KR101716439B1 - Horizontal lens holder for the UV test - Google Patents

Abstract

The present invention provides a horizontal holder (1) for a lens for an ultraviolet shielding test, which is capable of examining and testing the degree of transmission of ultraviolet rays to a spectacle lens. The present invention relates to a horizontal holder A supporter 3 in which a lower end is coupled to the center of the base 2, an installation plate 4 disposed at an upper end of the supporter 3 so as to be spaced apart in parallel with the base 2, The plate 4 is provided with an aperture 5 formed vertically through the object lens OL so that the object lens OL can be laid horizontally and the upper surface of the base 2 or the base 2 and the face plate 4, The object lens OL and the discoloration lens DL are disposed so as to correspond to the object lens OL on the upper surface of the protector 7 protruding from the supporter 3 between the object lens OL and discoloration The lens DL can be easily and horizontally It is possible to maximize the convenience of use when testing the degree of penetration of the object lens (OL) and maximize the penetration rate by significantly reducing the manufacturing cost and the repair cost because the structure is extremely simple, and the permeation of ultraviolet rays is confirmed at a glance And the reliability with respect to the ultraviolet transmittance of the objective lens OL can be significantly increased, and so forth.

Description

{Horizontal lens holder for the UV test}

The present invention relates to a horizontal holder for a lens for ultraviolet shielding test. More specifically, when a spectacle lens is irradiated with ultraviolet light or blue light to inspect and test the transmittance of ultraviolet to blue light, the lens can be horizontally laid The present invention relates to a horizontal holder of a lens for an ultraviolet (UV) blocking test so that it can be confirmed and prepared at a glance.

In general, the green and red portions of the visible light and the electromagnetic waves having long wavelengths such as infrared, microwave, and radio wave are not harmful to the human body or eyes. However, the blue light of the purple or blue portion of the visible light, the wavelength of ultraviolet, This short electromagnetic wave has an extremely harmful effect on the human body and eyes. In this case, since X-rays and gamma rays are not included in general natural light such as sunlight, there is almost no harmful effect to human body , And in the case of ultraviolet rays and blue light in visible light, it is also included in the sunlight. Therefore, in order to protect the eyes of the human body, it is necessary to wear a special blocking lens which blocks ultraviolet rays (UV) and blue light. Bar, which reflects and reflects blue light in the ultraviolet to visible light harmful to the human body and eyes, A variety of techniques related to a spectacle lens for blocking and absorbing ultraviolet rays or blue light (hereinafter referred to as "ultraviolet rays ") have been developed, A technique of attaching a polarizing film incorporating cut-on filters or immersing it in a coloring dye at a high temperature, or a technique in which a plastic resin film or a polarizing film including silver and halogen elements whose color and color density vary depending on the amount of ultraviolet rays Various techniques such as a technique of forming a film singly and in combination or a technique of laminating a functional thin film between a plastic substrate and a multilayer film when a multilayer film in which a high refractive index material and a low refractive index material are laminated on the surface of a plastic substrate is developed It has been coming.

As described above, various technologies for blocking ultraviolet rays have produced and sold ultraviolet shielding lenses to a retailer such as an optician, and a production and sales company has developed a lens having performance superior to that of other companies In the case of each retailer, consumers are required to sell UV lenses with UV shielding capability of various UV shielding lenses or to sell the lenses desired by consumers. In this case, a device for measuring ultraviolet transmittance is required , A small measuring device has been developed as disclosed in Korean Patent Publication No. 12562 (published on March 6, 2000) and published Japanese Patent Application No. 35287 (published on May 9, 2003) As disclosed in published patent application No. 2006/53200 (published May 19, 2006), more precise A large-sized measuring apparatus with improved function has been developed. Most of the conventional apparatuses for measuring the degree of ultraviolet transmittance are equipped with a lens having a lens or a lens coupled to a measuring unit and then irradiating ultraviolet rays generated by supplying self- The transmittance is measured, and the small-sized devices display the corresponding value by an LED lamp or digital number according to the transmittance. A large-sized device displays transmittance on the display and confirms and compares the transmittance. It is difficult to repair it due to frequent troubles due to complicated structure due to complicated equipment, high manufacturing cost and high cost due to being electrically operated to display ultraviolet ray transmittance degree. It is difficult, therefore, that large companies manufacturing and selling lenses However, it is difficult to purchase such expensive equipments at a retailer such as a small retailer or an optician, and as a result, since consumers can not directly confirm the ultraviolet transmittance of the lens, the consumer can not trust the ultraviolet ray transmittance It had many problems.

