Abstract
A stripper clip (100) for a die board (300) of a stripping machine, the stripper clip (100) comprising: a hub (110) to be fitted into a corresponding socket (320) of the die board (300); a bridge extending from the hub (110) to a distal end (122); and a cantilevered arm (130) extending from the distal end (122) of the bridge. The clip (100) is dimensioned to fit into a socket (320) of the die board (300) with the cantilevered arm (130) extending from an underside of the die board (300) into an aperture (310) of the die board (300) for receiving waste pieces from blanks. The clip (100) is formed of a resilient material so that the cantilevered arm (130) is deflected towards the hub (110) as a waste piece (410) passes through the die board (300) and so that the arm (130) reflexes as the waste piece (410) passes the cantilevered arm (130) to assist in disposing of the waste piece (410).
Claims
1. A stripper clip for a die board of a stripping machine, the stripper clip comprising: a hub to be fitted into a corresponding socket of the die board; a bridge extending from said hub to a distal end; and a cantilevered arm extending from said distal end of said bridge, wherein said cantilevered arm comprises a ball at its free end; said clip being dimensioned to fit into a socket of the die board with said cantilevered arm extending from an underside of said die board into an aperture of the die board for receiving waste pieces from blanks, and the clip being integrally formed as a unitary piece of a resilient material so that said cantilevered arm is deflected towards said hub as a waste piece passes through said die board and so that said cantilevered arm reflexes as said waste piece passes said cantilevered arm to assist in disposing of said waste piece.
2. A stripper clip as claimed in claim 1 wherein said hub has a non-circular section to ensure an angular orientation when inserted in a socket of the die board.
3. A stripper clip as claimed in claim 1 formed from a plastics material.
4. A stripper system comprising: a die board, in which a plurality of apertures are formed and adjacent at least some of which one or more sockets extend from an underside of said die board; and at least one stripper clip located in a respective socket, each stripper clip comprising: a hub fitted into a corresponding socket of the die board; a bridge extending from said hub to a distal end; and a cantilevered arm extending from said distal end of said bridge, wherein said cantilevered arm comprises a ball at its free end; said clip being dimensioned to fit into a socket of the die board with said cantilevered arm extending from said underside of said die board into an aperture of the die board for receiving waste pieces from blanks, and the clip being integrally formed as a unitary piece of a resilient material so that said cantilevered arm is deflected towards said hub as a waste piece passes through said die board and so that said cantilevered arm reflexes as said waste piece passes said cantilevered arm to assist in disposing of said waste piece.
5. The stripper system of claim 4 further comprising a punch board including a plurality of blades arranged to lie in register with the plurality of apertures of said die board, each stripper clip extending along and lying coplanar with a blade of said punch board.
6. The stripper system of claim 5 wherein each stripper clip is arranged to extend so that said free end of said cantilevered arm lies in register with an edge of a blade of said punch board.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) An embodiment of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:
(2) FIG. 1 is a perspective view of a stripper clip according to an embodiment of the present invention;
(3) FIG. 2 shows cross-sectional detail of the stripper clip of FIG. 1;
(4) FIG. 3 shows a portion of an upper surface of a die board including a number of stripper clips;
(5) FIG. 4 shows a portion of a lower surface of the die board of FIG. 3;
(6) FIGS. 5(a) to (d) show a portion of a stripping machine including the stripper clip of FIG. 1 in a number of operating states;
(7) FIG. 6 is a cross-sectional view showing in detail the stripping action of the stripper clip of FIG. 1; and
(8) FIGS. 7(a) and (b) are perspective views showing in detail the stripping action of the stripper clip of FIG. 1.
DESCRIPTION OF THE EMBODIMENTS
(9) Referring now to FIG. 1 there is shown a stripper clip 100 according to an embodiment of the present invention. The clip 100 is integrally formed as a unitary piece of a stiff resilient material, preferably a plastics material. The clip 100 can be injection molded, machined or prototyped using a 3D printer. The stripper clip 100 may also be formed of metal or any other resilient material or a combination thereof such that stripper clip 100 is able to repeatedly recoil or spring back into shape after bending.
