CN109597218A - Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass - Google Patents
Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass Download PDFInfo
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- CN109597218A CN109597218A CN201811655129.0A CN201811655129A CN109597218A CN 109597218 A CN109597218 A CN 109597218A CN 201811655129 A CN201811655129 A CN 201811655129A CN 109597218 A CN109597218 A CN 109597218A
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- 239000011521 glass Substances 0.000 title claims abstract description 83
- 230000004438 eyesight Effects 0.000 title claims abstract description 27
- 230000000712 assembly Effects 0.000 claims abstract description 22
- 238000000429 assembly Methods 0.000 claims abstract description 22
- 239000000758 substrate Substances 0.000 claims description 21
- 230000005540 biological transmission Effects 0.000 claims description 9
- 238000005192 partition Methods 0.000 claims description 6
- 239000005357 flat glass Substances 0.000 claims description 3
- 230000005611 electricity Effects 0.000 claims description 2
- 239000007787 solid Substances 0.000 claims 1
- 210000001508 eye Anatomy 0.000 abstract description 20
- 230000004379 myopia Effects 0.000 abstract description 6
- 208000001491 myopia Diseases 0.000 abstract description 6
- 230000015572 biosynthetic process Effects 0.000 description 31
- 238000003786 synthesis reaction Methods 0.000 description 31
- 238000000034 method Methods 0.000 description 8
- 230000008859 change Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 7
- 230000000694 effects Effects 0.000 description 5
- 230000003287 optical effect Effects 0.000 description 5
- 230000007246 mechanism Effects 0.000 description 4
- 210000005252 bulbus oculi Anatomy 0.000 description 3
- 230000007547 defect Effects 0.000 description 3
- 238000006073 displacement reaction Methods 0.000 description 3
- 230000006870 function Effects 0.000 description 3
- 238000004886 process control Methods 0.000 description 3
- 239000002131 composite material Substances 0.000 description 2
- 150000001875 compounds Chemical class 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 235000008331 Pinus X rigitaeda Nutrition 0.000 description 1
- 235000011613 Pinus brutia Nutrition 0.000 description 1
- 241000018646 Pinus brutia Species 0.000 description 1
- 208000003464 asthenopia Diseases 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004590 computer program Methods 0.000 description 1
- 210000000887 face Anatomy 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 230000008450 motivation Effects 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
Classifications
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- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C7/00—Optical parts
- G02C7/02—Lenses; Lens systems ; Methods of designing lenses
- G02C7/08—Auxiliary lenses; Arrangements for varying focal length
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- Health & Medical Sciences (AREA)
- Ophthalmology & Optometry (AREA)
- Physics & Mathematics (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Eyeglasses (AREA)
Abstract
The present invention is used to belong to the eyesight correcting glasses of the unified sliding of horizontal Dual-motors Driving overlapping eyeglass the device of the slideable varifocal vision correction of two groups of collimating optics lens of electric drive.Including glasses shell, and glasses lens drive device, controller, power supply for being located in glasses shell etc..The lower baffle plate of glasses shell is equipped with two parallel raised lines, and the groove between two parallel raised lines is eyeglass card slot;Glasses lens drive device includes two decelerating motor assemblies for being fixed on L shape supporting plate in both ends above diplopore stripe board, and two eyeglass assemblies of sliding are equipped in diplopore stripe board;The vertical equidistant zoom stripe surface eyeglass of more than two pieces connected in one flute profile strip is at a two lens group;Two decelerating motors respectively drive two eyeglass assemblies and make opposite sliding, and two eyeglasses of overlapping generate a large amount of combination diopter.So the zoom training device of eyes of the present invention, helps myopia to restore eyesight.
Description
Technical field
The invention belongs to Zoom optical lens technologies, more particularly to slidably with two groups of collimating optics lens of electric drive
Formula varifocal, the eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass.
Background technique
It is plane that Chinese patent 201610092191.8 " a kind of gradual change punktal lens ", which provides a kind of lens base, another
Face is free form surface, and the free form surface is made of concave surface, and is equipped with several regions, and each area in the free form surface
The vertical extension in domain is equal.The length in region is 0.1.0mm~100mm, and the refractive diopter in region is 1~2000 degree, diopter
Number is evenly distributed on lens, and each unit length etc. point distribution focus.
A kind of above-mentioned " gradual change punktal lens " defect is the eyeglass of the training of " free form surface " as myopia correction, is difficult
The training method at rule matched with " free form surface " is set, and " free form surface " eyeglass can only be used as and be trained to people oneself hand
The eyeglass that the mobile two lens relative position of work is trained.And " free form surface " eyeglass does not point out the shape knot in " several regions "
Structure does not know that the shape and structure in " several regions " is spherical surface, ellipsoidal surface or trapezoidal faces;The length in 0.1.0mm~100mm
The refractive diopter for spending region is 1~2000 degree, i.e., cannot achieve refractive diopter in the length areas of 0.1.0mm~100mm is 1
~2000 degree of variation does not indicate yet and realizes that refractive diopter is 1~2000 degree of change in the length areas of 0.1.0mm~100mm
What the structure of change is.So the effect of technical solution cannot achieve correction.
Chinese patent 201520246792.0 " one kind can any focus-variable lens group " provides one kind: one of every eyeglass
Surface is horizontal plane, another surface of eyeglass is the non-aqueous plane surface for meeting mathematics changing rule height and rising and falling;The mirror
A highest point and a minimum point are provided on the non-aqueous plane surface of piece;The highest point of the non-aqueous plane surface of the eyeglass with most
Multiple optical centres of consecutive variations are evenly distributed between low spot, along the non-aqueous plane surface of eyeglass;Multiple optical centres
Refractive diopter successively successively decrease or be incremented by.Defect is not indicate " the meeting mathematics changing rule " it is what rule.Described
" being uniformly distributed an optical centre at interval of 1.0mm ", then the curved surface can only be spherical shape structure to an optical centre, and ball
Face shape and structure is difficult to realize the training function of vision correction, because the sight of human eye is to pass through eyeglass, and eyeglass in a point
In each interval be an optic center point, the two points are difficult to be overlapped the point of sight with optic center point.So the technology
Scheme cannot achieve the training of vision correction, cannot achieve the problems such as thoroughly solving asthenopia.And " non-aqueous plane surface "
It records and does not indicate it is what curved surface.
Chinese patent 201310311306.4 " a kind of novel Ortho-K and its application method " discloses an eye
Different-diameter position is arranged to four arc rings of different curvature on eyeglass, and one glasses of wearing is enable to obtain four different curvatures
Arc ring ill eyes are treated.The disadvantage is that: glasses only there are four types of the arc ring of different curvature, put on one this
Kind glasses are very little to the quantity for the optional curvature mirror that ill eyes are treated, and to select most suitable glasses that can only put
There is a family of a large amount of spare glasses, it is very inconvenient and influence treatment;Glasses for selection are too many and increased costs.
