CN205459722U - Visual function optimizes trainer - Google Patents

Abstract

The utility model discloses a visual function optimizes trainer, including preceding zoom lens, back zoom lens, preceding translation actuating mechanism, back translation actuating mechanism, support and automatically controlled board, preceding zoom lens and back zoom lens all set up two side by side to zoom lens's rear before back zoom lens is located, preceding translation actuating mechanism and back two preceding zoom lens of translation actuating mechanism separately -driven and two back zoom lens control the removal on the horizontal direction, preceding translation actuating mechanism and back translation actuating mechanism all install on the support to all be connected with automatically controlled board electricity, be equipped with wiredly and/or wireless communication module on the automatically controlled board. The utility model discloses small, convenient to use, zoom range are very big, simultaneously the utility model discloses a wired on the automatically controlled board and/or wireless communication module can respond the training scheme at any time, and the training effect is very good.

Description

A kind of visual performance optimizes training devices

Technical field

This utility model relates to a kind of visual performance optimization training devices.

Background technology

Along with the progress of society, people's use to the electronic video appliance such as computer, mobile phone in work and life Rate is more and more higher, if can not reasonably be trained and have a rest, is susceptible to myopia or deepens myopia degree Number.But, the most most visual rehabilitation training need is carried out to special rehabilitation institution, and this will Directly influence whether normal working and learning, great inconvenience can be brought to daily life.

Utility model content

It is little that the purpose of this utility model is to provide a kind of volume, easy to use, and zooming range is big, and training effect is good Visual performance optimize training devices.

The technical scheme realizing this utility model purpose is: a kind of visual performance optimizes training devices, including front change Focus lens, rear focus-variable lens, front translational drive mechanism, rear translational drive mechanism, support and electric-controlled plate；Described After front focus-variable lens and rear focus-variable lens are all arranged side by side two pieces, and rear focus-variable lens is positioned at front focus-variable lens Side；Described front translational drive mechanism and rear translational drive mechanism become after focus-variable lens and two pieces before driving two pieces respectively Focus lens moves left and right in the horizontal direction；Described front translational drive mechanism and rear translational drive mechanism are installed in On support, and all electrically connect with electric-controlled plate；Described electric-controlled plate is provided with wiredly and/or wirelessly communication module.

Described front translational drive mechanism is upper eyeglass seat, front lower eyeglass seat, lower tooth plate and lower lead screw motor before including； Before described two pieces, the two ends up and down of focus-variable lens are separately fixed on front upper eyeglass seat and front lower eyeglass seat；Before described Upper eyeglass seat and front lower eyeglass seat slide laterally with support and are connected；One end of described lower tooth plate is solid with front lower eyeglass seat Fixed connection, the other end is provided with the helical teeth that the external screw thread with the screw mandrel of lower lead screw motor engages；Described lower lead screw motor It is fixed on the bottom of support and electrically connects with electric-controlled plate；Described lower lead screw motor is monolithic construction, or by silk Bar and motor are formed by connecting by shaft coupling.

Described support is provided with the front upper sliding axle of horizontally set and front lower sliding axle；Upper sliding axle and front before described Downslide moving axis is separately mounted to upper-end front and the lower-end front portion of support by bearing；Upper eyeglass seat and front before described Lower eyeglass seat is slidably connected with front upper sliding axle and front lower sliding axle respectively.

Upper mirror before the two ends up and down of focus-variable lens are adhesively fixed on respectively by ultraviolet cured adhesive before described two pieces On bar and front lower eyeglass seat.

It is equipped with draw-in groove on upper eyeglass seat and front lower eyeglass seat before described；Before described two pieces up and down the two of focus-variable lens In holding the draw-in groove of above eyeglass seat and front lower eyeglass seat before being adhesively fixed on respectively by ultraviolet cured adhesive.

Described front translational drive mechanism also includes the front focus-variable lens translation limit switch electrically connected with electric-controlled plate；Institute State front focus-variable lens translation limit switch to be fixed on support, and be positioned at the limit position of front lower eyeglass seat horizontal displacement Put；Described front lower eyeglass seat is provided with and can match down with the mechanical contact of front focus-variable lens translation limit switch Impactor.

Described rear translational drive mechanism is upper eyeglass seat, rear lower eyeglass seat, upper tooth plate and upper screw rod motor after including； After described two pieces on the upper eyeglass seat after two ends are separately fixed at up and down of focus-variable lens and rear lower eyeglass seat；After described Upper eyeglass seat and rear lower eyeglass seat slide laterally with support and are connected；One end of described upper tooth plate is solid with rear upper eyeglass seat Fixed connection, the other end is provided with the helical teeth that the external screw thread with the screw mandrel of upper screw rod motor engages；Described upper screw rod motor It is fixed on the top of support and electrically connects with electric-controlled plate；Described upper screw rod motor is monolithic construction, or by silk Bar and motor are formed by connecting by shaft coupling.

