CN108471529B - 3D glasses with adjustable myopia degrees, glasses management system and using method thereof - Google Patents

Abstract

The invention relates to 3D glasses with adjustable myopia degrees, a glasses management system and a using method thereof, wherein the 3D glasses comprise: the myopia glasses comprise a knob adjusting module and a myopia glasses base module; the knob adjusting module is provided with a myopia degree adjusting scale and comprises an adjusting knob; the myopia glasses base module comprises a glasses frame and a pair of composite lenses positioned in the glasses frame; the adjusting knob is suitable for adjusting the focal length of the composite lens focal length so as to change the myopia degree of the 3D glasses; to 3D glasses, wherein myopia glasses base module and knob adjusting module cooperate, have realized the myopia number of degrees regulation of 3D glasses, have satisfied the myopia personnel of different degrees and have seen the shadow demand.

Description

3D glasses with adjustable myopia degrees, glasses management system and using method thereof

Technical Field

The invention belongs to the technical field of glasses management systems, and relates to 3D glasses with adjustable myopia degrees, a glasses management system and a using method of the glasses management system.

Background

Currently, it is a common practice for users to wear 3D glasses while watching 3D movies. However, the user with myopia wears 3D glasses on his own glasses, which causes a very poor experience for watching the film. In this regard, the experience requirements of the myopia users at each viewing field are taken by measures, such as providing clip-on glasses for the myopia users. However, the glasses are not supported by the frame 202, have small volume, and bring many problems to users and film watching places due to easy fingerprint staining and easy damage. No 3D glasses in a film watching field are available in the market, and the technology of degree adjustment is adopted, so that the glasses with the degree adjustable are very important to requirements of myopia users.

Because the manual mode is adopted in the granting and the recovery of sight shadow place 3D glasses, and the whole sight shadow place can not be covered by manual supervision in an all-round way, consequently, often when numerous users leave the field, sight shadow place staff supervision is not enough, and the glasses are very easily taken out of the sight shadow place by the user carelessly and are based on own, not only lead to the sight shadow place to undertake economic loss, but also can arouse many unnecessary disputes between staff and the user. Therefore, each viewing area does not have a reasonable 3D glasses management system, and many negligence and carelessness are easily caused by only manual service. Meanwhile, the timely cleaning and disinfection of the glasses are also a problem which puzzles each large viewing area.

Disclosure of Invention

The invention aims to provide 3D glasses with adjustable myopia degrees, a glasses management system and a using method of the glasses management system.

In order to solve the above technical problems, the present invention provides 3D glasses, including:

the myopia glasses comprise a knob adjusting module and a myopia glasses base module;

the knob adjusting module is provided with a myopia degree adjusting scale and comprises an adjusting knob;

the myopia glasses base module comprises a glasses frame and a pair of composite lenses positioned in the glasses frame;

the adjusting knob is suitable for adjusting the focal length of the composite lens focal length so as to change the myopia degree of the 3D glasses.

Further, the composite lens comprises a fixed lens and a movable lens, and a liquid cavity containing transparent liquid is formed between the fixed lens and the movable lens; by rotating the adjusting knob to squeeze the transparent liquid in the liquid chamber, i.e.

The gap between the fixed lens and the movable lens is changed, and the focal length of the composite lens is changed and adjusted.

Further, the 3D glasses further include: the lens overturning device comprises a lens overturning module with a mechanical rotating shaft, a first microprocessor module and a first transceiver module; wherein

The first transceiver module is suitable for sending the received 3D glasses loss signal to the first microprocessor module; the first microprocessor module controls the mechanical rotating shaft to turn over the composite lens, and the composite lens is turned over towards the outer side of the mirror frame, so that the composite lens is separated from the mirror frame.

In yet another aspect, the present invention also provides an eyeglass management system comprising:

a glasses management device and 3D glasses;

the glasses management device is provided with a glasses storage box suitable for storing 3D glasses.

Further, the eyeglass management device includes: the second microprocessor module, and a photoelectric switch and a pressure sensing module which are electrically connected with the second microprocessor module; wherein

The pressure sensing module is positioned on the seat and comprises at least one pressure sensor suitable for detecting a pressure signal of a user, and the second microprocessor module judges whether the user leaves the seat or not according to the pressure signal of the user;

the photoelectric switch is arranged in the glasses storage box and is suitable for detecting a shielding signal of the 3D glasses in the glasses storage box, and the second microprocessor module judges whether the 3D glasses are in the glasses storage box according to the shielding signal;

and when the second microprocessor module judges that the user is out of the seat and judges that the 3D glasses are not in the glasses storage box, the second microprocessor module outputs a 3D glasses loss signal.