Chinese patent 201521122053.7 " a kind of Zoom glasses " discloses a kind of images of left and right eyes two varifocal mirrors respectively
Piece is by electronic motor-driven carry out zoom, the glasses treated to eyes.The disadvantage is that:
(1) cannot achieve goal of the invention: this patent only discloses transmission mechanism, does not disclose the structure of " focus-variable lens ",
So how the how sharp transmission mechanism of eyeglass realizes that zoom is unclear, i.e., passed with 201521122053.7 " a kind of Zoom glasses "
Motivation structure matches the spectacle lens of 201310311306.4 " a kind of novel Ortho-Ks and its application method ", then
201521122053.7 " a kind of Zoom glasses " cannot achieve the zoom application of " visual training ";
(2) drive mechanism is wrong: the transmission order of the structure is the positive and negative tooth screw rod-fixation of motor-reduction gear box-
Bolt-front lens and rear lens are slided round about.Common knowledge " positive and negative tooth screw rod " be not have on a screw rod orthodontic and
A certain kind that anti-tooth, i.e. a screw rod only have orthodontic or only anti-tooth.So common knowledge is: a screw rod can only drive simultaneously
Direct engaging member is rotated to a direction.And 201310311306.4 patents are a screw rod while the directly occlusion of driving two
Component " fixing bolt " is rotated to opposite both direction, so that sliding with former and later two eyeglasses to both direction is wrong knot
Structure.
(3) " fixing bolt " can not achieve transmission: by text and the attached drawing of the patent document it is found that " fixing bolt " be by
The intermediate member of " positive and negative tooth screw rod " and " eyeglass " transmission, but the text of patent document and attached drawing do not provide " fixing bolt " energy
Enough structures " positive and negative tooth screw rod " and " eyeglass " transmission.The positional relationship of only each component can not achieve without structural relation
Reach the drive mechanism of goal of the invention needs.
Summary of the invention
The object of the present invention is to provide it is a kind of with have be on one side more vertical different diopter stripeds eyeglass, and front and rear
Two lens group can be made a relative move by motor, and two lens are combined into varifocal before and after realizing, front and rear two lens group can produce
Raw regular diopter variation, facilitates with each eyeglass assembly of computer process control, and front and rear two lens group can be generated by rule
Rule is corrected defects of vision, and used the having two lens that overlap assemble the eyesight correcting glasses of vertical single motor driving device.
Structure of the invention:
There are the two lens that overlap to assemble the eyesight correcting glasses of vertical single motor driving device, it is characterised in that: including eye
Mirror shell (201), and the glasses lens drive device (202), the controller, power supply that are located in glasses shell, and for fixing glasses
Elastic band on the number of people;
(1), the structure of glasses shell (201): including a frame main casing (206) and it is rotatably connected on frame main casing
(206) two of two sides small trapezoidal shell (207);Frame main casing (206) includes mirror case (208) and mirror rear cover (209), mirror case
(208) include mirror front cover (210), overhead gage (211), lower baffle plate (212), two sides two pieces of side baffles (213);Two pieces of side baffles
(213) outside is rotatablely connected with two small trapezoidal shell (207) respectively;Lower baffle plate (212) in mirror case (208) is equipped with two
Parallel raised line (214), at least a raised line (214) and lower baffle plate (212) are band elasticity in two parallel raised lines (214)
Rotation connection, i.e., at least one is with elastic rotation raised line (214);Groove between two parallel raised lines (214)
For eyeglass card slot (206);
Mirror front cover (210) is equipped with range sensor (215);Controller and power supply are separately positioned on two small trapezoidal shell
(207) among;The both ends of elastic band are separately connected two small trapezoidal shell (207);On mirror rear cover (209) and mirror front cover (210) all
It is respectively equipped with the plate glass (215) of no focal length;
(2), the structure of glasses lens drive device (202): glasses lens drive device (202) includes diplopore stripe board (101), Gu
It is scheduled on the decelerating motor (102) of diplopore stripe board (101) above, is divided in two strip-shaped holes (103) of diplopore stripe board (101)
The two eyeglass assemblies (104) that She You be slidably connected;
The structure of diplopore stripe board 101: strip-shaped hole 103 parallel to each other there are two being set in one piece of stripe board, the strip-shaped hole
103 stripe boards are divided into outer panel 106, middle partition 107, interior plate 108;
The structure of eyeglass assembly 104: sequentially connected mutually from bottom to top to have more vertical equidistant zoom stripe surface mirrors
Piece 222, flute profile strip 109, sliding substrate 110, the top clamp plate 111 for connecting eyeglass;More vertical equidistant zoom stripe surface mirrors
The top margin 112 of piece 222 is entrapped in the card slot of flute profile strip 109, makes more vertical equidistant zoom stripe surface eyeglasses 222 and flute profile
Item 109 is fixedly connected;The upper surface of flute profile strip 109 is fixedly connected with sliding substrate 110, is bolted in the side of sliding substrate 110
Vertical rack plate 113;The upper surface of vertical rack plate 113 is connected with top clamp plate 111;Sliding substrate 110 and vertical rack
The width of the overall thickness of plate 113 and 101 strip-shaped hole 103 of diplopore stripe board at tight fit size;More vertical equidistant zooms
Stripe surface eyeglass 222 divides for smooth even surface 1 and the more stripe surfaces 2 of zoom;More than two pieces is connected in one flute profile strip 109 vertically
Equidistant zoom stripe surface eyeglass 222, the smooth even surfaces 1 of this more than two pieces vertical equidistant zoom stripe surface eyeglasses 222 to
The same face, the more stripe surfaces 2 of zoom of this more than two pieces vertical equidistant zoom stripe surface eyeglasses 222 are to the same face;One
The vertical equidistant zoom stripe surface eyeglass 222 of more than two pieces connected in flute profile strip 109 is at a two lens group 116;
The connection structure of diplopore stripe board 101 and eyeglass assembly 104: 101 two bar shapeds parallel to each other of diplopore stripe board
Card has the sliding substrate 110 and vertical rack plate 113 of an eyeglass assembly 104 respectively in hole 103, two eyeglass assemblies 104
Vertical rack plate 113 is adjacent with 107 two sides of middle partition of diplopore stripe board 101 respectively;Strip-shaped hole 103 and it is stuck in sliding therein
Substrate 110 and vertical rack plate 113 are contacted at slidable tight fit;109 width of flute profile strip below strip-shaped hole 103 is big
In the width of strip-shaped hole 103,111 width of top clamp plate above strip-shaped hole 103 is greater than the width of strip-shaped hole 103, makes to slide
Dynamic substrate 110 and vertical rack plate 113 are stuck in strip-shaped hole 103 and slide;The two lens group 116 of two eyeglass assemblies 104 is put down
It is adjacent to flatten sliding surface 1;The tooth form of two 104 vertical rack plates 113 of eyeglass assembly is identical;
The structure of decelerating motor assembly 102: including L shape supporting plate 119, decelerating motor 120, guiding bar 121, spill trip
