CN216222644U - Super-definition light feeding instrument for virtual images - Google Patents

Abstract

The utility model provides a virtual image super-definition light supplying instrument which comprises a shell and a super-definition image component arranged in the shell, wherein the super-definition image component comprises a circuit board and an image carrier capable of presenting a super-definition luminous image, a semiconductor laser is arranged on the circuit board, and the image carrier is provided with a first light transmission part for emitting laser of the semiconductor laser so as to irradiate the laser similar to the sun. The utility model is provided with the semiconductor laser and the image carrier which can emit light and present ultra-clear images, so that the eyes of a user can receive the laser emitted by the semiconductor laser to simulate the sunlight effect, the artificial sunlight can provide strong enough stimulation in a safe range, can act on the eyeground, is beneficial to the eye health, and the user can see beautiful scenery on the image carrier, can effectively stimulate cerebral cortex during use, and has various functions; in addition, the whole structure is small and portable, is favorable for carrying, and is suitable for being used in schools and families.

Description

Super-definition light feeding instrument for virtual images

Technical Field

The utility model relates to the technical field of ophthalmologic equipment, in particular to a virtual image super-definition light supplying instrument.

Background

The light-feeding instrument mainly depends on red light irradiation to improve the fundus microcirculation of a user, thicken choroids, promote the secretion of dopamine, further control the abnormal growth of the axis of the eye, realize the prevention and control of myopia, further possibly realize the retroversion of the axis of the eye and improve the eyesight of the naked eye. In general, the laser background in the light instrument is a dark black piece, and no picture is presented, so that the stimulation to the cerebral cortex when a user uses the light instrument is limited, and the use function is monotonous.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the above problems, the present invention provides a virtual image super-resolution light-supplying instrument, which includes a housing and a super-resolution image component disposed in the housing, where the super-resolution image component includes a circuit board and an image carrier capable of presenting a super-resolution light-emitting image, the circuit board is mounted with a semiconductor laser, and the image carrier is provided with a first light-transmitting portion for emitting laser light of the semiconductor laser to irradiate laser light similar to the sun.

Optionally, the image carrier is detachably connected to the ultra-clear image assembly.

Optionally, a sound player is also included.

Optionally, the number of the ultra-clear image assemblies is two, the shell is provided with a left eye lens and a right eye lens, and the ultra-clear image assemblies are respectively arranged corresponding to the left eye lens and the right eye lens.

Optionally, the image carrier is an OLED display screen.

Optionally, the image carrier is a film, the ultra-clear image assembly further includes an optical isolator for generating a backlight source, the optical isolator is disposed between the circuit board and the image carrier, and the optical isolator is provided with a second light-transmitting portion corresponding to the first light-transmitting portion.

Optionally, the optical isolator includes a light homogenizer and an illumination lamp mounted on a side of the light homogenizer to cause the light homogenizer to generate the backlight.

Optionally, a plurality of light spots are installed on the circuit board, the light spots are distributed on the circuit board in a dispersed manner, the light spots respectively have a lighting state and a extinguishing state, and when the light spots are in the lighting state, the light spots penetrate through the optical isolator to form an optical ball image.

Optionally, the ultra-sharp image assembly further comprises a rotating shaft connected with the film.

Optionally, the image carrier is provided with a first magnetic part, and the optical isolator is provided with a second magnetic part magnetically connected with the first magnetic part.

Compared with the prior art, the virtual image super-definition light supplying instrument is provided with the semiconductor laser and the image carrier which can emit light and present super-definition images, so that the eyes of a user can receive the laser emitted by the semiconductor laser to simulate the sunlight effect, the artificial sunlight can provide strong enough stimulation in a safety range, can act on the eyeground, is beneficial to the health of the eyes, and the user can see beautiful scenery on the image carrier, can effectively stimulate the cerebral cortex during use, and has various functions; the light can be safely fed without installing a beam shaping lens close to the semiconductor laser, so that the number of components is reduced, and the assembly and debugging difficulty is reduced; the pupil distance training device is suitable for people with different pupil distances, people with internal and external squinting and nine-eye training; in addition, the whole structure is small and portable, is favorable for carrying, and is suitable for being used in schools and families.

Drawings

FIG. 1 is a schematic structural diagram of a virtual image super-resolution light instrument according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an ultra-sharp imaging device according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a circuit board according to an embodiment of the utility model;

FIG. 4 is a schematic view of an assembly structure of an image carrier and an optical isolator according to an embodiment of the present invention;

fig. 5 is a cross-sectional view of a circuit board of an embodiment of the utility model.

Description of reference numerals:

1. a housing; 2. an ultra-clear image component; 21. a circuit board; 22. an image carrier; 221. a first light-transmitting portion; 222. a first magnetic member; 23. a semiconductor laser; 24. a light isolator; 241. a second light-transmitting portion; 242. a second magnetic member; 25. a light spot; 3. a left eye lens; 4. a right eye lens.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the normal use of a product.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

The embodiment of the utility model provides a virtual image super-definition light supplying instrument, which is shown by combining fig. 1, fig. 2 and fig. 5, and comprises a shell 1 and a super-definition image component 2 arranged in the shell 1, wherein the super-definition image component 2 comprises a circuit board 21 and an image carrier 22 capable of presenting a super-definition luminous image, a semiconductor laser 23 is arranged on the circuit board 21, and the image carrier 22 is provided with a first light transmission part 221 for emitting laser of the semiconductor laser 23 so as to irradiate laser similar to the sun.