(10) The stripper clip 100 has a hub 110 which is shaped to be inserted into a corresponding cavity or socket in a die board as explained in more detail below. In the embodiment, the hub 110 has a generally square outline, allowing it to be located in a socket with a pre-defined angular orientation—however, it will be appreciated that the hub can have a variety of shapes compatible with being inserted in a socket in a die board. Referring to FIG. 2, in the embodiment the hub 110 has an I-section with a narrowed internal waist facilitating insertion of the hub in a socket and also reducing the material required for the clip without compromising its strength in its principal direction of flexure explained below. A bridge portion 120 extends away from the hub 110 from a proximal end 124 to a distal end 122. In the embodiment, the outside surface of the hub 110 is curved to facilitate being pushed into place by hand, whereas the internal surface of the bridge portion 120 is flat to facilitate engagement with the underside of the die board as will be explained below.
(11) An arm 130 extends from the internal surface of the distal end 122 and is terminated with a ball 140, giving the clip a U-shape. The cross-section of the arm 130 as well as the material forming the clip 100 allow the arm to flex backwards and forwards towards and away from the hub 110.
(12) Referring now to FIG. 3, there is shown an upper portion of a die board 300 incorporating a number of stripper clips 100 according to an embodiment of the invention. The die board 300 is generally constructed in the same manner as the die board used in a stripping machine such as provided by Bobst and a number of apertures 310 (only one shown) corresponding in shape to waste pieces to be removed from a blank are defined in the die board 300. In the case of the aperture 310 of FIG. 3, four sockets 320 are formed adjacent the aperture 310. In the embodiment, the sockets 320 are shown as fully penetrating the die board 300, however in alternative embodiments, the sockets can be formed as blind holes from the underside of the die board 300. A hub 110 for each stripper pin 100 is push fitted into each socket 320 so that its arm 130 extends from the underside of the die board 300 upwards into the aperture 310, as can be seen in FIG. 4. Note from FIG. 4 that in the embodiment, the sidewall 330 of each aperture 310 is undercut from the underside of the die board so that it presents a larger underside area than upper surface area and so the bridge portion 120 needs to extend far enough away from the hub 110 to compensate for this undercut.
(13) Referring now to FIGS. 5(a) to (d) which show a die board 300 including a stripper clip 100 in various operating states.
(14) In FIG. 5(a), a punching board 200 is in a retracted state and a blank 400 is fed into the stripping machine. The punching board 200 now moves downward from its refracted state, until punching members 210 extending from the punching board engage a top surface of the blank, FIG. 5(b). In the embodiment, the punching members comprise blades 210, 220 which lie in register with apertures in the die board. As indicated in FIG. 4, some blades 220 are not operatively associated with stripper clips, whereas each stripper clip 100 is associated with a respective blade 210. In the embodiment, each blade 210 and its associated stripper clip 100 are co-planar. An edge 230 of the blade proximate the associated clip 100 lies in register with the furthest extent of the ball 140 into the aperture.
(15) As the punching board 200 moves further downward from the position shown in FIG. 5(b), each blade 210, 220 begins to shear a waste piece away 410 from the blank 400. Blanks can vary in thickness and in the present embodiment, may be up to 0.8 mm thick. As a waste piece 410 is pushed through the aperture 310 by a punching member 210 (and possibly other punching members 220,210), the arm 130 of the stripper clip 100 tends to flex backwards towards the sidewall 330 of the aperture 310 according to the thickness of the waste piece. Eventually as the punching board 200 moves downwards and the blade 210 drags the waste piece past the stripper ball 140, the arm 130 and ball 140 snaps back into its original position, so tending to flick the waste piece away as shown in FIG. 5(b).
(16) The punching board 200 continues to move downwards towards its fully extended state shown in FIG. 5(c) and then begins to retract. It will be appreciated that even if a waste piece were somehow stuck to be blade 210 at this stage, it would be extremely difficult to pass back past the ball 140 of the stripper clip 100 and so become stuck in the aperture.
(17) Once the punching board 200 has returned to its retracted state, a new blank 400′ can be fed into the stripping machine to be processed as before, FIG. 5(d).
(18) FIG. 6 shows the dimensions of the stripper clip 100 and die board 300 in more detail. A typical die board is 12 mm deep and so the height h1 of the hub 110 cannot exceed this. In the embodiment, the total height h2 of the stripper pin is 15.5 mm and the diameter d of the ball 140 is 6 mm. The remainder of the dimensions are in proportion.
(19) FIGS. 7(a) and 7(b) show the movements of punching blades 210, 220 relative to a blank 400 (shown cutaway) in more detail. Note that the blade 210 and stripper pin 100 are in register and co-planar and the snapping action of the arm 130 which tends to flick away a waste piece 410 as well as prevent the piece from being drawn back through the aperture.
