CN1573360A - Composite lens making device and method - Google Patents

Composite lens making device and method Download PDF

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Publication number
CN1573360A
CN1573360A CNA2004100575880A CN200410057588A CN1573360A CN 1573360 A CN1573360 A CN 1573360A CN A2004100575880 A CNA2004100575880 A CN A2004100575880A CN 200410057588 A CN200410057588 A CN 200410057588A CN 1573360 A CN1573360 A CN 1573360A
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CN
China
Prior art keywords
lens
hardening resin
resin layer
ultraviolet hardening
base lens
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Granted
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CNA2004100575880A
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Chinese (zh)
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CN1303438C (en
Inventor
加藤贤二
白井义行
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Sony Corp
Tamron Co Ltd
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Sony Corp
Tamron Co Ltd
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Priority claimed from JP2000353493A external-priority patent/JP4443758B2/en
Priority claimed from JP2000353494A external-priority patent/JP4467768B2/en
Application filed by Sony Corp, Tamron Co Ltd filed Critical Sony Corp
Publication of CN1573360A publication Critical patent/CN1573360A/en
Application granted granted Critical
Publication of CN1303438C publication Critical patent/CN1303438C/en
Anticipated expiration legal-status Critical
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D11/00Producing optical elements, e.g. lenses or prisms
    • B29D11/00009Production of simple or compound lenses
    • B29D11/00365Production of microlenses
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B1/00Optical elements characterised by the material of which they are made; Optical coatings for optical elements
    • G02B1/10Optical coatings produced by application to, or surface treatment of, optical elements
    • G02B1/12Optical coatings produced by application to, or surface treatment of, optical elements by surface treatment, e.g. by irradiation
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B3/00Simple or compound lenses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29LINDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
    • B29L2011/00Optical elements, e.g. lenses, prisms
    • B29L2011/0016Lenses

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Ophthalmology & Optometry (AREA)
  • Mechanical Engineering (AREA)
  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)

Abstract

To accurately perform the alignment of a base lens with a mold for molding an ultraviolet curable resin layer in manufacturing a composite lens as an integrated lens by forming an ultraviolet curable resin layer on the surface of a base lens made of glass. The base lens 101 is positioned and held by the belll clamp part 1 of a positioning unit 2 and, in such a state that the alignment of the positioning unit 2 with a mold 9 is performed, the ultraviolet curable resin layer molded on the base lens 101 by the mold 9 is cured by an ultraviolet irradiator 14.

Description

Compound lens manufacturing installation and compound lens manufacture method
The application's application number that to be Sony Corp, Totatsu Corp. submit to November 20 calendar year 2001 is " 01130512.6 ", denomination of invention dividing an application for the application for a patent for invention of " compound lens manufacturing installation and compound lens manufacture method ".
Technical field
The present invention relates on the face of glass base lens, form the ultraviolet hardening resin layer, be made as the manufacturing installation and the manufacture method of the compound lens of overall lens.
Background technology
In the prior art, proposed on the face of glass base lens, formed the ultraviolet hardening resin layer, be made as the compound lens (replica lens) of overall lens.
When making this compound lens, on the face of the base lens of earlier aqueous ultraviolet hardening resin being dripped.Then, hold under the arm into the ultraviolet hardening resin that drips with the face and the metal die of this base lens.Under this state, see through base lens ultraviolet ray is shone on the ultraviolet hardening resin again, make the ultraviolet hardening resin sclerosis.At last with metal die demoulding from the ultraviolet hardening resin.
So the surface is formed on the face of base lens for the ultraviolet hardening resin layer of arbitrary shapes such as aspheric surface, has finished compound lens.
When making compound lens as described above, the face of base lens and metal die must be accurately to the centers.
But in the manufacturing installation before, the location of base lens is that the peripheral part with this base lens is a benchmark, carries out with positioning element.At this moment, in order to install and unload base lens, between the peripheral part of base lens and positioning element, the space must be arranged, so, can not be exactly to the center.
In addition, considered also that the employing bail clamp located base lens.But, under the state of base lens having been located, can not carry out the ultraviolet ray irradiation to ultraviolet hardening resin with bail clamp.So, before carrying out the ultraviolet ray irradiation, base lens is discharged from bail clamp, at this moment be easy to generate the position changing of the relative positions.
In addition, also considered in advance base lens to be positioned on the positioning component, again with the scheme of this positioning component and metal die location.But, for metal die with respect to the installation of positioning component and unload, the space must be arranged, so can not carry out the center exactly.
In the manufacturing installation before, when the installation of base lens and positioning component,, just can not be installed in the position of regulation if produced inclination.In addition, the location of base lens, positioning component, metal die etc., but owing to be the shaketable that adopts the X-Y direction, so positioning operation very bothers.
