KR100636946B1 - Lens holding jig - Google Patents

Abstract

The lens L is held by at least three holding portions among the side holding portions 41 and 42 for holding the left and right edges of the lens L and the lower holding portion 43 for holding the lower edge of the lens L. In the lens jig used to immerse the lens L in the liquid, the side holders 41 and 42 are formed in accordance with the V-shaped holder 404 for holding the edge of the lens and the edge L of the lens. It is the structure provided with the up-down extending part 403 extending | stretching downward from the V-shaped holding | maintenance part 404. As shown in FIG. In addition, the lower holding portion provided with a support plate 11 having a cutout 110 for supporting the edge of the lens L2 at the upper end, and an auxiliary plate 12 integrated with the support plate 11 at an intersection angle ( It becomes 1). The appearance defect of the lens of the side holding part which supports the side of a lens, and the lower holding part which supports the lower side of a lens can be reduced as much as possible.

Description

Lens holding jig {LENS HOLDING JIG}             

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens holding jig, and more particularly, to a lens holding jig which can be used to immerse a lens in a processing liquid such as a hard coating solution.

Since plastic spectacle lenses are easy to be scratched, forming a hard coat film that imparts abrasion resistance is performed. As a method of forming a hard coating film on a lens, a method of applying a hard coating solution to the surface of a lens on which both surfaces are processed into a predetermined lens surface shape, and then drying and curing are generally used.

As a method of applying a hard coating solution to a lens, there are a spin-coating process and a dipping process, and the dipping method has become mainstream due to productivity.

In the conventional dipping method, the lens is mounted on a lens holding jig capable of attaching about 30 lenses together, the lens is immersed together with the lens holding jig in a hard coating solution, pulled up after a predetermined time, and the lens is held on the lens holding jig. The method of carrying out drying with the attachment of the is adopted.

However, in the lens holding jig which can mount many lenses, very many kinds of lens holding jig should be prepared according to the lens diameter and the thickness of the side (edge) of the lens. There is a troublesome problem.

In addition, since it is necessary to select the lens holding jig according to the diameter of the lens or the thickness of the lens, a detailed classification operation of the lens is required, and therefore, a troublesome time is required.

In addition, since the lens holding jig to which a large number of lenses can be mounted has a large number of frames, and the hard coating solution adheres to these frames when immersed in the hard coating solution, the hard coating solution is wasted and the use efficiency of the hard coating solution is low. There is a problem.

In particular, in recent years, special orders for lenses have increased, and many kinds, small lots have become low, and the filling rate of the lenses mounted on the lens holding jig has been lowered, and these problems have become remarkable.

For this reason, the present applicant has developed a single lens holding jig for holding each lens independently, as disclosed in Japanese Patent Laid-Open No. 2003-71650. An example of a lens holding jig of a single type for holding a lens with a thin side is shown in Figs. 9A to 9C. FIG. 9A is a front view, and FIG. 9B is a configuration diagram showing a state where the lens is held by the left and right holding portions, and FIG. 9C is a configuration diagram showing the lower holding portions.

The single lens holding jig 500 has a holding part 502 for holding and holding the edge of one upright lens L and a lens holding part 502. A conveyance fixing part 503 that can be suspended from engagement with a conveyance jig (not shown) is provided. The lens holding portion 502 is bent at an acute angle via a coil spring, and has a first arm 504 having a first side holding portion 44 pressed against the edge of the lens by a coil spring on the front end side. ) And a second arm 505 including a second side holder 45 for contacting an edge of the side opposite the edge of the lens with which the first side holder 504 is in contact, and a first side holder. Third arm 506 with lower retainer 46 in contact with the lower edge of the lens between the edge of the lens with which 44 is contacted and the edge of the lens with which second second retainer 45 is in contact. Has As shown in FIG. 9B, the first side holder 44 and the second side holder 45 are formed of a V-shaped holder that bends a wire to hold the edge of the lens L. As shown in FIG. In addition, the lower holding part 46 is comprised from the flat plate which has the V-shaped cutout part which supports the lower edge of the lens L. As shown in FIG.

Since the lens holding jig 500 is a single type for holding one lens as one lens holding jig, when the lens holding jig according to the type of lens is prepared, the lens holding jig 500 is held by the lens holding jig 500. It can be immersed in one conveying jig and immersed in a hard coating liquid or the like. Therefore, it can cope with many kinds and a small lot. In addition, because of the suspension type, the amount of adhesion of the hard coating solution other than the lens is reduced, and the use efficiency of the hard coating solution is high. In addition, since the lens holding part 502 can cope with the difference in the diameter of the lens by the coil spring, it is possible to hold the various types of lenses in one type of the lens holding jig 500 regardless of the lens diameter.

However, the lens holding jig 500 shown in Figs. 9A to 9C has the lens L surface of the portion where the first side holder 44 and the second side holder 45 contact each other, as shown in Fig. 10A. It is recognized that a mark (thickness nonuniformity) 510 in which a hard coating liquid such as one flows occurs. In particular, when a large thickness nonuniformity arises, it will be in the edged lens shape processed into a spectacle frame, resulting in an appearance quality defect of the lens L.

As shown in FIG. 10B, the thickness nonuniformity is caused by the position where the first side holding portion 44 and the second side holding portion 45 press down to the vicinity of the horizontal line H passing through the lens center. Even if it enters in a bead shape, it can be suppressed. However, since the lens is pressurized at three positions at both the left and right ends and the lower end of the lens near the lens center, the lens holding is not stabilized, and the lens falls during the hard coating processing, which causes a decrease in yield. do.

SUMMARY OF THE INVENTION A first object of the present invention has been made in view of the above circumstances, and is to provide a lens holding jig capable of minimizing occurrence of lens appearance defects in the side holding portions supporting left and right edges of the lens.

