CN111407612A

CN111407612A - Vision improvement training instrument

Info

Publication number: CN111407612A
Application number: CN202010368681.2A
Authority: CN
Inventors: 李广志
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-01
Filing date: 2020-05-01
Publication date: 2020-07-14

Abstract

The invention relates to the technical field of vision improvement and discloses a vision improvement training instrument which comprises a shell, a base, a supporting arm, a lifting column, a machine head, a dynamic monitoring device, a controller and a light source. The aircraft nose is fixed in the support arm top, and the support arm passes through the lift post to be connected with the base. The machine head is internally provided with a weak laser module, a dynamic probe, a light-emitting plate, a first controller and a light source, a dynamic monitoring display screen is arranged above the outer part of the machine head, and the machine head is provided with a front window facing to the face and an eye shield. The base is provided with a touch display screen towards the direction of the front window in an inclined way. When the vision improvement training instrument is used, the production of retinal dopamine can be promoted to be increased by irradiating light beams with specific wavelengths in simulated sunlight, the purposes of inhibiting the abnormal growth of the axis of the eye and controlling the development of myopia are achieved, in addition, multidirectional training, distance training and light and shade training of eye muscles are added in the process, the capabilities of focusing and watching the eyes are enhanced, and the vision improvement training instrument is suitable for preventing, controlling, improving and treating myopia, astigmatism, amblyopia, refractive error and asthenopia.

Description

Vision improvement training instrument

Technical Field

The invention relates to the technical field of vision improvement, in particular to a vision improvement training instrument.

Background

Due to the change of the learning and working modes of the modern society, the myopia crowd is increasingly huge, and particularly, the myopia incidence of teenagers is gradually increased year by year and is high. The causes of myopia development and progression are diverse, but it is undeniable that myopia gradually evolves to true myopia if no intervention or improvement is made at the time of pseudomyopia. At present, the control means of myopia usually comprises a cornea shaping lens, an optical glasses, a massage device and an instrument, but the control effect of the glasses is limited, the important group of myopia, namely teenagers, has less time for heavy schoolwork, and the design principle of the instrument is not strong in pertinence, long in service time or inconvenient to use, so that the control effect and the durability are limited.

Disclosure of Invention

The invention aims to provide a visual improvement training instrument which utilizes the shortest time to simulate light beams with specific wavelengths in sunlight by irradiation to promote the increase of the production of retinal dopamine so as to achieve the purposes of inhibiting the abnormal growth of the axis of the eye and controlling the development of myopia, and adds multidirectional training, near-far training and bright-dark training of eye muscles in the process, and the visual improvement training instrument is convenient to use, strong in pertinence and high in acceptance degree so as to solve the technical problems in the background technology.

The technical scheme adopted by the invention is as follows: including shell, a pedestal, the support arm, the lift post, the aircraft nose, dynamic monitoring device, a controller, the light source, the aircraft nose is fixed in the support arm top, the support arm passes through in the lift post inserts the base, the built-in weak laser module of aircraft nose, dynamic probe, the luminescent plate, a controller, dynamic monitoring display screen is installed to aircraft nose outside top, the eye-shade is installed towards facial direction to the aircraft nose, touch display screen is installed towards eye-shade direction slant to the base, touch display screen is connected with a controller.

The machine head is provided with a weak laser module, the weak laser module consists of weak laser generators respectively arranged at the left side and the right side of the inner rear part of the machine head, the weak laser generators can continuously or intermittently emit light beams with fixed wavelength, and the light beams are subjected to micro-vision stimulation on eyes after being refracted and dispersed through lenses and light splitting sheets so as to promote the increase of the production of retinal dopamine, and the weak laser generators are connected with a second controller.

The luminescent plate has been installed in the aircraft nose, the luminescent plate is the rectangle circuit board, the luminescent plate is installed on the mount, it has rectangular light trap to open in the middle of the luminescent plate, luminescent plate from the top down has sixteen green luminescent lamp pieces and two white luminescent lamp pieces altogether, the light beam of the weak laser generator transmission of operation procedure cooperation that the luminescent lamp piece is edited is lighted in proper order and is extinguished, the process of lighting and extinguishing can let light produce stronger light and shade change, make the pupil sphincter reach the purpose of taking exercise through the shrink and the expansion of rule.

The luminescent plate adopts movable design with the aircraft nose junction, has the regulating wheel in aircraft nose left and right sides or lower part, can drive the luminescent plate through regulating wheel seesaw and carry out the eye muscle training on the slide rail back-and-forth movement, and accessible regulating wheel latched position after removing specific distance, the movable range is three to four centimetres around the luminescent plate, and the luminescent plate is connected with the second controller.