In addition, when making compound lens as described above, in the peripheral part of ultraviolet hardening resin layer, be the part of the close base lens outer circumferential side of ultraviolet hardening resin layer, ultraviolet hardening resin contacts with air.Therefore, during with the ultraviolet ray irradiation, be not easy to make the peripheral part of ultraviolet hardening resin layer fully to harden.
If in the not adequately hardened state bottom knockout of ultraviolet hardening resin layer, then unhardened ultraviolet hardening resin is attached on the metal die.In this case, can not make next compound lens, perhaps on the compound lens of making, the outer circumferential side segmental defect of its ultraviolet hardening resin layer.
Summary of the invention
The present invention makes in view of the above problems, and its purpose is to provide the manufacture method of the manufacturing installation and the compound lens of compound lens.Use apparatus and method of the present invention, on the face of glass base lens, form the ultraviolet hardening resin layer, manufacturing is during as the compound lens of one lens, can be easily and carry out exactly base lens, and the metal die of moulding ultraviolet hardening resin layer between to the center, and the sclerosis of ultraviolet hardening resin layer is rapid and reliable.
To achieve these goals, compound lens manufacturing installation of the present invention, on the face of glass base lens, form the ultraviolet hardening resin layer, be made as the compound lens of one lens, it is characterized in that, have positioning component, housing, the 1st governor motion, metal die, the 2nd governor motion, ultraviolet radiation device;
Above-mentioned positioning component has the bail card division that base lens is located and maintained;
Above-mentioned housing keeps above-mentioned positioning component by linear guide;
Above-mentioned the 1st governor motion, by regulating the position of above-mentioned linear guide with respect to housing, regulate above-mentioned positioning component, with respect to the position of housing;
Above-mentioned metal die is being kept by above-mentioned housing by Throw bearing, moulding ultraviolet hardening resin layer on the face of the base lens that is keeping in the bail card division by above-mentioned positioning component;
Above-mentioned the 2nd governor motion, by regulate above-mentioned Throw bearing, with respect to the position of housing, regulate the position with respect to housing of above-mentioned metal die;
Above-mentioned ultraviolet radiation device hardens the ultraviolet hardening resin layer that is molded on the base lens by above-mentioned metal die;
The the above-mentioned the 1st and the 2nd governor motion is the mechanism to the center that positions assembly and metal die.
In addition, compound lens manufacture method of the present invention forms the ultraviolet hardening resin layer and is made as the compound lens of one lens on the face of glass base lens, it is characterized in that following steps are arranged:
Make the location, bail card division of positioning component and maintain base lens;
Make housing maintain above-mentioned positioning component by linear guide;
Regulate the position with respect to housing of above-mentioned linear guide, regulate the position with respect to this housing of above-mentioned positioning component;
Remain on the metal die of moulding ultraviolet hardening resin layer on the face of the base lens that is being kept by above-mentioned bail card division on the above-mentioned housing by Throw bearing;
Regulate the position with respect to housing of above-mentioned Throw bearing, carry out above-mentioned positioning component and metal die to the center;
With ultraviolet radiation device the ultraviolet hardening resin layer that is molded on the base lens by above-mentioned metal die is hardened.
In addition, compound lens manufacturing installation of the present invention, on the face of glass base lens, form the ultraviolet hardening resin layer and be made as the compound lens of one lens, it is characterized in that, have maintaining body, metal die, ultraviolet radiation device and nitrogen introducing mechanism;
Above-mentioned maintaining body is used to keep base lens;
Above-mentioned metal die is moulding ultraviolet hardening resin layer on the base lens that is being kept by above-mentioned maintaining body;
Above-mentioned ultraviolet radiation device hardens the ultraviolet hardening resin layer that is molded on the base lens by above-mentioned metal die;
Above-mentioned nitrogen introducing mechanism makes ultraviolet hardening resin when sclerosis at above-mentioned ultraviolet radiation device, nitrogen import this ultraviolet hardening resin layer around.
In addition, compound lens manufacture method of the present invention forms the ultraviolet hardening resin layer and is made as the compound lens of one lens on the face of glass base lens, it is characterized in that following steps are arranged:
Maintain base lens with maintaining body;
With metal die moulding ultraviolet hardening resin layer on the face of the base lens that is being kept by above-mentioned maintaining body;
Nitrogen import by above-mentioned metal die be molded over ultraviolet hardening resin layer on the base lens around;
Make above-mentioned ultraviolet hardening resin layer sclerosis with ultraviolet radiation device.
Description of drawings
Fig. 1 is the skiagraph of wanting portion's (positioning component part) structure of expression compound lens manufacturing installation of the present invention.
Fig. 2 is the skiagraph of the structure corresponding with the base lens shape in the above-mentioned compound lens manufacturing installation of expression, hollow chuck segment.