KR 10-2000-0012562 A 2000. 3. 6. KR 10-2003-0035287 A May 9, 2003. KR 10-2006-0053200 A May 19, 2006.

The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an objective electronic device which is not a digitized electronic device but simply a target lens for checking the degree of ultraviolet ray transmission, The color change lens which changes the color so as to confirm that the ultraviolet ray is transmitted is laid down in a horizontal direction and the ultraviolet ray is transmitted through each of them so that it can be inspected and tested so that the degree of ultraviolet ray penetration through the color change of the lower color- So that the ultraviolet transmittance of the target lens can be contrasted at a glance by transmitting the ultraviolet rays by horizontally laying the target lens horizontally while allowing the target lens to be seen at a glance so that the ultraviolet transmittance of the target lens can be enhanced Horizontal lens for one UV test It is finished with the object of the invention as wishes to provide a beat.

According to the present invention, there is provided a horizontal holder for a lens for an ultraviolet shielding test, wherein a horizontal holder of the lens is provided with a base which is supported on a bottom surface, The upper plate of the base plate is provided with an upper plate disposed at an upper end of the supporter and spaced apart from the upper plate in parallel with the base plate, And a discoloring lens corresponding to the object lens is placed on an upper surface of an inner surface of the inner surface of the inner surface of the upper surface of the inner surface of the inner surface of the upper surface of the inner surface of the upper surface.

According to the concrete means for solving the above-mentioned problems, the horizontal holder of the lens for the ultraviolet shielding test according to the present invention can easily and horizontally arrange the object lens through which the ultraviolet rays are transmitted to the eye sockets of the upper- The discoloration lens which is discolored by the ultraviolet rays transmitted through the object lens on the upper surface of the base or the upper surface of the inner surface of the plate corresponding to the object lens of the plate can also be placed horizontally and extremely easily so that the usability However, since the structure is extremely simple compared to the conventional ultraviolet ray transmittance measuring devices of the conventional electronic device type, the manufacturing cost and the repair cost can be greatly reduced, and the manufacturing cost is low, The penetration rate is significantly It is capable of exerting an effect that may be.

In addition to the above-described ease of use and economical advantages, it is possible to confirm the transmission of the ultraviolet rays at a glance only by moving the position of the object lens and the discoloration lens of the objective lens or by moving the position of the object lens. It is possible to increase the reliability of the consumer with respect to the ultraviolet transmittance of the objective lens, which is a very large and highly expected effect.

1 is a perspective view of a stereoscopic image showing a first embodiment of the present invention
Figure 2 is a cross-
3 is a perspective view of a stereoscopic image showing a second embodiment of the present invention
Figure 4 is a cross-
Fig. 5 is an exemplary view showing a state in which an embossed groove is formed in an embossed groove in the present invention
FIG. 6 is a perspective view showing a three-dimensional view enlarged in a contact inner portion where a contact lens is placed in the present invention

The present invention relates to an objective lens for irradiating ultraviolet rays using a laser pointer that emits ultraviolet rays to a target lens by using a spectacle lens exclusive for blocking ultraviolet light (hereinafter also referred to as "blue light") as a target lens, The present invention relates to a horizontal holder for an ultraviolet ray blocking test in which a degree of ultraviolet transmission of a target lens can be confirmed and prepared by a change of the ultraviolet ray transmittance, .

