CN210962941U

CN210962941U - Eye training lamp mirror

Info

Publication number: CN210962941U
Application number: CN201821615364.0U
Authority: CN
Inventors: 刘葳; 刘军龙; 谷海涛; 刘军涛; 李滔
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-09-30
Filing date: 2018-09-30
Publication date: 2020-07-10
Anticipated expiration: 2028-09-30

Abstract

The utility model discloses an eye training lamp mirror, eye training lamp mirror include light-permeable part, casing light-permeable part with the casing forms sealed cavity, set up in a plurality of light emitting component and the control assembly in the cavity, light emitting component arranges in the casing according to the requirement of eye training to set up light emitting component's luminous law according to the law of eye training, provide one kind and can regard as the reference device of eye training. The eye training lamp mirror can be used as a mirror under the condition that a vision training mode is not used, the light-emitting element can also be used as light energy supplement of the mirror, and the eye training lamp mirror further comprises an electronic clock and can be used as a common clock.

Description

Eye training lamp mirror

Technical Field

The utility model relates to an eyesight health care and training field especially relate to an eye training lamp mirror.

Background

At present, vision problems are more and more common, and the training of vision becomes an effective means for preventing the visual deterioration in the present day when users of electronic products tend to be younger. . However, the existing vision training method is difficult to determine whether the eyeball movement is standard or not, difficult to meet the requirements of vision training and easy to cause the problem of irregularity of eye training.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide a device which can assist the eyesight training and is convenient for the standardization of the training.

The eye training light glasses comprise a light-transmitting piece, a shell, a cavity formed by the light-transmitting piece and the shell in a sealed mode, a plurality of light-emitting elements arranged in the cavity and a control assembly; the control assembly is used for controlling the light-emitting elements of each arrangement mode to emit light according to a preset rule so as to form a plurality of different sight moving paths, so that the eyeballs are guided to move along the moving paths in sequence; the light-emitting element is used as a supplementary light source of the light-transmitting piece, and the control assembly is also used for controlling the light-emitting element to be used as a supplementary light source of the light-transmitting piece; the arrangement mode comprises a third arrangement mode, the third arrangement mode is formed by densely arranging a plurality of third light-emitting elements along two symmetrical surrounding paths, the control assembly is further used for controlling the third light-emitting elements to emit light according to the symmetrical surrounding paths, and the previous third light-emitting element is extinguished when the current third light-emitting element is lightened.

Furthermore, the plurality of arrangement modes further include a first arrangement mode and a second arrangement mode, the eye training light mirror further includes a first light-emitting element and a plurality of second light-emitting elements, the plurality of first light-emitting elements are arranged according to the first arrangement mode, the plurality of second light-emitting elements are arranged according to the second arrangement mode, and the plurality of first light-emitting elements are arranged around the plurality of second light-emitting elements and the plurality of third light-emitting elements; the control assembly sequentially controls the first light-emitting elements and the second light-emitting elements to emit light according to a preset rule, so that the first light-emitting elements and the second light-emitting elements correspond to the sight moving path, and the sight of the eyeball is guided to move along the sight moving path.

Further, the first arrangement is as follows: the first light-emitting elements are arranged in a surrounding manner to form corresponding sight line moving paths.

Furthermore, the first light-emitting elements are arranged in a surrounding manner to form a rectangle.

Further, the second arrangement is as follows: the second light emitting elements are arranged along a first path and a second path and the first path and the second path intersect to form a corresponding line-of-sight movement path.

Further, the second light emitting element is disposed in a cross shape along the first path and the second path.

Further, the two symmetrical surrounding paths are 8-shaped.

Further, first arrangement does first light emitting component is the rectangle and arranges, second arrangement does second light emitting component is the cross and arranges, the third arrangement does third light emitting component is 8 font and arranges, the cross about 8 font symmetry sets up, the rectangle encircles the cross with 8 font sets up.

Furthermore, the control assembly further comprises an illumination adjusting module, and the illumination adjusting module is electrically connected with the light-emitting element; the illumination adjusting module adjusts the brightness of light emitted by the light emitting element and the color temperature of the light emitted by the light emitting element.