The shell 1 is small in size, and a user can hold the shell 1 by hands or wear the shell on the head; the semiconductor laser 23 can be arranged in the middle of the circuit board 21, the semiconductor laser 23 is electrically connected with the circuit board 21, and the circuit board 21 can control the semiconductor laser 23 to work; the first light transmission part 221 is a transparent part or a plurality of small light transmission holes, the position of the first light transmission part 221 corresponds to the semiconductor laser 23, laser emitted by the semiconductor laser 23 during operation can be directly emitted to the position of the first light transmission part 221, and the first light transmission part 221 transmits the laser.

The image carrier 22 can emit light and present an ultra-clear image, so that the eyes of a user can conveniently acquire image patterns, and the image patterns can be various patterns and can be specifically selected according to the needs of the user; the image carrier 22 is disposed on the rear side of the circuit board 21, i.e., the position of the image carrier 22 is closer to the eyes of the user when in use.

The virtual image super-definition light supplying instrument in the embodiment is provided with the semiconductor laser 23 and the image carrier 22 which can emit light and present super-definition images, so that the eyes of a user can receive the laser emitted by the semiconductor laser 23 to simulate the sunlight effect, the artificial sunlight can provide strong enough stimulation in a safety range, can act on the eyeground, is beneficial to the health of the eyes, and the user can see beautiful scenery on the image carrier 22, can effectively stimulate the cerebral cortex during use, and has various functions; the light can be safely fed without installing a beam shaping lens close to the semiconductor laser, so that the number of components is reduced, and the assembly and debugging difficulty is reduced; the pupil distance training device is suitable for people with different pupil distances, people with internal and external squinting and nine-eye training; in addition, the whole structure is small and portable, is favorable for carrying, and is suitable for being used in schools and families.

Optionally, as shown in fig. 2 and 4, the image carrier 22 is detachably connected to the ultra-clear image assembly 2.

The image carrier 22 can be detachably connected to the ultra-clear image component 2 through a magnet, or detachably connected to the ultra-clear image component 2 through a snap connection or an insertion connection; the image carrier 22 is designed to be detachably connected to realize the replacement of the image carrier 22, so that the image carrier 22 can select different patterns, and has high flexibility and large selection space.

Optionally, the multifunctional intelligent instrument further comprises a sound player, wherein the sound player is arranged in the shell 1, and can play various music, such as alpha brain wave music, cooperate with music to induce brain waves to improve attention and stimulate cerebral cortex when the instrument is used, and further can increase a voice recognition function, perform man-machine interaction, cooperate with visual target replacement, perform attention training, collective training, and training nine-eye muscles in a Chinese character Mi exercise.

Optionally, as shown in fig. 1 and fig. 2, the number of the ultra-clear image assemblies 2 is two, the housing 1 is provided with a left eye lens 3 and a right eye lens 4, and the two sets of the ultra-clear image assemblies 2 are respectively arranged corresponding to the left eye lens 3 and the right eye lens 4; when the user uses the light-feeding instrument, the left eye and the right eye respectively aim at the left eye lens 3 and the right eye lens 4, the left eye and the right eye respectively and correspondingly acquire the image patterns of the image carriers 22 in the two groups of ultra-clear image components 2, then the brain can automatically combine the two image patterns together, finally the user can see a three-dimensional image, the image presenting effect is better, and cerebral cortex can be stimulated better.

In one embodiment, the image carrier 22 is an OLED display panel, and the OLED is an organic light emitting diode capable of self-emitting light, so that the OLED display panel does not need a backlight source, and the components of the whole structure are saved.

In another embodiment, as shown in fig. 1 and fig. 2, the image carrier 22 is a film, the ultra-clear image assembly 2 further includes an optical isolator 24 for generating a backlight source, the optical isolator 24 is disposed between the circuit board 21 and the image carrier 22, and the optical isolator 24 is provided with a second light-transmitting portion 241 corresponding to the first light-transmitting portion 221.

Wherein, the film has ultra-high-definition patterns, and the patterns are pictures with sunshine scenes, such as landscape, bridge, desert and other scene pictures; besides, the image carrier 22 can be an LCD, which is a liquid crystal display, and is electrically connected to the circuit board 21, and the display screen can be switched.

The second light transmission part 241 is arranged at the middle position of the light isolator 24, the second light transmission part 241 is a through hole or a transparent member, and is used for allowing the laser light of the semiconductor laser 23 to be emitted from the second light transmission part 241 and the first light transmission part 221 in sequence so as to ensure that a user can see the laser light, the laser light can be simulated into sunlight in the picture of the film, and the first light transmission part 221 on the film is the position for displaying the sun in the pattern; the light isolator 24 can create a backlight source that can emit light so that the image on the film can be seen by the eyes of the user.