In addition, it is recognized that a solution buildup of a hard coating liquid is generated in the lens holding jig 500 illustrated in FIGS. 9A to 9C around the lens side that the lower holding portion 46 is in contact with. When liquid pooling occurs, the hard coating liquid becomes thick at the portion of the liquid pool, and the hard coating film becomes thick, resulting in optical appearance defects.

As shown in FIG. 11A, in the circular lens L1, there is a margin between the edge of the lens L1 and the bead shape L3 processed to enter the spectacle frame, and the liquid pool F Even if this occurs, since it does not affect the bead shape L3, there is almost no problem.

By the way, in the case of thinning the entire lens of the convex lens as shown in Fig. 11B, if the lens is thinly cut in a range not affected by the bead shape L3, it becomes a non-circular lens L2 such as an ellipse. . In this non-circular lens L2, since there is little margin in the distance between the bead shape L3 and the edge of the lens L2, the liquid pool F enters in the bead shape L3 and the appearance quality It may become a fault, and it becomes the cause of reducing the yield of non-circular lens L2.

The second object of the present invention has been made in view of the above circumstances, and is to provide a lens holding jig which can minimize the occurrence of liquid pooling in the lower holding portion supporting the lower edge of the lens.

Summary of the Invention

MEANS TO SOLVE THE PROBLEM As a result of earnestly examining in order to achieve the said 1st objective, this inventor supported a V-shaped holding | maintenance part which hold | maintains the edge of a lens, and a V-shaped holding | maintenance part as a side holding part which supports both left and right edges of a lens. And a vertical stretching portion extending downward from the V-shaped holding portion along the edge of the lens, and the vertical stretching portion is in contact with or extremely close to the edge of the lens. Found that it can.

That is, by providing the up-and-down stretching portion extending downward from the V-shaped holding portion along the edge of the lens, the up-down stretching portion contacts or extremely approaches the edge of the lens, and the up-down stretching portion is a flow path through which liquid flows. Therefore, when lifted after immersion, liquid accumulated in the V-shaped holding portion of the side holding portion flows down the vertical stretching portion extending downward from the V-shaped holding portion, and does not flow down the lens surface. Can be suppressed. In addition, when the liquid film of the hard coating liquid formed between the lens and the lateral holding part ruptures as a cause of the flow unevenness, the hard coating liquid formed as the liquid film can be pulled toward the lens side, and with the passage of the solidification time on the lens surface, Flowing down is considered. Therefore, by providing the up-and-down stretching portion which comes into contact with or extremely close to the edge of the lens, since there is almost no gap between the lens and the side holding portion, generation of the liquid film can be eliminated.

In addition, by providing a horizontal stretching portion that supports the vertical stretching portion and extends in a direction substantially parallel to the liquid surface, since the horizontal stretching portion is substantially stretched in the normal direction of the lens edge, a liquid film is formed between the lens edges. It is difficult to do this, and adhesion of the hard coating liquid due to rupture of the liquid film is unlikely to occur. In addition, since the horizontal stretching portion hardly becomes a flow path of the hard coating liquid, the hard coating liquid can be prevented from flowing into the lens, and the occurrence of flow irregularities on the lens surface can be suppressed.

Moreover, by using the V-shaped holding | maintenance part of a side holding part, the up-and-down stretching part, and the thing which integrally formed the horizontal extending | stretching part in addition to this, the side holding part reduces the adhesion amount of a process liquid, and uses the side holding part. It is possible to form a uniform treatment film on the lens surface near the lens edge in contact with the negative.

Such a side holding part can be used for the lens holding jig which can mount a plurality of lenses together, or the lens holding jig of the above-mentioned type.

Moreover, in order to achieve the 2nd objective, the lower holding part which hold | maintains the lower edge of a lens is provided with the notch part which supports the edge of a lens at the upper end, and is a support plate arrange | positioned along the up-down direction, and along the up-down direction The inventors have found that the configuration of the auxiliary plate, which is arranged and integrated with the support plate and is integrated with the support plate, can suppress generation of liquid pool as much as possible.

That is, such a lower holding part facilitates liquid removal, and liquid tends to accumulate at corner portions extending in the vertical direction in which the support plate and the auxiliary plate intersect at any intersection angle. Therefore, the lower holding part in which the auxiliary plate is provided on the supporting plate has a higher liquid holding force than the lower holding part of the supporting plate alone, and any liquid film is pulled on the surface near the lens edge in contact with the lower holding part in the liquid that could be stuck to the corner part. It is contemplated that it becomes difficult to cause liquid pooling due to a loss.

As the lower holding portion, the auxiliary plate can be easily installed on the supporting plate by bending the plate and integrally forming the supporting plate and the auxiliary plate.

In addition, this lower holding part can be used for the lens holding jig which can mount a plurality of lenses together, or the lens holding jig of the above-mentioned type.