The dynamic probe is installed in the machine head, the dynamic probe is fixed on the light-emitting plate, the lens of the probe faces the direction of eyes of a user, and the dynamic probe is connected with the first controller.

A dynamic monitoring display screen is arranged above the outer portion of the machine head and connected with the dynamic probe through a first controller, and a user can be observed and guided to enter a correct using state through the dynamic monitoring display screen.

The aircraft nose shell divide into upper and lower casing, installs pupil distance adjusting device in the inferior valve body, and pupil distance adjusting device is including two weak laser lens barrels, weak laser lens barrel mount, threaded rod, pupil distance wheel, and weak laser generator installs from weak laser lens barrel rear portion, behind the screwed pipe of the weak laser lens barrel lower part of threaded rod screw in, on the threaded rod was accessed into from the outside to the pupil distance wheel, when carrying out pupil distance adjustment, externally rotated pupil distance wheel, can drive weak laser lens barrel inwards simultaneously or outwards carry out steady removal.

The bottom of the machine head is fixed with the supporting arm, the supporting arm is inserted into the base through the lifting column, the lifting device is arranged in the lifting column, the lifting column can be controlled to rise or fall through the adjusting wheel on the base, and the use height can be conveniently adjusted according to the height and the body shape of a user.

The base in install touch display screen, intelligent time-counting card swiping module, battery to be connected with the second controller, the base outside is provided with power charging mouth and switch.

The touch display screen can input instructions to the training instrument and feed back data information through the touch display screen.

The intelligent counting card swiping module needs to be unlocked through the intelligent counting card before use, and can monitor the use frequency of a user through recording the card swiping frequency so as to achieve a better use effect.

The invention has the beneficial effects that: the visual improvement training instrument is provided for people with ametropia, utilizes the shortest time to stimulate the increase of the production of retinal dopamine by irradiating light beams with specific wavelengths in simulated sunlight to achieve the purposes of inhibiting the abnormal growth of the axis of the eye and controlling the development of myopia, and is added with multidirectional training, distance training and light and shade training of eye muscles in the process, so that the visual improvement training instrument is suitable for preventing, controlling, improving and treating myopia, astigmatism, amblyopia, refractive error and asthenopia.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention.

Fig. 2 is a front view of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a light emitting plate, a pupil distance adjusting member and a light source set in a handpiece according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a first light source according to an embodiment of the invention.

Fig. 5 is a schematic diagram of a pupil distance adjustment structure according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a laser unit according to an embodiment of the present invention.

In the figure: 1. a base; 2. a touch display screen; 3. a lifting column; 4. an upper housing; 5. a lower housing; 6. a dynamic monitor screen; 7. an adjustment wheel; 8. a lifting wheel; 9. a pupil distance wheel; 10. eye masks; 11. a light emitting panel; 12. a first light source; 13. a second light source; 14. a light-transmitting hole; 15. a support arm; 16. a light-transmitting plate; 17. a light-emitting plate fixing frame; 18. a weak laser barrel; 19. a weak laser lens barrel fixing frame; 20. a threaded rod; 21. a dynamic probe; 22. a weak laser generator; 23. a lens; 24. a light splitting sheet; 25. a threaded pipe; 26. a clamping groove; 27. a weak laser barrel fixing piece; 28. a slide rail; 29. a machine head; 30. white light emitting lamp sheet.

Detailed Description

The present invention will now be described in further detail with reference to the drawings, in which the described embodiments are but a preferred embodiment of the invention, rather than the entire specification, and in which the components of the embodiments of the invention generally shown and described in the drawings can be arranged in a variety of different configurations.

It should be noted that in the description, the terms "upper", "lower", "left", "right", "bottom", "inner", "outer", "front", "rear", "middle", etc. indicate the orientation or positional relationship based on the orientation or position shown in the drawings, and are only for convenience of description, not to refer to the orientation or position that a component must have, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", etc. are only used for distinguishing description, and are not to be construed as indicating or implying relative importance, and the terms "horizontal", "vertical" and "horizontal" are only for convenience of description, do not represent complete horizontal or vertical, but are allowed to be slightly inclined.

It should be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly and, for example, "connected" may be a fixed connection, a direct connection, or an indirect connection through an intermediate, and those skilled in the art should correctly understand the specific meaning of the above terms in the present invention.

As shown in fig. 1-6, the present invention provides a vision improvement training apparatus, which comprises a base 1, a lifting column 3, a supporting arm 15, and a machine head 29. The base 1 is a supporting seat of the whole instrument, the second controller is installed in the base 1, the touch display screen 2 is installed on the base 1 in the direction facing a user, and the user can conveniently and visually operate the whole training system through the touch display screen 2.

