CN109044756A - A kind of visual training method applied to HMD device - Google Patents

Abstract

The present invention provides a kind of visual training methods applied to HMD device, comprising the following steps: S1, obtains near point position and far point position；S2, near point training: control display screen moves back and forth between near point and far point；S3, far point training: control display screen moves back and forth between far point and super far point；This visual training method applied to HMD device can help user to carry out far and near point visual training anywhere or anytime, it can control myopic degree not only for the user of dysphotia and restore eyesight, and it applies in HMD device, viewing video display bring asthenopia for a long time can be eliminated or alleviate, it being capable of effective pre- myopia prevention.

Description

A kind of visual training method applied to HMD device

Technical field

The present invention relates to visual function training technical field more particularly to a kind of visual training methods applied to HMD device.

Background technique

The teenager of poor sight other than obtaining preferable eyesight, can also participate in far and near point eyesight instruction in addition to wearing spectacles Practice study course to restore eyesight.Straight line instrument for training is a kind of equipment for far and near point visual training, and user is in distance point eyesight instruction In white silk, spectacles being worn first, then head is placed on bracket, doctor starts slowly to move object of regard to user direction It is dynamic, and constantly ask the user whether to see clearly, when user, which answers, not to be seen, stop mobile object of regard and will The position of object of regard at this time is set as near point, then zooms out object of regard, determines far point with similar mode.It with that can be with Carry out near point training and far point training: so-called near point training is to move back and forth object of regard between near point and far point, training The eye muscle system of user improves Morphology of The Human Lens, improves regulating power, optimal imaging quality；Far point training is by target Object of regard is continuously moved back and forth in far point to infinity range, is changed by focusing with defocus, and retina and cerebral cortex are stimulated Neurotransmission system promotes brain to the interpretation ability of image.

The above this far and near point visual training method can restore the eyesight of people to a certain extent really, but for one As not only to bear higher quality cost for people, but also need specially to go to the hospital for having this straight line instrument for training or examine Institute, for teenager, most time in school work, frequently can not go to clinic to be treated, cause The trained period is long, and effect is also had a greatly reduced quality.

The VR mono- of companies' production and sales such as HMD device, that is, wear-type visual device, such as Oculus, Samsung, Sony, millet Body machine, such HMD device common problem is exactly that user is attracted by entertainment content at present, with longer between at the moment, especially It is easy to cause myopia for teenager or further deepens the degree of myopia.

Summary of the invention

The technical problem to be solved by the present invention is in order to solve on existing for far and near point training method at present and HMD device Problem is stated, the present invention provides a kind of visual training methods applied to HMD device.

The technical solution adopted by the present invention to solve the technical problems is: a kind of visual training side applied to HMD device Method, comprising the following steps:

S1, near point position and far point position are obtained；

S2, near point training: control display screen moves back and forth between near point and far point；

S3, far point training: control display screen moves back and forth between far point and super far point.

Preferably, further comprising the steps of:

Drill program is formulated, the drill program includes the following contents:

Near point is trained and far point is trained alternately, or M2 far point training is carried out after M1 near point training；

In a near point training, display screen moves back and forth N1 times between near point and far point；

In a far point training, display screen moves back and forth N2 times between far point and super far point；

After each near point training, display screen is moved to origin and stops T1 seconds；

After each far point training, display screen is moved to origin and stops T2 seconds.

Preferably, the drill program further include:

In near point training, display screen is at the uniform velocity moved, movement speed V1；

In far point training, display screen is at the uniform velocity moved, movement speed V2.

Preferably, further comprising the steps of:

The body data for obtaining user determines origin position according to the body data of user and formulates the drill program.

Preferably, further comprising the steps of:

Near point calibration: control display screen is mobile to lens and signal is halted in waiting, and display screen is stopped when signal is halted in acquisition simultaneously It is near point position by the location position of display screen at this time；

Far point calibration: control display screen is far from lens and signal is halted in waiting, and display screen is stopped when signal is halted in acquisition simultaneously It is far point position by the location position of display screen at this time.

Preferably, further comprising the steps of:

Establish customer data base, include in the customer data base User ID and with the associated near point position of the User ID, Far point position, origin position, body data and drill program.

Preferably, further comprising the steps of:

User ID is inputted, if User ID is associated near point position and far point position, they are used near point training and far point Training carries out near point calibration and far point calibration if User ID is not associated near point position and far point position.

Preferably, further comprising the steps of:

It obtains the eye spacing of user and is associated with User ID；

User ID is inputted, the distance between two visual components are adjusted according to the eye spacing of user.