1A and 1B show an embodiment of the lens holding jig of the first invention, FIG. 1A is a front view, and FIG. 1B is a configuration diagram showing a state where the lens is held in the left and right side holding portions;

2A to 2D are perspective views showing various forms of the side hold portions;

3 is an enlarged side view of the side holding part;

4A and 4B show an embodiment of a conveying jig, FIG. 4A is a side view, and FIG. 4B is a sectional view showing a state in which a spring portion is inserted into a mounting portion;

5A and 5B show an embodiment of the lens holding jig of the second invention, FIG. 5A is a front view, and FIG. 5B is a configuration showing a state in which the lens is held by the left and right side holding portions and the lower holding portions. Degree,

6 is a perspective view of the lens holding jig shown in FIG. 5 as viewed obliquely from below;

7A to 7D are perspective views showing various forms of the lower holding part;

8A and 8B show an embodiment of a lens holding jig for accommodating a plurality of lenses of the second invention, FIG. 8A is a front view, and FIG. 8B is a side view,

9A to 9C show a conventional single lens holding jig, FIG. 9A is a front view of the lens holding jig, and FIG. 9B is a block diagram showing a state of holding the lens with left and right side holding portions, 9C is a schematic configuration diagram showing a lower holding part;

FIG. 10A is an explanatory diagram showing a lens appearance defect that occurs when a hard coating process is performed on a conventional lens holding jig, and FIG. 10B is an explanatory diagram showing a problem when the lens appearance defect countermeasure is implemented;

11A is an explanatory diagram showing a circular lens and a bead shape, and FIG. 11B is an explanatory diagram showing a non-circular lens and a bead shape.

EMBODIMENT OF THE INVENTION Hereinafter, although embodiment of the lens holding jig of this invention is described, this invention is not limited to the following embodiment.

The lens holding jig of the present invention is used for an immersion treatment such as forming a hard coating film of a lens having a thin side (edge) or a lens having a sharp edge such as a blade.

Embodiment of the lens holding jig of 1st invention which improved the side holding part is demonstrated, referring FIGS. 1A-4B. This lens holding jig is an example applied to a single decoration.

1A and 1B show the lens holding jig of the present invention with the edges arranged in the vertical direction, i.e., holding the longitudinal lens, FIG. 1A is a front view, and FIG. 1B shows the lens with the left and right side holders. It is a block diagram which shows the state to hold.

The lens holding jig 1 is entirely made of stainless steel, and the lens holding part 2 holding the lens L disposed in the longitudinal direction supports the entire lens holding jig 1 and is attached to and detached from the conveying jig. It has the structure couple | bonded with the conveyance fixing part 3 mounted possibly.

The conveyance fixing part 3 has the spring part 300 which can be mounted and fixed to the conveyance jig 600 shown to FIG. 4A and 4B. The spring portion 300 is formed in a spring shape by bending a wire having a circular cross section at an acute angle, and finger grips 301 and 302 having a wire shape in a circular shape are provided at opposing opposing edges. A curved portion 303 which curves outwardly and protrudes is formed in a part of the spring portion 300.

The lens holding part 2 is coupled to the lower end of the spring part 300 which is stretched in the vertical direction by welding or the like. The lens holder 2 has a first arm 21, a second arm 22, and a third arm 23, each of which has a free end. These 1st arm 21, the 2nd arm 22, and the 3rd arm 23 consist essentially of the wire of substantially circular cross section. As for the wire diameter of the wire which comprises the 1st arm 21, the 2nd arm 22, and the 3rd arm 23, the thing of 15 mm-about 25 mm can be used. The lens holding jig 1 shown in FIG. 1 is integrally formed by bending one wire of the first arm 21 and the second arm 22, and the third arm 23 is the second arm 22. As shown in FIG. It is a structure joined to.

The first arm 21 is bent at an acute angle downward from the horizontal direction via one coil spring 212 as the pressing means from one end of the horizontal arm 211 joined to the spring portion 300. The first inclined portion 213 that is bent and inclined to the inclined left side of FIG. 1 (in this specification, left and right are based on the drawing) is slightly inward from the left end of the lens L in the vertical direction slightly from the left end. The first vertical portion 214 is bent and stretched slightly inward in the vertical direction, and its tip is positioned near the center left edge of the lens L. As shown in FIG. The tip end of the first arm 21 is formed flat by a press or the like to form an attaching portion 215, and a joining portion described later of the first side holding portion 41 is joined to the attaching portion 215.

The second arm 22 is bent at an oblique angle from the horizontal direction to the oblique side from one edge of the horizontal direction arm 211 via the second coil spring 221 as the pressing means. The second inclined portion 222 that is bent and inclined to the inclined right side of FIG. 1 is bent inwardly in the vertical direction slightly from the right end of the lens L, and extends inclined slightly inward in the vertical direction. It consists of two perpendicular | vertical parts 223, and the front end is located in the vicinity of the center right edge of the lens L. As shown in FIG. Similarly to the first arm 21, the tip end portion of the second arm 22 is formed flat by a press or the like to form an attachment portion 225, and the attachment portion 225 has a joining portion of the second lateral holding portion 42. It is joined.

The 1st side holding part 41 and the 2nd side holding part 42 are demonstrated in detail later.

The third arm 23 is parallel to the second inclined portion 222 of the second arm 22 and the second inclined portion (213) is inserted so as to insert the first inclined portion 213 of the first arm portion 21. A third inclined portion 232 joined to the vicinity of the second coil spring 221 of the second arm 21 and the tip side of the second inclined portion 222 at intervals from the 222. The third inclined portion 232 is bent in the vertical direction slightly outward than the second vertical portion 223 of the second arm 22, and is inclined and inclined slightly inward in the vertical direction to extend the third vertical portion 233. It is. The third vertical portion 233 is also bent along the lens L to the right lower side of the inclination of the lens L to become the fourth inclination portion 234. The fourth inclined portion 234 is bent horizontally closer to the lower side of the lens L along the lens L edge to form the fifth inclined portion 235. Further, the tip end of the fifth inclined portion 235 is bent in a substantially vertical direction to face the lens L center side, and the tip is formed flat by a press or the like, and a V-shaped cutout is provided to provide a lower holding part ( 43) is formed. The lower holding part 43 is positioned to be close to the second arm 22 slightly at the edge below the lens L. As shown in FIG.

