The invention relates to molds useful in the manufacture of contact lenses. In particular, the molds of the invention provide for the production of lenses with rounded edges.
Methods and molds useful in the manufacture of contact lenses are well known. For example, in U.S. Pat. No. 5,540,410, incorporated herein in its entirety by reference, are disclosed molds and their use in contact lens manufacture. Lens molds are known for production of lenses having edges that are rounded. Such rounded edges are desirable because they avoid impingement of the lens edge into the lens' wearer's conjunctival membrane. However, the known lens molds are disadvantageous in that it is difficult to control the edge height adequately Additionally, production of lenses with rounded edges in the known molds results in the interruption of the flow of excess monomer from the mold. This produces not only monomer surrounding the lens formed in the mold, but monomer that, post-curing, is in more than one parts and is difficult to remove.
a is a magnified, cross-sectional side view of an area of the mold of
The present invention provided molds useful in contact lens production, methods for making the molds, and lenses resulting from use of the molds which lenses have rounded edges. The molds of the invention incorporate a centering and spacing feature in the form of tabs on one of the mold halves, which feature both centers the mold halves in relationship to each other and permits free flow of excess monomer from the mold. Additionally, the spacing feature aids in height control of the one mold half in relation to the other mold half.
In one embodiment, the invention provides a mold for the production of a contact lens comprising, consisting essentially of, and consisting of a front mold half and a back mold half wherein: the front mold half comprises, consists essentially of, and consists of a first article having a central curved section with a concave surface, a convex surface and a first circular circumferential edge about the concave surface of the central curved section, the central section of the concave surface suitable for imparting a curvature to the front curve of a contact lens; the first article also having an axis of symmetry about the concave surface and an inner surface continuous with and extending downwardly from the circular edge in a plane about 5 to about 15 degrees below the concave surface axis, an outwardly tapering wall extending upwardly from the inner surface, and an annular flange integral with and surrounding the outwardly tapering wall and extending radially outwardly from the concave and convex surfaces in a plane normal to the concave surface axis; the back mold half comprises, consists essentially of, and consists of a second article having a central curved section with a concave surface, a convex surface and a second circular circumferential edge about the convex surface of the central curved section, the central section of the convex surface suitable for imparting a curvature to the back curve of a contact lens; and the second article also having an axis of symmetry about the convex surface, a plurality of spaced apart tabs on the convex surface, each of the tabs comprising a wall extending outwardly from the circumferential edge of the convex surface, and an upwardly extending wall continuous with and extending upwardly from the outwardly extending wall at its inferior-most portion and continuous with the convex surface at its superior-most portion, and an annular flange integral with and surrounding and extending radially outwardly from the concave and convex surfaces in a plane normal to the convex surface axis.
Referring to the drawings, in
Front mold half 102 and back mold half 103 may be formed of any suitable thermoplastic polymer, preferably one that is sufficiently transparent to ultra-violet light to allow irradiation therethrough to promote polymerization of a contact lens material, preferably a soft contact lens material. Additionally, it is desirable that the material used is moldable to surfaces of optical quality at relatively low temperatures, exhibits excellent flow characteristics, and remains amorphous during molding. Preferred materials for forming the mold halves of the invention are polyolefins including, without limitation, polystyrene, polypropylene, and combinations thereof. Each mold half may be formed from the same or a different material than the other mold half. Production of the mold halves may be accomplished by any convenient method, but preferably as set forth in U.S. Pat. No. 5,540,410. In the mold of the invention, more preferably the material used for formation of the back mold half 103 is harder, or less compressible, than that of front mold half 102.
Back mold half 103 defines a central curved section with an optical quality convex surface 109 and a generally parallel concave surface 110. Convex surface 109 has the dimensions of the unswelled back surface curve of the lens to be cast and is sufficiently smooth so that the lens surface formed is of optically acceptable quality. Convex surface 105 of front mold half 102 and concave surface 110 of back mold half 103 need not have surfaces suitable to form optical quality surfaces.
