APPARATUS FOR THE THERMAL CURING OF A LENS-FORMING MATERIAL

Abstract

An apparatus for the thermal curing of a lens-forming material contained in a lens mold to form an ophthalmic lens comprises: a tray made of metal, the tray having a fixation opening, a mold support made of plastic,

wherein the mold support has a fastener fixed to the tray at the fixation opening and fixing the mold support to the tray,

wherein the mold support further has a positioning guide configured to position a lens mold on the mold support in a predetermined position relative to the tray and wherein the mold support further has a support surface, and a lens mold arranged on the mold support, the lens mold having a bearing surface resting on the support surface of the mold support.

The lens mold is arranged spaced apart from the tray by a clearance distance.

Claims

1. Apparatus (1, 2) for the thermal curing of a lens-forming material contained in a lens mold (10, 60) to form an ophthalmic lens, in particular a contact lens, such as a soft contact lens, the apparatus comprising: a tray (30, 40) made of metal, for example aluminum, the tray having a fixation opening (31, 41), a mold support (20, 50) made of plastic, for example a polyolefine such as polypropylene, wherein the mold support (20, 50) has a fastener (25, 53) fixed to the tray (30, 40) at the fixation opening (31, 41) and fixing the mold support (20, 50) to the tray (30, 40), wherein the mold support (20, 50) further has a positioning guide (27, 55) configured to guide a lens mold (10, 60) onto the mold support (20, 50) and into a predetermined position relative to the tray (30, 40) and wherein the mold support (20, 50) further has a support surface (23, 52), and a lens mold (10, 60) arranged on the mold support (20, 50), the lens mold (10, 60) having a bearing surface (11, 61) resting on the support surface (23, 52) of the mold support (20, 50), wherein the lens mold (10, 60) is arranged spaced apart from the tray (30, 40) by a clearance distance (C, T).

2. Apparatus (1, 2) according to claim 1, wherein the mold support (20, 50) is a separate piece, and wherein the fastener is a resilient latch (25, 53) removably fixing the mold support (20, 50) to the tray (30, 40) at the fixation opening (31, 41).

3. Apparatus (1) according to claim 2, wherein the mold support is a ring (20) comprising an annular ring body (21) and the latch (25), the latch (25) extending from the annular ring body (21) into the fixation opening (31) of the tray (30) and fixedly engaging the tray (30).

4. Apparatus (1) according to claim 3, wherein the annular ring body (21) has a height (H) and a bottom surface (22) resting on an upper surface (32) of the tray (30), wherein the lens mold (10) has a base surface (12) facing the tray (30), and wherein the bearing surface of the lens mold (10) is arranged at a predetermined distance (D) above the base surface (12), with the height (H) of the annular ring body (21) being greater than the predetermined distance (D) by the clearance distance (C).

5. Apparatus (1) according to claim 3, wherein the support surface is an annular top surface (23) of the annular ring body (21), the annular top surface (23) having a top surface inner diameter (DI) and a top surface outer diameter (DO), and wherein the bearing surface of the lens mold (10) is an annular abutment surface (11) arranged on an underside of the lens mold (10), the annular abutment surface (11) having an abutment surface inner diameter (AI) and an abutment surface outer diameter (AO), with the abutment surface inner diameter (AI) of the lens mold (10) being smaller than the top surface inner diameter (DI) of the annular ring body (21) and the abutment surface outer diameter (AO) of the lens mold (10) being larger than the top surface outer diameter (DO) of the annular ring body (21).

6. Apparatus (1) according to claim 5, wherein the positioning guide comprises a conical surface (27) arranged at an outer peripheral portion of the annular ring body (21), the conical surface (27) tapering inwardly with increasing distance from the tray (30), and wherein the lens mold (10) further comprises a centering flange (13) for engaging the conical surface (27) of the annular ring body (21) in order to align the annular abutment surface (11) of the lens mold (10) with the annular top surface (23) of the annular ring body (21) during arrangement of the lens mold (10) on the ring (20).