The first inclined portion 213 of the first arm 21 of the lens holding jig 1 is the second inclined portion 222 of the second arm 22 and the third inclined portion of the third arm 23. It is inserted between and intersects with (232). As a result, the second inclined portion 222 and the third inclined portion of the third arm 23 move apart and close to the edge of the lens L of the first arm 21. 232 is regulated as a guide, and it is ensured that the planar movement of the 1st arm 21 becomes substantially parallel to the edge of the lens L. As shown in FIG.

Next, the structure of the 1st side holding part 41 and the 2nd side holding part 42 is demonstrated with reference to FIGS. 2A-2D. The 1st side holding part 41 and the 2nd side holding part 42 are the same shape.

The enlarged perspective view of the 1st side holding part 41 is shown in FIG. 2A. As for the 1st side holding part 41 shown in FIG. 2A, the whole round bar material of thin stainless steel is bent, and the whole is integrally formed. The 1st side holding part 41 is provided with the junction part 401 extending | stretched in the vertical direction joined to the attachment part 215 of the 1st arm 21, and is bent at substantially right angle to the lower edge of this junction part 401. As shown in FIG. Horizontal stretching portion 402 is formed, which is stretched in a substantially horizontal direction, is bent and erected in a substantially vertical direction from the horizontal stretching portion 402, and vertical stretching portions 403 along the lens edge are formed, and vertical stretching is performed. At the upper edge of the bride 403, a V-shaped holding part 404 bent in a V-shape in the horizontal direction is formed.

The side view which expanded the 2nd holding part 42 is shown in FIG. The V-shaped retaining portion 404 holds the sharp edges, such as thin sections or blades of longitudinally arranged lenses, by V-shaped grooves in the horizontal direction, and vertically stretched portions extending downward from the V-shaped retaining portions 404. 403 is supported, the vertical stretching portion 403 is supported by the horizontal stretching portion 402, and the horizontal stretching portion 402 is supported by the bonding portion 401. It extends downward from the intersection of the V shape of the V-shaped holding part 404, and the vertical stretching part 403 along the edge of the lens L is disposed in contact with or extremely close to the edge (edge surface) of the lens L. .

The conventional lens holding jig 500 shown in FIG. 9 does not have the vertical stretching portion 403 and the horizontal stretching portion 402, which are features of the lens holding jig 1 of the first invention.

Next, a method of using the lens holding jig 1 will be described. The operation of holding the lens L on the lens holding jig 1 includes, for example, moving the first inclined portion 213 inclined after crossing the second arm 22 of the first arm 21 to the second arm 22. The first arm 21 is opened large by pulling the finger toward the second coil spring 221 side of the lens), and the edge of the lens L is brought into contact with the lower holding portion 43 and the second side holding portion 42, What is necessary is just to make the 1st side holding part 41 of the front-end | tip of the 1st arm 21 contact the edge of lens L according to the pressing force of the coil spring 212.

As a result, as shown in FIG. 1A, the first side holding part 41 presses the left edge of the lens L slightly above the horizontal center line of the lens L, and the lens L is positioned above the horizontal center line of the lens L. FIG. Since the 2nd side holding part 42 presses the slightly upper right edge, and the 3rd holding part 43 keeps the edge just slightly to the vertical center line of the lens L of the lower side, these 1st The holding portion 41, the second holding portion 42, and the third holding portion 43 are held as three-point supports.

The lens holding jig 1 can be bent at an acute angle by the first arm 21 via the first coil spring 212, and an acute angle by the second arm 22 via the second coil spring 221. Since the first side holding portion 41 and the second side holding portion 42 have a long stroke and a wide moving range, the lens can be bent in a wide range. At the same time, there is less risk of damaging the lens during the operation of attaching the lens L. FIG.

The lens holding jig 1 attaches and uses the conveyance fixing part 3 to the conveyance jig shown in FIG. 4A and FIG. 4B. This conveyance jig 600 is integrally provided in the direction orthogonal to the axial direction, and the horizontal direction of the rectangular plate-shaped positioning plates 602, 603 at both edges of the spindle bar 601, Carrier plates 604 having a V-shaped cross section are provided integrally so as to insert the spindle bar 601 from below from both sides of the positioning plates 602 and 603. In addition, a hanger rod 605 in the vertical direction is integrally provided inside both sides of the conveying plate 604 of the spindle bar 601, and an inverse V as shown in FIG. 4B integrally with the hanger rod 605. A mounting portion 606 having a male cross section is installed almost in parallel with the spindle bar 601. In this mounting portion 606, elongated through holes 607 in the vertical direction as shown in Fig. 4B are provided at predetermined intervals through both walls of the inverted V-shaped mounting portion 606 in the horizontal direction.

The top and bottom finger grip portions 301 and 302 of the spring portion 300 of the conveying fixing portion 3 are inserted between the thumb and the forefinger to compress the spring portion 300 a little while conveying the tip of the spring portion 300. When the finger is inserted into the through hole 607 of the 600 and the finger is released, the curved portion 303 of the spring portion 300 is pressed against the upper ends of the through holes 607 on both sides of the inverted V shape, as shown in FIG. 4B. do. As a result, the spring portion 300 presses both upper and lower ends of the passage hole 607 with the pressing force that the spring portion 300 tries to expand up and down, and both ends of the curved portion 303 press the inner surface of the upper end of the passage hole 607. Therefore, the spring part 300 is attached to the passage hole 607. The mounted spring portion 300 is free from shaking and is not removed, and is stably maintained. When removing the spring portion 300 from the mounting portion 606, the spring portion is reduced by applying a force against the pressing force of the spring portion 300 to narrow the gap between the finger grip portions 301 and 302 on both sides. 300 is easily removed from the through hole 607. Thus, the conveyance fixing part 3 is attachable to and detachable from the conveyance jig 600.

