CN214678881U - Eye protection glasses based on inclination angle - Google Patents

Abstract

The utility model discloses an eye protection glasses based on angle of inclination, include: spectacle frame, spectacle lens, control center, power; the spectacle lens comprises a plurality of independent subareas, and each independent subarea is independently connected with a power supply; the control center, the power supply and the spectacle lenses are respectively arranged on the spectacle frame; the spectacle frame is also provided with an attitude sensor for acquiring the inclination angle of the spectacles and the vertical direction; when the inclination angle is larger than the preset maximum inclination angle, the power supply is electrified to the spectacle lens, otherwise, the power supply is not electrified; when the power supply is electrified to the spectacle lens, or else the power supply is not electrified, the haze of the spectacle lens is increased, and the electrifying voltage of the power supply to each subarea is not completely the same. The technical effects of the utility model: by monitoring the inclination angle of the reading posture of the user and reminding the user to adjust the posture of the user in time in an atomization mode, on one hand, the user is not frightened to cause distraction of the attention of the user, and on the other hand, the reminding of the user can be effectively realized.

Description

Eye protection glasses based on inclination angle

Technical Field

The utility model relates to an eyesight protection field, in particular to eye protection glasses based on angle of inclination.

Background

In recent years, with the comprehensive popularization and sinking of 3C electronic products to the children market, the children are provided with convenient and directional lives, and meanwhile, the problems of eye overuse, blue light hazard and the like caused by using an electronic screen are brought, and in addition, the heavy operation pressure and the poor eye using habit of the children lead to the gradual improvement of the myopia rate of the children and the gradual development of the children to be smaller. Parents are increasingly anxious.

In the reason of causing the myopia of children, the distance is too close and the sitting posture is seriously concerned by parents, most of the existing technologies use distance induction and a gyroscope to judge whether the user is too close and the sitting posture is bad, and then the user is reminded by vibration or voice. However, no matter the user is reminded by vibration or voice, the functions of the user are not corrected essentially, and even if the user does not improve the sitting posture, the user can still see the contents in the book, the television and the mobile phone and can completely ignore the contents. If a strong and effective effect is to be achieved, only frequent and repeated harassment reminding is needed, which is not only unfavorable for children to form good sitting habits, but also can lead users to dislike the mind and refuse products to be used no longer.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an eye protection glasses based on angle of inclination, specific technical scheme is as follows:

there is provided a pair of eye protection glasses based on a tilt angle, comprising: spectacle frame, spectacle lens, control center, power;

the spectacle lens comprises a plurality of independent subareas, and each independent subarea is independently connected with the power supply;

the control center, the power source and the spectacle lens are respectively arranged on the spectacle frame;

the glasses frame is also provided with an attitude sensor for acquiring the inclination angle of the glasses with the vertical direction;

when the inclination angle is larger than a preset maximum inclination angle, the power supply is electrified to the spectacle lens, otherwise, the power supply is not electrified;

when the power supply energizes the ophthalmic lens, haze of the ophthalmic lens is increased.

Preferably, the partition is divided into an inner ring partition and a plurality of outer ring partitions which are sequentially surrounded.

Preferably, when the power supply energizes the ophthalmic lens, the supply voltage of the power supply is gradually increased until the supply voltage reaches a target voltage.

Further preferably, during the process of gradually increasing the supply voltage of the power supply, the supply voltage of the partition at the inner circle is smaller than or equal to the supply voltage of the partition at the outer circle.

Further preferably, during the process of gradually increasing the supply voltage of the power supply, the supply voltage of the partition at the outer circle is smaller than or equal to the supply voltage of the partition at the inner circle.

Further preferably, when the power supply supplies power to the eyeglass lens, the power supply voltage of the outer ring partition periodically jumps from a first target power supply voltage to a second target power supply voltage, and then jumps from the second target power supply voltage to the first target power supply voltage until the jump duration is longer than a preset jump duration, the power supply voltage of the outer ring partition is fixed to the first target power supply voltage, and the power supply voltage of the inner ring partition gradually increases to the first target power supply voltage.

Further preferably, when the power supply supplies power to the eyeglass lens, the power supply voltage of the outer ring partition is periodically and gradually reduced from a first target power supply voltage to a second target power supply voltage, and then gradually increased from the second target power supply voltage to the first target power supply voltage, until the breathing duration is longer than a preset breathing duration, the power supply voltage of the outer ring partition is fixed to the first target power supply voltage, and the power supply voltage of the inner ring partition is gradually increased to the first target power supply voltage.