The supporting arm 15 is a supporting part of the instrument base 1 and the machine head 29, the supporting arm 15 is inserted into the base 1 through the lifting column 3, a control circuit for connecting the machine head 29 with the base 1 is arranged in the lifting column 3, a lifting device for controlling the machine head 29 to ascend and descend is arranged in the lifting column 3, a lifting wheel 8 is arranged outside the machine head 29, the lifting device is driven by a hand or a motor to operate, the lifting design of the machine head 29 can be specifically adjusted according to the height and body type differences of different users, so that the eyeshade 10 can be comfortably attached to the eye socket parts of the users, the machine head 29 is opposite to the eyes of the users, light beams can be uniformly and straightly irradiated on the eyeball parts, and the treatment effect is prevented from being influenced due to the.

The casing of aircraft nose 29 constitute by last casing 4 and lower casing 5 are fixed, can dismantle the connection, make things convenient for aircraft nose 29's installation and maintenance, install light-passing board 16 in aircraft nose 29 towards the user direction, light-passing board 11 that light-passing board 16 can protect hugging closely can not influence the light transmissivity of the last first light source 12 of light-emitting board 11 in addition, open at the light-emitting board 11 intermediate position has rectangle light trap 14.

The light emitting plate 11 is fixed on the light emitting plate fixing frame 17, twelve green light emitting lamp pieces and twelve white light emitting lamp pieces are arranged in twelve directions around the light emitting plate 11, an upper green light emitting lamp piece, a lower green light emitting lamp piece, a left green light emitting lamp piece and a right green light emitting lamp piece are arranged in the middle of the light emitting plate 11, a total of eighteen light emitting lamp pieces form a first light source 12, the first light source 12 is connected with the second controller, and a second light source 13 arranged on the weak laser generator lens cone fixing frame 19 is also connected with the second controller.

The connection part of the light-emitting plate 11 and the machine head 29 adopts a movable design, the adjusting wheels 7 are arranged on the left side and the right side or the lower part outside the machine head 29, the light-emitting plate 11 can be driven to move back and forth on the slide rail 28 through the front and back movement of the adjusting wheels 7, the locking position of the adjusting wheels 7 is realized after the movement distance, the front and back movable range of the light-emitting plate 11 is three to four centimeters, a user can carry out eye muscle training in the direction and in the distance through the first light source 12 and the second light source 13, and the initial training is gradually adapted.

The weak laser module is arranged in the handpiece 29 and consists of weak laser generators 22 respectively and symmetrically arranged on the left side and the right side of the inner rear part of the handpiece 29, the weak laser generators 22 can emit light beams with wavelengths of 646-649nm, the light beams are refracted and dispersed by the lens 23 and the light splitting sheet 24 and then irradiate into the eye of a user through the light holes 14, through regular irradiation, the light beams can stimulate choroid and sclera in a macular region of the eye to thicken the sclera and induce the retina to generate and release dopamine so as to inhibit the abnormal growth of the axis of the eye, and the weak laser generators 22 are connected with the second controller.

It should be noted that there are various embodiments of the vision improvement training apparatus:

in the first embodiment, when the training device is used, firstly, a green light emitting lamp piece in one direction of the first light source 12 is lighted for three seconds, then, after being extinguished, a green light emitting lamp piece in the middle is lighted for three seconds, after being extinguished, the second light source 13 and the weak laser generator 22 or the white light emitting piece 30, the second light source 13 and the weak laser generator 22 of the first light source 12 are simultaneously lighted for six seconds, and after stopping for six seconds, the first reversing circulation is carried out until two twelve directions are repeatedly completed, the light rays can generate strong light and shade changes in the processes of sequentially lighting and extinguishing, so that the pupillary sphincter is promoted to achieve the training purpose through regular contraction and expansion, and a user needs to stare the lighted green light emitting lamp piece in the whole course;

in a second embodiment, in use, first light source 12 is not illuminated, and only second light source 13 and weak laser generator 22 are illuminated for three minutes;

in the third embodiment, when the lighting device is used, firstly, the green light emitting lamp piece in one direction of the first light source 12 is lighted for three seconds, then, the middle green light emitting lamp piece is lighted for three seconds after being extinguished, and the white light emitting piece 30 and the second light source 13 of the first light source 12 are lighted for six seconds after being extinguished, and the cycle is sequentially repeated until the cycle of the two twelve directions is repeatedly completed, and a user needs to stare at the lighted green light emitting lamp piece all the way.

The aircraft nose 29 in still install interpupillary distance adjusting device, including two weak laser lens barrels 18, weak laser lens barrel mount 19, threaded rod 20, interpupillary distance wheel 9, weak laser generator 22 is installed at weak laser lens barrel 18 rear portion, threaded rod 20 both ends screw is reverse setting, threaded rod 20 is behind the screwed pipe 25 of weak laser lens barrel 18 bottom of screw thread screw in, again to weak laser lens barrel stationary blade 27 ann in pressing from both sides the groove 26, interpupillary distance wheel 9 inserts on threaded rod 20 from the outside, when carrying out interpupillary distance adjustment, externally rotate interpupillary distance wheel, can drive weak laser lens barrel 18 simultaneously inwards or outwards carry out the steady movement.

