CN113296291A - Glasses - Google Patents

Abstract

The invention relates to the field of optics, and discloses a pair of glasses, which comprises: the lens comprises a lens frame, a lens arranged on the lens frame and a luminous piece attached to the lens; the lens comprises a front surface, a back surface and a side surface, wherein the front surface and the back surface are oppositely arranged and used for light to pass through, the side surface is connected with the front surface and the back surface, and the luminous piece is used for enabling the side surface to face towards the inside of the lens to emit colored light. Compared with the prior art, the glasses provided by the embodiment of the invention can improve the definition of the visual objects of the user.

Description

Glasses

Technical Field

The invention relates to the field of optics, in particular to a pair of glasses.

Background

The glasses are composed of lenses and a frame. The glasses include myopia glasses, hyperopia glasses, presbyopic glasses and astigmatic glasses. There are also special glasses for watching 3D stereoscopic images or virtual real images. Other types of eyewear include goggles, sunglasses, swimming goggles, etc., which provide various types of protection to the eyes.

At present, more and more people with myopia and more people wearing myopia glasses. The common myopia glasses are transparent concave lenses, and when the glasses are normally used, things except the glasses can be clearly seen. But when in special environments, such as insufficient brightness, large ambient dust, etc. How to improve the definition of the objects seen by the myopia patients wearing the myopia glasses becomes a problem to be solved urgently.

Disclosure of Invention

The invention aims to provide glasses, which can improve the definition of objects viewed by a user.

In order to solve the above technical problem, an embodiment of the present invention provides glasses, including: the lens comprises a lens frame, a lens arranged on the lens frame and a luminous piece attached to the lens; the lens comprises a front surface, a back surface and a side surface, wherein the front surface and the back surface are oppositely arranged and used for light to pass through, the side surface is connected with the front surface and the back surface, and the light-emitting piece is used for emitting colored light from the side surface to the inside of the lens.

Compared with the prior art, the glasses provided by the embodiment of the invention are provided with the light-emitting piece, when the light-emitting piece emits light, colored light is emitted from the side surface of the lens towards the inside of the lens, and after the colored light is incident into the transparent lens, the color of the lens is changed into the color of the incident colored light.

Preferably, the light emitting device further comprises a light shielding layer disposed on the light emitting member; the light-emitting piece is including being close to the light emitting area of side surface, with the relative shady face of light emitting area and connection the light emitting area with the edge face of shady face, the light shield layer sets up on the edge face. Set up the light shield layer on the edge face of light-emitting component, when light-emitting component is luminous, colored light incides the lens through the light emitting face, and partial colored light probably can be via the edge face outgoing, sets up the light shield layer on the edge face and can avoid colored light to be from the edge face outgoing to avoid colored light direct incidence user's glasses to cause the influence to the definition that the thing was looked to the user.

Preferably, the surface of the light shielding layer on the side close to the edge surface is provided with a plurality of recesses and/or projections. The light shielding layer is provided with a plurality of recesses and/or protrusions on the surface of one side, which is adjacent to the edge surface, of the light shielding layer, namely, the light shielding layer is in an uneven shape, when colored light is emitted from the edge surface to the surface of one side, which is adjacent to the edge surface, of the light shielding layer, the colored light can be reflected in the recesses and cannot be reflected to other directions, the light absorption effect of the surface of one side, which is adjacent to the edge surface, of the light shielding layer is improved, and meanwhile, the colored light emitted from the edge surface is prevented from being reflected into eyes of a user through the surface of one side, which is adjacent to the edge surface, of the light shielding layer.

Preferably, the mirror frame comprises a supporting surface which is abutted against the side surface, a groove is formed in the supporting surface, and the light-emitting piece is arranged in the groove. With the setting of illuminating part in the recess, the recess can play the guard action to illuminating part, promotes glasses overall structure's reliability.

Preferably, a light shielding layer is arranged on the inner surface of the groove. Set up the light shield layer on the recess internal surface, follow the colored light of the shady face of light-emitting component and the exit of edge face and can shine on the light shield layer of recess internal surface, the light shield layer can absorb this part colored light, avoids the direct user's of inciding glasses of colored light to cause the influence to the definition that the thing was looked to the user.