Dynamic card 122;Decelerating motor 120 is fixed on one end of L shape supporting plate 119, and the rotation axis of decelerating motor 120 is threaded shaft
124, the threaded shaft 124 and L shape supporting plate 119 of decelerating motor 120 are rotatablely connected;Be additionally provided on L shape supporting plate 119 with
The parallel guiding bar 121 of threaded shaft 124;Spill travelling card 122, spill travelling are cased in threaded shaft 124 and guiding bar 121
Card 122 is threadedly coupled with threaded shaft 124, and spill travelling card 122 is with guiding bar 121 to be slidably connected;Spill travelling card 122
It is driven by the rotation of threaded shaft 124, and is slided along guiding bar 121;
The connection structure of one decelerating motor assembly 102, diplopore stripe board 101 and an eyeglass assembly 104: decelerating motor
The L shape supporting plate 119 of assembly 102 is fixed on one end of diplopore stripe board 101, in the top clamp plate 111 of eyeglass assembly 104
It is equipped with convex block 123 above;Spill travelling card the upper surface of 122 and 104 top clamp plate 111 of eyeglass assembly of decelerating motor assembly 102
It is connected together equipped with convex block 123;
Transmission order is: the rotation of decelerating motor 120, threaded shaft 124 and guiding bar 121 make spill travelling 122 straight lines of card
Sliding, spill travelling, which block 122, which blocks linear slide convex block 123, makes 111 linear slide of top clamp plate, top clamp plate 111 drive one
A eyeglass assembly 104 linear slide in a strip-shaped hole 103 of diplopore stripe board 101;Divide in two decelerating motor assemblies 102
Other two decelerating motors 120 respectively drive the two lens group 116 of an eyeglass assembly 104 to move;
More vertical equidistant zoom stripe surface eyeglasses 222 include two opposite transparent surfaces, and one is smooth even surface
1, the other is the more stripe surfaces of zoom (2);The more stripe surfaces of zoom (2) are that multiple equidistant width bar shaped curved surfaces (3) are parallel side by side
It forms, makes the more stripe surfaces of zoom (2) cross section at equidistant width sawtooth corrugation shape structure,
Each the strip width d of equidistant width bar shaped curved surface 3 side by side is equal, and the range of each strip width d is
0.5mm is to some value between 3.0mm;
The lens strength numerical value of the same equidistant width bar shaped curved surface 3 is identical, and the same equidistant width bar shaped is bent
Whole lens focus in face 3 are point-blank;
The lens of the equidistant width bar shaped curved surface 3 of whole of same more vertical equidistant zoom stripe surface eyeglasses 222
Focus line is parallel to each other;
The very poor N of diopter numerical value of same more vertical equidistant zoom stripe surface eyeglasses 222 be 10 degree to 100 degree it
Between some value;
The equidistant width bar shaped curved surface 3 of whole of same more vertical equidistant zoom stripe surface eyeglasses 222 is arranged side by side
Column, and the very poor N of lens strength numerical value is identical;
The angle a of separator bar 5 and diplopore stripe board 101 between any two neighboring equidistant width bar shaped curved surface 3 is
Some value between 70 degree to 90 degree.
(3), glasses lens drive device (202) is connected to the structure in frame main casing (206): glasses lens drive device (202)
Diplopore stripe board (101) is screwed and connect with the overhead gage (211) of glasses shell (201) or side baffle (213);Eyeglass drives
Two two lens groups (116) of dynamic device (202) are all fastened among the eyeglass card slot (206) in frame main casing (206), and two
Two lens group (116) can guarantee that gap is stable among eyeglass card slot (206), can smoothly move again;
(4), the electrical connection of component: power supply connect power supply with controller, range sensor (215), decelerating motor (102),
Controller is connect with the data line of range sensor (215).
The eyesight correcting glasses effect that the present invention has the two lens that overlap to assemble vertical single motor driving device is as follows:
Glasses lens drive device (202) is fixed in the frame main casing (206) of glasses shell (201), passes through glasses shell
(201) elastic band be worn over glasses lens drive device (202) can before the eyes of people;The whole of glasses lens drive device (202) is not
Moving parts is fixedly connected on frame main casing (206) by diplopore stripe board (101), glasses lens drive device (202) it is removable
Two two lens groups (116) of dynamic component, which are fastened among eyeglass card slot (206), can guarantee that gap is stable, can smoothly move again,
Two two lens groups (116) are made to can guarantee that gap is stablized when smooth mobile, so that two two lens groups (116) are smoothly being moved
When, synthesis focal length caused by each relative position of mobile variation be it is fixed, also join the control of remote command controller
Number is consistent with the synthesis focal length value of two two lens groups (116).That is remote controllers sending requires two two lens groups (116)
Synthesis focal length value, two two lens group (116) focal lengths synthesized by remote controllers specified position with glasses of the present invention
Value is identical.Because the movement of two two lens groups (116) is parallel by two of frame main casing (206) lower baffle plate (212)
Raised line (214) defines the movement that can only be parallel to each other, and cannot change the crack clearance distance between two two lens groups (116),
Raised line (214) makes to be fixed and invariable crack clearance distance between two two lens groups (116), then two two lens groups (116)
The same position is slided into different time, the synthesis focal length value of two two lens group (116) is identical.This is just solved remotely
The problem of parameter request of command and control and the synthesis focal length value of practical two two lens groups (116) are consistent with, can make remote
The requirement of process control can be realized accurately.In addition, raised line (214), which also avoids glasses, is surprisingly fallen the driving dress of eyeglass produced by ground
(202) are set in frame main casing (206) internal shift, the problem of especially two two lens groups (116) are broken, because of raised line
(214) the damageability movement vibrated when two two lens groups (116) are fallen to side has been placed restrictions on.
The effect of this glasses is as follows:
Diplopore stripe board 101 is used as support frame, and a decelerating motor 102 is made to drive a 104 two lens group of eyeglass assembly
The vertical equidistant zoom stripe surface eyeglass 222 of more than two of 116 together slide round about by synchronization;Diplopore stripe board 101
Two decelerating motors 102 at upper both ends then respectively drive more than two of respective 104 two lens group 116 of an eyeglass assembly it is perpendicular
It is moved to equidistant zoom stripe surface eyeglass 222;To make between two eyeglass assemblies 104 mutually with the overlapping of smooth 1 phase of even surface
Folded more than two pieces moves vertical equidistant 222 relative position of zoom stripe surface eyeglass, should be overlapped with smooth even surface 1
Two pieces of eyeglasses when being moved to any different location, more than two pieces vertical equidistant zoom stripe surface eyeglass 222 can be acquired
In the different diopters that synthesize of each equidistant width bar shaped curved surface 3.