Fig. 3 is the skiagraph of wanting cage structure (metal die maintaining body part) of the above-mentioned compound lens manufacturing installation of expression.
Fig. 4 is the skiagraph of the 1st step of the eccentric adjusting in the above-mentioned compound lens manufacturing installation of expression.
Fig. 5 is the skiagraph of the 2nd step of the eccentric adjusting in the above-mentioned compound lens manufacturing installation of expression.
Fig. 6 is the skiagraph of the 3rd step of the eccentric adjusting in the above-mentioned compound lens manufacturing installation of expression.
Fig. 7 is the skiagraph that is illustrated in the state of moulding ultraviolet hardening resin layer in the above-mentioned compound lens manufacturing installation.
Fig. 8 is the skiagraph that is illustrated in the state that makes the sclerosis of ultraviolet hardening resin layer in the above-mentioned compound lens manufacturing installation.
Fig. 9 is a skiagraph in the above-mentioned compound lens manufacturing installation of expression, nitrogen importing road structure.
Embodiment
Below, with reference to the description of drawings embodiments of the invention.
Compound lens manufacture method of the present invention is implemented with compound lens manufacturing installation of the present invention.That is, compound lens manufacturing installation of the present invention is to form the ultraviolet hardening resin layer on the face of the base lens of glass, is made as the manufacturing installation of the compound lens (replica lens) of overall lens.In addition, compound lens manufacture method of the present invention is to form the ultraviolet hardening resin layer on the face of the base lens of glass, is made as the manufacture method of the compound lens (replica lens) of overall lens.
The manufacturing installation of this compound lens as shown in Figure 1, has the bail card division 1 that base lens 101 location are maintained.In addition, this compound lens manufacturing installation has positioning component 2, and this positioning component 2 is as the maintaining body that keeps base lens 101.This positioning component 2 forms general cylindrical shape, and the one end is as the bail card division 1 that keeps base lens 101.The other end of positioning component 2 is covered with by quartz glass 3.
1 absorption of bail card division is keeping the lens face outer circumferential side part of base lens 101.That is, be provided with the tunnel portion that attracts usefulness from this bail card division 1 to being located at positioning component 2 another distolateral adsorption orifices 4.The base lens 101 of joining with bail card division 1 is attracted by pump by adsorption orifice 4, like this, is adsorbed on the adsorption plane that remains on bail card division 1.At this moment, base lens 101 with the lens face be the benchmark centering adjustment be held.
The maintenance of this 1 pair of base lens 101 in bail card division according to the shape of base lens 101, can be taked various structures.That is, as shown in Figure 2, when base lens 101 is flangeless biconvex lens, the outer peripheral portion of seizing two convex surfaces on both sides by the arms with the adsorption plane and the hold assembly 5 of bail card division 1.When base lens 101 is flangeless biconcave lens, the outer peripheral portion of seizing two concave surfaces on both sides by the arms with the adsorption plane and the hold assembly 5 of bail card division 1.Under these situations,, carry out the tilt adjustment of base lens 101 or to center adjustment by each convex surface or each concave surface.
When base lens 101 be flangeless, when one side is the lens of concave surface (or plane) for the convex surface another side, the outer peripheral portion of seizing convex surface and concave surface (or plane) on both sides by the arms with the adsorption plane and the hold assembly 5 of bail card division 1.Perhaps, seize the outer peripheral edge portion of the outer peripheral portion and the concave surface (or plane) of convex surface on both sides by the arms.When seizing the outer peripheral portion of convex surface and concave surface (or plane) on both sides by the arms, by these convex surfaces and concave surface (or plane), the tilt adjustment of carrying out base lens 101 reaches center adjustment.When seizing the outer peripheral edge portion of the outer peripheral portion of convex surface and concave surface (or plane) on both sides by the arms, by convex surface carry out base lens 101 to the center, carry out the tilt adjustment of base lens 101 by the outer peripheral edge portion of concave surface (or plane) side.
When base lens 101 be have flange, when having the lens of convex surface or concave surface,, seize the outer peripheral portion of flange part and convex surface or concave surface on both sides by the arms with the adsorption plane and the hold assembly 5 of bail card division 1.At this moment, by convex surface or concave surface carry out base lens 101 to the center, carry out the tilt adjustment of base lens 101 by flange part.
When making this positioning component 2, the adsorption plane of its outer circumferential surface section and bail card division 1 is ground processing in once clamping.The concentricity of this outer circumferential surface section and adsorption plane is in 1 μ m.Therefore, base lens 101 is being kept by this positioning component 2 with interior offset with 1 μ m with respect to the outer circumferential surface section of positioning component 2.
