JP2018036593A - Spectacles and manufacturing method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide spectacles that allow for combining any lenses of wearer's choice, and providing an improved visual function even when lenses with different diopters are chosen by configuring each of left and right spectacle lenses with a plurality of lenses, and a manufacturing method therefor.SOLUTION: Spectacles comprising left and right spectacle lenses and a spectacle frame supporting the spectacle lenses is provided. Each spectacle lens comprises at least first and second spectacle lenses, which are formed by processing separate semi-finished lenses around respective optical centers.SELECTED DRAWING: Figure 1

Description

  The present invention relates to eyeglasses and a method for manufacturing eyeglasses.

  In general, eyeglasses include left and right eyeglass lenses and eyeglass frames that hold the eyeglass lenses. The spectacle lens is formed by processing a semi-finished lens called a semi-finished lens according to a spectacle frame, for example (see, for example, Patent Document 1). The left and right eyeglass lenses are each composed of a single semi-finished lens.

  Also, a spectacle lens in which one spectacle lens is divided into a distance portion (far vision portion) and a near portion (near vision portion) and has two different powers is also known. These spectacle lenses are called multifocal lenses and are roughly classified into two types, a fusion type and a one-piece type, depending on the manufacturing method.

  The fusion-type multifocal lens is manufactured by fusing a table glass lens and a small glass lens embedded in a part thereof by thermal softening.

  A one-piece multifocal lens is usually provided with a projection (near portion) on a part of at least one surface, thereby providing a distance portion having a distance refractive power for far vision and a near vision portion. It has both functions of a near portion having near refractive power.

JP 2009-103795 A

  Conventional eyeglasses are composed of a single eyeglass lens on either the left or right side, so when selecting a lens that prioritizes visual function, it is possible to select the desired lens based on other uses desired by the eyeglass wearer. It was not possible to provide unique glasses.

  In addition, when a spectacle lens having a different power is adopted, the fusion type multifocal lens has a configuration in which a small glass lens is embedded in a part of a pedestal glass lens (a configuration in which two lenses are stacked). There is a problem that the focus of the applied portion is deviated.

  A conventional one-piece lens is formed by cutting a single semi-finished lens on the left and right according to the wearer's eyes. When a single semi-finished lens is cut, it is preferable to set the focus of each wearer's eye (the position where the wearer can most easily see) centering on the optical center of the spectacle lens. However, since the one-piece lens is provided with a distance portion and a near portion at one optical center, when the optical center is set to the distance portion, the focus of the near portion is shifted. For this reason, the wearer has a problem that it is difficult to visually recognize characters and the like in the near portion.

  According to the present invention, the right and left eyeglass lenses are composed of a plurality of lenses, so that any lens can be combined according to the wearer's request, or the visual function can be improved even when the lenses have different powers. It is an object to provide spectacles and a method for manufacturing spectacles.

  According to the first aspect of the present invention, in the spectacles including left and right spectacle lenses and a spectacle frame that supports the spectacle lens, each spectacle lens includes a first spectacle lens and a second spectacle lens, The spectacle lens and the second spectacle lens are spectacles characterized by being formed by processing a semi-finished lens as a separate member.

  According to a second aspect of the present invention, in the spectacles including left and right spectacle lenses and a spectacle frame that supports the spectacle lens, each spectacle lens includes a first spectacle lens and a second spectacle lens, The spectacle lens and the second spectacle lens are spectacles characterized in that they are formed by processing a semi-finished lens as a separate member based on the respective optical centers.

  According to a third aspect of the present invention, in a method of manufacturing spectacles including left and right spectacle lenses and a spectacle frame that supports the spectacle lenses, semi-finished lenses having different focal points are prepared, and the semi-finished lenses are respectively provided. By processing based on the optical center, at least a first spectacle lens and a second spectacle lens are formed, and at least the first spectacle lens and the second spectacle lens constitute one of the left and right spectacle lenses. A method for manufacturing eyeglasses.

  According to the present invention, it is possible to deal with various types of lenses according to the wearer's request, and it is possible to improve the visual function and meet the wearer's design, application, and other needs. In addition, lenses can be processed based on the respective optical centers according to the condition of the wearer's eyes, and even for glasses equipped with a distance portion and a near portion, each of the distance portion and the near portion The focus can be easily and reliably set independently for each part.

It is a front view of the spectacles concerning the embodiment of the present invention. It is a top view of the spectacles concerning the embodiment of the present invention. It is a figure which shows a semi finish lens. It is a front view which shows a left-right distance lens and a left-right near lens, respectively. It is a front view which shows a part of spectacles concerning other embodiments of the present invention. It is a front view which shows a part of spectacles concerning other embodiments of the present invention. It is a top view concerning other embodiments of the present invention.