Described support is provided with the rear upper sliding axle of horizontally set and rear downslide moving axis；After described upper sliding axle and after Downslide moving axis is separately mounted to upper rear and the lower-end rear portion of support by bearing；After described upper eyeglass seat and after Lower eyeglass seat is slidably connected with rear upper sliding axle and rear downslide moving axis respectively.

Upper mirror after the two ends up and down of focus-variable lens are adhesively fixed on respectively by ultraviolet cured adhesive after described two pieces On bar and rear lower eyeglass seat.

It is equipped with draw-in groove on upper eyeglass seat and rear lower eyeglass seat after described；After described two pieces up and down the two of focus-variable lens In holding the draw-in groove of above eyeglass seat and rear lower eyeglass seat after being adhesively fixed on respectively by ultraviolet cured adhesive.

Described rear translational drive mechanism also includes the rear focus-variable lens translation limit switch electrically connected with electric-controlled plate；Institute State rear focus-variable lens translation limit switch to be fixed on support, and the limit position of upper eyeglass seat horizontal displacement after being positioned at Put；Described rear upper eyeglass seat is provided with can be upper with what the mechanical contact of rear focus-variable lens translation limit switch matched Impactor.

Have employed technique scheme, this utility model has a following beneficial effect: (1) this utility model body Long-pending little, easy to use, varifocal mirror before driving two pieces respectively by front translational drive mechanism and rear translational drive mechanism After sheet and two pieces, focus-variable lens moves left and right in the horizontal direction such that it is able to obtain the biggest zooming range, This utility model can respond training side at any time by the wiredly and/or wirelessly communication module on electric-controlled plate simultaneously Case, training effect is the best.

(2) front translational drive mechanism of the present utility model and rear translational drive mechanism use motor to drive screw mandrel Transmission, stability is the best, and mobile accuracy is high.

(3) this utility model fixes front focus-variable lens and rear focus-variable lens by ultraviolet cured adhesive, operation Simply, not easily broken, simplify equipment volume.

(4) it is equipped with, on each eyeglass seat of the present utility model, the draw-in groove coordinated with corresponding focus-variable lens so that The assembling of each focus-variable lens is very convenient, and the depth of parallelism between each focus-variable lens is the highest.

(5) this utility model limits front focus-variable lens and the displacement of rear focus-variable lens by translation limit switch The limit, effectively prevent overtravel and moves, improve safety, extend service life.

Accompanying drawing explanation

In order to make content of the present utility model be easier to be clearly understood, below according to specific embodiment and combine Accompanying drawing, is described in further detail this utility model, wherein

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the rearview of Fig. 1.

Fig. 3 is the upward view of Fig. 1.

Fig. 4 is the structural representation of rear translational drive mechanism of the present utility model.

Detailed description of the invention

(embodiment 1)

Seeing Fig. 1 to Fig. 4, the visual performance of the present embodiment optimizes training devices, including front focus-variable lens 1, after Focus-variable lens 2, front translational drive mechanism 3, rear translational drive mechanism 4, support 5 and electric-controlled plate 6.

Front focus-variable lens 1 and rear focus-variable lens 2 are all arranged side by side two pieces, and rear focus-variable lens 2 is positioned at front change The rear of focus lens 1.Before front translational drive mechanism 3 drives two pieces, focus-variable lens 1 left and right in the horizontal direction is moved Dynamic.After rear translational drive mechanism 4 drives two pieces, focus-variable lens 2 moves left and right in the horizontal direction.Front translation is driven Motivation structure 3 and rear translational drive mechanism 4 are installed on support 5, and all electrically connect with electric-controlled plate 6.Automatically controlled Plate 6 is provided with wiredly and/or wirelessly communication module.

