AU1012102A - Improvements in or relating to variable focus lenses - Google Patents

Description

AUSTRALIA

Patents Act COMPLETE SPECIFICATION

(ORIGINAL)

Class Int. Class Application Number: Lodged: Complete Specification Lodged: Accepted: Published: Priority Related Art: Name of Applicant: Joshua David Silver Actual Inventor(s): Joshua David Silver Address for Service: PHILLIPS ORMONDE FITZPATRICK Patent and Trade Mark Attorneys 367 Collins Street Melbourne 3000 AUSTRALIA Invention Title: IMPROVEMENTS IN OR RELATING TO VARIABLE FOCUS LENSES Our Ref: 660231 POF Code: 1150/324563 The following statement is a full description of this invention, including the best method of performing it known to applicant(s): -1- 1A IMPROVEMENTS IN OR RELATING TO VARIABLE FOCUS LENSES The present application is a divisional application from Australian Patent Application number 41293/97 the entire disclosure of which are incorporated herein by reference The present invention relates to a method of fabricating a variable focus lens and to the variable focus lens so constructed.

It is known to provide a variable focus lens in which one or more transparent flexible membranes are tensioned to define a cavity therebetween in which a transparent fluid is received. Adjustment of the pressure and/or volume of the fluid in the cavity causes variations in the shape of the membranes, and the structure defines a lens of variable focal length.

However, whilst it is known to use such a construction to provide a variable focus lens, no current proposals for fabricating such a lens provide a 15 lightweight structure which can easily be incorporated into spectacles, for example.

The present invention seeks to provide a new method of fabricating a variable focus lens and to provide a new structure for such a lens.

According to a first aspect of the present invention there is provided a method of fabricating a variable focus lens comprising the steps of interengaging first and second rings to engage a first transparent, flexible membrane and to 0ooo retain said first flexible membrane across the first ring, interengaging a third ring with said first and second rings to engage a second transparent, flexible membrane and to retain said second flexible membrane across the first ring, whereby the first and second flexible membranes define a cavity therebetween, and holding said first, second and third rings together such that said first and second flexible membranes are each tensioned across said first ring.

A method of an embodiment of the invention enables a variable focus lens to be assembled quickly and easily.

A transparent fluid is to be sealed within the cavity defined between the two flexible membranes. In an embodiment, a duct is provided through said rings, which duct is in communication with said cavity. The duct may be formed from pre-formed bores in said first, second and third rings. However, in a WWWryMDW*M*VWMNW- OF 4129S'0.dO preferred embodiment, said duct is drilled, or otherwise formed, through said rings.

In an embodiment said first ring receives said second and third rings therein and defines the periphery of a peripheral, annular frame for the lens, which annular frame is defined by said first, second and third rings. This annular frame may readily be supported within lens apertures provided in spectacles, for example.

:i 10 The peripheral shape of the peripheral annular frame, and hence of the .i individual rings, may be chosen as is required. For example, the annular frame may have a circular, oval, elliptical, or other closed curve, peripheral shape.

•Any method for holding the first, second and third rings together to retain the flexible membranes under tension may be used.

S• In a preferred embodiment, the method further comprises tumrning, crimping or otherwise deforming the first ring so that the second and third rings are retained within said first ring.

Additionally andlor alternatively, said annular frame may be retained within the frame of a pair of spectacles. In this case, the frame of the spectacles may act to hold the first, second and third rings together. Of course, any other retaining means may additionally and/or altematively be provided to secure the first, second and third rings in their interengaged position.

According to a further aspect of the present invention there is provided a variable focus lens having a cavity containing a transparent fluid defined between first and second transparent, flexible membranes, wherein each of said first-and second flexible membranes is tensioned across and held by a peripheral annular frame, and wherein said annular frame is formed from first, second and third interengaged rings, said first ring receiving the second and third rings therein and defining the periphery of said annular frame.

A variable focus lens of an embodiment of the invention is simple and relatively inexpensive to assemble. Furthermore, the lens may be supported readily within the lens aperture in a pair of spectacles, for example.

The peripheral shape of the peripheral annular frame, and hence of the individual rings, may be chosen as is required. For example, the annular frame may have a circular, oval, elliptical, or other closed curve, peripheral shape.

Any method for holding the first, second and third rings together to retain 0io the flexible membranes under tension may be used.

In an embodiment, the annular frame is arranged to be retained within the frame of a pair of spectacles. In this case, the frame of the spectacles may act to hold the first, second and third rings together. Of course, any other retaining Is means may additionally and/or altemrnatively be provided to secure the first, second and third rings in their interengaged position.

It is important that the transparent fluid within said cavity cannot leak.

Accordingly, it is preferred that the interengagements between said rings cause the periphery of an appropriate flexible membrane to change direction more than once. This aids in sealing the periphery of the cavity.

It would be possible to construct the lens from a single flexible membrane web appropriately arranged to define two flexible membranes. However, in a preferred embodiment, two separate flexible membranes are provided with the periphery of the first flexible membrane being held by the interengagement of the first and second rings, and the periphery of the second flexible membrane being held by the interengagement of the second and third rings. This provides a simple, yet effective sealed structure for the cavity.