By attaching and suspending the conveying fixing portions 3 of the plurality of lens holding jigs 1 to the mounting portion 606 of the conveying jig 600, the plurality of lens holding jigs 1 are conveyed by one conveying jig 600. Can be conveyed together. With the lens holding jig 1 attached to the conveying jig 600, the lens L is immersed in a processing liquid such as a hard coating liquid, and lifted up after a predetermined time, and the liquid is removed and transferred to a drying furnace for processing. Dry the liquid.

When lifting the lens holding jig 1 from the hard coating liquid, the first arm 21, the second arm 22, the third arm 23, and the first side holding part 41 of the lens holding jig 1 are lifted. The hard coating liquid attached to the second side holder 42, the lower holder 43, and the lens L flows down. The hard coating solution is quite viscous and flows relatively slowly.

The up-and-down stretched portion 403 of the lateral holding portions 41 and 42 comes into close contact with or close to the edge or side surface of the lens L, so that the up-and-down stretched portion 403 becomes a liquid flow path. In addition, there is no gap between the lens L and the side holders 41 and 42, which generate a film of liquid which is a cause of flow irregularity of the lens surface. Therefore, when it lifts after immersion, the liquid accumulated in the V-shaped holding | maintenance part 404 of the 1st side holding part 41 and the 2nd side holding part 42 is integrated up and down with the V-shaped holding part 404. It flows down the extending | stretching part 403 and does not flow down along the surface of the lens L. In addition, since the generation of the film of the hard coating liquid formed between the lens L and the lateral holding portions 41 and 42, which are the causes of the flow nonuniformity, can be eliminated, it is difficult to generate the nonuniformity of the lens surface. I think.

The upper and lower stretching portions 403 function as discharge passages of the liquid accumulated in such a V-shaped holding portion 404, and the length thereof is preferably 2 mm or more. In addition, the upper and lower stretching portions 403 may not only be straight but also have the same arc shape as the edge of the lens L in order to bring as close as possible to the edge of the lens L.

In addition, since the horizontal stretching portion 402 extends substantially in parallel with the liquid level of the liquid, that is, in the substantially horizontal direction, as shown in FIG. 3, the horizontal stretching portion 402 becomes a liquid flow path or the edge of the lens L. As shown in FIG. It is possible to suppress the generation of a liquid film in between. As shown by the dashed-dotted line in FIG. 3, the angle between the horizontal stretching portion 402 and the vertical stretching portion 403 is acute, that is, the horizontal stretching portion 402 is positioned above the horizontal line from the lens L side. In the case of the elongated shape, since the hard coating liquid adhered to the first arm 21 and the second arm 22 may flow through the horizontal drawing portion 402 and flow into the lens L, the appearance quality defects. It may cause. On the other hand, as shown by the broken line of FIG. 3, the angle | corner which the upper and lower extending | stretching part 403 and the horizontal extending | stretching part 402 make is an obtuse angle, ie, the horizontal extending | stretching part 402 is lower than the horizontal line from the lens L side. In the case of the stretched shape, a film of hard coating liquid may be formed between the horizontal stretching portion 402 and the edge portion of the lens L, resulting in a defect in appearance quality. Therefore, it is preferable to extend the horizontal stretching portion 402 in the substantially horizontal direction.

Moreover, the V-shaped holding | maintenance part 404 and the vertical stretching part 403 in the 1st side holding part 41 and the 2nd side holding part 42 are horizontal stretching parts (as shown to FIG. 2A). 402 is also preferably bent together to form a single wire. It is necessary to fix the V-shaped holding part 404 and the vertical stretching part 403 by welding or the like, and it is necessary to fix the V-shaped holding part 404 and the vertical stretching part 403 by welding or the like. Uneven portion is formed in the. If the uneven portion is formed, there is a possibility of blocking the flow of the liquid. Moreover, since it does not adhere closely to the edge surface of the lens L, there exists a possibility that the effect as a flow path of a liquid may also disappear.

The 1st side holding part 41 and the 2nd side holding part 42 are not limited to what was shown in FIG. 2A. For example, the first side holder 41b shown in FIG. 2B has a structure substantially the same as that shown in FIG. 2A, but the V-shaped holder 404 is simplified in order to simplify the structure of the V-shaped holder 404. One of the projections, the vertical stretching portion 403, the horizontal stretching portion 402 and the junction portion 401 (not shown) is formed by bending one wire, and the upper and lower stretching portions 403 and the horizontal stretching portion ( 402 and the junction part 401 which are not shown in figure are arrange | positioned in parallel, and the V-shaped holding | maintenance part 404 is formed.

In addition, the 1st side holding part 41c shown in FIG. 2C is a structure which used the thin board | plate material for the up-down stretching part 403 and the horizontal extending | stretching part 402. FIG. The V-shaped holding part 404 formed by bending the wire in a V-shape is joined to the upper end of the vertical stretching part 403 by forming a continuous surface by soldering so that the uneven portion cannot be formed. Since the side holding part 41c is formed of a thin plate material, a spring function is generated in the side holding part 41c, and thus, the adhesion to the edge surface of the lens L is further excellent.

In addition, the side holding part 41d shown in FIG. 2D integrally forms the V-shaped holding part 404 and the vertical stretching part 403 by bending one wire, and the tip of the horizontal holding part 402 is vertically up and down. It is a structure joined to the intermediate part of the extending | stretching part 403.

As a result of dipping of the hard coating liquid of the lens using the lens holding jig 1 of the present invention, the flow unevenness of the lens surface compared to the lens holding jig 500 having the conventional side holding portions 44 and 45. It has been confirmed that the appearance defect by this is extremely small.