It can choose equitant two pieces of eyeglasses bar shaped curved surface separator bar 5 to be parallel to each other: the two of i.e. two eyeglass assemblies 104
The composite structure form that separator bar 5 between block more vertical equidistant zoom stripe surface eyeglasses 222 is parallel to each other, when overlapping
Two pieces of eyeglasses slide over each other to any position, multiple equidistant width bar shaped curved surfaces 3 of one piece of eyeglass with it is equitant another
Multiple equidistant width bar shaped curved surfaces 3 of block eyeglass can synthesize multiple new synthesis diopter bar-shaped zones, these new conjunctions
What it is at diopter bar-shaped zone is the same diopter from top to bottom, in lateral equidistant 3 position of width bar shaped curved surface of difference
New synthesis diopter it is different.These equitant two pieces of eyeglasses produce new synthesis diopter during exercise, make same
Equitant two pieces of eyeglasses produce the synthesis diopter that former eyeglass is no, new, increase for eyes zoom training
Diopter content can be selected, so that glasses of the present invention is equivalent to the function of many glasses, it is specific increase how much new synthesis
Diopter is set forth below.
Also it can choose equitant two pieces of eyeglasses bar shaped curved surface separator bar 5 to intersect: i.e. two eyeglass assemblies 104
The cross one another composite structure form of separator bar 5 between more than two pieces vertical equidistant zoom stripe surface eyeglass 222, such as one piece
Equidistant 3 separator bar 5 of width bar shaped curved surface of vertical diopter striped eyeglass 105, at an angle of 90 degrees, overlaps with diplopore stripe board 101
Equidistant 3 separator bar 5 of width bar shaped curved surface of another piece of vertical diopter striped eyeglass 105 with diplopore stripe board 101 at 70 degree
Angle;Then, equidistant 3 separator bar 5 of width bar shaped curved surface of equitant eyeglass is at 20 degree of angles of the crossing.When equitant two pieces of eyeglasses are mutual
When phase sliding position, multiple equidistant width bar shaped curved surfaces 3 of one piece of eyeglass are multiple equidistant with equitant another piece of eyeglass
Multiple new synthesis diopter bar-shaped zones, these new synthesis diopter bar-shaped zones can be synthesized from width bar shaped curved surface 3
Be to have different diopters from top to bottom.When equitant two pieces of eyeglasses slide over each other position, a certain occurrence it is new
Synthesis diopter bar-shaped zone can move from the top down, or move from bottom to top.In this way, not only equidistant in lateral difference
It is different from the new synthesis diopter of 3 position of width bar shaped curved surface, and the synthesis diopter bar-shaped zone of a certain occurrence
Also at moving up and down.Make its to the training of the zooms of eyes, and have and promote eyeball transverse movement, and has make eyeball move up and down new
Synthesis diopter.Content can be selected in the diopter for considerably increasing the zoom training for eyes, makes a glasses of the present invention
It is equivalent to the function of many glasses, it is specific to increase how much new synthesis diopters are set forth below.
Since the strip width d of each equidistant width bar shaped curved surface 3 side by side is equal, and each strip width d
Range is 0.5mm to some value between 3.0mm.If the width of more than one piece vertical equidistant zoom stripe surface eyeglass 222
Degree is 40mm, and the range of each strip width d is 1.0mm, and every piece more vertical equidistant zoom stripe surface eyeglasses 222 have 40
Equidistant width bar shaped curved surface 3.The vertical equidistant zoom stripe surface eyeglass 222 of more than two pieces of two eyeglass assemblies 104 is mutually
Sliding changes relative position, can obtain the different diopter of 40*40=1600 kind.And the Chinese patent of the prior art
Only there are four types of the arcs of different curvature for 201310311306.4 " a kind of novel Ortho-K and its application method " one glasses
I.e. only there are four types of different diopters for shape ring.It can be seen that the glasses that the device of this patent is made have 1600 kinds of different diopters,
Than glasses of the prior art, only there are four types of diopters to increase the diopter of 400 times of quantity.Meaning in use is,
Zoom training for eyes, helps the patient for having myopia to restore eyesight, a glasses being made with the device of this patent are just
It can solve patient and restore eyesight to the needs of whole diopters, solve the prior art and patient is required to be difficult to correctly select not self
Same glasses, can only be in treatment, the costly problem of glasses.
The L shape supporting plate 119 of one decelerating motor assembly 102 is fixed on one end of diplopore stripe board 101, makes the electricity that slows down
A side of diplopore stripe board 101 can be arranged in machine 120 with horizontal mode, and horizontal setting decelerating motor 120 can subtract
Few height of the decelerating motor 120 in diplopore stripe board 101 increases beautiful, increase practicability.
Advantages of the present invention is as follows
1, doctor is remote controlled is trained the patient for restoring eyesight: each equidistant in the same lens straight grain monolithic
The very poor N of lens strength numerical value from width bar shaped curved surface is identical, and meaning is with computer program controlled motor driving forward and backward two
When block lens straight grain monolithic is displaced, two equidistant width bar shaped curved surfaces of velocity of displacement and two each positions of straight grain monolithic
Synthesis lens strength numerical value has fixed functional relation, it can controls each position with the velocity of displacement between two pieces of monolithics
Synthesis lens strength numerical value, Portable computer controls motor speed, by way of corner network remote, before realizing control,
The synthesis lens strength value of monolithic afterwards, i.e. doctor are remote controlled to be trained the patient for restoring eyesight.
2, any position of forward and backward two eyeglass can all generate accurately synthesis lens strength simultaneously: in straight grain monolithic
Each strip width d is identical, when two straight grain monolithics synthesize lens, respectively has an equidistant width bar shaped curved surface that can be combined into
One has the synthesis lens of setting diopter numerical value, and other equidistant width bar shaped curved surfaces in the two straight grain monolithics can also divide
Zu Cheng there are not the synthesis lens of setting diopter numerical value, the region that cannot be imaged will not be generated.
3, any lap position of forward and backward two eyeglass can all generate a variety of synthesis lens strengths simultaneously and select for patient
With: the structure type of each equidistant width bar shaped curved surface in the same lens straight grain monolithic, each equidistant width bar shaped are bent
There is a lens focus line in face, there is a plurality of lens focus line being parallel to each other, forward and backward two association eyeglass phase in every piece of monolithic
When mutually sliding displacement is set, the synthesis lens that the point that the sight of patient passes through forward and backward monolithic can find most suitable patient's eye are bent
Luminosity, a variety of gradients synthesis lens strength for being most suitable for the adjacent position of the synthesis lens strength suffered from are used as to eyes
Zoom training be used, help myopia patient restore eyesight use.One glasses of the present invention can get more than 1000 kinds of gradients
Synthesize lens strength, hence it is evident that 4 kinds of gradient synthesis lens strengths can only be obtained better than one glasses of the prior art.