Each of said first and second membranes has a continuous periphery which is held by the respective rings so that it is bent to change direction more than once.

Preferably, each of two adjacent rings has a complementary annular step therein for interengaging the two rings, said interengaged steps also guiding an interposed flexible membrane around two direction changes.

In a preferred embodiment, each of said first and second flexible membranes is of high grade Mylar.

The first, second and third rings may be of any suitable material.

Preferably, each of the rings is of a material which is sufficiently rigid to io positively interengage with the adjacent ring and to ensure that two interengaged rings can maintain the flexible membrane under tension. The material of the rings is also required to be lightweight to facilitate the incorporation of lenses of the invention in spectacles. Thus, the rings may be made, for example, of a high impact resistant plastics material, or of aluminium, or of titanium.

The transparent fluid retained within the cavity may be any suitable fluid.

SIn a preferred embodiment, the fluid is a silicone oil, for example, an oil of the silicone 703 type.

In a preferred embodiment, the lens is additionally provided with two spaced, substantially parallel sheets of transparent polycarbonate between Swhich the cavity defined by the flexible membranes is arranged. The polycarbonate sheets provide protection to the flexible membranes and are readily tinted, for example, if required. The annular frame may also be received between the polycarbonate sheets if required.

Embodiments of the present invention will hereinafter be described, by way of example, with reference to the accompanying drawings, in which: Figure 1 shows an axial section of a portion of a variable focus lens of the invention during construction thereof, and Figure 2 shows a section similar to that of Figure 1 but showing the completed lens.

The lens described and illustrated herein may be utilised in an optical apparatus constructed and arranged to be adjusted as described and claimed in International application No. WO 96138744.

s The lens shown in Figure 2 comprises first and second transparent, flexible membranes 2 which are tensioned and which define therebetween a cavity 30 in which a transparent fluid 4, such as silicone oil, is contained. In the embodiment illustrated the membranes 2 are of Mylar, for example, 23pm Type D Mylar.

The membranes 2 are held in tension by way of a peripheral annular frame 6. The frame 6 defines the periphery of the lens, and of the cavity 30, and is arranged to hold the flexible membranes 2 under tension. The frame 6 is also arranged to seal the lens.

As can be seen from Figure 1, the annular frame 6 is formed by interengaging first, second and third rings 8, 10, 12 of aluminium. In this respect, the first ring 8 has a radially extending flange 14 which is stepped as indicated at 16. The first ring 8 also has an axially extending rim 18. The 20 second ring 10 has a radially outwardly projecting portion 20 defining a first step ooo.

22 which cooperates with the step 16 of the first ring 8 and a second step 24 which cooperates with a step 26 of the third ring 12. The third ring 12 has a recess 28 arranged radially outwardly therein.

oooee Where the completed lens is to have a generally circular periphery, for example, a first membrane 2, which is circular, is positioned to extend within the first ring 8 such that its periphery extends along the radial flange 14 thereof.

The second ring 10 is then supported within the first ring 8 such that the complementary steps 16 and 22 thereof interengage. This interengagement positions the second ring 10 relative to the first ring 8. The interengagement also bends the peripheral circumference of the first membrane 2 through two different directions as is clearly shown in Figure 1.

A second circular membrane 2 is then positioned across the first ring 8 such that its periphery extends along the upper radially extending surface of the second ring 10. Thereafter, the third ring 12 is positioned such that the steps 24 and 26 of the second and third rings 10, 12 cooperate to retain the third ring 12 in position within the first ring 8, and to bend the periphery of the second membrane 2 through two directions. The tolerances of the three rings 8, 10, 12 are chosen such that even when the arrangement is in the interengaged position shown in Figure 1, the two membranes 2 are firmly held by the interengaged rings.

The construction has the considerable advantage that the circular membranes 2 do not have to be produced to close tolerances. Each circular 1o membrane 2 can be cut to be generally circular and to have a diameter which is somewhat larger than is required. In its turn, each membrane 2 is positioned as described above and held by the interengagement of the corresponding ring 12. Any excess material of the membrane 2 can then be trimmed simply using a knife with the rings 10, 12 acting as guides.

To complete the construction of the lens it is necessary to ensure that the three rings 8, 10, 12 are secured together such that the peripheries of the membranes 2 are firmly retained to seal the lens and to prevent any leakage from the cavity 30 defined between the two membranes 2. In the embodiment 20 illustrated, the retention of the membranes 2 is achieved by crimping and deforming the first ring 8. In this respect, the upstanding, axially extending, free end of the limb 18 of the first ring 8 is bent over to be received within the recess 28 of the third ring 12. Any excess material deformed from the ring 8 during this crimping operation is received within an annular space 32 which is defined between the radially outwardly peripheries of the second and third rings 10 and 12, and the inner periphery of the limb 18 of the first ring 8.