The lens holding jig 1 is composed of a wire in which the first arm 21, the second arm 22, and the third arm 23 are circular in cross section, and the surface area thereof is minimized. Therefore, since the adhesion amount of a hard-coating liquid is small and a deposit is isolate | separated simply by washing | cleaning, it can wash easily.

In addition, although the example which comprised the lower holding | maintenance part by the conventional holding | maintenance part was disclosed in the said description, of course, it is good also as a lower holding part which concerns on 2nd invention mentioned later. Moreover, you may use the said side holding part as a side holding part of the conventional lens holding jig which can mount many lenses together.

Next, an embodiment of the lens holding jig of the second invention for achieving the second object will be described with reference to FIGS. 5A to 7D.

This lens holding jig 1b is entirely made of stainless steel, and can be suitably used especially for supporting sharp edges such as edges or blades of the extremely thin side (edge) of the non-circular lens L2. This lens holding jig 1b has a structure in which a lens holding part 2b for holding a longitudinally arranged lens L2 is coupled to a conveyance fixing part 3b for supporting the entire lens holding jig 1.

The conveyance fixing part 3b is the transverse bar of the conveyance jig | tool which is not shown in which the mounting part 606 of the conveyance jig 600 shown to FIG. 4A and FIG. 4B was changed into the transverse bar which has a cross section of a rectangular shape which is not shown in figure. It has the hook part 30 so that attachment and detachment to a conveyance jig can be carried out by suspending it to. The hook portion 30 is formed by bending a slightly thick rectangular plate shape and has an inverted concave shape formed so as to be secured to the upper surface and the left and right sides of a substantially rectangular cross section of a cross section of a transverse bar of a conveying jig (not shown). It has the support part 31 and the horizontal plate 32 formed integrally with this. The hook portion 30 supports the entire lens holding jig 1.

Each of the lens holding portions 2b has a proximal end coupled to the horizontal plate 32 of the hook portion 30, and a first arm 21b, a second arm 22b, and a third arm, each of which has a free end. Has (23b). These 1st arm 21b, the 2nd arm 22b, and the 3rd arm 23b are basically comprised by the wire of substantially circular cross section. As for the wire diameter of the wire which comprises the 1st arm 21b, a thin thing about 0.5-1.5 mm can be used, and it is thinner about ⅔ to ⅓ than 2nd arm 22b and 3rd arm 23b.

The proximal end of the first arm 21b is joined in parallel with the upper surface of the horizontal plate 32 of the hook portion 30. It is bent at an acute angle downward from the horizontal direction from the first horizontal portion 211b extending in the horizontal direction from the base end via the coil spring 212b as the pressing means. The first inclined portion 213b that is bent and inclined to the inclined right side in FIG. 5A is bent slightly inward from the up-down direction slightly to the right of the right end of the lens L2, and is inclined slightly inward from the vertical direction and stretched. It becomes the 1st vertical part 214b, and the front end is located in the vicinity of the center right edge of lens L2. The tip end of the first arm 21b is formed flat by a press or the like to form an attachment part 215b, and the proximal end of the first side holding part 44 formed by bending a thin wire is joined to the attachment part 215b. have. The portion erected from the proximal end of the first lateral holding part 44 is located almost at the leading edge of the first arm 21.

The 2nd arm 22b and the 3rd arm 23b are respectively joined to the lower end of the horizontal plate 32 of the hook part 30 via the guide plate 24 formed in the shape of ω, and the base end part is joined, and the 1st from the base end The arm 21b is provided with the 1st horizontal part 221b, 231b extended in the horizontal direction to the right of a reverse figure. From the first horizontal portions 221b and 231b, the second inclined portions 222b and 232b which are bent at an acute angle toward the left inclined lower side and are extended downward in the inclined left side are first inclined portions of the first arm 21b. The portion 213b intersects with the first arm 21b so as to be inserted from both sides. From the second inclined portions 222b and 232b, the second vertical portions 223b and 233b are bent inward slightly from the left end of the lens L2 slightly inward of the up-down direction and inclined inwardly slightly from the vertical direction. have.

The tip of the second vertical portion 223b of the second arm 22b is extended to be located near the center left edge of the lens L2. The tip end portion of the second vertical portion 223b of the second arm 22b is formed flat by a press or the like to form an attaching portion 225b, and the attaching portion 225b is formed by bending a wire to form a second side holding portion ( The proximal end of 45) is joined. The portion erected from the proximal end of the second lateral holding part 45 is located almost at the leading edge of the second arm 22b.

The second vertical portion 233b of the third arm 23b is also bent along the lens edge to the left below the inclination of the lens L2 to become the third inclination portion 234b, and almost toward the center of the lens L2. The attachment portion 236 is formed by bending in the vertical direction. The attachment portion 236 at the tip of the third arm 23b is located slightly closer to the first arm 21b at the edge below the lens L2. The lower holding portion 10 is joined to the attachment portion 236 of the third arm 23b. This lower holding | maintenance part 10 is demonstrated in detail later.

The upper portion of each of the second vertical portions 223b and 233b of the second arm 22b and the third arm 23b is connected by the connecting plate 25 to the second arm 22b and the third arm 23b. Each of the second vertical portions 223b and 233b is fixed to each other so as to be substantially parallel to the edge of the lens L2. The 1st arm 21b, the 2nd arm 22b, and the 3rd arm 23b are bent so that it may become substantially parallel to the edge of the lens L2 arrange | positioned in the longitudinal direction.

The 1st side holding part 44 and the 2nd side holding part 45 which are attached to the lens holding jig 1b of 1st Embodiment are the edge of the extremely thin side of each of the right and left sides of the lens L2. The wire is bent to form a V-shaped recess that can maintain a sharp edge, such as a blade.