The glasses made of the present invention, forward and backward eyeglass mutually can produce 1000 multiple and different compound lens with respect to sliding
Diopter effect, these are a large amount of, slidably and the compound lens diopter that changes is zoom training to eyes, help myopia
The patient of eye restores the good method of eyesight.So equidistant zoom point lens straight grain monolithic of the invention can be used as to eyes
Zoom training helps the patient of myopia to restore the component of the glasses of eyesight.
4, the smooth even surface of forward and backward eyeglass makes contact to overlapping and guarantees to synthesize lens strength number without interval gap structure
It is accurate: two strip-shaped holes parallel to each other of diplopore stripe board, placed restrictions on forward and backward eyeglass can only along strip-shaped hole longitudinal direction it is past
Multiple movement.
5, the equidistant width bar shaped curved surface for the forward and backward eyeglass being overlapped, which can be, is substantially parallel, and is also possible to have a clamp
Angle, for angle within 5-20 degree, the new synthesis diopter that two eyeglasses are formed can be preferably as in the zoom training of eyes
Lower variation training method.
6, the equidistant width bar shaped curved surface angle for the forward and backward eyeglass being overlapped structure, weight of focus line within 5-20 degree
A coincidence point is synthesized, and coincidence point is exactly the crosspoint of two focus lines.Currently, when rear lens displaced posi, two
The crosspoint of bar focus line will move, then the coincidence point of two focus lines will also move, this just gives vision correction zoom to instruct
Practice and increase training content, and it is important that the vision correction zoom of this two focuses line coincidence point movement is trained significantly
The movement for increasing eyeball, more preferable to vision correction effect, the time for restoring eyesight is shorter.
7, spill travelling card is driven with the threaded shaft of decelerating motor, then drives the convex block for engaging rather than being directly connected to,
Finally drive more vertical diopter striped eyeglasses;Compared to the driving method that threaded shaft is directly connected to convex block, of the invention has
Vibration when beneficial place is decelerating motor starting will not be transmitted to more vertical diopter striped eyeglasses;When i.e. decelerating motor starts
Vibration will not influence eyes.
8, two decelerating motors respectively drive two eyeglass assemblies and make to slide relatively, i.e. one eyeglass of a motor drive
Assembly keeps the movement of assembly more stable, facilitates with each eyeglass assembly of computer process control.
9, the movement of two two lens groups is defined and can only mutually be put down by two parallel raised lines of frame main casing lower baffle plate
Row movement, cannot change the crack clearance distance between two two lens groups, and raised line makes to be to fix not between two two lens groups
The crack clearance distance of change, then two two lens groups slide into the same position in different time, the synthesis of two two lens group
Focal length value is identical.This just solves the parameter request of remote command control and the synthesis focal length value of practical two two lens groups is
Consistent problem can enable the requirement remotely controlled accurately realize.It is fallen on the ground in addition, raised line also avoids glasses by unexpected
Produced glasses lens drive device is in frame main casing internal shift, the problem of especially two two lens groups are broken, because raised line limits
The damageability movement vibrated when two two lens groups are fallen to side is stopped.
Detailed description of the invention
Fig. 1 is three-dimensional assembling structure schematic diagram of the invention;
Fig. 2 is more vertical vertical equidistant zoom stripe surface planar structure schematic diagrams of the invention;
Fig. 3 is more vertical vertical equidistant zoom stripe surface schematic perspective views of the invention;
Fig. 4 is the smooth even surface sliding contact shape with of the invention more than two pieces vertical vertical equidistant zoom stripe surface
State, composition is nonseptate can be mutually with respect to the schematic diagram of the section structure of sliding;
Fig. 5 is the more equidistant zoom stripe surface schematic perspective views of inclination of the invention;
Fig. 6 is the smooth even surface sliding contact state that equidistant zoom stripe surface is tilted with of the invention more than two pieces,
Form it is nonseptate can mutually with respect to sliding the schematic diagram of the section structure.
Fig. 7 is the more equidistant zoom stripe surface planar structure schematic diagrams of inclination of the invention;
Fig. 8 frame main casing schematic perspective view of the present invention;
Fig. 9 is mirror rear cover planar structure schematic diagram of the present invention;
Figure 10 is the broken isometric structural schematic diagram of frame main casing of the present invention, mirror rear cover, glasses lens drive device.
In figure, 1 be smooth even surface, 2 be the more stripe surfaces of zoom, 3 be equidistant width bar shaped curved surface, 5 be separator bar,
101 it is diplopore stripe board, 102 be decelerating motor, 103 be strip-shaped hole, 104 be eyeglass assembly, 106 be outer panel, 107 is interval
Plate, 108 be interior plate, 109 be flute profile strip, 110 be sliding substrate, 111 be top clamp plate, 112 be top margin, 113 be vertical tooth
Batten, 116 be two lens group, 119 be L shape supporting plate, 120 be decelerating motor, 121 be guiding bar, 122 be spill travelling
Card, 123 be convex block, 124 be threaded shaft, 201 glasses shells, 202 glasses lens drive devices, 206 frame main casings, 207 small trapezoidal
Shell, 208 mirror cases, 209 mirror rear covers, 210 mirror front covers, 211 overhead gages, 212 lower baffle plates, 213 side baffles, 214 raised lines, 215 distances
Sensor, 216 eyeglass card slots, 222 are more vertical equidistant zoom stripe surface eyeglasses.
Specific embodiment
Embodiment 1, the eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass
Such as Fig. 1,2,3,4,5,6,7,8,9,10,
There are the two lens that overlap to assemble the eyesight correcting glasses of vertical single motor driving device, including glasses shell (201),
With glasses lens drive device (202), the controller, power supply being located in glasses shell, and for fixing pine of the glasses on the number of people
Taut band;
(1), the structure of glasses shell (201): including a frame main casing (206) and it is rotatably connected on frame main casing
(206) two of two sides small trapezoidal shell (207);Frame main casing (206) includes mirror case (208) and mirror rear cover (209), mirror case
(208) include mirror front cover (210), overhead gage (211), lower baffle plate (212), two sides two pieces of side baffles (213);Two pieces of side baffles
(213) outside is rotatablely connected with two small trapezoidal shell (207) respectively;Lower baffle plate (212) in mirror case (208) is equipped with two
Parallel raised line (214), at least a raised line (214) and lower baffle plate (212) are band elasticity in two parallel raised lines (214)
Rotation connection, i.e., at least one is with elastic rotation raised line (214);Groove between two parallel raised lines (214)
For eyeglass card slot (206);
Mirror front cover (210) is equipped with range sensor (215);Controller and power supply are separately positioned on two small trapezoidal shell
(207) among;The both ends of elastic band are separately connected two small trapezoidal shell (207);On mirror rear cover (209) and mirror front cover (210) all
It is respectively equipped with the plate glass (215) of no focal length.