The front mold half 102 defines a central, curved section with an optical quality concave surface 104. Concave surface 104 has a circular, circumferential, well-defined edge 111 extending therearound. The edge 111, in conjunction with circumferential edge 120 on the convex surface of the back mold half, forms a well defined and uniform plastic radius parting line for the subsequently molded contact lens. Edge 111 typically has a curvature ranging from about 3 to 45 micrometers or less, preferably about 5 to about 30 micrometers, and the surfaces defining the edge can form an angle in the range of 75 to 90 deg. Continuous with and extending radially outwardly from edge 111 toward outwardly tapering wall 113 is downwardly sloping inner surface 112. Inner surface 112 is in a plane that is about 5 to about 15 degrees below a plane normal, or perpendicular, to the axis of symmetry of concave surface 104.
Each of tabs 116 is composed of an outwardly extending wall 114 that extends radially outwardly from circular edge 120. Wall 114 is in a plane about 5 degrees above or below a plane normal to the axis of symmetry of convex surface 109. Tab 116 is further composed of upwardly extending wall 115 which, at its inferior-most portion is continuous with and extends upwardly from wall 114 and, at its superior-most portion is continuous with convex surface 109. Each tab 116 is preferably configured so that the gap formed between inner surface 112 and wall 114 is about 0.005 to about 0.025 mm., more preferably about 0.010 to about 0.017 mm. Each tab 116 may be about 0.3 to about 1 mm in height, about 0.3 to about 1 mm in width and about 0.3 to about 1 mm in thickness, which thickness is measured outwardly in relation to convex surface 109. The tab is rounded to form a “nose” radius of about 0.1 to about 1 mm, preferably about 0.15 to about 0.23 mm. Applied pressure on the back or front mold half during lens curing ensures 360 degree contact and minimizes tilt, or non-parallelism, between the front and back mold halves.
As shown in
Once mold half 103 is placed onto front mold half 102, the mold halves preferably are pressed together using a force of about 2 to about 5 pounds. The force may be applied to first flange 107 or second flange 106 along the lines depicted by the arrows in
The polymerizable composition is preferably polymerized by exposure to ultra-violet radiation. Following completion of polymerization, the mold formed by front and back mold halves 102 and 103, respectively, is disassembled and the cast lens undergoes additional processing.
Number | Name | Date | Kind |
---|---|---|---|
4284399 | Newcomb et al. | Aug 1981 | A |
4640489 | Larsen | Feb 1987 | A |
4761069 | Truong et al. | Aug 1988 | A |
4865779 | Ihn et al. | Sep 1989 | A |
5252056 | Horner et al. | Oct 1993 | A |
5254000 | Friske et al. | Oct 1993 | A |
5271875 | Appleton et al. | Dec 1993 | A |
5326505 | Adams et al. | Jul 1994 | A |
5378412 | Smith et al. | Jan 1995 | A |
5466147 | Appleton et al. | Nov 1995 | A |
5540410 | Lust et al. | Jul 1996 | A |
5620720 | Glick et al. | Apr 1997 | A |
5861114 | Roffman et al. | Jan 1999 | A |
6368522 | Ansell et al. | Apr 2002 | B1 |
6444145 | Clutterbuck | Sep 2002 | B1 |
6454409 | Lorenz et al. | Sep 2002 | B1 |
6869549 | Ansell et al. | Mar 2005 | B2 |
6997428 | Andino et al. | Feb 2006 | B1 |
7156641 | Ansell et al. | Jan 2007 | B2 |
7320587 | Goodenough et al. | Jan 2008 | B2 |
20020196441 | Hall et al. | Dec 2002 | A1 |
20060006558 | Yamada | Jan 2006 | A1 |
20060240138 | Broad et al. | Oct 2006 | A1 |
20070132124 | Dubey et al. | Jun 2007 | A1 |
Number | Date | Country |
---|---|---|
09011254 | Jan 1997 | JP |
200530009 | May 2003 | TW |
Entry |
---|
Search Report for corresponding Taiwan Patent Application No. 096140495, Jan. 4, 2013. |
Singapore Office Action for corresponding Application No. 201107970-4 completed Apr. 23, 2013. |
Number | Date | Country | |
---|---|---|---|
20080102151 A1 | May 2008 | US |