The lower holding part 10 is a feature part of the lens holding jig 1b of the second invention. The enlarged perspective view of the lower holding part 10 is shown to FIG. 7A. The lower holding portion 10 includes a rectangular support plate 11 having a long side in the up and down direction, and a V-shaped cutout 110 supporting an edge or a sharp edge of the side surface of the lens on an upper end of the support plate 11. ). The support plate 11 is joined to the attachment part 236. The two auxiliary plates 12 having a rectangular shape having a length and width substantially the same as those of the supporting plate 11 are arranged along the up and down direction of the long side, and the orthogonal direction opposite to the attachment portion 236 with respect to the short side supporting plate 11 is arranged. Therefore, it is integrally installed at both edges of the support plate 11. The supporting plate 11 and the auxiliary plates 12 on both sides are formed in a U-shaped horizontal cross section. These support plates 11 and auxiliary plates 12 are formed integrally by bending plate materials. The support plate 11 and the auxiliary plate 12 are composed of a thin stainless steel plate.

The operation of holding the lens L2 on the lens holding jig 1b includes, for example, the first inclined portion 213b that is inclined after crossing the second arm 22b of the first arm 21b. The first arm 21b is opened with a finger on the first horizontal portion 221b side of the lens), and the edge of the lens L2 is brought into contact with the lower holding portion 10 and the second side holding portion 45. The first side holding part 44 at the tip of the first arm 21b may be brought into contact with the lens L2 edge along the pressing force of the coil spring 212b.

Then, the hook portion 30 of the lens holding jig 1 is suspended on the horizontal bar of the conveying jig (not shown), and the lens L2 is suspended in the hard coating liquid or the like in a state where the lens holding jig 1 is suspended. It is immersed in the processing liquid, lifted up after a predetermined time, and after removing the liquid, it is returned to the drying furnace to dry the processing liquid.

The lens holding jig 1b has a wide range of lenses because the first arm 21b is bent at an acute angle through the coil spring 212b, the stroke of the first side holding portion 44 is long, and the movable range is wide. It is possible to cope with the outer diameter of L2 and to reduce the risk of damaging the lens during the operation of mounting the lens L2.

In addition, the lens holding jig 1b has a structure particularly suitable for holding the non-circular lens L2. A non-circular lens is a thin thin lens that is equally shaved of the entire thickness when the customer desires to make the thickness (center thickness) of the lens thin. In particular, in the convex lens (lens in the + range), the outer circumference becomes thin, and the outer circumference is cut off so that it may be elliptical or non-circular. The outer circumferential edge of the non-circular lens L2 whose outer circumference is shaved is pointed like a thin blade, and there is a fear of deformation if heat is applied in a fixed state on both sides with a strong force.

The lens holding jig 1b has a ratio in which the linear diameter of the first arm 21b is thinner than the second arm 22b or the third arm 23b, reduces the spring pressure, and makes the outer circumferential edge thin. The circular lens L2 can also be held without being deformed.

In addition, the lower holding part 10 has a structure in which the auxiliary plates 12 are provided at both edges of the support plate 11. The lower holding unit 10 has no structure that prevents the downward flow of the liquid in the up and down direction, and the liquid removal after the immersion is good. On the other hand, liquid tends to accumulate in the corner part extended in the up-down direction which cross | intersects at the angle orthogonal to the support plate 11 and the auxiliary plate 12. FIG. For this reason, the lower holding | maintenance part 10 which provided the auxiliary plate 12 in the support plate 11 has a large liquid holding force compared with the lower holding part 46 of the conventional support plate only, and is lower than the liquid which accumulates in the corner part. It is also contemplated that the liquid film hardly occurs because the liquid film on the surface of the end portion of the lens L2 with which the holding portion 10 is in contact is attracted. In fact, as a result of dipping the hard coating solution of the non-circular lens, it was confirmed that the appearance defect due to the liquid pool was extremely small as compared with the lens holding jig 500 provided with the lower holding portion 46 of the conventional support plate alone.

Moreover, since this lower side holding part 10 is a structure which bend | folds a board | plate material and forms the support plate 11 and the auxiliary plate 12 integrally, the auxiliary plate 12 can be easily installed in the support plate 11. Moreover, this auxiliary plate 12 reinforces the support plate 11 of a thin board | plate material, and also has a function of bending resistance.

The lower retainer 10 is not limited to that shown in FIG. 7A. For example, although the lower holding part 10b shown in FIG. 7B has a structure substantially the same as that shown in FIG. 7A, the auxiliary plate 12b is longer than the supporting plate 11b, and the lower part of the auxiliary plate 12b is the supporting plate 11b. ) It is structured to protrude downward.

In addition, as for the lower side holding part 10c shown to FIG. 7C, the center line part of the width direction of the two auxiliary boards 12c of a rectangular shape is formed at both edges of the rectangular support plate 11c in which the long side is arrange | positioned along the up-down direction. The support plate 11c and the auxiliary plate 12c have a structure in which the horizontal cross section is combined in substantially H shape in the shape similar to that of. Since the lower holding portion 10c is formed at four corner portions where the supporting plate 11c and the auxiliary plate 12c intersect, the liquid holding force is greater than that of the lower holding portion 10 shown in FIG. I am superior in the prevention effect.

Moreover, although the basic structure is the same as that shown in FIG. 7A, the lower holding part 10d shown in FIG. 7D has a structure in which a plurality of zig-zag-shaped bends are provided in parallel with each other in the vertical direction of the auxiliary plate 12d. It is. In addition to the corner portion where the supporting plate 11d and the auxiliary plate 12d cross each other, the lower holding portion 10d can hold the liquid in the up-down direction set in the auxiliary plate 12d, so that the liquid holding force is further increased. Excellent for preventing liquid pooling.