1 and 3, the horizontal stand 1 of the present invention comprises a lower base 2 on which a floor is supported on the floor, a supporter 3 standing on the center of the base 2, And an object plate (OL) 4 through which ultraviolet rays irradiated by a laser pointer (LP) is to be transmitted is formed on the upper surface of the upper plate 3, Are horizontally laid down so that they can be laid horizontally.

In the present invention, a discoloration lens (DL), in which a surface is discolored in response to ultraviolet rays transmitted through a target lens (OL) placed on a seat (5) of the seat plate (4) The lens housing groove 6 is provided on the upper surface of the base 2 which is configured to be supported so as to be in contact with the floor as in the stereoscopic view of FIG. 1 and the sectional view of FIG. 2, And the lens holding grooves 6 of the base 2 are formed so as to be correspondingly radially formed when a plurality of the armrests 5 are radially formed on the armrest plate 4 .

Another example of the lens holding groove 6 that can be horizontally laid down to place the color-changing lens DL is a lens holding groove 6 between the base 2 and the seat plate 4, as shown in the cross- The upper face of the seat cushion 7 protruding from one side of the supporter 3 may be formed to be lower than the upper face of the seat cushion 7 and the seat cushion 5 may be radially The number of the lens holding grooves 6 of the seat cushion 7 to be formed is one and can not correspond to each seat cushion 5 so that when the seat cushion 4 is freely rotated from the top of the supporter 3, Although the lens OL can be arbitrarily rotated in correspondence with one discoloration lens DL and it is not shown separately, if necessary, even if the decorative plate 4 is fixed to the upper end of the supporter 3, It is possible to freely rotate on the outer circumferential surface of the supporter 3.

The structure of the free rotation of the mounting plate 4 is the same as that of the free mounting of the mounting plate 4 when the mounting plate 4 is installed in the supporter 3 in the sectional views of FIGS. It is possible to select any one of various known rotary structures using a bushing or a bearing from a simple structure for widening the hole and to apply the rotary shafts 7 freely rotated by the supporter 3, A more detailed description of what is known is omitted.

As shown in FIG. 5, in order to prevent the objective lens OL from being detached from the positioner 5, the edge of the object lens OL is placed on the edge of the eyeball 5 formed on the face plate 4, It is possible to further provide an installation groove 8 having an end on the upper surface of the plate 4. [

In addition to this, in addition to the eyeglasses 5 that are vertically penetrated vertically so that the object lens OL can be placed on the face plate 4, the contact lens CL, which is not a spectacle lens, The lower surface of the contact plate CL is sealed so that the contact lens CL is inwardly held by the partition wall 91 protruded upward from one side of the upper surface of the face plate 4 so as to test the ultraviolet transmittance of the lens CL. The inner portion 9 can be further provided.

The horizontal holder 1 of the lens for the ultraviolet shielding test having the above configuration is constructed such that the lower base 2 and the upper face plate 4 are connected to each other by the supporter 3 and the upper face plate 4 is provided with an anti- The objective lens OL for transmitting the ultraviolet rays irradiated by the laser pointer LP is horizontally laid down so as to be laid on the upper surface of the base plate 2 and the seat piece 7 The color changing lens DL in which the color change appears on the surface in response to ultraviolet rays transmitted through the object lens OL by the lens receiving groove 6 formed to be downwardly inward is horizontally laid down.

When the ultraviolet light is directed toward the object lens OL using the laser pointer LP after the objective lens OL is placed on the image side and the color-changing lens DL is laid down on the lower side, The degree of color change in the color-changing lens DL is reduced as much as the ultraviolet rays are blocked in the target lens OL, so that the degree of ultraviolet transmission in the object lens OL can be directly confirmed by eyes.