7. Apparatus (1) according to claim 6, wherein the upper end of the conical surface (27) merges with the annular top surface (23) at an outer edge (28) thereof having the top surface outer diameter (DO), wherein the lower end of the conical surface (27) has a lower end conical surface diameter (DR) larger than the top surface outer diameter (DO), and wherein the centering flange (13) of the lens mold (10) has a flange inner diameter (FI) larger than the lower end conical surface diameter (DR).

8. Apparatus (1) according to claim 3, wherein the fixation opening of the tray (30) is a disk-shaped mounting hole (31), and wherein the annular ring body (21) defines a central hole (24) surrounded by the annular ring body (21), the central hole (24) of the annular ring body (21) being aligned with the disk-shaped mounting hole (31) of the tray (30).

9. Apparatus (2) according to claim 2, wherein the mold support comprises a plate (50) having a plate base surface (51) resting on an upper surface (42) of the tray (40) and the latch (53), the latch (53) extending from the plate (50) into the fixation opening (41) of the tray (40) and fixedly engaging the tray (40).

10. Apparatus (2) according to claim 9, wherein the plate (50) has a plate thickness (T) and comprises a plate top surface (52) being arranged opposite to the plate base surface (51), wherein the plate top surface (52) forms the support surface of the mold support, and wherein the bearing surface of the lens mold (60) is a base surface (61) of the lens mold (60) resting on the plate top surface (52), the plate thickness (T) thus representing the clearance distance (C).

11. Apparatus (2) according to claim 10, wherein the lens mold (60) comprises a mold base part (600) and a mold top part (601), the assembled mold base part (600) and mold top part (601) together forming the lens mold (60), wherein the mold base part (600) comprises a centering flange (64) projecting radially outwardly and forming the outer boundary of the mold base part (600), and wherein the positioning guide comprises at least three centering pins (55) arranged on the plate top surface (52) at different locations such that they enclose the centering flange (64) of the mold base part (600), thereby defining the predetermined position of the lens mold (60) relative to the tray (40).

12. Apparatus (2) according to claim 11, wherein the mold base part (600) further comprises a tab (65) extending radially outwardly from the centering flange (64), and wherein the positioning guide further comprises at least one pair of positioning pins (57) arranged at predetermined positions on the plate top surface (52) to determine the angular position of the tab (65) of the mold base part (600).

13. Apparatus (2) according to claim 12, wherein the at least one pair of positioning pins (57) comprises two pairs of positioning pins (57) arranged at different predetermined positions on the plate top surface (52) to determine a first angular position and a second angular position of the tab (65) of the mold base part (600), the second angular position being angularly displaced relative to the first angular position by an angle of 90.

14. Apparatus (2) according to claim 9, wherein the fixation opening of the tray (40) is a disk-shaped mounting hole (41) and the tray (40) further comprises an additional disk-shaped passage hole (44), and wherein the plate (50) comprises a first and second disk-shaped passage holes (54, 58), with the first passage hole (54) of the plate (50) being aligned with the passage hole (44) of the tray (40) and the second passage hole (58) of the plate (50) being aligned with the mounting hole (41) of the tray (40).

15. Apparatus (2) according to claim 9, wherein the apparatus comprises a plurality of plates (50) adjacently arranged on the same tray (40).