Preferably, the light emitting component comprises a first supporting protective layer arranged on the side surface, a light emitting layer arranged on one side of the side surface and far away from the first supporting protective layer, a second supporting protective layer arranged on one side of the first supporting protective layer and far away from the light emitting layer, and a fixing layer and a line leading-out layer arranged on one side of the light emitting layer and far away from the second supporting protective layer. The first supporting protective layer and the second supporting protective layer are arranged on two sides of the light emitting layer respectively, and the light emitting layer is clamped between the two supporting protective layers, so that the light emitting layer can be better protected. In addition, because the side surface of lens is irregular shape usually, need buckle when setting up first support protective layer, luminescent layer and second support protective layer and handle, set up that the fixed bed can be better to first support protective layer, luminescent layer and second support protective layer fix, avoid first support protective layer, luminescent layer and second to support the protective layer and take place deformation.

Preferably, the light emitting layer is annular and disposed around the side surface. The luminous layer is arranged around the side surface, so that the brightness of colored light emitted into the lens by the luminous piece is more uniform, the color of the lens is more uniform, and the filtering effect is improved.

Preferably, the light-emitting layer is a yellow light-emitting layer. Set up the luminescent layer into yellow luminescent layer, can make the colour of lens become yellow, yellow lens can promote the contrast, provides more accurate video for there is the promotion of very big degree in the object definition of looking when night or other light are darker.

Preferably, the lens further comprises a yellow light-transmitting film disposed between the lens and the light-emitting layer. The surface of the light emitting layer is covered with the yellow light transmission film, so that the color of the lens is changed into yellow, the yellow lens can improve the contrast and provide more accurate visual images, and the definition of the visual objects at night or when other light rays are darker is improved to a great extent.

Preferably, still include with power and photoswitch that the illuminating part is connected, the power with photoswitch all sets up on the picture frame, photoswitch is used for the intercommunication when ambient light intensity is less than preset threshold the illuminating part with the power, and break off when ambient light intensity is higher than preset threshold the illuminating part with the electricity of power is connected. Set up photoswitch for can communicate power and illuminating part automatically when ambient light intensity is less than preset threshold value, make the illuminating part send yellow light and incide in the lens, thereby promote the user and be in the object definition of looking when the environment that the light is darker.

Drawings

Fig. 1 is a schematic structural view of glasses according to a first embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the lens portion of the eyewear provided in accordance with the first embodiment of the present invention;

FIG. 3 is a schematic view of a light-emitting element portion of the eyewear in accordance with a first embodiment of the present invention;

FIG. 4 is a schematic view of a portion of a glowing member in eyewear in accordance with another embodiment of the present invention;

FIG. 5 is a schematic view of a first embodiment of the present invention showing the structure of eyeglasses;

FIG. 6 is a circuit diagram illustrating a connection of a light emitting member in the glasses according to the first embodiment of the present invention;

FIG. 7 is a schematic view of a second embodiment of the present invention showing the structure of eyeglasses;

FIG. 8 is a schematic structural view of a light-shielding layer in glasses according to a second embodiment of the present invention;

fig. 9 is a schematic structural view of glasses according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

A first embodiment of the present invention relates to eyeglasses, which are specifically configured as shown in fig. 1 and 2, and include: a frame 10, a lens 20 arranged on the frame 10, and a light emitting member 30 attached to the lens 20; the lens 20 includes a front surface 21 and a back surface 22 opposite to each other for passing light, and a side surface 23 connecting the front surface 21 and the back surface 22. Wherein the front surface 21 and the back surface 22 are two opposite surfaces for the user to view. The luminous member 30 is used for emitting colored light from the side surface 23 toward the inside of the lens 20.

Specifically, in the actual use process, the light emitting element 30 may be fixedly disposed on the frame 10 or the lens 20, specifically, may be disposed on the side surface 23, and only needs to ensure that the light emitting element 30 and the lens 20 are attached to each other, so that the colored light emitted by the light emitting element 30 can be irradiated into the lens 20.

Compared with the prior art, the glasses provided by the first embodiment of the invention are additionally provided with the light emitting element 30 on the basis of the common glasses frame 10 and the common glasses lenses 20, the light emitting element 30 is arranged in a manner of being attached to the glasses frame, when colored light is emitted into the glasses lenses 20 by the light emitting element 30, the color of the transparent glasses lenses 20 is changed into the color of the incident colored light, and as the absorption of natural light by the glasses lenses with different colors is different, the color of the natural light penetrating through the glasses lenses 20 can be effectively adjusted by adjusting the color of the incident light, so that the glasses frame is suitable for different use environments, and the definition of objects viewed by a user is improved. For example, the lens 20 is dark brown by emitting dark brown light into the lens 20, so that a large amount of blue light can be effectively filtered, the visual contrast and definition are improved, and the wearing effect is good in the severe air pollution (such as sand storm) and other weather conditions. For another example, the lens 20 is turned green by injecting green light into the lens 20, so that the green light transmitted through the lens 20 can be increased, and the lens is cool and comfortable and suitable for users with tired eyes.