Preferably, the control center does not energize the ophthalmic lens when a duration of the actual use inclination angle being smaller than a preset minimum use inclination angle is smaller than a duration threshold.

Further preferably, the spectacle frame is further provided with a plurality of indicator lights for displaying the service time of the spectacles in a stepped manner.

Further preferably, the spectacle frame further comprises a buzzer, and when any one of the indicator lights turns to the working state from the idle state, the buzzer makes a sound.

Preferably, the ophthalmic lens is made using a reverse PNLC material.

Preferably, the glasses further comprise a wearing sensor arranged on the glasses frame and used for detecting whether the glasses are used or not, and when the glasses are not used, the control center is in an idle state.

Preferably, the number of said ophthalmic lenses is two; when the power supply is electrified, the control center controls the power supply to only electrify the inclined side of the spectacle lens.

The utility model discloses at least, include one of following technological effect:

through the inclination of monitoring user's reading posture, when user's inclination surpassed a certain specified value, just think its posture needs to be corrected, then just remind user's timely adjustment self gesture through atomizing mode, and then protect user's eyesight, remind the mode through unique atomizing, the atomizing is a relatively continuous process, give the opportunity that the user corrected, in case the user has relieved bad eye-using state, for example, adjust to suitable distance, correct position of sitting has been corrected, existing atomizing region is relieved atomizing, can in time become transparent visual state, the reaction is faster, it is more convenient. Meanwhile, the burden of frequent short and instantaneous adjustment of ciliary muscles of the user can not be increased, a good reminding effect can be achieved, compared with the traditional technology in which the user is reminded in modes of vibration and the like, direct atomization and the like, the user can not be frightened, and meanwhile, the user can be effectively reminded and guided to adjust the posture of the user in time.

And the reverse PNLC material is creatively applied to the lens, the reverse PNLC technology is changed into fog when being electrified and is in a transparent state when not being electrified, and the technology applied to the glasses product has quite obvious energy consumption advantage compared with the liquid crystal dimming film which is changed into transparent when being electrified, and is more energy-saving. The reverse PNLC has the characteristic of no electricity and transparency, compared with the traditional liquid crystal dimming film, such as PDLC, the reverse PNLC has obvious haze advantage, the haze of the transparent state of the reverse PNLC can reach about 0.8%, while the transparent state of the PDLC can only be maintained at 3% -5%, and the reverse PNLC is much blurred compared with the reverse PNLC.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

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

FIG. 2 is a schematic view of a two-zone structure of the spectacle lens of the present invention;

FIG. 3 is a schematic view of a four-zone structure of the spectacle lens of the present invention;

fig. 4 is a schematic view of the glasses of the present invention before atomization;

fig. 5 is a reference schematic diagram in the atomization of the glasses according to the present invention;

fig. 6 is a schematic view of the glasses of the present invention after atomization;

fig. 7 is a schematic reference view of the usage state of the present invention when it is tilted;

FIG. 8 is a schematic view of the usage flow of the present invention;

fig. 9 is a schematic view of the entire structure of the present invention.

(1) A spectacle frame;

(2) an ophthalmic lens;

(3) wearing a sensor;

(4) an indicator light;

(5) power supply

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, only the parts relevant to the present invention are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically depicted, or only one of them is labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

Example 1:

as shown in fig. 1-9, the present embodiment provides an eye-protection glasses based on a tilt angle, comprising: the spectacle frame (1), the spectacle lens (2), the control center and the power supply (5);

the spectacle lens (2) comprises a plurality of independent partitions, each independent partition is independently connected with the power supply (5);

the control centre, the power source (5) and the spectacle lens (2) are respectively arranged on the spectacle frame (1);

the glasses frame (1) is also provided with an attitude sensor for acquiring the inclination angle of the glasses with the vertical direction;

when the inclination angle is larger than a preset maximum inclination angle, the power supply (5) is electrified to the spectacle lens (2), otherwise, the power supply is not electrified;

when the power source (5) energizes the eyeglass lens (2), the haze of the eyeglass lens (2) is increased.

In the embodiment, an FPC main board is generally used to carry the control center, the control center is generally disposed at the pile head of the glasses frame (1), the power source (5), i.e., the power supply battery, is generally mounted at the pile head of the other side, and the attitude sensor is generally disposed on the FPC.

In a specific operation process, when a user wears the glasses, the attitude sensor continuously acquires the inclination angle of the glasses, namely the user, when the inclination angle is smaller than a preset maximum inclination angle, the user considers that the visual angle of the user is in problem and needs to be corrected, so that the glasses lens (2) is electrified, and after the glasses lens (2) is electrified, the haze of the glasses lens can rise, so that the user is reminded to adjust the attitude in time, and a good reading attitude is kept.