16. Apparatus (1, 2) according to claim 1, wherein the apparatus comprises a stack of trays (30, 40) with mold supports (20, 50) fixed to the respective trays (30, 40) and with lens molds (10, 60) arranged on the mold supports (20, 50), the trays (30, 40) being arranged one above the other in the stack and being separated by spacers (38, 43).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0047] Further advantageous aspects of the invention become apparent from the following description of embodiments of the invention with the aid of the drawings in which:

[0048] FIG. 1 shows a perspective view of a first embodiment of the apparatus according to the invention;

[0049] FIG. 2 is an enlarged view of a portion (lower left corner portion) of the apparatus shown in FIG. 1;

[0050] FIG. 3 shows a cross-sectional view of the apparatus according to the first embodiment;

[0051] FIG. 4 shows perspective view of the mold support (ring) according to the first embodiment of the apparatus according to the invention;

[0052] FIG. 5 is a cross-sectional view of the mold support (ring) shown in FIG. 4;

[0053] FIG. 6 is a detailed cross-sectional view of the lens mold arranged on the mold support (ring);

[0054] FIG. 7 shows a perspective view of a second embodiment of the apparatus according to the invention;

[0055] FIG. 8 shows an enlarged cross-sectional view of a portion of the apparatus shown in FIGS. 7;

[0056] FIG. 9 shows an enlarged view of a portion of the apparatus shown in FIG. 7 (lower left corner portion); and

[0057] FIG. 10 shows a cross-sectional view of a portion of the apparatus shown in FIG. 7.

DETAILED DESCRIPTION OF EMBODIMENTS

[0058] FIG. 1 shows a first embodiment of an apparatus 1 according to the invention for thermal curing of a lens-forming material contained in a lens mold 10 (of which only a mold base part 100 is visible). Lens mold 10 is arranged on a mold support which is fixed to a tray 30. Tray 30 is made of metal, for example aluminum, or is made of any other suitable metal. The shape of the tray is generally rectangular, with the edges of the tray 30 being bent downwardly. At one corner (upper left corner in FIG. 1) the rectangular tray 30 has a cut-away portion. This cut-away portion forms a reference for identification of the rotational orientation of the tray 30 which may be helpful in the automated handling of tray 30. A number of supporting webs are arranged at the underside of tray 30, some of them being arranged to run in the horizontal direction (one of them being indicated in FIG. 1 by reference sign 35) while others being arranged to run perpendicular thereto. These supporting webs serve for increasing rigidity and stiffness of tray 30 and are secured to tray 30 with the aid of screws (not shown) screwed through small holes 36 provided in the tray 30.

[0059] Tray 30 has an upper surface 32 and comprises a plurality of fixation openings embodied as disk-shaped mounting holes 31 at which mold supports are fixed to the tray 30. In addition, tray 30 comprises a plurality of disk-shaped passage holes 34 which are arranged offset relative to the disk-shaped mounting holes 31 at which the mold supports are fixed to the tray 30. The mold supports are embodied as rings 20 which are manufactured as separate pieces made of plastic, for example a polyolefine such as polypropylene. In FIG. 1 as well as in FIG. 2 and FIG. 3, at some of the disk-shaped mounting holes 31 only the rings 20 are shown fixed to the tray 30 (with no lens molds 10 being arranged on the rings 20) while at other disk-shaped mounting holes 31 a mold base part 100 of lens mold 10 is shown arranged on the respective rings 20. This is shown only for the sake of better understanding, since in practice only assembled complete lens molds 10 comprising both the mold base part 100 as well as a mold top part 101 and containing lens-forming material enclosed in a mold cavity 102 are arranged on the rings 20 in the manner shown in FIG. 6, as will be described in more detail below.

[0060] In FIG. 4 and FIG. 5 ring 20 (the mold support) is shown in more detail. Ring 20 comprises an annular ring body 21 as well as a plurality of downwardly extending flexible latches 25. Annular ring body 21 has a bottom surface 22 and an annular top surface 23, and defines a central hole 24 surrounded by the annular ring body 21. Annular ring body 21 has a height H extending from the bottom surface 22 to the annular top surface 23.

[0061] Annular top surface 23 has a top surface inner diameter DI and a top surface outer diameter DO. A conical surface 27 of the annular ring body 21 merges with the annular top surface 23 at an outer edge 28 of the annular top surface 23. Accordingly, conical surface 27 at its upper end has an outer diameter corresponding to the outer diameter DO of the annular top surface 23, while at its lower end it has a larger diameter DR corresponding to the outer diameter of the annular ring body 21.