(2), the structure of glasses lens drive device (202): glasses lens drive device (202) includes diplopore stripe board (101), Gu
It is scheduled on the decelerating motor (102) of diplopore stripe board (101) above, is divided in two strip-shaped holes (103) of diplopore stripe board (101)
The two eyeglass assemblies (104) that She You be slidably connected;
The structure of diplopore stripe board 101: strip-shaped hole 103 parallel to each other there are two being set in one piece of stripe board, the strip-shaped hole
103 stripe boards are divided into outer panel 106, middle partition 107, interior plate 108;
The structure of eyeglass assembly 104: sequentially connected mutually from bottom to top to have more vertical equidistant zoom stripe surface mirrors
Piece 222, flute profile strip 109, sliding substrate 110, the top clamp plate 111 for connecting eyeglass;More vertical equidistant zoom stripe surface mirrors
The top margin 112 of piece 222 is entrapped in the card slot of flute profile strip 109, makes more vertical equidistant zoom stripe surface eyeglasses 222 and flute profile
Item 109 is fixedly connected;The upper surface of flute profile strip 109 is fixedly connected with sliding substrate 110, is bolted in the side of sliding substrate 110
Vertical rack plate 113;The upper surface of vertical rack plate 113 is connected with top clamp plate 111;Sliding substrate 110 and vertical rack
The width of the overall thickness of plate 113 and 101 strip-shaped hole 103 of diplopore stripe board at tight fit size;More vertical equidistant zooms
Stripe surface eyeglass 222 divides for smooth even surface 1 and the more stripe surfaces 2 of zoom;More than two pieces is connected in one flute profile strip 109 vertically
Equidistant zoom stripe surface eyeglass 222, the smooth even surfaces 1 of this more than two pieces vertical equidistant zoom stripe surface eyeglasses 222 to
The same face, the more stripe surfaces 2 of zoom of this more than two pieces vertical equidistant zoom stripe surface eyeglasses 222 are to the same face;One
The vertical equidistant zoom stripe surface eyeglass 222 of more than two pieces connected in flute profile strip 109 is at a two lens group 116;
The connection structure of diplopore stripe board 101 and eyeglass assembly 104: 101 two bar shapeds parallel to each other of diplopore stripe board
Card has the sliding substrate 110 and vertical rack plate 113 of an eyeglass assembly 104 respectively in hole 103, two eyeglass assemblies 104
Vertical rack plate 113 is adjacent with 107 two sides of middle partition of diplopore stripe board 101 respectively;Strip-shaped hole 103 and it is stuck in sliding therein
Substrate 110 and vertical rack plate 113 are contacted at slidable tight fit;109 width of flute profile strip below strip-shaped hole 103 is big
In the width of strip-shaped hole 103,111 width of top clamp plate above strip-shaped hole 103 is greater than the width of strip-shaped hole 103, makes to slide
Dynamic substrate 110 and vertical rack plate 113 are stuck in strip-shaped hole 103 and slide;The two lens group 116 of two eyeglass assemblies 104 is put down
It is adjacent to flatten sliding surface 1;The tooth form of two 104 vertical rack plates 113 of eyeglass assembly is identical;
The structure of decelerating motor assembly 102: including L shape supporting plate 119, decelerating motor 120, guiding bar 121, spill trip
Dynamic card 122;Decelerating motor 120 is fixed on one end of L shape supporting plate 119, and the rotation axis of decelerating motor 120 is threaded shaft
124, the threaded shaft 124 and L shape supporting plate 119 of decelerating motor 120 are rotatablely connected;Be additionally provided on L shape supporting plate 119 with
The parallel guiding bar 121 of threaded shaft 124;Spill travelling card 122, spill travelling are cased in threaded shaft 124 and guiding bar 121
Card 122 is threadedly coupled with threaded shaft 124, and spill travelling card 122 is with guiding bar 121 to be slidably connected;Spill travelling card 122
It is driven by the rotation of threaded shaft 124, and is slided along guiding bar 121;
The connection structure of one decelerating motor assembly 102, diplopore stripe board 101 and an eyeglass assembly 104: decelerating motor
The L shape supporting plate 119 of assembly 102 is fixed on one end of diplopore stripe board 101, in the top clamp plate 111 of eyeglass assembly 104
It is equipped with convex block 123 above;Spill travelling card the upper surface of 122 and 104 top clamp plate 111 of eyeglass assembly of decelerating motor assembly 102
It is connected together equipped with convex block 123;
Transmission order is: the rotation of decelerating motor 120, threaded shaft 124 and guiding bar 121 make spill travelling 122 straight lines of card
Sliding, spill travelling, which block 122, which blocks linear slide convex block 123, makes 111 linear slide of top clamp plate, top clamp plate 111 drive one
A eyeglass assembly 104 linear slide in a strip-shaped hole 103 of diplopore stripe board 101;Divide in two decelerating motor assemblies 102
Other two decelerating motors 120 respectively drive the two lens group 116 of an eyeglass assembly 104 to move;
More vertical equidistant zoom stripe surface eyeglasses 222 include two opposite transparent surfaces, and one is smooth even surface
1, the other is the more stripe surfaces of zoom (2);The more stripe surfaces of zoom (2) are that multiple equidistant width bar shaped curved surfaces (3) are parallel side by side
It forms, makes the more stripe surfaces of zoom (2) cross section at equidistant width sawtooth corrugation shape structure,
Each the strip width d of equidistant width bar shaped curved surface 3 side by side is equal, and the range of each strip width d is
0.5mm is to some value between 3.0mm;
The lens strength numerical value of the same equidistant width bar shaped curved surface 3 is identical, and the same equidistant width bar shaped is bent
Whole lens focus in face 3 are point-blank;
The lens of the equidistant width bar shaped curved surface 3 of whole of same more vertical equidistant zoom stripe surface eyeglasses 222
Focus line is parallel to each other;
The very poor N of diopter numerical value of same more vertical equidistant zoom stripe surface eyeglasses 222 be 10 degree to 100 degree it
Between some value;
The equidistant width bar shaped curved surface 3 of whole of same more vertical equidistant zoom stripe surface eyeglasses 222 is arranged side by side
Column, and the very poor N of lens strength numerical value is identical.
3 separator bar 5 of equidistant width bar shaped curved surface and the diplopore stripe board 101 of the vertical diopter striped eyeglass 105 of root
Structure is as follows:
The equidistant width bar shaped of the whole of two eyeglass assemblies 104 more vertical equidistant zoom stripe surface eyeglasses 222
3 separator bar 5 of curved surface and the angle a of diplopore stripe board 101 are 90 degree.
The equidistant width bar shaped curved surface 3 of whole of more than one vertical equidistant zoom stripe surface eyeglass 222 is arranged side by side
Structure is as follows,
The equidistant 3 lens dioptric of width bar shaped curved surface of whole of more than one vertical equidistant zoom stripe surface eyeglass 222
The very poor N of degree value is identical, and lens strength numerical value is that 200 degree to -800 of specific arranged distribution is as follows:
In above-mentioned table:
Ordinal number refers to: 1 to 41 refers to the sequence number of totally 41 equidistant width bar shaped curved surfaces 3;
Degree refers to: the lens strength numerical value of the equidistant width bar shaped curved surface 3 of each sequence number;
Width refers to: the strip width d of equidistant width bar shaped curved surface 3 is 1.0mm each of side by side;
The very poor N of lens strength numerical value in above-mentioned table is 25 degree.