This compound lens manufacturing installation has the housing 7 that keeps positioning component 2 by linear guide 6.This housing 7 forms cylindric.One end of this housing 7 fixedly is provided on the abutment portion 8 of compound lens manufacturing installation.Position at the installation housing 7 of abutment portion 8 has the through hole that is equivalent to housing 7 internal diameters.Metal die 9 described later inserts in the housing 7 by this through hole from abutment portion 8 sides.
In this housing 7, setting the Throw bearing 10 that is used to keep the linear guide 6 of positioning component 2 and is used to keep metal die 9.Throw bearing 10 be located at housing 7 one distolateral, be abutment portion 8 sides.It is distolateral that linear guide 6 is located at another of housing 7.The inside diameter of this housing 7 forms with a grinding, has identical internal diameter to the other end from an end.Therefore, this housing 7 can fixedly keep linear guide 6 and Throw bearing 10 with one heart.
Folder is being established with respect to housing 7 intermediate member 11 removably between the inner peripheral surface portion of linear guide 6 and housing 7.This intermediate member 11 forms cylindric.This intermediate member 11, it is by housing 7 outer circumferential surface section that is keeping and the inner peripheral surface portion that keeps linear guide 6, and grinding becomes in a clamping.The concentricity of outer circumferential surface section and inner peripheral surface portion is in 1 μ m in this intermediate member 11.
The off-centre of the interior periphery of linear guide 6 is in 2 μ m.Therefore, positioning component 2, when being installed on the housing 7 by linear guide 6 and intermediate member 11, with respect to the offset of this housing 7 in 3 μ m.The adsorption plane of the outer circumferential surface section of positioning component 2 and bail card division 1, be that 1 μ m is with interior concentricity, therefore, when positioning component 2 is installed on the housing 7 by linear guide 6 and intermediate member 11, the adsorption plane of bail card division 1 with respect to the offset of housing 7 in 4 μ m.
In addition, also can not adopt intermediate member 11.When adopting intermediate member 11, compound lens is along with the change of machine, and the replacing of its positioning component 2 is easy.That is, in being suitable for some kind positioning components 2 of different machine compound lenses, if having, then when machine changes, as long as change intermediate member 11 and linear guide 6 with respect to housing 7 removably intermediate member 11 and linear guide 6.
On housing 7, be provided with the 1st governor motion 12, the 1 governor motions 12, by regulating the position with respect to housing 7 of linear guide 6, the position with respect to housing 7 of scalable positioning component 2.The 1st governor motion 12 by carrying out the position adjustments of 11 of housing 7 and intermediate members, positions the adjusting with respect to housing 7 positions of assembly 2.The 1st governor motion 12 is distolateral and another is distolateral accordingly, adjusting screw that be located on the housing 7 constitutes by with linear guide 6.These adjusting screw are screwed into from the side surface part of housing 7, penetrate into the inner peripheral surface portion of housing 7 always.In addition, the outer circumferential surface section of the leading section of these adjusting screw and intermediate member 11 is joined.That is, by rotating these adjusting screw, intermediate member 11 is pushed towards the side direction perpendicular to central shaft in housing 7, and thus, eccentric and inclination is conditioned.
In addition, between intermediate member 11 and linear guide 6, also be provided with the governor motion same with the 1st governor motion.By this governor motion, scalable linear guide 6 is with respect to the eccentric and inclination of intermediate member 11.
This compound lens manufacturing installation has metal die 9.This metal die 9 remains on the housing 7 by Throw bearing 10.This metal die 9, moulding ultraviolet hardening resin layer on the base lens 101 that the bail card division 1 of the assembly 2 that is positioned is keeping.The leading section 9a of this metal die 9 for example is processed into aspheric surface accurately.This leading section 9a be used for and base lens 101 between form the ultraviolet hardening resin layer.The offset of the outer circumferential surface section of this leading section 9a and metal die 9 is in 1 μ m.The outer circumferential surface section of metal die 9 is being kept by Throw bearing 10.The offset of Throw bearing 10 is in 2 μ m.Therefore, when metal die 9 is installed on the housing 7 by Throw bearing 10, with respect to the offset of housing 7 in 3 μ m.
Therefore, positioning component 2 by linear guide 6 and intermediate member 11 be installed on the housing 7, when metal die 9 is installed on the housing 7 by Throw bearing 10, the adsorption plane of bail card division 1 is with respect to the offset of metal die 9 leading section 9a, though at the state of not regulating also in 7 μ m.At this moment, the base lens 101 that keeping of the adsorption plane of clamped hoop card division 1 and the offset of metal die 9 leading section 9a are in 8 μ m.