[0062] To mount ring 20 to tray 30, latches 25 are introduced from above into the disk-shaped mounting holes 31 of tray 30, whereupon ring 20 is lowered until the bottom surface 22 of annular ring body 21 abuts against the upper surface 32 of tray 30. Latches 25 then form a snap-fit with the tray 30, thus fixing ring 20 to the tray 30 at the disk-shaped mounting hole 31. In this state, ring 20 projects upwardly from the upper surface 32 of tray 30 by the height H of the annular ring body 21. This state where the ring 20 is mounted to the tray 30 at the disk-shaped mounting hole 31 is shown in FIG. 1, FIG. 2 and FIG. 3 at those locations where only the ring 20 is shown mounted to the tray 30.

[0063] As can be seen from FIG. 6, lens mold 10 comprises the mold base part 100 and the mold top part 101 mated to the mold base part 100 to form the mold cavity 102 defining the shape of the contact lens to be formed. Before assembling mold base part 100 and mold top part 101 of lens mold 10, a lens-forming material is dispensed into the concave lens-forming portion of mold base part 100. Upon mating the mold top part 101 with the mold base part 100, excess lens-forming material is displaced into an annular overflow channel 103 and the mold cavity 102 is sealed.

[0064] Lens mold 10 further comprises a base surface 12 arranged on mold base part 100, and an annular abutment surface 11 arranged on an underside of mold base part 100. Annular abutment surface 11 is arranged at a predetermined distance D above the base surface 12 and has an abutment surface inner diameter AI and an abutment surface outer diameter AO. A centering flange 13 is arranged on the mold base part 100 and extends downwardly from the annular abutment surface 11 to the base surface 12. Mold base part 100 is provided with a tab 14 and mold top part 101 is provided with a tab 15, too. These tabs 14, 15 facilitate handling of the mold parts 100, 101. As can be seen best in FIG. 2 and FIG. 3, the distance between adjacent mounting holes 31 of the tray 30 is chosen such that the tabs 14 of the mold base parts 100 of the lens molds 10 arranged on adjacent rings 20 cannot collide. This holds similarly for the tabs 15 of the mold top parts 101 of the lens molds 10 arranged on adjacent rings 20.

[0065] During placement of the lens mold 10 on the ring 20, in case of a small misalignment the centering flange 13 may come into contact with the conical surface 27 which then guides the lens mold 10 and properly aligns the lens mold 10 with the ring 20. Once the lens mold 10 is arranged on the ring 20, annular abutment surface 11 on the underside of mold base part 100 of lens mold 10 rests on annular top surface 23 of the annular ring body 21 of ring 20 in a manner such that the base surface 12 is arranged at a clearance distance C above the upper surface 32 of tray 30. For example, this clearance distance C may be in the range of 0.5 mm to 5 mm, and is the difference between the height H of the annular ring body 21 of the ring 20 and the predetermined distance D which the annular abutment surface 11 is arranged above the base surface 12. Accordingly, the arrangement of the lens mold 10 at the clearance distance C above the upper surface 32 of the tray 30 can be achieved by a suitable choice of the height H of the annular ring body 21 of the ring 20 and the predetermined distance D between the base surface 12 and the abutment surface 11 of the mold base part 100 of lens mold 10.

[0066] As can be seen further in FIG. 6, the abutment surface inner diameter AI of the abutment surface 11 of lens mold 10 is smaller than the top surface inner diameter DI of the top surface 23 of the annular ring body 21. The abutment surface outer diameter AO of the abutment surface 11 of lens mold 10 is larger than the top surface outer diameter DO of the top surface 23 of annular ring body 21. This allows for a proper arrangement of the lens mold 10 on the ring 20. Finally, an inner diameter FI of the centering flange 13 is larger than the diameter DR of the lower end of the conical surface 27 which corresponds to the outer diameter of the annular ring body 21 in the embodiment shown. As can also be seen in FIG. 6, the central hole 24 defined by the annular ring body 21 is aligned with the mounting hole 31 of the tray 30.