(3), glasses lens drive device (202) is connected to the structure in frame main casing (206): glasses lens drive device (202)
Diplopore stripe board (101) is screwed and connect with the overhead gage (211) of glasses shell (201) or side baffle (213);Eyeglass drives
Two two lens groups (116) of dynamic device (202) are all fastened among the eyeglass card slot (206) in frame main casing (206), and two
Two lens group (116) can guarantee that gap is stable among eyeglass card slot (206), can smoothly move again.
(4), the electrical connection of component: power supply connect power supply with controller, range sensor (215), decelerating motor (102),
Controller is connect with the data line of range sensor (215).
Embodiment 2, the eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass
Such as Fig. 1,2,3,4,5,6,7,8,9,10,
It is only different with regard to the following contents such as the primary structure of embodiment 1:
3 separator bar 5 of equidistant width bar shaped curved surface and the diplopore stripe board 101 of the vertical diopter striped eyeglass 105 of root
Structure is as follows:
The equidistant width bar shaped of the whole of one eyeglass assembly 104 more vertical equidistant zoom stripe surface eyeglasses 222
3 separator bar 5 of curved surface and the angle a of diplopore stripe board 101 are 90 degree.
The equidistant width item of the whole of another eyeglass assembly 104 more vertical equidistant zoom stripe surface eyeglasses 222
3 separator bar 5 of shape curved surface and the angle a of diplopore stripe board 101 are 70 degree.
The equidistant width bar shaped of the whole of two eyeglass assemblies 104 more vertical equidistant zoom stripe surface eyeglasses 222
3 separator bar 5 of curved surface is at 20 degree of angle.
The equidistant width bar shaped curved surface 3 of whole of more than one vertical equidistant zoom stripe surface eyeglass 222 is arranged side by side
Structure is as follows,
The equidistant 3 lens dioptric of width bar shaped curved surface of whole of more than one vertical equidistant zoom stripe surface eyeglass 222
The very poor N of degree value is identical, and lens strength numerical value is that 200 degree to -800 of specific arranged distribution is as follows:
In above-mentioned table:
Ordinal number refers to: 1 to 41 refers to the sequence number of totally 41 equidistant width bar shaped curved surfaces 3;
Degree refers to: the lens strength numerical value of the equidistant width bar shaped curved surface 3 of each sequence number;
Width refers to: the strip width d of equidistant width bar shaped curved surface 3 is 1.0mm each of side by side;
The very poor N of lens strength numerical value in above-mentioned table is 25 degree.
Claims (1)
1. the eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass, it is characterised in that: including glasses shell
(201), and the glasses lens drive device (202), the controller, power supply that are located in glasses shell, and for fixing glasses in the number of people
On elastic band;
(1), the structure of glasses shell (201): including a frame main casing (206) and it is rotatably connected on frame main casing (206) two
The small trapezoidal shell (207) of two of side;Frame main casing (206) includes mirror case (208) and mirror rear cover (209), and mirror case (208) includes mirror
Front cover (210), overhead gage (211), lower baffle plate (212), two sides two pieces of side baffles (213);The outside of two pieces of side baffles (213)
It is rotatablely connected respectively with two small trapezoidal shell (207);Lower baffle plate (212) in mirror case (208) is equipped with two parallel raised lines
(214), at least a raised line (214) and lower baffle plate (212) are that the rotation with elasticity connects in two parallel raised lines (214)
It connects, i.e., at least one is with elastic rotation raised line (214);Groove between two parallel raised lines (214) is eyeglass card
Slot (206);
Mirror front cover (210) is separately positioned on two small trapezoidal shell (207) equipped with range sensor (215) controller and power supply
Among;The both ends of elastic band are separately connected on two small trapezoidal shell (207) mirror rear cover (209) and mirror front cover (210) and all set respectively
Whether there is or not the plate glass of focal length (215);
(2), the structure of glasses lens drive device (202): glasses lens drive device (202) includes diplopore stripe board (101), solid respectively
Two decelerating motor assemblies (102) at diplopore stripe board (101) both ends above are scheduled on, in two items of diplopore stripe board (101)
Two eyeglass assemblies (104) being slidably connected are respectively equipped in shape hole (103);
The structure of diplopore stripe board (101): strip-shaped hole (103) parallel to each other there are two being set in one piece of stripe board, the strip-shaped hole
(103) stripe board is divided into outer panel (106), middle partition (107), interior plate (108);
The structure of eyeglass assembly (104): sequentially connected mutually from bottom to top to have more vertical equidistant zoom stripe surface eyeglasses
(222), flute profile strip (109), sliding substrate (110), top clamp plate (111) more vertical equidistant zoom stripeds of eyeglass are connected
The top margin (112) of face eyeglass (222) is entrapped in the card slot of flute profile strip (109), makes more vertical equidistant zoom stripe surface mirrors
Piece (222) is fixedly connected with flute profile strip (109);The upper surface of flute profile strip (109) is fixedly connected with sliding substrate (110), in sliding base
The side of plate (110) is bolted the upper surface of vertical rack plate (113) vertical rack plate (113) and is connected with top clamp plate
(111);The width of the overall thickness of sliding substrate (110) and vertical rack plate (113) and diplopore stripe board (101) strip-shaped hole (103)
Spend into the size of tight fit;More vertical equidistant zoom stripe surface eyeglasses (222) are divided into smooth even surface (1) and zoom is a plurality of
Line face (2);More than two pieces vertical equidistant zoom stripe surface eyeglass (222) is connected in one flute profile strip (109), this is more than two pieces
For the smooth even surface (1) of the vertical equidistant zoom stripe surface eyeglass (222) of root to the same face, this more than two pieces vertical equidistant
The more stripe surfaces of zoom (2) of zoom stripe surface eyeglass (222) are to the same face;More than two pieces of the middle connection of one flute profile strip (109)
Root vertically equidistant zoom stripe surface eyeglass (222) at a two lens group (116);
The connection structure of diplopore stripe board (101) and eyeglass assembly (104): (101) two items parallel to each other of diplopore stripe board
Card has the sliding substrate (110) and vertical rack plate (113) of an eyeglass assembly (104), two eyeglasses respectively in shape hole (103)
The vertical rack plate (113) of assembly (104) is adjacent with middle partition (107) two sides of diplopore stripe board (101) respectively;Strip-shaped hole
(103) be stuck in sliding substrate therein (110) and vertical rack plate (113) and contacted at slidable tight fit;Positioned at bar shaped