On housing 7, be provided with the 2nd governor motion 13.The 2nd governor motion 13 by the position with respect to housing 7 of adjustment stroke bearing 10, is regulated the position with respect to housing 7 of metal die 9.The 2nd governor motion 13 and the 1st governor motion 12 similarly, distolateral and another is distolateral accordingly, adjusting screw that be located on the housing 7 constitutes by with Throw bearing 10.These adjusting screw are screwed into from the side surface part of housing 7, penetrate into the inner peripheral surface portion of housing 7 always.The outer circumferential surface section of the leading section of these adjusting screw and Throw bearing 10 is joined.That is, by rotating these adjusting screw, Throw bearing 10 is pushed towards the side direction perpendicular to central shaft in housing 7, and like this, eccentric and inclination is conditioned.
The the 1st and the 2nd governor motion the 12, the 13rd is regulated positioning component 2 with respect to the off-centre of housing 7 and metal die 9 mechanism with respect to the off-centre of housing 7.Therefore, the 1st and the 2nd governor motion the 12, the 13rd positions the mechanism to the center of assembly 2 and metal die 9.
This compound lens device has ultraviolet radiation device 14.This ultraviolet radiation device 14 makes the ultraviolet hardening resin layer sclerosis by metal die 9 moulding on base lens 101.This ultraviolet radiation device 14 be located at can with respect to abutment portion 8 clutches the axle 15 in.This axle 15 is guided by linear guide 6, with respect to abutment portion 8 clutches.On this end that faces abutment portion 8 of 15 positioning component 2 is installed.
In axle 15, be provided with ultraviolet lenses.In another distolateral importing positioning component 2 of positioning component 2, guiding remains on the base lens 101 of these positioning component 2 one ends again through an end of axle 15 in the ultraviolet ray that this ultraviolet lenses sends ultraviolet radiation device 14.That is, ultraviolet radiation device 14 sees through the ultraviolet hardening resin layer irradiation ultraviolet radiation that 101 pairs of base lens are molded over metal die 9 and 101 of base lens, and this ultraviolet hardening resin layer is hardened.
By move operation axle 15, positioning component 2 can insert or extract housing 7.At this moment, positioning component 2 is guided by linear guide 6, is keeping the offset of regulation with respect to housing 7.
Be provided with photoelectric sensor 7a in the other end of housing 7,, can detect positioning component 2 and insert in the housing 7 by this photoelectric sensor 7a.
As shown in Figure 3, this compound lens device has metal die maintaining body 40.This metal die maintaining body 40 carries out operation that metal die 9 is inserted or extracts the operation of housing 7 and metal die 9 is pivoted when move operation metal die 9.This metal die maintaining body 40 has carrying cylinder 17.One end of this carrying cylinder 17 is installed on the abutment portion 8.In addition, this carrying cylinder 17 is co-axially mounted on the abutment portion 8 with housing 7, and is positioned at the opposition side of housing 7.Another distolateral nut part 18 that is installed with at this carrying cylinder 17.This nut part 18 is coaxial with carrying cylinder 17, can pivot with respect to carrying cylinder 17.This nut part 18 passes through endless drive loop 20 by lift motor 19 driven in rotation.Lift motor 19 fixedly is provided on the abutment portion 8.
Ball wire lever 21 is supporting coaxially with carrying cylinder 17.This ball wire lever 21 screws togather with nut part 18.This ball wire lever 21 can move at the direction of principal axis of carrying cylinder 17.But this ball wire lever 21 can not pivot with respect to carrying cylinder 17 by clamping part 22 (this clamping part 22 is located at and stretches out in the distolateral of carrying cylinder 17 foreign side's sides).Therefore, when nut part 18 was operated rotation, this ball wire lever 21 moved at the direction of principal axis of carrying cylinder 17.
In end ball wire lever 21, that be positioned at carrying cylinder 17, the internal ring portion of ball bearing 23 is installed.On the outer portion of this ball bearing 23, metal die bolster 24 is installed coaxially with carrying cylinder 17.The outer portion of ball bearing 23 can be rotated with respect to internal ring portion.Leading section at metal die bolster 24 is installed with metal die 9 coaxially.
Outer circumferential surface section at metal die bolster 24 forms spline 25.On this spline 25, driven pulley 26 is installed.This driven pulley 26 by with the engagement of spline 25, can move at direction of principal axis with respect to metal die bolster 24, but can not pivot.This driven pulley 26 is driven in rotation by annular driving belt 28 by the rotation motor 27 that fixedly is provided on the abutment portion 8.Therefore, metal die bolster 24 can pivot by rotation motor 27.
That is, metal die 9 can move at the direction of principal axis of carrying cylinder 17 by the driving force of lift motor 19,, can insert or extract housing 7 that is.In addition, metal die 9 can rotate around the axle of carrying cylinder 17 by the driving force of rotation motor 27, that is, can sway with respect to housing 7.Metal die 9, and base lens 101 between during moulding ultraviolet hardening resin layer, Yi Bian pivot, Yi Bian the base lens 101 that is keeping near the assembly 2 that is positioned.In addition, when metal die 9 demouldings, leave base lens 101 while pivot.