Compared with the prior art, the beneficial effects of the utility model reside in that: the lamp glasses for eye training can be used as a reference for eye training, and further damage to eyes caused by improper eye training is avoided.

Drawings

Fig. 1 is a schematic view of a first embodiment of the present invention;

fig. 2 is a schematic diagram of the distribution of light-emitting elements according to the first embodiment of the present invention;

fig. 3 is a schematic view of an in-bin module according to a first embodiment of the present invention;

in the figure: 100. a light transmissive member; 200. a housing; 300. a light emitting element; 301. a first light emitting element; 302. A second light emitting element; 303. a third light emitting element; 500. a control component; 501. a light change module; 502. an illumination adjustment module; 600. a first path; 700. a second path; 800. an electronic clock; 900. and a power supply module.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model provides an eye training lamp mirror, this eye training lamp mirror's light emitting component 300 sets for arrangement and lighting pattern according to eye training method, and eye training method at present stage specifically is the orbit motion according to 8 fonts through the side-to-side movement, the up-and-down motion and eyeball of eyeball, can make extraocular muscle and ciliary muscle fully compel the motion, reaches the eye training, relaxs eyes, alleviates the tired purpose of eye. The eye training light mirror can also be used as a general mirror, and the light-emitting element 300 on the frame can be used as a light source for light supplement.

Referring to fig. 1, a first embodiment of the glasses includes a light-transmitting member 100, the light-transmitting member 100 allows light to transmit through, and the light-transmitting member 100 and a housing 200 form a closed cavity. The light-transmitting member 100 is rectangular and made of single-sided polished glass. The polished surface is located on one side close to the housing 200, and when the light intensity of one side of the housing 200 is lower than the light intensity of the other side of the light-transmitting member 100, the polished surface can be used as a mirror. The eye training glasses also include a number of light emitting elements 300 and a control assembly 500.

The plurality of light emitting elements 300 are arranged in a plurality of different arrangements. In this embodiment, 3 kinds of arrangement modes are exemplified. The light emitting element 300 includes a plurality of first light emitting elements 301, a plurality of second light emitting elements 302, and a plurality of third light emitting elements 303. The plurality of first light emitting elements 301, the plurality of second light emitting elements 302, and the plurality of third light emitting elements 303 are arranged in a first arrangement. Wherein, the first arrangement mode is as follows: the first light emitting elements 301 are arranged in a surrounding manner. Wherein, the surrounding shape is rectangular and matches with the shape of the light-transmitting member 100. The rectangle is disposed along the edge of the light-transmitting member 100. It is to be understood that in other embodiments, the plurality of first light emitting elements 301 may be arranged in a circular shape. The second arrangement mode is as follows: a number of second light emitting elements 302 are disposed along the first path 600 and the second path 700, and the first path 600 and the second path 700 intersect. In the present embodiment, the plurality of second light emitting elements 302 are disposed in a cross shape along the first path 600 and the second path 700. The first path 600 and the second path 700 are parallel to two adjacent edges of the light-transmitting member 100. The third arrangement is two symmetrical circular paths, specifically, 8-shaped paths.

The control assembly 500 includes a light control module 501. The light variation module 501 is electrically connected to the first light emitting element 301, the second light emitting element 302 and the third light emitting element 303, so as to sequentially control the light emitting elements 300 in each arrangement manner to emit light according to a preset rule to form a plurality of different movement paths of the sight line, so as to guide the eyeball to move along the plurality of movement paths of the sight line in sequence. Accordingly, the several sight-line moving paths are three kinds. When eye training is performed, the eyeball only needs to move according to the change of the on/off of the light-emitting element 300, and standard eye training can be completed. When the light-transmitting member 100 is used as a mirror and the amount of light in the environment is insufficient, the first light-emitting element 301 can be controlled to emit light by the light control module 501, and a light source can be supplemented when the mirror is used.