The machine head 29 is also provided with a dynamic monitoring device which comprises a dynamic monitoring screen 6 and a dynamic probe 21, the dynamic monitoring screen 6 is positioned above the outer part of the machine head 29, the dynamic monitoring screen 6 is erected when in use and can be retracted when not in use, the dynamic probe 21 is fixed on the luminescent plate fixing frame 17, the dynamic probe 21 faces towards the eyes of a user and is connected with the dynamic monitoring screen 6 through a first controller, the user can be observed and guided to enter a correct use state through the dynamic monitoring screen 6, and the dynamic monitoring device is connected with the first controller.

It should be noted that the forms of the touch display screen 2 and the dynamic monitoring screen 6 according to the embodiment of the present invention are not particularly limited, and a resistive screen or a capacitive screen may be used.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; any modification or replacement within the spirit and principle of the present invention should be included in the protection scope of the present invention without departing the essence of the corresponding technical solution from the technical solution of the embodiment of the present invention.

Claims

1. The utility model provides a vision improves training appearance, a serial communication port, which comprises an outer shell, a pedestal, the support arm, the lift post, the aircraft nose, developments monitoring device, a controller, the aircraft nose is fixed in the support arm top, in the support arm passes through the lift post and inserts the base, the built-in weak laser module of aircraft nose, dynamic probe, luminescent plate, first controller, developments monitoring display screen is installed to aircraft nose outside top, the eye-shade is installed towards facial direction to the aircraft nose, touch display screen is installed towards eye-shade direction slant to the base.

2. The vision improvement training instrument of claim 1, wherein the bottom of the machine head is fixed to a support arm, the support arm is inserted into the base through a lifting column, a lifting device is installed in the lifting column, and the lifting column can be controlled to be lifted or lowered through an adjusting wheel on the base.

3. The vision improvement training instrument of claim 1, wherein the head is provided with a weak laser module, and the weak laser module is composed of weak laser generators respectively arranged at the left and right sides of the inner rear portion of the head, and the weak laser generators can continuously or intermittently emit light beams with specific wavelengths.

4. The vision improvement training instrument of claim 1, wherein a light emitting plate is installed in the head, the light emitting plate is a rectangular circuit board, the light emitting plate is installed on the fixing frame, a rectangular light hole is formed in the middle of the light emitting plate, the light emitting plate has five rows of sixteen green light emitting lamp pieces and two white light emitting lamp pieces from top to bottom, and the light emitting lamp pieces are sequentially turned on and off according to the edited operation program in cooperation with the light beam emitted by the weak laser generator.

5. The light-emitting panel of claim 1 or 4, wherein the connection between the light-emitting panel and the head is movable, and the light-emitting panel is movable back and forth on the rail by the adjustment wheels on the left and right sides or the lower part of the head.

6. The vision improvement training apparatus of claim 1, wherein the dynamic probe is mounted in the handpiece, the dynamic probe is fixed on the light-emitting plate, and the lens of the probe faces the eyes of the user.

7. The vision improvement training apparatus of claim 1, wherein a dynamic monitor display screen is installed at a position above the exterior of the handpiece, the dynamic monitor display screen is connected with the dynamic probe through the first controller, and the user can be observed and guided into a correct use state through the dynamic monitor display screen.

8. The vision improvement training instrument according to claim 1, wherein the handpiece housing is divided into an upper housing and a lower housing, a pupil distance adjusting device is installed in the lower housing, the pupil distance adjusting device comprises two weak laser barrels, a weak laser barrel fixing frame, a threaded rod and a pupil distance wheel, the weak laser generator is installed from the rear part of the weak laser barrel, after the threaded rod is screwed into a threaded pipe at the lower part of the weak laser barrel, the pupil distance wheel is connected onto the threaded rod from the outside, and when the pupil distance is adjusted, the pupil distance wheel is rotated at the outside to drive the weak laser barrel to move stably inwards or outwards at the same time.

9. The vision improvement training instrument according to claim 1, wherein the base is internally provided with a touch display screen, an intelligent counting card swiping module and a storage battery, and is connected with the second controller, and a power supply charging port and a power supply switch are arranged outside the base;

the touch display screen can input instructions to the training instrument and feed back data information through the touch display screen;

the intelligent counting card swiping module needs to unlock the training instrument through the intelligent counting card before use, and can supervise the use frequency of a user by recording the card swiping frequency so as to achieve a better treatment effect.