Front translational drive mechanism 3 is upper eyeglass seat 3-1, front lower eyeglass seat 3-2, lower tooth plate 3-3 and lower silk before including Bar motor 3-4.It is equipped with draw-in groove on front upper eyeglass seat 3-1 and front lower eyeglass seat 3-2.Focus-variable lens 1 before two pieces Two ends up and down be adhesively fixed on respectively by ultraviolet cured adhesive before upper eyeglass seat 3-1 and front lower eyeglass seat 3-2 Draw-in groove in.Support 5 is provided with the front upper sliding axle 5-1 and front lower sliding axle 5-2 of horizontally set.Front sliding Moving axis 5-1 and front lower sliding axle 5-2 is separately mounted to upper-end front and the lower-end front portion of support 5 by bearing. Front upper eyeglass seat 3-1 and front lower eyeglass seat 3-2 slides with front upper sliding axle 5-1 and front lower sliding axle 5-2 respectively Connect.One end of lower tooth plate 3-3 is fixing with front lower eyeglass seat 3-2 to be connected, and the other end is provided with and lower lead screw motor The helical teeth of the external screw thread engagement of the screw mandrel of 3-4.Lower lead screw motor 3-4 is fixed on the bottom of support 5 and with automatically controlled Plate 6 electrically connects.Lower lead screw motor 3-4 is monolithic construction, or is connected by shaft coupling by screw mandrel and motor Form.

Front translational drive mechanism 3 also includes the front focus-variable lens translation limit switch electrically connected with electric-controlled plate 6.Before Focus-variable lens translation limit switch is fixed on support 5, and is positioned at the limit of front lower eyeglass seat 3-2 horizontal displacement Position.Front lower eyeglass seat 3-2 is provided with and can match with the mechanical contact of front focus-variable lens translation limit switch Lower Impactor.

Rear translational drive mechanism 4 is upper eyeglass seat 4-1, rear lower eyeglass seat 4-2, upper tooth plate 4-3 and upper silk after including Bar motor 4-4.It is equipped with draw-in groove on rear upper eyeglass seat 4-1 and rear lower eyeglass seat 4-2.Focus-variable lens 2 after two pieces Two ends up and down be adhesively fixed on respectively by ultraviolet cured adhesive after upper eyeglass seat 4-1 and rear lower eyeglass seat 4-2 Draw-in groove in.Support 5 is provided with the rear upper sliding axle 5-3 and rear downslide moving axis 5-4 of horizontally set.Rear sliding Moving axis 5-3 and rear downslide moving axis 5-4 is separately mounted to upper rear and the lower-end rear portion of support 5 by bearing. Rear upper eyeglass seat 4-1 and rear lower eyeglass seat 4-2 slides with rear upper sliding axle 5-3 and rear downslide moving axis 5-4 respectively Connect.One end of upper tooth plate 4-3 is fixing with rear upper eyeglass seat 4-1 to be connected, and the other end is provided with and upper screw rod motor The helical teeth of the external screw thread engagement of the screw mandrel of 4-4.Upper screw rod motor 4-4 is fixed on the top of support 5 and with automatically controlled Plate 6 electrically connects.Upper screw rod motor 4-4 is monolithic construction, or is connected by shaft coupling by screw mandrel and motor Form.

Rear translational drive mechanism 4 also includes the rear focus-variable lens translation limit switch electrically connected with electric-controlled plate 6.After Focus-variable lens translation limit switch is fixed on support 5, and the limit of upper eyeglass seat 4-1 horizontal displacement after being positioned at Position.Rear upper eyeglass seat 4-1 is provided with and can match with the mechanical contact of rear focus-variable lens translation limit switch Upper Impactor 4-1-1.

Particular embodiments described above, is carried out the purpose of this utility model, technical scheme and beneficial effect Further describe, be it should be understood that and the foregoing is only specific embodiment of the utility model, It is not limited to this utility model, all within spirit of the present utility model and principle, any amendment of being made, Equivalent, improvement etc., within should be included in protection domain of the present utility model.

Claims (11)

1. a visual performance optimizes training devices, it is characterised in that: include front focus-variable lens (1), become afterwards Focus lens (2), front translational drive mechanism (3), rear translational drive mechanism (4), support (5) and electric-controlled plate (6)；Described front focus-variable lens (1) and rear focus-variable lens (2) are all arranged side by side two pieces, and rear varifocal mirror Sheet (2) is positioned at the rear of front focus-variable lens (1)；Described front translational drive mechanism (3) and rear driven in translation Mechanism (4) drive two pieces respectively before focus-variable lens (2) is in the horizontal direction after focus-variable lens (1) and two pieces Move left and right；Described front translational drive mechanism (3) and rear translational drive mechanism (4) are installed in support (5) On, and all electrically connect with electric-controlled plate (6)；Described electric-controlled plate (6) is provided with the mould that wiredly and/or wirelessly communicates Block.