Once the lens has been constructed, as shown in Figure 1, and with the outer ring 8 deformed to secure the structure, a duct 34 is drilled through the frame 6 into the cavity 30. The cavity 30 can then be filled with the transparent fluid 4 through the duct 34. With 703 silicone oil as the fluid the resultant lens achieves a focal length range of at least -6 to +10 dioptres, and the range -10 to dioptres should be achievable.

Fluid may be introduced into the cavity 30 by way of the duct 34 and retained therein by use, for example, of ducts, plugs and sealing means as described in International application No. WO 96/38744. In an embodiment, the lens is pre-filled at this stage with the fluid 4 and an appropriate material is provided in the duct 34 to seal the cavity 30. However, the material sealing the duct 34 is preferably penetrable by a syringe, for example, so that the pressure of the fluid 4 within the cavity 30 can be adjusted.

In the embodiment shown, the two axially outer surfaces of the lens are each protected by a sheet 36 of a polycarbonate. Each polycarbonate sheet 36, for example, may be about Y millimetre thick. It will be appreciated that these 0o sheets 36 are arranged to extend substantially parallel to each other. The circumferential periphery of each of the sheets 36 may be fixed to the annular frame 6 in any appropriate manner. For example, the sheets 36 may be S*0 adhered to the frame 6. Additionally and/or alternatively, a plastics material frame (not shown) of a pair of spectacles, for example, may be arranged to receive the annular frame 6 in a manner to retain the sheets 36 against the annular frame 6 in the position of Figure 2.

0.0 ,It will be appreciated that alterations and modifications may be made to the embodiments described and illustrated herein within the scope of this 20 application.

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Claims (19)

1. A method of fabricating a variable focus lens comprising the steps of interengaging first and second rings to engage a first transparent, flexible membrane and to retain said first flexible membrane across the first ring, interengaging a third ring with said first and second rings to engage a second transparent, flexible membrane and to retain said second flexible membrane across the first ring, whereby the first and second flexible membranes define a cavity therebetween, and holding said first, second and third rings together such o0 that said first and second flexible membranes are each tensioned across said .ooooi first ring. 0 0.

2. A method as claimed in Claim 1, further comprising the steps of providing 0 0a duct through said rings, which duct is in communication with said cavity and Is filling a transparent fluid into said cavity through said duct.

A method as claimed in Claim 2, wherein said duct is formed through said rings. 20

4. A method as claimed in any preceding claim, wherein said first ring receives said second and third rings therein and defines the periphery of a peripheral, annular frame for the lens, which annular frame is defined by said first, second and third rings. oV 0:o

5. A method as claimed in any preceding claim, further comprising the step of tumrning, crimping or otherwise deforming the first ring so that the second and third rings are retained within said first ring.

6. A variable focus lens having a cavity containing a transparent fluid 3o defined between first and second transparent, flexible membranes, wherein each of said first and second flexible membranes is tensioned across and held by a peripheral annular frame, and wherein said annular frame is formed from first, second and third interengaged rings, said first ring receiving the second and third rings therein and defining the periphery of said annular frame.

7. A variable focus lens as claimed in Claim 6, wherein the annular frame has a closed curve, peripheral shape.

8. A variable focus lens as claimed in Claim 6 or Claim 7, wherein said first, second and third rings are held together to retain the flexible membranes under tension and to seal said cavity.

9. A variable focus lens as claimed in any of Claims 6 to 8, wherein the interengagements between said rings cause the periphery of an appropriate io flexible membrane to change direction more than once.

10. A variable focus lens as claimed in any of Claims 6 to 9, wherein two separate flexible membranes are provided, with the periphery of the first flexible membrane being held by the interengagement of the first and second rings, and the periphery of the second flexible membrane being held by the interengagement of the second and third rings.

11. A variable focus lens as claimed in any of Claims 6 to 10, wherein each of said first and second flexible membranes is of high grade Mylar.

12. A variable focus lens as claimed in any of Claims 6 to 11, wherein each of the rings is of a material which is sufficiently rigid to positively interengage with the adjacent ring and to ensure that two interengaged rings can maintain the flexible membrane under tension.

13. A variable focus lens as claimed in Claim 12, wherein the rings are made of one of a high impact resistant plastics material, aluminium, or titanium.

14. A variable focus lens as claimed in any of Claims 6 to 13, wherein the transparent fluid retained within the cavity is a silicone oil.

A variable focus lens as claimed in any of Claims 6 to 14, wherein the lens is additionally provided with two spaced, substantially parallel sheets of transparent polycarbonate between which the cavity defined by the flexible membranes is arranged.

16. A variable focus lens made by a method as claimed in any of Claims 1 to

17. A pair of spectacles having a pair of lens apertures, and a respective variable focus lens as claimed in any of Claims 6 to 16 supported within each lens aperture.

18. A method of fabricating a variable focus lens substantially as hereinbefore described with reference to the accompanying drawings.

19. A variable focus lens substantially as hereinbefore described with reference to the accompanying drawings.