Preferably, as shown in fig. 3, in the present embodiment, the light emitting member 30 is disposed on the side surface 23, and the light emitting member 30 includes a first Support protective layer (Support protection layer)31 disposed on the side surface 23, a light emitting layer 32 disposed on a side of the first Support protective layer 31 away from the side surface 23, a second Support protective layer 33 disposed on a side of the light emitting layer 32 away from the first Support protective layer 31, and a fixing layer 34 and a wiring lead-out layer 35 disposed on a side of the second Support protective layer 33 away from the light emitting layer 32. The first supporting protective layer 31 and the second supporting protective layer 33 are respectively disposed on both sides of the light emitting layer 32, and the light emitting layer 32 is sandwiched by the two supporting protective layers, so that the light emitting layer 32 can be better protected. In addition, since the side surface 23 of the lens 20 is generally irregular, the first supporting protective layer 31, the light emitting layer 32 and the second supporting protective layer 33 need to be bent, and the fixing layer 34 can better fix the first supporting protective layer 31, the light emitting layer 32 and the second supporting protective layer 33, so as to prevent the first supporting protective layer 31, the light emitting layer 32 and the second supporting protective layer 33 from deforming. The use of double-sided adhesive tape, for example, to prepare the securing layer 34 may allow for a more secure attachment of the light emitting member 30 to the frame 10.

Preferably, the material of the first supporting protective layer 31 may be transparent polyimide (CPI).

Preferably, in the present embodiment, the light emitting layer 32 is annular and provided around the side surface 23. The light-emitting layer 32 is disposed around the side surface 23, so that the luminance of the colored light incident into the lens 20 from the light-emitting element 30 is more uniform, the color of the lens 20 is more uniform, and the filtering effect is improved.

It is understood that the aforementioned light-emitting layer 32 having a ring shape and disposed around the side surface 23 is only a specific example in this embodiment, and is not limited thereto, and in other embodiments of the present invention, the light-emitting layer 32 may include a plurality of light-emitting units, and the plurality of light-emitting units are distributed on the side surface 23 of the lens 20. In another embodiment of the present invention, a plurality of light emitting elements (for example, LED lamps) may be provided in a dispersed manner on the side surface 23, or other configurations may be employed.

Preferably, in this embodiment, the light-emitting layer 32 is a yellow light-emitting layer. The light-emitting layer 32 is set to be a yellow light-emitting layer, so that the color of the lens 20 can be changed into yellow, and the yellow lens can improve the contrast and provide more accurate visual images, so that the object definition can be realized at night or in other dark light conditions. It should be understood that the foregoing configuration of the light emitting layer 32 as a yellow light emitting layer is only a specific example in this embodiment, and is not limited thereto, and in other embodiments of the present invention, as shown in fig. 4, the light emitting layer 32 may be a white light emitting layer and emits white light, and a yellow transparent film 40 may be disposed between the light emitting layer 32 and the lens 20, and may be flexibly disposed according to actual needs, for example, the yellow transparent film 40 may be disposed on the light emitting element 30 or on the lens 20, and it is sufficient to ensure that the colored light incident into the lens 20 is yellow light.

Preferably, in the present embodiment, as shown in fig. 5, a power source 50 and a light control switch 60 connected to the light emitting element 30 are further included, the light source 50 and the light control switch 60 are connected to the light emitting element 30 through the wiring leading layer 35, the power source 50 and the light control switch 60 are both disposed on the frame 10, and the light control switch 60 is configured to connect the light emitting element 30 and the power source 50 when the ambient light intensity is lower than a preset threshold value, and disconnect the electrical connection between the light emitting element 30 and the power source 50 when the ambient light intensity is higher than the preset threshold value. The light control switch 60 is arranged, so that the power supply 50 and the light emitting piece 30 can be automatically communicated when the ambient light intensity is smaller than a preset threshold value, the light emitting piece 30 emits yellow light to enter the lens 20, and the object viewing definition of a user in a dark environment is improved.