In addition, the lower retaining portion is not limited to that shown in Figs. 7A to 7D, and for example, a plurality of auxiliary plates may be provided in a fin-like shape, or the support plates and auxiliary plates may be formed in a rectangular cylindrical shape. In addition, since it is preferable that the corner part where the support plate 11 and the auxiliary plate 12 intersect can be formed, the crossing angle of the support plate 11 and the auxiliary plate 12 is not limited to 90 degrees.

Moreover, the 1st inclination part 213b of the 1st arm 21b of the lens holding jig 1b is the 2nd inclination of the 2nd inclination part 222b and the 3rd arm 23b of the 2nd arm 22b. The part 232b is inserted and intersects. As a result, the second inclined portion 222b of the second arm 22b and the second inclined portion of the third arm 23b are moved to move apart from the edge of the lens L2 of the first arm 21b. 232b is regulated as a guide, so that the movement in the plane of the first arm 21b is substantially parallel to the edge of the lens L2.

The lens holding jig 1b is also composed of a wire in which the first arm 21b, the second arm 22b, and the third arm 23b are circular in cross section, and the surface area thereof is minimized. Therefore, since the amount of deposition of the hard coating liquid is small, and the deposit is easily separated by washing, it can be easily washed.

Although the 1st side holding part 44 and the 2nd side holding part 45 of the lens holding jig 1b shown to FIG. 5A-6 were comprised using the conventional holding | maintenance part, the side holding according to 1st invention It goes without saying that the parts 41 and 42 can be employed. In the description of the lens holding jig 1b, the case of holding the non-circular lens L2 has been described as an example, but it goes without saying that the circular lens may be held.

Next, another embodiment of the lens holding jig of the second invention will be described with reference to FIG. 8.

The lens holding jig 1c is arranged in two rows of fifteen continuous lens holders 2c for vertically arranging the circular lens L, and can mount a total of thirty lenses L together. Dipping process is possible. The lens holding portion 2c holds the lens L as three holding portions of the left and right side holding portions 47 and 48 and the lower holding portion 10 of the lens L, among which the side holding portion of the lens holding portion 2c is held. The portion 47 has a leaf spring shape. The lens holding part 2c is arrange | positioned at equal intervals according to the thickness of the lens L. FIG. The conveyance jig 50 for conveying the lens retention jig 1c is integrally provided in the lens retention jig 1c.

The left and right side holding portions 47 and 48 of the lens holding jig 1c are constituted by a supporting plate 46 having a V-shaped cutout portion at the front end that holds the side of the thin lens shown in Fig. 9C. Of course, the side holders 41 and 42 of the first invention shown in FIG. 1 may be used.

In addition, the lower holding part 10 uses the thing of the structure shown in FIG. 7A. As the lower holding part 10, the structure shown in FIG. 7B-FIG. 7D, or another thing can be used.

The lower retainer 10 has a notch 110 for supporting the edge of the lens L at its upper end as shown in FIG. 7A, and the support plate 11 disposed along the up and down direction and the up and down direction. Therefore, it arrange | positions and the auxiliary plate 12 integrated with the support plate 11 at the crossing angle is provided. Since the corner portion where the support plate 11 and the auxiliary plate 12 intersect has an effect of retaining a liquid, it is effective in preventing the liquid pooling phenomenon after immersion as in the first embodiment.

In the above description, the case where the hard coating film formation of the plastic lens is performed by the dipping method is exemplified, but the processing liquid is not limited to the hard coating liquid.

The lens holding jig of the present invention can be used for applications for holding a lens, for example, in a step of performing a dipping treatment for forming a hard coating film that gives scratch resistance to a plastic spectacle lens. Can be used in the production of spectacle lenses.

Claims (10)

Holding at least three positions of the side holders 41 and 42 for holding the left and right edges of the lens L in which the edges are disposed in the vertical direction and the lower holder 43 for holding the lower edge of the lens L. In the lens holding jig 1 used to hold the lens L with portions 41, 42, 43 and to immerse the lens L in liquid, At least one of the side holders 41 and 42 supports the V-shaped holder 404 for holding the edge of the lens L, and the V-shaped holder 404, and the lens L And an upper and lower stretching portion 403 extending downward from the V-shaped holding portion 404 along the edge of the upper and lower stretching portions 403, and the upper and lower stretching portions 403 contact the edges of the lens L. Lens retaining jig. The method of claim 1, The lateral holding portions 41 and 42 support the upper and lower stretching portions 403 and have horizontal stretching portions 402 extending in a direction substantially parallel to the liquid surface. Lens retaining jig. The method of claim 1, The V-shaped retaining portion 404 and the vertical stretching portion 403 are formed integrally by bending a wire. Lens retaining jig. The method of claim 2, The horizontal stretching portion 402 is integrally formed by bending a wire together with the V-shaped holding portion 404 and the vertical stretching portion 403. Lens retaining jig. delete delete At least three positions of the side holders 44 and 45 for holding the left and right edges of the lens L2 having the edges disposed in the vertical direction and the lower holder 10 for holding the lower edge of the lens L2. In the lens holding jig 1b used to hold the lens L2 negatively and to immerse the lens L2 in a liquid. The lower retaining portion 10 has a cutout portion 110 that supports the edge of the lens L2 at an upper end thereof, and is disposed along the up and down direction with the support plate 11 disposed along the vertical direction. Characterized in that it comprises an auxiliary plate (12) integrated with the support plate (11) at an intersection angle. Lens retaining jig. The method of claim 7, wherein The support plate 11 and the auxiliary plate 12 is formed by bending the plate material to be integrally formed. Lens retaining jig. delete delete

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