The invention has the advantages that this visual training method applied to HMD device can help user at any time with The carry out distance point visual training on ground can control myopic degree not only for the user of dysphotia and restore eyesight, and It applies in HMD device, can eliminate or alleviate viewing video display bring asthenopia for a long time, it being capable of effective pre- myopia prevention.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the schematic perspective view of the first sighting distance regulating mechanism.

Fig. 2 is that the sighting distance of the first sighting distance regulating mechanism adjusts the schematic perspective view of component.

Fig. 3 is the schematic perspective view of the first sighting distance regulating mechanism.

Fig. 4 is the perspective view of the explosion of the first sighting distance regulating mechanism.

Fig. 5 is the partial structural diagram of the first sighting distance regulating mechanism.

Fig. 6 is the partial structural diagram of the first sighting distance regulating mechanism.

Fig. 7 is the perspective view of the explosion of second of sighting distance regulating mechanism.

Fig. 8 is the schematic perspective view of second of sighting distance regulating mechanism.

Fig. 9 is the perspective view of the explosion of the third sighting distance regulating mechanism.

Figure 10 is the partial structural diagram of the third sighting distance regulating mechanism.

Figure 11 is the partial structural diagram of the third sighting distance regulating mechanism.

Figure 12 is the schematic perspective view of the component of HMD device.

Figure 13 is the partial structural diagram of the component of HMD device.

Figure 14 is the partial structural diagram of the component of HMD device.

Figure 15 is a kind of flow chart of the embodiment 1 of visual training method applied to HMD device of the invention.

Figure 16 is a kind of flow chart of the embodiment 2 of visual training method applied to HMD device of the invention.

100, lens subassembly in figure, 200, display component, 300, sighting distance adjust component, the 101, first fixed plate, 102, the Two fixed plates, 103, lens opening, 104, gap, 105, guide post, 106, first v notch vs, 107, Article 2 v notch v, 201, third fixed plate, the 202, first connector, 203, shade, the 204, second connector, the 301, first connecting column, 302, One bevel gear, the 303, first roller gear, the 304, second roller gear, the 305, second connecting column, 306, second bevel gear, 307, Third hand tap gear, the 308, the 4th bevel gear, 309, screw rod, 310, sliding block, 311, motor, 312, first rotating shaft, 313, second turns Axis, the 401, first rack gear, the 402, second rack gear, 403, third rack gear, 404, third roller gear, the 405, the 4th roller gear, 406, runner.Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein identical from beginning to end Or similar label indicates same or similar element or element with the same or similar functions.It is retouched below with reference to attached drawing The embodiment stated is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " axial direction ", The orientation or positional relationship of the instructions such as " radial direction ", " circumferential direction " is to be based on the orientation or positional relationship shown in the drawings, merely to just In description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " etc. are used for description purposes only, it is not understood to indicate or imply relatively important Property.In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " connected ", " connection " are answered It is interpreted broadly, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can be mechanical connect It connects, is also possible to be electrically connected；It can be directly connected, it can also be indirectly connected through an intermediary.For the common of this field For technical staff, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.In addition, in description of the invention In, unless otherwise indicated, the meaning of " plurality " is two or more.

Any process described otherwise above or method description are construed as in flow chart or herein, and expression includes It is one or more for realizing specific logical function or process the step of executable instruction code module, segment or portion Point, and the range of the preferred embodiment of the present invention includes other realization, wherein can not press shown or discussed suitable Sequence, including according to related function by it is basic simultaneously in the way of or in the opposite order, to execute function, this should be of the invention Embodiment person of ordinary skill in the field understood.

Current HMD device does not have the structure that lens and display screen distance can be adjusted with larger range, therefore for reality Existing visual training method of the invention, provides a kind of sighting distance regulating mechanism first, as shown in Figure 1, including lens subassembly 100, aobvious Show that component 200 and sighting distance adjust component 300；As shown in Fig. 2, sighting distance adjusting component includes:

The lower end of first connecting column 301, the first connecting column 301 is fixed with first bevel gear 302；

Motor 311 is fixed with the first roller gear 303, the first roller gear 303 and the second cylinder on the output shaft of motor 311 Gear 304 engages, and the second 304 sets of roller gear is scheduled on the first connecting column 301；

Transmission, transmission include the second connecting column 305, second bevel gear 306, third hand tap gear 307, the 4th bevel gear 308 With screw rod 309, a second bevel gear 306 is fixed at the both ends of the second connecting column 305 respectively, one end of the second connecting column 305 Second bevel gear 306 and first bevel gear 302 are engaged with third hand tap gear 307, and their central axis is vertical two-by-two, the The other end of second bevel gear 306 of two connecting columns 305 is engaged with the 4th bevel gear 308, and the 4th bevel gear 308 is fixed on spiral shell On bar 309；

Sliding block 310, sliding block 310 are threadedly coupled with screw rod 309；

Screw rod 309 is fixedly connected with lens subassembly and can rotate, and display component is fixedly connected with sliding block 310.