Preferably, in the present embodiment, as shown in fig. 6, the light control switch 60 includes a light dependent resistor 61, a diac 62, and a thyristor 63. The thyristor 63 and the light-emitting element 30 are connected in series to form a first branch, the photoresistor 61 and the preset resistor R1 are connected in series to form a second branch, and the first branch and the second branch are connected in parallel at two ends of the power supply 50; the diac 62 has one end connected between the light dependent resistor 61 and the pre-set resistor R1 and the other end connected to the thyristor 63. In addition, in the present application, a preset resistor R2 and a first capacitor C1 may be further disposed in series to form a protection circuit, and the protection circuit and the first branch and the second branch are respectively connected in parallel across the power supply 50. In addition, a second capacitor C2 is connected in parallel across the light dependent resistor 61. When the ambient light is weak and the ambient light intensity is lower than the preset threshold, the resistance value of the photoresistor 61 is increased, so that the voltage division value of a second branch formed by connecting the photoresistor 61 and the preset resistor R1 in series is increased, and when the voltage division value of the second branch formed by connecting the photoresistor 61 and the preset resistor R1 in series reaches the trigger voltage of the bidirectional trigger diode 62, the bidirectional trigger diode 62 is conducted, the trigger thyristor 63 is further conducted, and the light-emitting element 30 emits light; with the gradual increase of the illumination intensity, the resistance value of the photoresistor 61 is gradually reduced, the divided voltage value of the second branch formed by the series connection of the photoresistor 61 and the preset resistor R1 is also reduced, when the ambient light intensity reaches a stronger degree, namely, is higher than a preset threshold value, the divided voltage value at the positions of the preset resistor R1 and the photoresistor 61 is reduced, the trigger voltage value of the bidirectional trigger diode 62 cannot be reached, the bidirectional trigger diode 62 is cut off, the thyristor 63 is further cut off, and the light-emitting element 30 does not emit light.

A second embodiment of the present invention relates to eyeglasses, as shown in fig. 7. The second embodiment is substantially the same as the first embodiment, and includes a frame 10, a lens 20, and a light emitting element 30, and is mainly different in that: in the second embodiment of the present invention, a light shielding layer 70 disposed on the light emitting member 30; the light emitting member 30 includes a light emitting surface 36 adjacent to the side surface 23, a backlight surface 37 opposite to the light emitting surface 36, and an edge surface 38 connecting the light emitting surface 36 and the backlight surface 37, and a light shielding layer 70 is provided on the edge surface 38.

Compared with the prior art, the glasses provided by the second embodiment of the present invention retain all technical effects of the first embodiment, and at the same time, the light shielding layer 70 is disposed on the edge surface 38 of the light emitting element 30, when the light emitting element 30 emits light, and the colored light enters the lens 20 through the light emitting surface 36, a part of the colored light may exit through the edge surface 38, and the light shielding layer 70 disposed on the edge surface 38 can prevent the colored light from exiting from the edge surface 38, so as to prevent the colored light from directly entering the eyes of the user and affecting the definition of the object viewed by the user.

Preferably, in the present embodiment, as shown in fig. 8, the light shielding layer 70 includes a light shielding surface 71 near the edge surface 38, and the light shielding surface 71 is provided with a plurality of recesses and/or protrusions. It is understood that the purpose of the recesses and/or protrusions is to form an uneven structure on the surface of the light shielding layer 70, whether the recesses or the protrusions are provided, the recesses are formed on the light shielding surface 71, when a plurality of protrusions are provided, the recesses are formed where the protrusions are not originally provided, the recesses and/or the protrusions can be flexibly arranged according to actual needs, for example, the recesses and/or the protrusions are arranged in a shape of a cone, a circular arc, or a trapezoid, and preferably, the recesses and/or the protrusions can be arranged in a shape of a cone. The light shielding surface 71 is provided with a plurality of recesses and/or protrusions to form a recessed structure, so that when colored light exits from the edge surface 38 to the light shielding surface 71, the colored light can be reflected in the recessed structure without being reflected to other directions, the light absorption effect of the light shielding surface 71 is improved, and meanwhile, the colored light exiting from the edge surface 38 is prevented from being reflected to the eyes of users through the light shielding surface 71. It should be understood that the foregoing arrangement of the plurality of recesses on the light-shielding surface 71 is merely an example of the structure of the light-shielding layer 70 in this embodiment, and is not limited thereto, and in other embodiments of the present invention, the light-shielding layer 70 may be another structure, for example, another structure such as one prepared by using a light-absorbing material or one coated on the edge surface 38 by using a light-absorbing paint, for example, ink, and the like, and may be flexibly arranged according to actual needs. A third embodiment of the present invention relates to eyeglasses, as shown in fig. 9. The third embodiment is substantially the same as the first embodiment, and includes a frame 10, a lens 20, and a light emitting element 30, and is mainly different in that: in the third embodiment of the present invention, the frame 10 includes the abutting surface 11 abutting against the side surface 23 in the vicinity of the side surface 23, the abutting surface 11 is provided with the groove 12, and the light emitting member 30 is provided in the groove.