Further, the 3D glasses are adapted to employ the 3D glasses of any one of claims 1-3;

the glasses management device also comprises a second transceiver module 5 electrically connected with the second microprocessor module 8;

the second transceiver module 5 is adapted to send a 3D glasses lost signal to the first transceiver module.

Furthermore, the glasses management device also comprises an ultraviolet disinfection module arranged in the glasses storage box;

the ultraviolet disinfection module is electrically connected with the second microprocessor module, and when the second microprocessor module judges that the 3D glasses are stored in the glasses storage box, the ultraviolet disinfection module is started to disinfect the 3D glasses.

Furthermore, the glasses management device also comprises a reminding module electrically connected with the second microprocessor module;

and when the second microprocessor module judges that the user is out of the seat, the reminding module is started.

Furthermore, an end cover is arranged on the glasses storage box, and an electromagnetic switch electrically connected with the second microprocessor module is arranged at the hinge of the end cover;

when the second microprocessor module judges that a user is seated, the end cover is opened through the electromagnetic switch;

when the second microprocessor module judges that the user is out of the seat and judges that the 3D glasses are in the glasses storage box 11, the cover of the end cover is controlled to be closed through the electromagnetic switch.

In yet another aspect, the present invention also provides a method for using an eyeglass management system, comprising:

after judging that the user is out of the seat, detecting whether the 3D glasses are placed back into the glasses storage box or not;

if the 3D glasses are detected to be placed in the glasses storage box, disinfecting the 3D glasses; and/or

If the 3D glasses are not placed in the glasses storage box, the composite lenses on the 3D glasses are turned over towards the outer side of the glasses frame, so that the composite lenses are separated from the glasses frame.

The invention has the beneficial effects that:

for the 3D glasses, the myopia glasses base module is matched with the knob adjusting module, so that the myopia degree of the 3D glasses is adjusted, and the film watching requirements of myopia people with different degrees are met;

to glasses management system, use glasses management device and 3D glasses cooperation, by second microprocessor module, photoelectric switch, forced induction module and the mutual cooperation of reminding the module in the glasses management device, realized in time reminding that 3D glasses are lost to take the back away maliciously when 3D glasses, also unable use can effectively stop to carry the phenomenon home.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of 3D glasses and a glasses management system and a 3D glasses model using method thereof;

FIG. 2 is a functional block diagram of 3D glasses and a glasses management system and a method for using the glasses management system;

FIG. 3 is a schematic view of a cinema seat model for 3D glasses and glasses management system and method of using the glasses management system;

fig. 4 is a flowchart of a method for using the glasses management system, which is a flowchart of 3D glasses and glasses management system and a method for using the glasses management system.

In the figure: the myopia glasses comprises a first transceiver module 1, a myopia glasses base module 2, a composite lens 201, a glasses frame 202, a lens overturning module 3, a knob adjusting module 4, an adjusting knob 401, a second transceiver module 5, a reminding module 6, a pressure sensing module 7, a second microprocessor module 8, an ultraviolet disinfection module 9, a photoelectric switch 10 and a glasses storage box 11.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1

FIG. 1 is a schematic view of 3D glasses and a glasses management system and a 3D glasses model using method thereof;

as shown in fig. 1, the present invention provides 3D glasses including:

a knob adjusting module 4 and a myopia glasses base module 2; the knob adjusting module 4 is provided with a myopia degree adjusting scale and comprises an adjusting knob 401; the myopia glasses base module 2 comprises a frame 202 and a pair of composite lenses 201 positioned in the frame; the adjusting knob 401 is adapted to adjust the focal length of the composite lens 201 to change the myopic degree of the 3D glasses.

In this embodiment, the composite lens 201 includes a fixed lens and a movable lens, the position of the movable lens may be before the fixed lens, the position of the fixed lens may also be behind the movable lens, and a liquid cavity containing transparent liquid is formed between the fixed lens and the movable lens; through rotating adjust knob 401 changes the clearance between fixed lens and the movable lens in order to extrude transparent liquid in the liquid chamber, realizes changing the focus of adjusting compound lens 201 promptly, makes things convenient for the user of different near-sighted degrees to adjust the near-sighted number of degrees of 3D glasses according to the demand of oneself. The frame 202 is provided with a liquid tank for storing transparent liquid, and the liquid tank can recover or replenish the transparent liquid in the liquid chamber when the volume of the liquid chamber is changed.