The light change module 501 of the first embodiment can control the light emitting elements 300 to arrange the light emitting elements 300 according to a preset moving path:

(1) sequentially illuminating the first light-emitting elements 301 in the rectangular array of light-emitting elements 300 in the first arrangement extinguishes the previously illuminated first light-emitting elements 301 to form a dynamic light signal movement that moves clockwise or counterclockwise in the rectangular array.

(2) The second light emitting elements 302 of the first path 600 of the light emitting elements 300 are sequentially turned on according to the second arrangement, one second light emitting element 302 is turned on, and the previously turned-on second light emitting element 302 is turned off, so that dynamic optical signal movement is formed, and the optical signal movement performs left-right reciprocating movement according to the cross arrangement.

(3) The second light emitting elements 302 of the second path 700 of the light emitting elements 300 are sequentially turned on in a second arrangement, one second light emitting element 302 is turned on, and the previously turned-on second light emitting element 302 is turned off, so that a dynamic optical signal movement is formed, and the optical signal movement reciprocates up and down in a cross-shaped arrangement.

(4) The third light emitting elements 303 of the light emitting elements 300, which are arranged in a figure 8 shape according to the third arrangement mode, are sequentially turned on, one third light emitting element 303 is turned on, the previously turned-on third light emitting element 303 is turned off, dynamic light signal movement is formed, and the third light emitting element 303 performs clockwise movement or counterclockwise movement around the figure 8 region.

The light change module 501 controls the light emitting elements to change the light, so that the eye trainer hangs the lamp glasses on the wall or places the lamp glasses on the table, and the lamp glasses are away from the eyes to a certain distance, thereby avoiding the injury of the eyes caused by the light sources which are too close to the light sources which are densely arranged. The eye trainer can rotate the eyeball according to the guiding effect of the change of the optical signal, so that the extraocular muscles and ciliary muscles can be fully forced to move, and the purposes of eye training, eye relaxation and eye fatigue alleviation are achieved.

Preferably, the light change module 501 can control the speed of the light signal change to achieve a change speed suitable for eye training.

In a preferred embodiment, the eye training light mirror is further provided with an electronic clock 800, and the electronic clock 800 is arranged in the housing 200 near the light-transmitting member 100, so that the numbers on the electronic clock 800 can be displayed on the surface through the light-transmitting member 100. The electronic clock 800 may be a digital tube clock or a liquid crystal screen clock. The electronic clock 800 may have an alarm clock function, and regularly reminds the user of performing eye relaxation training according to set time. The electronic clock 800 is controlled by the control assembly 500, and the electronic clock 800 can be temporarily turned off for use as a mirror or for a vision training mode.

In a preferred embodiment, the control assembly 500 further includes an illumination adjusting module 502, the illumination adjusting module 502 is connected to the light emitting device 300 and is used for controlling the brightness of the light and the color temperature of the light emitting device 300, and a user can freely adjust the illumination intensity and the color temperature of the light emitting device 300 according to their own preference. Specifically, the illumination adjustment module has a brightness adjustment portion and a color temperature adjustment portion, the brightness adjustment portion controls the brightness of the light emitting element 3 by controlling the voltage, the current and the control signal flowing to the light emitting element 300, and the color temperature adjustment portion selectively lights the light emitting elements 300 of different color temperatures to change the color temperature. Preferably, when performing eye training, the illumination adjusting module 502 may control the light intensity of the light emitting element 300 to gradually decrease during the eyesight training mode, so as to avoid aggravating eye fatigue caused by watching the light emitting element with the same illumination intensity for a long time. When the light-transmitting member 100 is used as a mirror surface, the light supplement operation can be performed by the illumination adjusting module 502.

In a preferred embodiment, the light Emitting device can be a light Emitting Diode (L light-Emitting Diode, L ED) or an Organic light Emitting Diode (Organic L light-Emitting Diode, O L ED), which is more power efficient than other lights, L ED and O L ED lights, and which emit light better to the eyes and avoid further damage to the eyes. L ED emits light with blue light, which is more likely to cause a burden than self-Emitting O L ED lights, so that the preferred light Emitting device 300 is O L ED.