[0067] Assembly of the apparatus 1 according to the first embodiment is performed as follows. First, tray 30 is provided having a number of, for example, two hundred and fifty-six mounting holes 31. Next, a corresponding number of rings 20 are fixed to the tray 30 at the mounting holes 31 with the aid of the latches 25. Thereafter, on each of the rings 20 a lens mold 10 containing lens-forming material is placed, and in case of small misalignments during placement of the lens molds 10 on the rings 20 the centering flange 13 may come into contact with the conical surface 27 of the annular ring body 21 of ring 20. The lens mold 10 is thus guided onto the ring 20 and is properly aligned with the respective ring 20. Once a lens mold 10 is arranged on each of the rings 20, the tray 30 is ready for being placed in an oven for thermal curing of the lens-forming material.

[0068] For increasing the efficiency, it is advantageous to arrange a plurality of trays 30 with rings 20 mounted to the mounting holes 31 and with lens molds 10 arranged on the rings 20 in a stack. For example, the apparatus according to the invention may comprise a stack of trays comprising between twenty and thirty individual trays 30. The individual trays 30 of the stack are arranged spaced apart from each other with the aid of spacers 38 which are mounted to the respective tray 30 and which allow for easy stacking of the individual trays 30. Any suitable spacers known in the art can be used for this purpose and, accordingly, the spacers 38 are not described in more detail. Once the stack of trays has been formed, it is placed in an oven for thermally curing the lens-forming material contained in the lens molds 10.

[0069] FIG. 7 shows a second embodiment of the apparatus 2 according to the invention. Some aspects discussed in connection with the first embodiment also hold for the second embodiment, so that these aspects are not discussed here again. In the second embodiment a tray 40 comprises a frame 400 and a number of supporting webs (not shown) on which metal sheets 401 (see FIG. 8) are arranged, which are supported by the frame 400 and by the webs (not shown), and which are retained thereon with the aid of screws 402 and washers 403. Frame 400, the supporting webs (not shown) as well as the metal sheets 401 may be made from aluminum to provide for sufficient rigidity and stiffness while at the same time being of light weight. When the metal sheets 401 are arranged in place, an upper surface 42 of the tray 40 is formed that extends in a common plane.

[0070] Tray 40 comprises a plurality of fixation openings embodied as disk-shaped mounting holes 41 (formed in the metal sheets 401) for fixing the mold support to the tray 40 at the mounting holes 41. In addition, tray 40 comprises a number of disk-shaped passage holes 44 (also formed in the metal sheets 401) whichin the embodiment shownare larger in diameter than the mounting holes 41. By way of example, two hundred and fifty-six disk-shaped passage holes 44 may be provided in the tray 40.

[0071] Unlike the mold support of the first embodiment which is embodied as a ring, the mold support of the second embodiment of the apparatus according to the invention is embodied as a plastic plate 50, and a plurality of such plastic plates 50 may be adjacently arranged on the tray and are fixed to the same tray 40. By way of example only and as can be seen in FIG. 7, sixteen such plastic plates 50 may be adjacently arranged on the same tray 40 and are fixed thereto.

[0072] Plastic plate 50 has a plate base surface 51 and a plate top surface 52, as can be seen best in FIG. 8. The plate base surface 51 rests on the upper surface 42 of the tray 40 and has a plate thickness T. Plate 50 further comprises a plurality of first disk-shaped passage holes 54 and a plurality of second disk-shaped passage holes 58. At the walls of some of the second disk-shaped passage holes 58, latches 53 extend downwardly from the plastic plate 50.