In this embodiment, the 3D glasses further include: the lens overturning device comprises a lens overturning module 3 with a mechanical rotating shaft, a first microprocessor module and a first transceiver module 1, wherein the first transceiver module 1 can be a wireless transceiver chip (the wireless transceiver chip adopts a Bluetooth or Wi-Fi module), the first transceiver module receives a 3D glasses loss signal and transmits the 3D glasses loss signal to the first microprocessor module, the first microprocessor module can adopt an embedded processor, the mechanical rotating shaft is driven by a micro motor, the micro motor can adopt a micro direct current motor, the direct current micro motor is controlled by the first microprocessor module, the first microprocessor module controls the mechanical rotating shaft by controlling the micro motor, and the mechanical rotating shaft is arranged on a lens frame 202 to be suitable for driving a composite lens 201 to overturn; when first transceiver module 1 receives 3D glasses and loses the signal after, loses signal transmission with this 3D glasses and gives first microprocessor module, first microprocessor module control machinery pivot upset composite lens 201 can make composite lens 201 and picture frame 202 separation to the certain angle of picture frame outside upset, if 90 degrees, can make 3D glasses can't use after judging that 3D glasses lose, can effectively stop to carry the phenomenon that 3D glasses went home.

Example 2

FIG. 2 is a functional block diagram of 3D glasses and a glasses management system and a method for using the glasses management system;

FIG. 3 is a schematic view of a cinema seat model for 3D glasses and glasses management system and method of using the glasses management system;

on the basis of embodiment 1, this embodiment 2 provides an eyeglass management system, including:

a glasses management device and 3D glasses; glasses management device is provided with a glasses case 11 that is applicable to and deposits 3D glasses, conveniently manages 3D glasses.

As shown in fig. 2 and 3, in this embodiment, the glasses management system can be used to manage 3D glasses in a movie theater, and the glasses storage box 11 can be disposed outside a seat armrest of the movie theater.

In this embodiment, the glasses management apparatus includes: the second microprocessor module 8, and the photoelectric switch 10 and the pressure sensing module 7 which are electrically connected with the second microprocessor module 8; wherein

The second microprocessor module 8 can also adopt an embedded processor; the pressure sensing module 7 is located on the seat and includes at least one pressure sensor adapted to detect a pressure signal of a user, specifically, four hall-type pressure sensors disposed below the seat surface and adapted to detect a pressure signal of the seat surface, and the second microprocessor module 8 determines whether the user is out of the seat according to the pressure signal of the user, that is, whether the user is on the seat; photoelectric switch 10 can set up in glasses case 11, is applicable to the signal that shelters from of 3D glasses in the detection glasses case 11, if photoelectric switch 10 appears sheltering from the signal, then judges that 3D glasses are located glasses case 11, otherwise does not put into.

The second microprocessor module 8 judges that the user is out of the seat according to the pressure signal, and meanwhile, when the second microprocessor module 8 judges that the 3D glasses are not in the glasses storage box 11 according to the shielding signal, the second microprocessor module 8 judges that the 3D glasses are lost.

In this embodiment, the glasses storage box 11 may be a glasses box with an end cover, an electromagnetic switch electrically connected to the second microprocessor module 8 is disposed at a hinge of the end cover, and when the second microprocessor module 8 determines that a user is seated according to the user pressure signal, the second microprocessor module 8 opens the end cover through the electromagnetic switch; the second microprocessor module 8 judges that the user is away from the seat according to the user pressure signal, and the second microprocessor module 8 judges that the 3D glasses are in the glasses storage box 11 according to the shielding signal, and the second microprocessor module 8 controls the end cover to cover through the electromagnetic switch.

In this embodiment, the glasses management device further includes a second transceiver module 5 electrically connected to a second microprocessor module 8; second transceiver module 5 carries out wireless communication (wireless communication technique can adopt bluetooth or Wi-Fi etc.) simultaneously with first transceiver module 1 of setting on 3D glasses, second transceiver module 5 is suitable for losing signal transmission to first transceiver module with 3D glasses, first transceiver module 1 loses the signal transmission with 3D glasses after receiving 3D glasses and gives first microprocessor module, first microprocessor module can control mechanical pivot with compound lens 201 to the picture frame outside certain angle of upset, for example 90 degrees, make compound lens 201 and picture frame 202 separation, make 3D glasses unable use, can effectively stop to carry the phenomenon that 3D glasses went home.

