000098A IT1280394B1 (it) 1995-03-13 1995-03-13 Pressa per la tranciatura di lamierini e la formatura di articoli a forma di scodellino come tappi, capsule, coperchi per la chiusura di

Publications (2)

Publication Number Publication Date
EP0732162A2 true EP0732162A2 (de) 1996-09-18
EP0732162A3 EP0732162A3 (de) 1997-05-07

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Family Applications (1)

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EP96103758A Withdrawn EP0732162A3 (de) 1995-03-13 1996-03-11 Presse zum Stanzen von Blechtafeln und zum Formen becherförmiger Gegenstände wie Kappen, Verschlüsse und Deckel zum Verschliessen von Flaschen, Dosen und ähnlichem

Country Status (2)

Country Link
EP (1) EP0732162A3 (de)
IT (1) IT1280394B1 (de)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2715901A1 (de) * 1976-04-13 1977-10-27 Sacmi Presse zum ausstanzen und formen von napffoermigen blechgegenstaenden insbesondere von flaschenverschluessen
WO1981002399A1 (en) * 1980-02-21 1981-09-03 L Anet Blank and draw press tool
US4442691A (en) * 1980-07-07 1984-04-17 The Minster Machine Company Double action press having floating punch
GB2141052A (en) * 1983-06-10 1984-12-12 Redicon Corp Forming end panels for two-piece cans in double acting press

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2715901A1 (de) * 1976-04-13 1977-10-27 Sacmi Presse zum ausstanzen und formen von napffoermigen blechgegenstaenden insbesondere von flaschenverschluessen
WO1981002399A1 (en) * 1980-02-21 1981-09-03 L Anet Blank and draw press tool
US4442691A (en) * 1980-07-07 1984-04-17 The Minster Machine Company Double action press having floating punch
GB2141052A (en) * 1983-06-10 1984-12-12 Redicon Corp Forming end panels for two-piece cans in double acting press

Also Published As

Publication number Publication date
EP0732162A3 (de) 1997-05-07
ITBO950098A1 (it) 1996-09-13
IT1280394B1 (it) 1998-01-20
ITBO950098A0 (it) 1995-03-13

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