Below, eccentric adjusting step in this compound lens manufacturing installation, positioning component 2 and metal die 9 is described.As shown in Figure 4, earlier base lens 101 is remained on the bail card division 1 of positioning component 2.Make intermediate member 11 keep positioning component 2 by linear guide 6.At this state, positioning component 2 and intermediate member 11 are placed on through on the eccentric microscope.Then, intermediate member 11 is pivoted, measure positioning component 2 another distolateral offsets with clock gauge.Adjusting is located at positioning component 2 another the distolateral adjusting screw 29a on the intermediate member 11, and the offset that makes the positioning component 2 that clock gauge measures is in ± 2 μ m.Then, regulate the distolateral adjusting screw 29b of the positioning component that is located on the intermediate member 11 2 one, make seeing through of base lens 101 eccentric below ormal weight with seeing through eccentric microscope.Repeatedly should operation, the offset that makes the positioning component 2 that clock gauge measures makes seeing through of the base lens 101 that sees through eccentric measurement microscope eccentric below ormal weight in ± 2 μ m.
Then, as shown in Figure 5, anchor clamps 9b is remained on the housing 7 by Throw bearing 10.The outer circumferential surface section of these anchor clamps 9b forms the shape identical with metal die 9.Make the axis rotation of housing 7, measure a distolateral offset of this housing 7 with clock gauge around anchor clamps 9b.Adjusting is located at the adjusting screw of the 2nd governor motion 13 on the housing 7, and the offset of the housing 7 of clock gauge mensuration is controlled in the ormal weight.
As shown in Figure 6, make housing 7 keep positioning component 2.At this state, housing 7, intermediate member 11 and positioning component 2 are placed on through on the eccentric microscope.Then, make the axis rotation of housing 7, measure positioning component 2 another distolateral offsets with clock gauge around anchor clamps 9b.Regulate the adjusting screw of the 1st governor motion 12, the offset that makes the positioning component 2 that clock gauge measures is in ± 2 μ m.With seeing through eccentric microscope, the adjusting screw of regulating the 1st governor motion 12 makes seeing through of base lens 101 eccentric below ormal weight again.Repeatedly should operation, the offset that makes the positioning component 2 that clock gauge measures makes seeing through of the base lens 101 that sees through eccentric measurement microscope eccentric below ormal weight in ± 2 μ m.
When not adopting intermediate member 11, regulate in the following order.That is, base lens 101 is remained on the bail card division 1 of positioning component 2.This positioning component 2 is remained on the housing 7 by linear guide 6.At this state, positioning component 2 and housing 7 are placed on through on the eccentric microscope.Then, housing 7 is rotated around axis, measure positioning component 2 another distolateral offsets with clock gauge.Regulate the adjusting screw of the 1st governor motion 12, the offset that makes the positioning component 2 that clock gauge measures is in ± 2 μ m.With seeing through eccentric microscope, the adjusting screw of regulating the 1st governor motion 12 makes seeing through of base lens 101 eccentric below ormal weight again.Repeatedly should operation, the offset that makes the positioning component 2 that clock gauge measures makes seeing through of the base lens 101 that sees through eccentric measurement microscope eccentric below ormal weight in ± 2 μ m.
Then, the anchor clamps 9b that replaces metal pattern 9 is remained on the housing 7 by Throw bearing 10.At this state, housing 7 and positioning component 2 are placed on through on the eccentric microscope.Then, make the axis rotation of housing 7, measure positioning component 2 another distolateral offsets with clock gauge around anchor clamps 9b.Regulate the adjusting screw of the 2nd governor motion 13, the offset that makes the positioning component 2 that clock gauge measures is in ± 2 μ m.With seeing through eccentric microscope, the adjusting screw of regulating the 2nd governor motion 13 makes seeing through of base lens 101 eccentric below ormal weight again.Repeatedly should operation, the offset that makes the positioning component 2 that clock gauge measures makes seeing through of the base lens 101 that sees through eccentric measurement microscope eccentric below ormal weight in ± 2 μ m.
By carrying out such eccentric adjusting, even positioning component 2 and metal die 9 are loaded and unloaded repeatedly with respect to housing, also the offset between positioning component 2 and the metal die 9 can be suppressed at a certain amount of below.
In this compound lens manufacturing installation, make compound lens with following order.Earlier as shown in Figure 7, base lens 101 location are remained on the bail card division 1 of positioning component 2.At this moment, endless member 30 is positioned in the peripheral part of base lens 101.This endless member 30, its internal diameter is slightly smaller than the external diameter of base lens 101, and its external diameter is a bit larger tham the internal diameter of flange part (this flange part towards interior side be located at intermediate member 11 front).The effect of this endless member 30 is, even aftermentioned ultraviolet hardening resin layer when base lens 101 foreign side's sides are overflowed, can prevent that also the ultraviolet hardening resin layer is attached on metal die 9 or the intermediate member 11.In addition, even because of the ultraviolet hardening resin layer overflows when making that base lens 101 engages with endless member 30, because endless member 30 peels off in the foreign side of device easily with base lens 101, so no problem.