In this embodiment, the glasses management device further comprises an ultraviolet disinfection module 9, wherein the ultraviolet disinfection module 9 is arranged in the glasses storage box 11; the ultraviolet disinfection module 9 is connected with the second microprocessor module 8, the ultraviolet disinfection module 9 can be but is not limited to adopt an ultraviolet emitting device, the ultraviolet emitting device can emit ultraviolet rays with the wavelength of 240-280 nm, biological bacteria and the like on the 3D glasses can be disinfected by radiation, and the hidden danger of safety and sanitation of the 3D glasses is eliminated; and when the second microprocessor module 8 judges that the 3D glasses are stored in the glasses storage box 11, the ultraviolet emitting device is started to disinfect the 3D glasses.

In this embodiment, the glasses management device further includes a reminding module 6, the reminding module 6 may be disposed on the surface of the glasses storage box 11 or at the armrest of the seat, and meanwhile, the 3D glasses frame 202 may also be provided with the reminding module 6; set up in reminding module 6 and the 8 electric connection of second microprocessor module on glasses case 11 surface, set up reminding module 6 and the first microprocessor module electric connection on 3D glasses picture frame 202, reminding module 6 can adopt LED lamp and/or speaker, second microprocessor module 8 starts reminding module 6 when judging that the user leaves, leave seat signal transmission with the user for first transceiver module 1 through second transceiver module 5 simultaneously, first transceiver module 1 leaves the user to leave seat signal transmission for first microprocessor module, first microprocessor module starts reminding module 6 that sets up on 3D glasses picture frame 202, the LED lamp begins to twinkle and reminds the user to put back glasses case 11 with 3D glasses, the scintillation mode can be more directly perceived, quick warning user puts back glasses case 11 with 3D glasses.

Example 3

On the basis of the embodiments 1 and 2, the present embodiment 3 further provides a method for using an eyeglass management system, which includes:

when the user leaves the reminding module 6 to work, whether the 3D glasses are put back into the glasses storage box 11 or not is detected; if the 3D glasses are detected to be in the glasses storage box 11, disinfecting the 3D glasses; if it is detected that the 3D glasses are not put into the glasses storage box 11, the lens overturning module 3 on the 3D glasses controls the compound lens 201 to overturn, so that the compound lens 201 is separated from the glasses frame 202, the 3D glasses can not be used, and the phenomenon that the 3D glasses are carried to go home can be effectively avoided.

FIG. 4 is a flow chart of a method of using the glasses management system for the 3D glasses and the glasses management system and a method of using the glasses management system;

as shown in fig. 4, after the glasses management system starts to work, the pressure sensing module 7 detects the pressure signal of the user on the seat and sends the pressure signal to the second microprocessor module 8, and whether the user is seated or not is judged according to the change of the pressure signal of the user. When the second microprocessor module 8 judges that a user sits on the glasses storage box, the glasses storage box 11 is controlled to be opened, so that the user can take out the 3D glasses;

when the pressure sensing module 7 detects that the user leaves the seat and the photoelectric switch 10 detects that the 3D glasses are stored in the glasses storage box 11, the second microprocessor module 8 judges that the user returns the 3D glasses to the place and leaves the place, and the reminding module 6 is in a sleep state and does not work;

if the pressure sensing module 7 detects that the user leaves the seat and the photoelectric switch 10 does not detect that the 3D glasses are stored in the glasses storage box 11, the second microprocessor module 8 judges that the 3D glasses are lost, and the second microprocessor module 8 immediately starts the reminding module 6 to start working;

the second microprocessor module 8 controls the reminding module 6 to work, and reminds a user to put the 3D glasses back into the glasses storage box 11 through light flickering on the seat. Meanwhile, the second microprocessor module 8 sends a 3D glasses loss signal to the first transceiver module 1 on the unreturned 3D glasses through the second transceiver module 5, the first microprocessor module starts the lens turning module 3 to turn over the composite lens 201 of the unreturned 3D glasses, and the 3D glasses cannot be used continuously;

if the 3D glasses are detected to return to the glasses storage box 11 by the photoelectric switch 10 after the film is viewed, the second microprocessor module 8 controls the glasses storage box 11 to be closed. Meanwhile, the second micro-processing module 8 controls the ultraviolet disinfection module 9 to work, and 3D glasses in the glasses storage box 11 are disinfected;

after the work is finished, the glasses management system returns to the state before the opening of the movie for the user of the next movie to use.