Also in the actual operation, the spectacle lens (2) is partitioned for diversity, each partition operating independently, so that the spectacle lens can assume a plurality of different opaque shapes.

Preferably, the subareas are divided into an inner ring subarea and a plurality of outer ring subareas which are sequentially surrounded, and the number of the subareas is more than or equal to 2, and the subareas can be set according to the actual application requirement.

Taking the two-zone spectacle lens (2) as an example, as shown in fig. 2, a is an inner zone and B is an outer zone.

Specifically, the inner circle subarea is positioned at the position of the spectacle lens (2) relative to the center of the visual field, the shape of the inner circle subarea is similar to that of the spectacle lens (2), the position of the inner circle subarea extends outwards for a certain distance to define a range, the original inner circle subarea is removed to form a new outer circle subarea, and then the process is continuously repeated until the edge of the spectacle lens (2) is reached, so that the area division of the spectacle lens (2) is completed.

Preferably, the control hub is in an idle state when the glasses are not in use, and the control hub is controlled to start working when it is detected that the glasses start to be used.

In order to avoid the problem that the equipment works without reason and the waste of electric power is caused, a wearing sensor (3) is arranged on eyes to detect whether the glasses are worn by a user and is generally arranged at the bridge of the nose of the glasses, after the user wears the glasses, the wearing sensor (3) arranged at the bridge of the nose of the glasses frame (1) naturally detects that the user wears the glasses and informs a control center to work to control the operation of each part, and the wearing sensor can be an infrared sensor.

Preferably, the ophthalmic lens (2) is made using a reverse PNLC material.

Meanwhile, generally, the spectacle lens (2) is made of a reverse PNLC material, on one hand, the reverse PNLC technology is in a transparent state when electrified and fogged, and the reverse PNLC technology is applied to spectacle products and has quite obvious energy consumption advantage compared with a liquid crystal dimming film which is transparent when electrified, and is more energy-saving.

On the other hand, the reverse PNLC has obvious haze advantage compared with PDLC due to the characteristic of no electricity for transparency, the haze of the transparent state of the reverse PNLC can reach about 0.8%, while the transparent state of the PDLC can only be maintained at 3% -5%, and the haze is much less compared with that of the reverse PNLC.

Preferably, the control center does not energize the ophthalmic lens (2) when the duration of the actual used inclination angle being smaller than a preset minimum used inclination angle is smaller than a preset minimum inclination angle duration.

In the actual use process, the direct atomization and the visual field shielding cannot be realized, and a situation exists that a user adjusts the posture during the use process, so that the sensor detects that the posture of the user is not correct, but prompting is not needed at the moment, if the prompting is performed on the contrary and the user feels enough, whether the user is in the adjusted posture or not is judged by setting a duration threshold, if the duration of the posture correction reaches or exceeds the set duration threshold, the central control lens is controlled to be powered on to perform atomization prompting, and if the duration is smaller than the duration threshold, prompting is not performed.

Further preferably, a plurality of indicator lights (4) are further arranged on the glasses frame (1) and used for displaying the service time of the glasses in a step mode. According to the embodiment, the inclination angle of the reading posture of the user is monitored, when the inclination angle of the user exceeds a certain specific value, the posture of the user is considered to be required to be corrected, then the user is reminded of timely adjusting the posture in an atomizing mode, the eyesight of the user is protected, the user is reminded of timely adjusting the posture in a vibration mode in the traditional mode, on one hand, the user cannot be frightened, the attention of the user is dispersed, and on the other hand, the user can be reminded effectively.

Specifically, three time display indicator lamps (4) are arranged on the side opposite to the mirror leg charging direction, and represent 3 h. A light is lit whenever the user wears more than 1 h. 3 were not counted after all lit up. When the first lamp is lightened, the buzzer rings once and then rings once every hour, the buzzer rings once when the second lamp is lightened, and the second lamp emits 'clattering and clattering' when the third lamp is lightened. The three lamps are not reminded after being fully lighted.

Preferably, the number of said ophthalmic lenses (2) is two; when the power source (5) is energized, the control center controls the power source (5) to energize only the spectacle lens (2) on the inclined side.

Meanwhile, in the consideration of reminding effectiveness, in the actual operation process, when the user needs to change the posture, the user is informed of which side posture needs to be adjusted through atomization of the single-side spectacle lens (2), so that the user can adjust naturally without thinking, and the distraction of the user is avoided.

One-step preferred, be provided with on the eyeglass, prevent blue light cladding material, realize the effect of separation harmful blue light, eyeshield.