Flute profile strip (109) width of hole (103) below is greater than the width of strip-shaped hole (103), is located at the top folder of strip-shaped hole (103) above
Plate (111) width is greater than the width of strip-shaped hole (103), and sliding substrate (110) and vertical rack plate (113) is made to be stuck in strip-shaped hole
(103) sliding in;The smooth even surface (1) of the two lens group (116) of two eyeglass assemblies (104) is adjacent;Two eyeglass assemblies
(104) tooth form of vertical rack plate (113) is identical;
The structure of decelerating motor assembly (102): including L shape supporting plate (119), decelerating motor (120), guiding bar (121), recessed
Shape travelling card (122);Decelerating motor (120) is fixed on one end of L shape supporting plate (119), the rotation axis of decelerating motor (120)
For threaded shaft (124), the threaded shaft (124) of decelerating motor (120) and L shape supporting plate (119) are rotatablely connected;L shape
The guiding bar parallel with threaded shaft (124) (121) are additionally provided on supporting plate (119);In threaded shaft (124) and guiding bar
(121) it is cased with spill travelling card (122), spill travelling card (122) is threadedly coupled with threaded shaft (124), spill travelling card
(122) with guiding bar (121) to be slidably connected;Spill travelling card (122) is driven by the rotation of threaded shaft (124), and edge
Guiding bar (121) sliding;
One decelerating motor assembly (102), diplopore stripe board (101) and an eyeglass assembly (104) connection structure: slow down electricity
The L shape supporting plate (119) of machine assembly (102) is fixed on one end of diplopore stripe board (101), on the top of eyeglass assembly (104)
The upper surface of portion's clamping plate (111) is equipped with convex block (123);The spill travelling card (122) and eyeglass assembly of decelerating motor assembly (102)
(104) the upper surface of top clamp plate (111) is equipped with convex block (123) and is connected together;
Transmission order is: decelerating motor (120) rotation, threaded shaft (124) and guiding bar (121) make spill travelling card (122)
Linear slide, spill travelling, which block (122), which blocks linear slide convex block (123), makes top clamp plate (111) linear slide, top clamp plate
(111) an eyeglass assembly (104) linear slide in a strip-shaped hole (103) of diplopore stripe board (101) is driven;Two subtract
Two decelerating motors (120) in speed motor assembly (102) respectively respectively drive the two lens of an eyeglass assembly (104)
Group (116) movement;
More vertical equidistant zoom stripe surface eyeglasses (222) include two opposite transparent surfaces, and one is smooth even surface
(1), the other is the more stripe surfaces of zoom (2);The more stripe surfaces of zoom (2) are that multiple equidistant width bar shaped curved surfaces (3) are parallel simultaneously
It arranges, makes the more stripe surfaces of zoom (2) cross section at equidistant width sawtooth corrugation shape structure,
Each the strip width d of equidistant width bar shaped curved surface (3) side by side is equal, and the range of each strip width d is 0.5mm
To some value between 3.0mm;
The lens strength numerical value of the same equidistant width bar shaped curved surface (3) is identical, the same equidistant width bar shaped curved surface
(3) whole lens focus are point-blank;
The lens of the equidistant width bar shaped curved surface (3) of whole of same more vertical equidistant zoom stripe surface eyeglasses (222)
Focus line is parallel to each other;
The very poor N of diopter numerical value of same more vertical equidistant zoom stripe surface eyeglasses (222) is between 10 degree to 100 degree
Some value;
The equidistant width bar shaped curved surface (3) of whole of same more vertical equidistant zoom stripe surface eyeglasses (222) is arranged side by side
Column, and the very poor N of lens strength numerical value is identical;
The angle a of separator bar (5) and diplopore stripe board (101) between any two neighboring equidistant width bar shaped curved surface (3)
For some value between 70 degree to 90 degree;
(3), glasses lens drive device (202) is connected to the structure in frame main casing (206): the diplopore of glasses lens drive device (202)
Stripe board (101) is screwed and connect with the overhead gage (211) of glasses shell (201) or side baffle (213);Eyeglass driving dress
Two two lens groups (116) for setting (202) are all fastened among the eyeglass card slot (206) in frame main casing (206), two bimirrors
Piece group (116) can guarantee that gap is stable among eyeglass card slot (206), can smoothly move again;
(4), the electrical connection of component: power supply connect power supply with controller, range sensor (215), decelerating motor (102), control
Device is connect with the data line of range sensor (215).
Priority Applications (1)
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CN201811655129.0A CN109597218A (en) | 2018-12-27 | 2018-12-27 | Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass |
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CN201811655129.0A CN109597218A (en) | 2018-12-27 | 2018-12-27 | Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass |
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CN201811655129.0A Pending CN109597218A (en) | 2018-12-27 | 2018-12-27 | Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110007484A (en) * | 2019-05-24 | 2019-07-12 | 江苏睿世力科技有限公司 | A kind of accurate Zoom glasses |
CN110568627A (en) * | 2019-09-04 | 2019-12-13 | 爱诺刻(深圳)高科有限公司 | Control method of zoom glasses |
CN112130345A (en) * | 2020-10-21 | 2020-12-25 | 江苏睿世力科技有限公司 | A speed reduction module for zooming of intelligent glasses |
CN112684571A (en) * | 2021-01-19 | 2021-04-20 | 江苏睿世力科技有限公司 | Zoom driving device of intelligent glasses and intelligent glasses |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107463002A (en) * | 2017-04-27 | 2017-12-12 | 陈奎 | The unified horizontal double-motor driving device slided of the overlapping eyeglass eyes of vision correction |
CN209690654U (en) * | 2018-12-27 | 2019-11-26 | 陈奎 | Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass |
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2018
- 2018-12-27 CN CN201811655129.0A patent/CN109597218A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107463002A (en) * | 2017-04-27 | 2017-12-12 | 陈奎 | The unified horizontal double-motor driving device slided of the overlapping eyeglass eyes of vision correction |
CN209690654U (en) * | 2018-12-27 | 2019-11-26 | 陈奎 | Eyesight correcting glasses with the unified sliding of horizontal Dual-motors Driving overlapping eyeglass |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110007484A (en) * | 2019-05-24 | 2019-07-12 | 江苏睿世力科技有限公司 | A kind of accurate Zoom glasses |
CN110007484B (en) * | 2019-05-24 | 2024-06-04 | 严玲 | Accurate zoom glasses |
CN110568627A (en) * | 2019-09-04 | 2019-12-13 | 爱诺刻(深圳)高科有限公司 | Control method of zoom glasses |
CN112130345A (en) * | 2020-10-21 | 2020-12-25 | 江苏睿世力科技有限公司 | A speed reduction module for zooming of intelligent glasses |
CN112130345B (en) * | 2020-10-21 | 2024-01-23 | 江苏睿世力科技有限公司 | A speed reduction module for intelligent glasses zoom |
CN112684571A (en) * | 2021-01-19 | 2021-04-20 | 江苏睿世力科技有限公司 | Zoom driving device of intelligent glasses and intelligent glasses |
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