The above this sighting distance regulating mechanism is when carrying out far and near point training, by controlling the rotation of motor, to make display group The distance of part and lens subassembly ceaselessly changes, and display screen is fixed on display component, and the image on display screen is relative to human eye It is moved back and forth between near point and far point, realizes near point training, the image of display screen in far point and surpasses distant place relative to human eye Between move back and forth, realize far point training.

As shown in Fig. 3 ~ 4, lens subassembly includes the first fixed plate 101 and the second fixed plate 102, in the first fixed plate 101 It offers for the lens opening 103 of mounted lens and the gap 104 for being adapted to user's bridge of the nose；It needs to assemble in VR all-in-one machine Two sighting distance regulating mechanisms are respectively used to the training of left eye and right eye, the knot of left view distance regulating mechanism and right sighting distance regulating mechanism Structure be it is mirror-symmetrical, Fig. 1 ~ 4 show right sighting distance regulating mechanism, so gap 104 is located at the lower-left of the first fixed plate 101 Angle.First fixed plate 101 and the second fixed plate 102 are arranged in parallel, and the first connecting column and the second connecting column are located at the first fixed plate 101 and second between fixed plate 102, and the first connecting column is vertical and close to right side, and the second connecting column is horizontally disposed and close Downside.Transmission further includes first rotating shaft 312, first rotating shaft 312 perpendicular to the first fixed plate 101 and its both ends respectively with First fixed plate 101 and the rotation connection of the second fixed plate 102, third hand tap gear set are scheduled in first rotating shaft 312.Transmission also wraps The second shaft 313 is included, the second shaft 313 is perpendicular to the first fixed plate 101, one end of the second shaft 313 and the first fixed plate 101 One end of rotation connection, other end and screw rod is coaxially fixed by the through-hole in the second fixed plate 102 or the second shaft 313 are structure as a whole with screw rod, and the other end of screw rod is perpendicular to the second fixed plate 102 to the side far from the first fixed plate 101 To extension.4th bevel gear is between the first fixed plate 101 and the second fixed plate 102 and set is scheduled in the second shaft 313. Screw jacket has guide post 105, and one end of guide post 105 is fixed in the second fixed plate 102 or they are integral structures, The other end of guide post 105 extends away from the direction of the first fixed plate 101.Sliding block and the inner slide of guide post 105 are sliding Dynamic cooperation, the left part and right part of guide post 105 offer first v notch v 106 respectively.

As shown in Fig. 5 ~ 6, display component includes third fixed plate 201, and third fixed plate 201 passes through two the first connectors 202 are fixedly connected with sliding block 310；First connector 202 is L-shaped, and two short sides of the two the first connectors 202 pass through respectively Screw is fixed on the lower left corner and the lower right corner of third fixed plate 201, their long side by first v notch v by screw with Sliding block 310 is fixedly connected, when sliding block 310 is moved along the inner slide of guide post 105, long side first v notch v 106 with Sliding block 310 moves together.Display component further includes shade 203, and the shape of shade 203 is in taper type, shade 203 with Lens opening 103 is opposite, and shade 203 is fixedly connected by screw with third fixed plate 201, its relatively big end touch third and fixes Plate 201 and shroud display screen.In order to give the nose slot milling of user, the lower left of shade 203 offers gap.

It is another structure of sighting distance regulating mechanism as shown in Fig. 7 ~ 8, the difference of it and above-mentioned sighting distance regulating mechanism exists In: transmission is arranged from below has arrived top, and in addition to this, the two sides of guide post 105 do not have notch, but offer in lower part Article 2 v notch v 107, sliding block are fixedly connected by the second connector 204 with third fixed plate 201.

It is another structure of sighting distance regulating mechanism as shown in Fig. 9 ~ 11, it is provided simultaneously with upper and lower two sets of transmissions, the Two roller gears are located at the centre of the first connecting column, this example is increased in weight due to using two sets of transmissions, but It is high stability when third fixed plate moves reciprocatingly.