Then, as shown in Figure 8, positioning component 2 is moved to housing 7 sides.This positioning component 2 is being kept by housing 7 by linear guide 6.At this moment because the position with respect to housing 7 of linear guide 6 is conditioned, so, positioning component 2, also be conditioned with respect to the position of housing 7.
Then, base lens 101, with the face of metal die 9 opposite sides on the aqueous ultraviolet hardening resin that drips.When base lens 101, when being concave surface with the face of metal die 9 opposite sides, this aqueous ultraviolet hardening resin drips on this concave surface.When base lens 101, when being convex surface with the face of metal die 9 opposite sides, this aqueous ultraviolet hardening resin drips on the concave surface of the metal die relative with it.That is, device being stood upside down uses.
Then, metal die 9 is entered in the housing 7, keeping by this housing 7 by Throw bearing 10.At this moment, since Throw bearing 10, be conditioned with respect to the position of housing 7, so positioning component 2 has been carried out the center with metal die 9.At this moment, rotation motor 27 and lift motor 19 are driven, Yi Bian metal die 9 is pivoted, Yi Bian near base lens 101.
Metal die 9 pivots on one side, on one side near base lens 101, and this base lens 101 between form the ultraviolet hardening resin layer.At this moment, when the lens face that drips when aqueous ultraviolet hardening resin was concave surface, the metal die 9 of convex surface entered in the drop of this ultraviolet hardening resin.Therefore, at this moment, metal die 9 contacts with ultraviolet hardening resin, is to carry out towards outer circumferential side ground from central division, and the bubble in the ultraviolet hardening resin layer is driven out of outer circumferential side.When aqueous ultraviolet hardening resin dripped the metal die side of concave surface, similarly, the face of the base lens 101 of convex surface entered in the drop of ultraviolet hardening resin.Therefore, at this moment, base lens 101 contacts with the ultraviolet hardening resin layer, is to carry out towards outer circumferential side from central division, and the bubble in the ultraviolet hardening resin layer is driven out of outer circumferential side.
Then, see through 101 pairs of ultraviolet hardening resin layer ultraviolet radiation device 14 irradiation ultraviolet radiations of base lens by metal die 9 moulding on base lens 101.Make the sclerosis of ultraviolet hardening resin layer by this ultraviolet ray irradiation.
At this moment, in this compound lens manufacturing installation, use the nitrogen introducing mechanism, with nitrogen import the ultraviolet hardening resin layer around.That is, in this compound lens manufacturing installation, the sclerosis of ultraviolet hardening resin layer is to carry out under the state around the nitrogen importing ultraviolet hardening resin layer.By the importing of nitrogen, the ultraviolet hardening resin layer that makes base lens 101 peripheral sides also can be rapidly, sclerosis effectively.
The nitrogen introducing mechanism imports the periphery of base lens 101 to nitrogen from the nitrogen steel cylinder of scheming not show, the periphery of process positioning component 2.On endless member 30, as shown in Figure 9, be provided with the through hole 32 that makes air effusion usefulness, like this, can import nitrogen effectively.In addition, the importing of nitrogen is to carry out simultaneously by the valve of operation nitrogen steel cylinder and ultraviolet irradiation time to the ultraviolet hardening resin layer.
In the nitrogen introducing mechanism, also shielding portion can be set, this shielding portion is used to prevent that the nitrogen that imports from making unhardened ultraviolet hardening resin layer distortion.This shielding portion can form like this: the wall segment that covers base lens 101 is set on the importing road of nitrogen.By this shielding portion, when importing nitrogen, can prevent that the nitrogen that imports from directly contacting unhardened ultraviolet hardening resin layer and making this ultraviolet hardening resin layer distortion.In addition, nitrogen imports road 33 and also can be located at metal die 9 sides as shown in Figure 9.
The sclerosis of ultraviolet hardening resin layer makes metal die 9 leave base lens 101 after finishing, and carries out the demoulding.When this demoulding, rotation motor 27 and lift motor 19 are driven, Yi Bian metal die 9 is pivoted, Yi Bian break away from base lens 101.Like this, on the lens face of base lens 101, form the ultraviolet hardening resin layer hardened, finished compound lens.
The invention effect
As mentioned above, in compound lens manufacturing installation of the present invention and the compound lens manufacture method, base lens is located and maintained in bail card division with positioning component, under the state that has carried out this positioning component and metal die, the ultraviolet hardening resin layer that is molded on the base lens by metal die is hardened with ultraviolet radiation device to the center.