  Hereinafter, the present invention will be described based on embodiments with reference to the drawings. FIG. 1 is a front view showing an outline of glasses, and FIG. 2 is a plan view showing an outline of glasses. As shown in FIGS. 1 and 2, the spectacles 1 include left and right spectacle lenses 2 and 3 and spectacle frames 5 that support the spectacle lenses 2 and 3.

  The spectacle frame 5 includes a frame main body 6 and a pair of temples 7 and 7 attached to the frame main body 6 through a hinge portion 4 so as to be freely opened and closed. The frame body 6 includes a left lens frame portion 8, a right lens frame portion 9, and a nose pad (not shown).

  The left lens frame portion 8 includes an upper first frame portion 8a and a lower second frame portion 8b. The left lens frame portion 8 is connected to an opening periphery formed in the frame body 6 via a connecting portion 10.

  The right lens frame portion 9 includes an upper first frame portion 9a and a lower second frame portion 9b. The right lens frame portion 9 is connected to an opening peripheral edge formed in the frame body 6 via a connecting portion 11. The frame body 6 can be easily and inexpensively formed by laser processing.

  The spectacle lenses 2 and 3 are composed of distance lenses 12a and 12b as first spectacle lenses and near lenses 13a and 13b as second spectacle lenses. That is, distance lenses 12a and 12b are attached to the upper left and right first frame portions 8a and 9a, respectively. The near lenses 13a and 13b are attached to the lower left and right second frame portions 8b and 9b, respectively.

  Circumferential grooves are formed on the outer circumferences of the distance lenses 12a and 12b, and the peripheral edges of the first frame portions 8a and 9a are unevenly fitted into the circumferential grooves. The first frame portions 8a and 9a are formed with a plurality of cuts 8c and 9c that are cut out in a staggered manner. By providing the cuts 8c and 9c, the opening is slightly larger against the elastic force. Is set to

  A peripheral groove is formed on the outer periphery of the near lenses 13a and 13b, and the peripheral edges of the second frame portions 8b and 9b are concavo-convexly fitted into the peripheral grooves. The second frame parts 8b and 9b are provided with meandering parts 8d and 9d. By providing the meandering parts 8d and 9d, the second frame parts 8b and 9b are extended in the circumferential direction against the elastic force. The frame opening is set to be slightly larger. The outer peripheral portions of the distance lenses 12a and 12b and the near lenses 13a and 13b may be fitted into circumferential grooves formed in the left and right first frame portions 8a and 9a and the left and right second frame portions 8b and 9b. Is possible.

  As shown in FIGS. 3 and 4, the distance lenses 12a and 12b and the near lenses 13a and 13b cut the semi-finished lenses 15, 16, 17, and 18 so that the respective optical centers are located at predetermined positions. It has been processed. That is, the optical centers 15a, 16a, 17a, and 18a of the distance lenses 12a and 12b and the near lenses 13a and 13b are positions that can be viewed at the best positions of the respective lenses when the wearer wears the glasses 1. Is set to

  The distance between the left and right eyes varies depending on the wearer. Further, the line of sight (eye point) when viewing the distance portion is different from that when viewing the near portion. Since these differ depending on the individual difference of the wearer, each lens is set so that the optical center is at the most visible position.

Next, a method for manufacturing the glasses 1 having the above configuration will be described.
First, an eyeglass lens that is optimal for the eyes of the wearer is determined based on information on the examination result of the wearer's eyes. For example, left and right far-finished semi-finished lenses 15 and 16 to be used as the distance lenses 12a and 12b are prepared. Further, left and right near-finishing semi-finished lenses 17 and 18 to be near-by lenses 13a and 13b are prepared (see FIG. 3).

  The distance lens 12a is cut from the left distance semi-finish lens 15 into a predetermined shape. At this time, the optical center 15a of the left far-end semi-finished lens 15 is set so as to be in the best position when the wearer looks through the left far-end lens 12a.

  The distance lens 12b is cut from the right distance semi-finish lens 16 into a predetermined shape. At this time, the optical center 16a of the far-distance semi-finish lens 16 is set so as to be in the best position when the wearer looks through the right-distance lens 12b.

  Further, the left near lens 13a is cut into a predetermined shape from the left semi finish lens 17. At this time, the optical center 17a of the left near semi-finish lens 17 is set to be the best position when the wearer visually observes through the left near lens 13a.

  Further, the right near lens 13b is cut from the right near semi-finish lens 18 into a predetermined shape. At this time, the optical center 18a of the near right semi-finishing lens 18 is set so as to be in the best position when the wearer views through the right near lens 13b.

  Thus, the spectacle lenses 2 and 3 formed based on the respective optical centers are attached to the spectacle frame 5. The far left lens 12a is attached to the left first frame portion 8a, and the left near lens 13a is attached to the left second frame portion 8b. Further, the far right lens 12b is attached to the right first frame portion 9a, and the right near lens 13b is attached to the right second frame portion 9b.