In conclusion, for the 3D glasses, the myopia glasses base module is matched with the knob adjusting module, so that the myopia degree of the 3D glasses is adjusted, and the use requirements of myopia people with different degrees are met; to glasses management system, use glasses management device and 3D glasses cooperation, by second microprocessor module, photoelectric switch, forced induction module and the mutual cooperation of reminding the module in the glasses management device, realized in time reminding that 3D glasses are lost to take the back away maliciously when 3D glasses, also unable use can effectively stop to carry the phenomenon home.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. 3D glasses, comprising:

the myopia glasses comprise a knob adjusting module and a myopia glasses base module;

the knob adjusting module is provided with a myopia degree adjusting scale and comprises an adjusting knob;

the myopia glasses base module comprises a glasses frame and a pair of composite lenses positioned in the glasses frame;

the adjusting knob is suitable for adjusting the focal length of the composite lens focal length so as to change the myopia degree of the 3D glasses;

the 3D glasses further include: the lens overturning device comprises a lens overturning module with a mechanical rotating shaft, a first microprocessor module and a first transceiver module; wherein

The first transceiver module is suitable for sending the received 3D glasses loss signal to the first microprocessor module; the first microprocessor module controls the mechanical rotating shaft to turn over the composite lens, and the composite lens is turned over towards the outer side of the mirror frame, so that the composite lens is separated from the mirror frame.

2. The 3D glasses of claim 1,

the composite lens comprises a fixed lens and a movable lens, and a liquid cavity containing transparent liquid is formed between the fixed lens and the movable lens; by rotating the adjusting knob to squeeze the transparent liquid in the liquid chamber, i.e.

The gap between the fixed lens and the movable lens is changed, and the focal length of the composite lens is changed and adjusted.

3. An eyeglass management system, comprising:

glasses management apparatus and use of 3D glasses according to claim 1 or 2;

the glasses management device is provided with a glasses storage box suitable for storing 3D glasses.

4. The eyewear management system of claim 3,

the glasses management device includes: the second microprocessor module, and a photoelectric switch and a pressure sensing module which are electrically connected with the second microprocessor module; wherein

The pressure sensing module is positioned on the seat and comprises at least one pressure sensor suitable for detecting a pressure signal of a user, and the second microprocessor module judges whether the user leaves the seat or not according to the pressure signal of the user;

the photoelectric switch is arranged in the glasses storage box and is suitable for detecting a shielding signal of the 3D glasses in the glasses storage box, and the second microprocessor module judges whether the 3D glasses are in the glasses storage box according to the shielding signal;

and when the second microprocessor module judges that the user is out of the seat and judges that the 3D glasses are not in the glasses storage box, the second microprocessor module outputs a 3D glasses loss signal.

5. The eyewear management system of claim 4, wherein;

the glasses management device also comprises a second transceiver module electrically connected with the second microprocessor module;

the second transceiver module is adapted to send the 3D glasses loss signal to the first transceiver module.

6. The eyewear management system of claim 4, wherein:

the glasses management device also comprises an ultraviolet disinfection module arranged in the glasses storage box;

the ultraviolet disinfection module is electrically connected with the second microprocessor module, and when the second microprocessor module judges that the 3D glasses are stored in the glasses storage box, the ultraviolet disinfection module is started to disinfect the 3D glasses.

7. The eyewear management system of claim 4, wherein:

the glasses management device also comprises a reminding module electrically connected with the second microprocessor module;

and when the second microprocessor module judges that the user is out of the seat, the reminding module is started.

8. The eyewear management system of claim 4, wherein:

the glasses storage box is provided with an end cover, and an electromagnetic switch electrically connected with the second microprocessor module is arranged at the hinge of the end cover;

when the second microprocessor module judges that a user is seated, the end cover is opened through the electromagnetic switch;

when the second microprocessor module judges that the user is out of the seat and judges that the 3D glasses are in the glasses storage box, the end cover is controlled to be covered through the electromagnetic switch.

9. A method of using the eyewear management system of any of claims 3-8, comprising:

after judging that the user is out of the seat, detecting whether the 3D glasses are placed back into the glasses storage box or not;

if the 3D glasses are detected to be placed in the glasses storage box, disinfecting the 3D glasses; and/or

If the 3D glasses are not placed in the glasses storage box, the composite lenses on the 3D glasses are turned over towards the outer side of the glasses frame, so that the composite lenses are separated from the glasses frame.

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