Preferably, the light emitted by the first light emitting element 301 of the first light signal region is white light, and the first light emitting element 301 makes a light signal movement, which can be used as a supplementary light source when a mirror is used in addition to eye training, and the white light is more effective when the mirror is viewed.

Preferably, the light emitted by the second light emitting element 302 can be white light, monochromatic light or composite light, and the monochromatic light can be red light, green light or blue light, and can be used as an environmental light source to supplement the light emitted by the first light emitting element 301, and the polychromatic light also plays a role in decorating the environment. Specifically, when the second light emitting element 302 performs eye training, the illumination adjusting module 502 can control the eye training to perform eye training using white light.

Preferably, the housing 200 of the eye training light mirror further includes a power module 900, and the power module 900 provides electric energy to light the light-emitting elements through the outside, and can be directly connected to the mains supply for supplying power.

In a preferred embodiment, the power module 900 may be a removable rechargeable battery, which may make the device more convenient and not subject to wires. The power module 900 is further connected to the control component 500, and the control component 500 controls the power supplied by the power module 900 to the first light emitting element 301, the second light emitting element 302 and the third light emitting element 303, so as to control the light variation of the light emitting element 300 and the brightness of the light emitting element.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims

1. The utility model provides an eye training glasses which characterized in that: the eye training light mirror comprises a light-transmitting piece, a shell, a cavity formed by the light-transmitting piece and the shell, a plurality of light-emitting elements arranged in the cavity and a control assembly; the control assembly is used for controlling the light-emitting elements of each arrangement mode to emit light according to a preset rule so as to form a plurality of different sight moving paths, so that the eyeballs are guided to move along the moving paths in sequence; the light-emitting element is used as a supplementary light source of the light-transmitting piece, and the control assembly is also used for controlling the light-emitting element to be used as a supplementary light source of the light-transmitting piece; the arrangement mode comprises a third arrangement mode, the third arrangement mode is formed by densely arranging a plurality of third light-emitting elements along two symmetrical surrounding paths, the control assembly is further used for controlling the third light-emitting elements to emit light according to the symmetrical surrounding paths, and the previous third light-emitting element is extinguished when the current third light-emitting element is lightened.

2. The eye training light mirror of claim 1 wherein the plurality of arrangements further comprises a first arrangement and a second arrangement, the eye training light mirror further comprising a first light emitting element and a plurality of second light emitting elements, the plurality of first light emitting elements being arranged in the first arrangement, the plurality of second light emitting elements being arranged in the second arrangement, the plurality of first light emitting elements being arranged around the plurality of second light emitting elements and the plurality of third light emitting elements; the control assembly sequentially controls the first light-emitting elements and the second light-emitting elements to emit light according to a preset rule, so that the first light-emitting elements and the second light-emitting elements correspond to the sight moving path, and the sight of the eyeball is guided to move along the sight moving path.

3. The eye training light mirror of claim 2, wherein the first arrangement is: the first light-emitting elements are arranged in a surrounding manner to form corresponding sight line moving paths.

4. The eye training light mirror of claim 3 wherein the first light emitting elements are arranged in a circular pattern to form a rectangle.

5. The eye training light mirror of claim 2, wherein the second arrangement is: the second light emitting elements are arranged along a first path and a second path and the first path and the second path intersect to form a corresponding line-of-sight movement path.

6. The eye training light mirror of claim 5 wherein the second light emitting element is disposed in a cruciform shape along the first path and the second path.

7. The eye training light of claim 1 wherein the two symmetrical circumferential paths are figure 8.

8. The eye training light mirror of claim 2, wherein the first arrangement is a rectangular arrangement of the first light emitting elements, the second arrangement is a cross arrangement of the second light emitting elements, and the third arrangement is a figure 8 arrangement of the third light emitting elements, the cross shape is symmetrically arranged about the figure 8, and the rectangle surrounds the cross shape and the figure 8.

9. The eye training light mirror of claim 8, wherein the control assembly further comprises an illumination adjustment module, the illumination adjustment module being electrically connected to the light emitting element; the illumination adjusting module adjusts the brightness of light emitted by the light emitting element and the color temperature of the light emitted by the light emitting element.