Because positioning component and metal die are being kept by housing by linear guide and Throw bearing respectively, so even position the loading and unloading with respect to this housing of assembly and metal die, the position between positioning component and metal die can the changing of the relative positions yet.
Promptly, according to compound lens manufacturing installation of the present invention and compound lens manufacture method, on the face of glass base lens, form the ultraviolet hardening resin layer, when making the compound lens of lens as a whole, between the metal die of base lens and moulding ultraviolet hardening resin layer to the center, available easy operation is carried out exactly.
In addition, in compound lens manufacturing installation of the present invention and the compound lens manufacture method, on the face that is held the base lens that mechanism keeping, with metal die moulding ultraviolet hardening resin layer, when making this ultraviolet hardening resin layer sclerosis, around nitrogen importing ultraviolet hardening resin layer with ultraviolet radiation device.
Therefore, the ultraviolet hardening resin layer does not contact with air, available ultraviolet irradiation, make the ultraviolet hardening resin layer rapidly, effectively the sclerosis.
Promptly, according to compound lens manufacturing installation of the present invention and compound lens manufacture method, on the face of glass base lens, form the ultraviolet hardening resin layer, when making the compound lens of lens as a whole, can be rapidly and make the sclerosis of ultraviolet hardening resin layer effectively.

Claims (4)

1. the compound lens manufacturing installation forms the ultraviolet hardening resin layer on the face of glass base lens, is made as the compound lens of overall lens, it is characterized in that, has maintaining body, metal die, ultraviolet radiation device and nitrogen introducing mechanism;
Above-mentioned maintaining body is used to keep base lens;
Above-mentioned metal die is moulding ultraviolet hardening resin layer on the base lens that is being kept by above-mentioned maintaining body;
Above-mentioned ultraviolet radiation device hardens the ultraviolet hardening resin layer that is molded on the base lens by above-mentioned metal die;
Above-mentioned nitrogen introducing mechanism makes ultraviolet hardening resin when sclerosis at above-mentioned ultraviolet radiation device, nitrogen import to this ultraviolet hardening resin layer around.
2. compound lens manufacturing installation as claimed in claim 1 is characterized in that, above-mentioned nitrogen introducing mechanism has shielding portion, and this shielding portion prevents that the nitrogen that imports from making unhardened ultraviolet hardening resin layer distortion.
3. the compound lens manufacture method forms the ultraviolet hardening resin layer on the face of glass base lens, is made as the compound lens of overall lens, it is characterized in that following steps are arranged:
Maintain base lens with maintaining body;
With metal die moulding ultraviolet hardening resin layer on the face of the base lens that is being kept by above-mentioned maintaining body;
Nitrogen import to by above-mentioned metal die be molded over ultraviolet hardening resin layer on the base lens around;
Make above-mentioned ultraviolet hardening resin layer sclerosis with ultraviolet radiation device.
4. compound lens manufacture method as claimed in claim 3 is characterized in that, when importing nitrogen, prevents that the nitrogen that imports from directly contacting with unhardened ultraviolet hardening resin layer.
CNB2004100575880A 2000-11-20 2001-11-20 Composite lens making device and method Expired - Fee Related CN1303438C (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
JP2000353493A JP4443758B2 (en) 2000-11-20 2000-11-20 Compound lens manufacturing apparatus and compound lens manufacturing method
JP2000353494A JP4467768B2 (en) 2000-11-20 2000-11-20 Compound lens manufacturing apparatus and compound lens manufacturing method
JP353494/2000 2000-11-20
JP353493/2000 2000-11-20

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CN1573360A true CN1573360A (en) 2005-02-02
CN1303438C CN1303438C (en) 2007-03-07

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CN105328845A (en) * 2014-08-15 2016-02-17 奇鼎科技股份有限公司 UV curing device for contact lenses

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EP0278127B1 (en) * 1987-01-26 1992-03-18 Koninklijke Philips Electronics N.V. Replica lens having a glass lens body
JPH06190941A (en) * 1991-03-22 1994-07-12 Olympus Optical Co Ltd Molding method of composite type optical element
US5566027A (en) * 1993-01-18 1996-10-15 Canon Kabushiki Kaisha Photocurable resin composition and optical lens produced therefrom
JPH0990102A (en) * 1995-09-26 1997-04-04 Nikon Corp Optical product with coating film and its production
JPH11125704A (en) * 1997-10-22 1999-05-11 Dainippon Printing Co Ltd Lenticular lens sheet and its production

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CN1354081A (en) 2002-06-19
CN1303438C (en) 2007-03-07
CN1200809C (en) 2005-05-11
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TW537965B (en) 2003-06-21
KR100772666B1 (en) 2007-11-02

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