In this embodiment, the image carrier 22 is made of film, so that the image is ultra-clear and low-cost, and an optical isolator capable of generating a backlight source for the film is arranged, so that the image on the film can be clearly displayed and acquired by the eyes of a user.

Optionally, the light isolator 24 comprises a light homogenizer and an illumination lamp mounted on a side of the light homogenizer to cause the light homogenizer to produce the backlight.

The light homogenizing body is provided with a plurality of small points capable of generating diffused light, and the small points can diffuse and reflect light emitted from the irradiation lamp from the side surface of the light homogenizing body and mix the light, so that a uniform backlight source is formed, and the light homogenizing body is simple in structure and low in cost.

Alternatively, as shown in fig. 2 and fig. 3, a plurality of light spots 25 are mounted on the circuit board 21, the plurality of light spots 25 are distributed on the circuit board 21, each of the plurality of light spots 25 has a lit state and an extinguished state, and when in the lit state, the light spots 25 form a light ball image through the light isolator 24.

The light spots 25 are electrically connected with the circuit board 21, the circuit board 21 can control the light spots 25 to work, and each light spot 25 can independently perform lighting or extinguishing operation; the light spot 25 is an LED lamp or a laser, and can generate a blurred image after penetrating through the light isolation body 24 by lighting the corresponding light spot 25, an image of the light spot 25 acquired by the eyes of a user is like a photosphere, an included angle between each light spot 25 is relatively large and is about 90 degrees, when each light spot 25 is switched to be lighted, the eyes of the user can move up and down, left and right along with each photosphere to follow, and the eye muscles yoga is performed, for example, nine-eye muscle training exercises, set exercises and the like are performed, the muscles of the eyes are exercised, and the eye health is facilitated.

Optionally, the ultra-sharp image component 2 further comprises a rotating shaft connected with the film.

Wherein, the both ends of film are connected with the pivot respectively, and the rotation through the pivot can change the position of film image for the image can realize removing, and the picture is more various, can more effectively stimulate the cerebral cortex.

Optionally, as shown in fig. 2 and 4, the image carrier 22 is provided with a first magnetic member 222, and the light isolator 24 is provided with a second magnetic member 242 magnetically connected to the first magnetic member 222.

The first magnetic member 222 is a magnet, the second magnetic member 242 is a magnet or an iron block, the image carrier 22 is a square sheet structure, the first magnetic member 222 is respectively installed on four corners of the image carrier 22, and correspondingly, the second magnetic member 242 is also installed on four corners of the optical isolation member; the image carrier 22 and the optical isolator 24 are magnetically connected, so that the image carrier 22 can be replaced more conveniently.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims (10)

1. The ultra-definition light instrument for the virtual image is characterized by comprising a shell (1) and an ultra-definition image component (2) arranged in the shell (1), wherein the ultra-definition image component (2) comprises a circuit board (21) and an image carrier (22) capable of presenting an ultra-definition luminous image, a semiconductor laser (23) is installed on the circuit board (21), and the image carrier (22) is provided with a first light transmission part (221) for emitting laser of the semiconductor laser (23) so as to irradiate the laser similar to the sun.

2. The virtual image super-resolution spectrometer according to claim 1, wherein the image carrier (22) is detachably connected to the super-resolution image assembly (2).

3. The super-resolution light instrument for virtual images according to claim 1, further comprising a sound player.

4. The virtual image ultra-definition light instrument according to claim 1, wherein the number of the ultra-definition image components (2) is two, the housing (1) is provided with a left eye lens (3) and a right eye lens (4), and the two sets of the ultra-definition image components (2) are respectively arranged corresponding to the left eye lens (3) and the right eye lens (4).

5. The virtual image super-resolution spectrometer according to any one of claims 1-4, wherein the image carrier (22) is an OLED display screen.

6. The virtual image ultra-definition spectrometer according to any one of claims 1-4, wherein the image carrier (22) is a film, the ultra-definition image assembly (2) further comprises an optical isolator (24) for generating a backlight source, the optical isolator (24) is disposed between the circuit board (21) and the image carrier (22), and the optical isolator (24) is provided with a second light-transmitting portion (241) corresponding to the first light-transmitting portion (221).

7. The super-resolution spectrometer for virtual images according to claim 6, wherein the light isolator (24) comprises a light homogenizer and a lamp mounted on a side of the light homogenizer to make the light homogenizer generate the backlight source.

8. The ultra-definition light instrument for virtual images according to claim 6, wherein a plurality of light spots (25) are mounted on the circuit board (21), the plurality of light spots (25) are distributed on the circuit board (21), each of the plurality of light spots (25) has an on state and an off state, and when in the on state, the light spots (25) form a photosphere image through the light separator (24).

9. The virtual image super-resolution spectrometer according to claim 6, wherein the super-resolution image assembly (2) further comprises a rotating shaft connected to the film.

10. The ultra-resolution spectrometer for virtual images according to claim 6, wherein the image carrier (22) is provided with a first magnetic member (222), and the light isolator (24) is provided with a second magnetic member (242) magnetically connected to the first magnetic member (222).

Images