In the actual operation process, in order to avoid that all elements are in working states and consume power when the glasses are not in use, corresponding Hall switches and magnets are respectively arranged on the two glasses legs, and when the glasses are in a folding state, the Hall switches detect that the glasses are in a closing state, so that the control center is controlled to stop working; conversely, when the Hall switch detects that the glasses are in an open state, the control center is controlled to start working.

Further preferably, still include magnetism and inhale the charging base for the battery provides the interface that charges.

Preferably, the control hub, the power supply (5) and the wearing sensor are arranged on a spectacle frame of the spectacle frame, and the spectacle frame is free from element arrangement, so that the spectacle frame is convenient to disassemble and maintain.

Preferably, the control center, the power supply (5) and the wearing sensor are arranged on the side arms of the spectacle frame, so that the whole spectacle frame is balanced in weight and more attractive.

Example 2:

as shown in fig. 1 to 9, the present embodiment provides a pair of eye protection glasses based on a tilt angle, based on embodiment 1, when the power supply (5) supplies power to the glasses (2), and otherwise, when the power is not supplied, the power supply voltage of the power supply (5) is gradually increased until the power supply voltage reaches a target voltage.

In the embodiment, the reminding manner for the user is generally performed in a gradual manner, that is, the haze of the spectacle lens (2) is slowly increased by raising the voltage.

Further preferably, during the gradual increase of the supply voltage of the power source (5), the supply voltage of the section at the inner circle relative is less than or equal to the supply voltage of the section at the outer circle relative.

Or:

in the process that the power supply voltage of the power supply (5) is gradually increased, the power supply voltage of the subarea at the outer circle is smaller than or equal to the power supply voltage of the subarea at the inner circle.

Specifically, when the user is too close, the user can directly and instantaneously atomize, and the user experience is affected. Although this method has a strong and intuitive effect, the direct atomization and the definition can make the ciliary muscle of the user frequently and instantly adjust, but can aggravate the visual fatigue, on the other hand, the design can frequently interrupt the visual field of the user, reduce the working efficiency of the user, and also can make the user dislike. And the subarea atomization or slow atomization has a relatively continuous process, the continuous process gives a chance for the user to correct, once the user adjusts to a proper distance or corrects a correct sitting posture, the subarea atomization or slow atomization can be timely changed into a transparent and visible state, and the reaction is quicker and more convenient.

Generally, when the posture sensor detects that the head is tilted from both sides, if the head is tilted beyond 20 °, the distance is determined to be too close, and the lens on the side of the head gradually becomes fog and completely black within the next 6s, so as to make a forced reminder. The haze changes for different seconds are as follows:

time of day	Area and haze
		6s	a：65％、b:90％、c:90％、d：90％
7s	a：40％、b:65％、c:90％、d：90％
		8s	a：15％、b:40％、c:65％、d：90％
9s	a：8％、b:15％、c:40％、d：65％
		10s	a：8％、b:8％、c:15％、d：40％
11s	a：8％、b:8％、c:8％、d：8％

Example 3:

as shown in fig. 1 to 9, this embodiment provides a pair of eye protection glasses based on a tilt angle, based on embodiment 1, when the power supply (5) supplies power to the glasses lenses (2), the power supply voltage of the outer zone periodically jumps from a first target power supply voltage to a second target power supply voltage, and then jumps from the second target power supply voltage to the first target power supply voltage, until the power supply duration is longer than a preset flicker duration, the power supply voltage of the outer zone is fixed to the first target power supply voltage, and the power supply voltage of the inner zone gradually increases to the first target power supply voltage.

In this embodiment, be equivalent to the scintillation atomizing, the user is when using, and the complete atomizing is gone up to the glasses for a while, and a while resumes normally again to remind and be used for in time carrying out the adjustment of distance.

Specifically, when a user looks near, the outermost zones of the left and right lenses become fog and change between two endpoint values of the maximum voltage and the minimum voltage to realize a flicker prompt, if the user is not corrected after a period of time, the outer zone keeps atomizing and stops flickering, the inner zone is at the maximum voltage and becomes fog, so that the visual field of the user is fuzzy, and a forced reminding effect is achieved.

Example 4:

as shown in fig. 1 to 9, this embodiment provides a pair of eye protection glasses based on a tilt angle, based on embodiment 1, when the power supply (5) supplies power to the glasses lenses (2), the power supply voltage of the outer zone is periodically gradually decreased from a first target power supply voltage to a second target power supply voltage, and then gradually increased from the second target power supply voltage to the first target power supply voltage, until the power supply duration is longer than a preset respiration duration, the power supply voltage of the outer zone is fixed to the first target power supply voltage, and the power supply voltage of the inner zone is gradually increased to the first target power supply voltage;

if the inclination angle is still smaller than the maximum inclination angle after a preset time, the power supply voltage of the outer ring partition is fixed to a first target power supply voltage, and the power supply voltage of the inner ring partition is gradually increased to the first target power supply voltage.