  As described above, the eyeglasses 1 of the present embodiment perform the cutting process based on the optical center in each of the left distance lens 12a, the right distance lens 12b, the left distance lens 13a, and the right distance lens 13b. The visual function when the wearer looks far away and the visual function when the wearer looks closer can be adjusted to an optimum state.

  FIG. 5 shows another embodiment of the present invention. As shown in FIG. 5, the spectacles 1 of the present embodiment have a structure in which left and right lenses 12a and 12b and near lenses 13a and 13b are directly connected to a frame body 6 via connecting means such as screws 18. belongs to.

  FIG. 6 shows another embodiment of the present invention. In the eyeglasses 1 of the present embodiment, the upper left and right distance lenses 12 a and 13 a are fitted to the frame body 6 whose lower part is opened, and the lower left and right near lenses 13 a and 13 b are both connected to the frame body 6. It is hold | maintained from the downward direction at the linear members 20, such as a tegus. The left and right distance lenses 12a and 13a and the left and right distance lenses 13a and 13b are concavo-convexly fitted. This ensures that the left and right lenses 12a and 13a and the left and right lenses 13a and 13b are held securely.

  While the present invention has been described based on the embodiments, the present invention is not limited to the above-described embodiments. In the above embodiment, the case where the optical center is present in the semi-finished lens is illustrated, but the case where the optical center is not necessarily present in the semi-finished lens is also included. Specifically, the semi-finished lens is generally distributed in a state of being processed into a shape of a predetermined diameter in a manufacturing factory, and the semi-finished lens is generally cut at a spectacle store or the like.

  When lens characteristics (such as the cross-sectional shape of the lens) are designed around the optical center and the semifinished lens is processed into a predetermined shape, the optical center may exist outside the semifinished lens. Also in this case, the first spectacle lens and the second spectacle lens correspond to a case where the semi-finished lens is formed by processing based on the respective optical centers.

  In addition to the left and right distance lenses and the near lens, it is also possible to include a third lens of a different type having another focal point.

  The type of spectacle lens is not particularly limited. Specifically, the color, power, shape, and prism of the spectacle lens are not particularly limited. The spectacle lens may be a planar one having no power.

  The wearer can arbitrarily select each lens. For example, in addition to the distance lenses 12a and 12b and the near lenses 13a and 13b as in the glasses of the embodiment, the distance lenses 12a and 12b and the near lenses 13a and 13b are arranged on both sides as shown in FIG. It is also possible to provide three lenses 19a and 19b, respectively. It suffices to have at least a first lens and a second lens. The third lenses 19a and 19b can be sunglasses lenses of any color.

  In addition, at least one of the first spectacle lens and the second spectacle lens can be a sunglasses lens. As described above, the eyeglasses 1 of the present embodiment can improve the visual function and meet the demands of the wearer's design, application, and the like.

  The shape of the spectacle frame is not particularly limited. Various modifications can be made to the above-described embodiment within the same and equivalent scope as the present invention.

DESCRIPTION OF SYMBOLS 1 Eyeglass 2 Eyeglass lens 3 Eyeglass lens 5 Eyeglass frame 6 Frame main body 8 Left lens frame part 8a Left first frame part 8b Left second frame part 9 Right lens frame part 9a Right first frame part 9b Right second frame part 10 Connection Part 11 Connecting part 12a Left distance lens (first spectacle lens)
12b Right distance lens (first spectacle lens)
13a Left-hand lens (second spectacle lens)
13b Right-hand lens (second spectacle lens)
15 Semi-finished lens (Semi-finished lens for far left)
15a Optical center 16 Semi-finished lens (Semi-finished lens for right distance)
16a Optical center 17 Semi-finish lens (Semi-finish lens for left)
17a Optical center 18 Semi-finished lens (Right-side semi-finished lens)
18a Optical center 19a Third spectacle lens 19b Third spectacle lens

Claims (3)

In eyeglasses including left and right eyeglass lenses and eyeglass frames that support the eyeglass lenses,
Each spectacle lens includes at least a first spectacle lens and a second spectacle lens, and the first spectacle lens and the second spectacle lens are formed by respectively processing a semi-finished lens as a separate member. Glasses. In spectacles comprising the left and right spectacle lenses and a spectacle frame that supports the spectacle lenses,
Each spectacle lens includes at least a first spectacle lens and a second spectacle lens,
The first spectacle lens and the second spectacle lens are formed by processing a semi-finished lens, which is a separate member, based on each optical center. In a method of manufacturing spectacles comprising left and right spectacle lenses and a spectacle frame that supports the spectacle lenses,
A semi-finished lens having different focal points is prepared, and the semi-finished lens is processed based on the respective optical centers to form at least a first spectacle lens and a second spectacle lens, and at least the first spectacle lens and the first spectacle lens A method for manufacturing eyeglasses, wherein one eyeglass lens is composed of two eyeglass lenses.