[0073] To mount plastic plate 50 to metal tray 40, the latches 53 of plate 50 are introduced into the mounting holes 41 of tray 40, whereupon plate 50 is further moved downwards towards tray 40 until the plate base surface 51 comes to rest on the upper surface 42 of tray 40. The latches 53 engage the tray 40 at the mounting holes 41 through a snap-fit connection, thus removably fixing the plate 50 to the tray 40. This state is shown in FIG. 8, and it can also be seen there that the first disk-shaped passage holes 54 of plate 50 are aligned with the passage holes 44 of tray 40 while the second disk-shaped passage holes 58 of plate 50 are aligned with the mounting holes 41 of tray 40.

[0074] As can be seen further from FIG. 8, four centering pins 55 are arranged on the plate top surface 52 around each of the first disk-shaped passage holes 54. The centering pins 55 project upwardly from the plate top surface 52 and may have a conical surface 56. In addition, near each of the first disk-shaped passage holes 54 two pairs of positioning pins 57 are arranged on the plate top surface 52 at different first and second angular positions, these angular positions being different by 90 (ninety degrees). The positioning pins 57 may also have a conical surface. The function of the centering pins 55 and of the positioning pins 57 will be described in more detail below.

[0075] As can be seen best from FIG. 9 and FIG. 10, the lens mold 60 again comprises a mold base part 600 and a mold top part 601 which are mated and enclose a mold cavity 602 containing a lens-forming material to be cured to form a contact lens. Mold base part 600 comprises a centering flange 64 projecting radially outwardly and forming the outer boundary of mold base part 600. A base surface 61 of mold base part 600 rests on the plate top surface 52, so that plate top surface 52 of plate 50 forms the support surface of the mold support and base surface 61 of mold base part 600 forms the bearing surface of the mold 60. The plate thickness T thus represents the clearance distance C by which the lens mold 60 is arranged spaced apart from the tray 40. Mold base part 600 further comprises an elongated tab 65 which helps in placing the lens mold 60 in a well-defined rotational orientation on plate 50, as is discussed in more detail below.

[0076] Upon placing lens mold 60 on the plate top surface 52, mold base part 600 must have a rotational orientation such that the elongated tab 65 fits between one of the two pairs of positioning pins 57, so that the positioning pins 57 determine the first and second angular positions of the elongated tab 65. In addition, the mold base part 600 must be placed on the plate top surface 52 such that the centering flange 64 is enclosed by the centering pins 55. In case of a small misalignment, the conical surfaces 56 of the centering pins 55 assist in centering the mold base part 600 (and thus in centering the mold 60) so that it comes to rest at the desired predetermined position. Similarly, the elongated tab 65 may be guided by the conical surfaces of the positioning pins 57.

[0077] Once lens molds 60 are placed at each of the desired predetermined positions on the top surface 52 of each of the plates 50 fixed to the tray 40 (in the embodiment shown, once two hundred and fifty-six lens molds 60 are placed on the plates 50 fixed to the tray 40), tray 40 is ready for being placed in the oven for curing of the lens-forming material contained in the mold cavities 602 of the lens molds 60 to form the contact lenses.

[0078] For increasing the efficiency, it is advantageous to arrange a plurality of trays 40 with plates 50 mounted to the mounting holes 41 and with lens molds 60 arranged on the top surfaces 52 of plates 50 in a stack. For example, the apparatus according to the invention may comprise a stack of trays comprising between twenty and thirty individual trays 40. The individual trays 40 of the stack are arranged spaced apart from each other with the aid of spacers 43 (see FIG. 7 or FIG. 9), which are mounted to the respective tray 40 and which allow for easy stacking of the individual trays 40. Any suitable spacers known in the art can be used for this purpose and, accordingly, the spacers 43 are not described in more detail. Once the stack of trays has been formed, it is placed in an oven for thermally curing the lens-forming material contained in the lens molds 60.

[0079] While embodiments of the invention have been described with the aid of the drawings, it is obvious that many changes and/or modifications are possible without departing from the teaching underlying the invention. Therefore, such changes or modifications are intended to be within the scope of protection which is defined by the appended claims.