In this embodiment, a manner similar to breathing is adopted for reminding, specifically, when a user looks near, peripheral zones of left and right lenses reciprocate from gradually changing fog and gradually changing zones to be in a breathing state, namely, the first target power supply voltage → the minimum power supply voltage → the first target power supply voltage continuously and repeatedly change, so that the user is reminded, if the user is not corrected after a period of time, the outer zone keeps atomizing and stops breathing, the inner zone gradually changes fog until the first target power supply voltage is reached, the user has a blurred vision, and a forced reminding effect is achieved.

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (13)

1. An angle of inclination based eye protection eyewear comprising: spectacle frame, spectacle lens, control center, power;

the spectacle lens comprises a plurality of independent subareas, and each independent subarea is independently connected with the power supply;

the spectacle lens is arranged on the spectacle frame;

the glasses frame is also provided with an attitude sensor for acquiring the inclination angle of the glasses with the vertical direction;

when the inclination angle is larger than a preset maximum inclination angle, the power supply is electrified to the spectacle lens, otherwise, the power supply is not electrified;

when the power supply energizes the ophthalmic lens, haze of the ophthalmic lens is increased.

2. The angle of inclination based eye protection glasses according to claim 1, wherein the zones are divided into an inner zone and a plurality of outer zones sequentially surrounding.

3. The pair of goggles according to claim 2, wherein when said power source energizes said pair of spectacles lenses, a supply voltage of said power source is gradually increased until said supply voltage reaches a target voltage, and during the gradual increase of the supply voltage of said power source, the supply voltage of said zones located in the opposite inner circles is less than or equal to the supply voltage of said zones located in the opposite outer circles.

4. The pair of goggles according to claim 2, wherein when said power source energizes said pair of spectacles lenses, a supply voltage of said power source is gradually increased until said supply voltage reaches a target voltage, and during the gradual increase of the supply voltage of said power source, the supply voltage of said zones at the relatively outer periphery is less than or equal to the supply voltage of said zones at the relatively inner periphery.

5. The pair of goggles according to claim 2, wherein when the power source energizes the pair of eyeglasses, the power supply voltage of the outer zone periodically jumps from a first target power supply voltage to a second target power supply voltage and then jumps from the second target power supply voltage to the first target power supply voltage until the jump duration is greater than a predetermined jump duration, the power supply voltage of the outer zone is fixed to the first target power supply voltage, and the power supply voltage of the inner zone gradually increases to the first target power supply voltage.

6. The pair of goggles according to claim 2, wherein when the power source supplies power to the pair of spectacles lenses, the power supply voltage of the outer zone is periodically gradually decreased from a first target power supply voltage to a second target power supply voltage, and then gradually increased from the second target power supply voltage to the first target power supply voltage, until the respiration duration is longer than a predetermined respiration duration, the power supply voltage of the outer zone is fixed to the first target power supply voltage, and the power supply voltage of the inner zone is gradually increased to the first target power supply voltage.

7. The eyewear of claim 1, wherein the control hub does not energize the ophthalmic lenses when the duration of the tilt angle less than the preset minimum tilt angle is less than a duration threshold.

8. The pair of goggles based on an oblique angle of claim 7, wherein a plurality of indicator lights are further provided on the frame for stepwise displaying the time of use of the eyeglasses.

9. The eyewear of claim 1, wherein the ophthalmic lens is made using a reverse PNLC material.

10. The angle-of-inclination based eye protection glasses according to claim 1, further comprising a wear sensor disposed on the glasses frame for detecting whether the glasses are used, wherein the control hub is in an idle state when the glasses are not used.

11. The eyewear of claim 1, wherein the number of said ophthalmic lenses is two;

when the power supply is electrified, the control center controls the power supply to only electrify the inclined side of the spectacle lens.

12. The pair of goggles as claimed in claim 1, wherein hall switches and magnets are provided on the two temples of the eyeglasses frames, respectively, for determining whether the temples are opened, thereby controlling the control center to start or stop operating.

13. The angle of inclination based eye protection glasses according to claim 10, wherein the control hub, the power source and the wear sensor are provided on the temple of the glasses frame;

or:

the control hub, the power source and the wear sensor are disposed on a spectacle frame of the spectacle frame.

Images