1 and 3, a plurality of object lenses OL can be radially arranged on the upper face plate 4 so that the lens holding grooves 6 (see FIG. 3) of the lower base 2 and the face piece 7 The same discoloration lens DL placed on the upper surface of the base 2 is moved to each lens storage groove 6 on the upper surface of the base 2 in correspondence with the position of the object lens OL on the upper side, The objective lens OL and the color-changing lens DL can be positioned to correspond to each other by rotating the upper plate 4 on the upper side of the supporter 3, 7 can be rotated by the supporter 3 so that the object lens OL and the color-changing lens DL can be positioned to correspond to each other, thereby maximizing convenience in use in the ultraviolet shielding test.

Therefore, in the present invention, it is possible for a consumer to visually confirm and contrast the degree of ultraviolet ray transmission of several object lenses OL, so that it can be seen at a glance which object lens OL can block ultraviolet rays much or completely, The reliability of the test can be greatly enhanced.

In addition to this, an orbit groove 8 is formed so that the rim of the object lens OL is positioned at the edge of the eyeball 5 of the eye plate 4 on which the object lens OL is placed, The objective lens OL can be positioned more stably without being easily detached from the sphere 5.

According to the present invention, in addition to the eye ball 5 in which the object lens OL, which is the spectacle lens, is placed on one side of the upper surface of the seat plate 4, a contact lens CL, The contact lens CL can be tested not only in the ultraviolet ray blocking test of the spectacle lens but also in the ultraviolet ray blocking test of the contact lens CL, The contact lens CL is immersed in the saline solution, and ultraviolet rays are transmitted through the contact lens CL using the laser pointer LP at the upper part and irradiated with the discoloration lens DL at the lower part. As described above, the present invention has the advantage that both the spectacle lens and the contact lens CL can be tested for ultraviolet ray shielding.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that the scope of the claims is not limited to the examples but covers the scope of the claims and the scope of equivalents thereof.

LP: Laser pointer OL: Target lens
DL: discoloration lens CL: contact lens
1: Horizontal holder 2: Base
3: Supporter 4: Anchor plate
5: Anchor sphere 6: Lens storage groove
7: Anchors 8: Anchored grooves
9: contact inner part 91: partition wall

Claims (5)

A base 2 having a bottom surface supported on the floor and having a discoloring lens DL on its upper surface for confirming the degree of ultraviolet transmission due to a color change,
A supporter 3 having a lower end connected to the center of the base 2,
An installation plate 4 provided at the upper end of the supporter 3 so as to be parallel to the base 2 and spaced apart therefrom,
Wherein the object plate (5) is formed so as to penetrate the object plate (4) through an up and down direction so that the object lens (OL) through which the ultraviolet rays are transmitted is horizontally laid down.
A base (2) configured to be supported on a floor surface,
A supporter 3 having a lower end connected to the center of the base 2,
An installation plate 4 provided at the upper end of the supporter 3 so as to be parallel to the base 2 and spaced apart therefrom,
An anticorrosive lens 7 protruding from one side of the supporter 3 between the base 2 and the face plate 4 and having a discoloration lens DL on its upper face for confirming the degree of ultraviolet transmission through color change )and,
Wherein the object plate (5) is formed so as to penetrate the object plate (4) through an up and down direction so that the object lens (OL) through which the ultraviolet rays are transmitted is horizontally laid down.
The method according to claim 1 or 2,
A plurality of the eyeball holes 5 are formed radially in the face plate 4 so that the object lens OL is placed on each eyeball 5,
Wherein the support plate is rotatably mounted on the upper end of the supporter and is adapted to correspond to one of the plurality of lens lenses OL among the plurality of objective lenses OL. .
delete The method according to claim 1 or 2,
The apparatus according to any one of claims 1 to 7, further comprising a contact insulator (9) formed on one side of the upper face of the face plate (4) with saline solution so that the contact lens (CL) Horizontal holder of the lens for.

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