It is a kind of component of HMD device, including two sighting distance regulating mechanisms as shown in Figure 12 ~ 14, respectively left eye is adjusted Mechanism and right eye regulating mechanism, left eye regulating mechanism and right eye adjustment mechanism mirror symmetry；It further includes interpupillary adjustment mechanism, pupil Distance regulating mechanism includes the first rack gear 401, the second rack gear 402, third rack gear 403, third roller gear 404, the 4th Cylinder Gear Wheel 405 and runner 406, the first rack gear 401 are fixed on the lower right corner of second fixed plate on right side, and the second rack gear 402 is fixed on the right side The upper left corner of second fixed plate of side, third rack gear 403 are fixed on the upper right corner of second fixed plate in left side, third roller gear 404 engage and coaxial fixed with runner 406 with the first rack gear 401, the 4th roller gear 405 and the second rack gear 402 and third Rack gear 403 engages.This is the structure for manually adjusting interpupillary distance, between the lens subassembly for really being used to adjust the left and right sides The distance between distance and the display component of the left and right sides；Runner 406 and third roller gear 404 are turned by third shaft Dynamic to be connected on the shell of VR all-in-one machine, when rotating wheel 406, transmission process is as follows: third roller gear 404 is synchronous to be turned Dynamic, the first rack gear 401 is mobile, drives first fixed plate on right side mobile, the second rack gear 402 is mobile, the 4th 405 turns of roller gear Dynamic, third rack gear 403 is mobile, drives first fixed plate in left side mobile, to realize the change of distance.If will be in setting one A motor, output shaft connect the Electronic control that can be realized to interpupillary distance with third roller gear 404.

The hardware of VR all-in-one machine generally comprises: display screen, processor, sensor, wireless communication module, memory, battery And lens.The electricity of distance between display screen and lens can be realized by the motor that processor controls the above sighting distance regulating mechanism It is dynamic to adjust.

It is formed based on the above mechanical structure and hardware, a kind of embodiment 1 of visual training method is provided, as shown in figure 15, The following steps are included:

S101, near point calibration: control display screen is mobile to lens and signal is halted in waiting, and display is stopped when signal is halted in acquisition Shield and is near point position by the location position of display screen at this time.Near point position is specially coordinate when display screen is near point, with It is known as near point coordinate down, controls the position of display screen by then passing through the rotation of motor, so first sets one to display screen Zero point coordinate.When demarcating near point, display screen revert to dead-center position, and processor controls motor rotation and start recording motor Turnning circle, when signal is halted in acquisition, motor stalling, by the turnning circle of motor be converted between zero point and near point away from From near point coordinate is further calculated.

S102, far point calibration: control display screen is far from lens and signal is halted in waiting, stops when signal is halted in acquisition Display screen and by the location position of display screen at this time be far point position.Far point position is specially seat when display screen is in far point Mark, hereinafter referred to as far point coordinate.When demarcating far point, display screen revert to dead-center position, and processor control motor is rotated and opened Begin the turnning circle of record motor, and when signal is halted in acquisition, the turnning circle of motor is converted into zero point and remote by motor stalling The distance between point, is further calculated far point coordinate.

Halting signal is external input signal, in this example, a calibration key is arranged on VR all-in-one machine, user is carrying out When far point calibration and near point punctuate, when feeling that not seeing Chu Shibian clicks calibration key, processor is read in key generation Break signal, this interrupt signal are to halt signal.

In some other examples, VR all-in-one machine is connect by bluetooth module with smart machine, such as mobile phone, PDA, pen Remember this computer, tablet computer etc., user oneself provides to halt signal or other people is allowed to cooperate on intelligent devices and oneself provide Signal is halted, smart machine will halt signal and be transferred in VR all-in-one machine.

In some other examples, coordinate setting button is provided on VR all-in-one machine, if user once carried out too far Point calibration and near point calibration will pass through operation coordinate setting button and near point coordinate and far point coordinate are just input to VR all-in-one machine In.Near point coordinate and far point coordinate can also be inputted on intelligent devices, then are transferred in VR all-in-one machine.

S103, near point training: control display screen moves back and forth between near point and far point；

S104, far point training: control display screen moves back and forth between far point and super far point.Super far point is preset value.