Compared with the prior art, the glasses provided by the third embodiment of the invention maintain all the technical effects of the first embodiment, and meanwhile, the groove 12 is arranged on the glasses frame 10, and the light-emitting piece 30 is arranged in the groove 12, so that the groove 12 can protect the light-emitting piece 30, and the reliability of the overall structure of the glasses is improved.

Preferably, in the present embodiment, a light shielding layer 80 is further included on the inner surface of the groove 12. The light shielding layer 80 is disposed on the inner surface of the groove 12, the colored light emitted from the backlight surface 37 and the edge surface 38 of the light emitting member 30 can irradiate onto the light shielding layer 80 on the inner surface of the groove 12, and the light shielding layer 80 can absorb the colored light, so as to prevent the colored light from directly entering the glasses of the user to affect the definition of the object viewed by the user.

It is to be understood that, similarly to the light-shielding layer 70 in the foregoing embodiment, in the present embodiment, the light-shielding layer 80 may also be provided with a plurality of recesses and/or protrusions on the surface on the side close to the edge surface 38 and the backlight surface 37. The light shielding layer 80 is provided with a plurality of recesses on the surface close to the edge surface 38 and the backlight surface 37, so that when colored light exits from the edge surface 38 and the backlight surface 37 to the light shielding layer 80, the colored light can be reflected in the recesses and cannot be reflected to other directions, the light absorption effect of the light shielding layer 80 is improved, and meanwhile, the colored light exiting from the edge surface 38 and the backlight surface 37 is prevented from being reflected to the eyes of a user through the light shielding layer 80. It should be understood that the foregoing arrangement of the plurality of recesses on the light shielding layer 80 is merely an illustration of a specific structure of the light shielding layer 80 in this embodiment, and is not a limitation, and in other embodiments of the present invention, the light shielding layer 80 may also be other structures, for example, a light absorbing material is used for preparation, or a light absorbing paint is used for coating on the inner surface of the groove 12, and the like, and the arrangement may be flexibly set according to actual needs.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims (10)

1. An eyeglass, comprising:

the lens comprises a lens frame, a lens arranged on the lens frame and a luminous piece attached to the lens;

the lens comprises a front surface, a back surface and a side surface, wherein the front surface and the back surface are oppositely arranged and used for light to pass through, the side surface is connected with the front surface and the back surface, and the light-emitting piece is used for emitting colored light from the side surface to the inside of the lens.

2. The eyewear of claim 1, further comprising a light shield layer disposed on the light emitting member;

the light-emitting piece is including being close to the light emitting area of side surface, with the relative shady face of light emitting area and connection the light emitting area with the edge face of shady face, the light shield layer sets up on the edge face.

3. The spectacles according to claim 2, wherein the light-shielding layer is provided with a plurality of recesses and/or projections on a surface thereof on a side close to the edge surface.

4. The eyeglasses according to claim 1, wherein the frame comprises a contact surface which contacts the side surface, the contact surface having a groove, and the light-emitting member is disposed in the groove.

5. The eyewear of claim 4, wherein the groove has a light-blocking layer disposed on an inner surface thereof.

6. The eyeglasses according to any one of claims 1 to 5, wherein the light emitting member comprises a first supporting protective layer adjacent to the side surface, a light emitting layer disposed on a side of the first supporting protective layer remote from the side surface, a second supporting protective layer disposed on a side of the light emitting layer remote from the first supporting protective layer, and a fixing layer and a wiring lead-out layer disposed on a side of the second supporting protective layer remote from the light emitting layer.

7. The eyewear of claim 6, wherein the luminescent layer is annular and disposed about the side surface.

8. The eyewear of claim 6 or claim 7, wherein the light-emitting layer is a yellow light-emitting layer.

9. The eyeglasses according to claim 6 or 7, further comprising a yellow light-transmitting film disposed between the lens and the light-emitting layer.

10. The eyeglasses according to claim 8 or 9, further comprising a power source and a light control switch connected to the light emitting member, wherein the power source and the light control switch are both disposed on the eyeglass frame, and the light control switch is configured to connect the light emitting member to the power source when the ambient light intensity is lower than a preset threshold value, and to disconnect the electrical connection between the light emitting member and the power source when the ambient light intensity is higher than the preset threshold value.

Images