As shown in figure 16, a kind of embodiment 2 of visual training method, comprising the following steps:

S201, establish customer data base, include in customer data base User ID and with the associated near point position of User ID, far point Position, origin position, body data and drill program.Far point position and near point position are needed through the near point mark in embodiment 1 The calibration of fixed and far point is to obtain.When human eye sees too far and too close object, eyeball will be adjusted, that is, change eyeball Protrusion degree, as soon as but have a distance that eyes be able to be made not have to adjust and can see, this distance is the distance of distinct vision.Namely Say that object that eyes are seen at the distance of distinct vision is to feel most comfortable, be most suitable for normal eye's observation nearby compared with the distance of wisp, For twenty-twenty people, the distance of distinct vision is about 250mm, and near-sighted people's distance of distinct vision is less than 250mm, people's photopic vision of long sight Distance is greater than 250mm.In this example, when display screen is in origin position, the virtual image and eye formed by the content that display screen is shown The distance of ball is the distance of distinct vision.Body data includes the refractive power of eyeball, and actually specific numerical value is widely known close Diopter number, that is, the degree worn glasses.According to the myopia degree of user can in conjunction with a large amount of other users sampled data come To origin position, or according to the sampled data founding mathematical models of a large number of users, mathematical formulae is obtained, by the near-sighted degree of user In number input formula, origin position is obtained.

S202, drill program is formulated, drill program includes the following contents:

Near point is trained and far point is trained alternately, or M2 far point training is carried out after M1 near point training；

In a near point training, display screen moves back and forth N1 times between near point and far point；

In a far point training, display screen moves back and forth N2 times between far point and super far point；

After each near point training, display screen is moved to origin and stops T1 seconds；

After each far point training, display screen is moved to origin and stops T2 seconds；

In near point training, display screen is at the uniform velocity moved, movement speed V1；

In far point training, display screen is at the uniform velocity moved, movement speed V2.

In this example, in order to formulate drill program according to the refractive power of user eyeball, it is different to first have to acquisition The eyeball of refractive power uses the training effect after different training methods, and establishes list, is selected by way of tabling look-up Select the preferable drill program of training effect.Customer data base is arrived in storage after it is associated with by drill program after the completion of formulating with User ID In.In training later, input User ID can be trained according to the drill program of storage.

S203, it is trained according to drill program.

Since the eye spacing of each user is not quite similar, so obtaining the eye spacing of user simultaneously in some other examples It is associated with User ID；It carries out adjusting the distance between two visual components according to the eye spacing of user first when visual training, depending on Feel that component includes lens subassembly and display component.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, not to the schematic representation of the term Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (8)

1. a kind of visual training method applied to HMD device, which comprises the following steps:

S1, near point position and far point position are obtained；

S2, near point training: control display screen moves back and forth between near point and far point；

S3, far point training: control display screen moves back and forth between far point and super far point.

2. a kind of visual training method applied to HMD device as described in claim 1, which is characterized in that further include following Step:

Drill program is formulated, the drill program includes the following contents:

Near point is trained and far point is trained alternately, or M2 far point training is carried out after M1 near point training；

In a near point training, display screen moves back and forth N1 times between near point and far point；

In a far point training, display screen moves back and forth N2 times between far point and super far point；

After each near point training, display screen is moved to origin and stops T1 seconds；

After each far point training, display screen is moved to origin and stops T2 seconds.

3. a kind of visual training method applied to HMD device as claimed in claim 2, which is characterized in that the training meter It draws further include:

In near point training, display screen is at the uniform velocity moved, movement speed V1；

In far point training, display screen is at the uniform velocity moved, movement speed V2.

4. a kind of visual training method applied to HMD device as claimed in claim 3, which is characterized in that further include following Step:

The body data for obtaining user determines origin position according to the body data of user and formulates the drill program.

5. such as a kind of described in any item visual training methods applied to HMD device of claim 1 ~ 4, which is characterized in that also The following steps are included:

Near point calibration: control display screen is mobile to lens and signal is halted in waiting, and display screen is stopped when signal is halted in acquisition simultaneously It is near point position by the location position of display screen at this time；

Far point calibration: control display screen is far from lens and signal is halted in waiting, and display screen is stopped when signal is halted in acquisition simultaneously It is far point position by the location position of display screen at this time.

6. a kind of visual training method applied to HMD device as claimed in claim 5, which is characterized in that further include following Step:

Establish customer data base, include in the customer data base User ID and with the associated near point position of the User ID, Far point position, origin position, body data and drill program.

7. a kind of visual training method applied to HMD device as claimed in claim 6, which is characterized in that further include following Step:

User ID is inputted, if User ID is associated near point position and far point position, they are used near point training and far point Training carries out near point calibration and far point calibration if User ID is not associated near point position and far point position.

8. a kind of visual training method applied to HMD device as claimed in claim 7, which is characterized in that further include following Step:

It obtains the eye spacing of user and is associated with User ID；

User ID is inputted, the distance between two visual components are adjusted according to the eye spacing of user.