A kind of visual performance the most according to claim 1 optimizes training devices, it is characterised in that: described Front translational drive mechanism (3) is upper eyeglass seat (3-1), front lower eyeglass seat (3-2), lower tooth plate (3-3) before including With lower lead screw motor (3-4)；Upper mirror before the two ends up and down of focus-variable lens (1) are separately fixed at before described two pieces On bar (3-1) and front lower eyeglass seat (3-2)；Upper eyeglass seat (3-1) and front lower eyeglass seat (3-2) before described Slide laterally with support (5) and be connected；One end of described lower tooth plate (3-3) is solid with front lower eyeglass seat (3-2) Fixed connection, the other end is provided with the helical teeth that the external screw thread with the screw mandrel of lower lead screw motor (3-4) engages；Under described Lead screw motor (3-4) is fixed on the bottom of support (5) and electrically connects with electric-controlled plate (6)；Described lower screw mandrel Motor (3-4) is monolithic construction, or is formed by connecting by shaft coupling by screw mandrel and motor.

A kind of visual performance the most according to claim 2 optimizes training devices, it is characterised in that: described Support (5) is provided with front upper sliding axle (5-1) and the front lower sliding axle (5-2) of horizontally set；On before described Sliding axle (5-1) and front lower sliding axle (5-2) are separately mounted to the upper-end front of support (5) by bearing And lower-end front portion；Before described upper eyeglass seat (3-1) and front lower eyeglass seat (3-2) respectively with front upper sliding axle (5-1) It is slidably connected with front lower sliding axle (5-2).

A kind of visual performance the most according to claim 2 optimizes training devices, it is characterised in that: described Upper eyeglass seat before the two ends up and down of focus-variable lens (1) are adhesively fixed on respectively by ultraviolet cured adhesive before two pieces (3-1) and front lower eyeglass seat (3-2) on.

A kind of visual performance the most according to claim 4 optimizes training devices, it is characterised in that: described It is equipped with draw-in groove on front upper eyeglass seat (3-1) and front lower eyeglass seat (3-2)；Focus-variable lens (1) before described two pieces Two ends up and down be adhesively fixed on respectively by ultraviolet cured adhesive before upper eyeglass seat (3-1) and front lower eyeglass seat (3-2) in draw-in groove.

A kind of visual performance the most according to claim 2 optimizes training devices, it is characterised in that: described Front translational drive mechanism (3) also includes the front focus-variable lens translation limit switch electrically connected with electric-controlled plate (6)； Described front focus-variable lens translation limit switch is fixed on support (5), and is positioned at front lower eyeglass seat (3-2) water The extreme position that prosposition moves；Described front lower eyeglass seat (3-2) is provided with can spacing with the translation of front focus-variable lens open The lower Impactor that the mechanical contact closed matches.

A kind of visual performance the most according to claim 1 optimizes training devices, it is characterised in that: described Rear translational drive mechanism (4) is upper eyeglass seat (4-1), rear lower eyeglass seat (4-2), upper tooth plate (4-3) after including With upper screw rod motor (4-4)；The upper mirror after two ends are separately fixed at up and down of focus-variable lens (2) after described two pieces On bar (4-1) and rear lower eyeglass seat (4-2)；Upper eyeglass seat (4-1) and rear lower eyeglass seat (4-2) after described Slide laterally with support (5) and be connected；One end of described upper tooth plate (4-3) is solid with rear upper eyeglass seat (4-1) Fixed connection, the other end is provided with the helical teeth that the external screw thread with the screw mandrel of upper screw rod motor (4-4) engages；On described Lead screw motor (4-4) is fixed on the top of support (5) and electrically connects with electric-controlled plate (6)；Described upper screw rod Motor (4-4) is monolithic construction, or is formed by connecting by shaft coupling by screw mandrel and motor.

A kind of visual performance the most according to claim 7 optimizes training devices, it is characterised in that: described Support (5) is provided with rear upper sliding axle (5-3) and the rear downslide moving axis (5-4) of horizontally set；On after described Sliding axle (5-3) and rear downslide moving axis (5-4) are separately mounted to the upper rear of support (5) by bearing And lower-end rear portion；After described upper eyeglass seat (4-1) and rear lower eyeglass seat (4-2) respectively with rear upper sliding axle (5-3) It is slidably connected with rear downslide moving axis (5-4).

A kind of visual performance the most according to claim 7 optimizes training devices, it is characterised in that: described Upper eyeglass seat after the two ends up and down of focus-variable lens (2) are adhesively fixed on respectively by ultraviolet cured adhesive after two pieces (4-1) and rear lower eyeglass seat (4-2) on.

A kind of visual performance the most according to claim 9 optimizes training devices, it is characterised in that: described It is equipped with draw-in groove on rear upper eyeglass seat (4-1) and rear lower eyeglass seat (4-2)；Focus-variable lens (2) after described two pieces Two ends up and down be adhesively fixed on respectively by ultraviolet cured adhesive after upper eyeglass seat (4-1) and rear lower eyeglass seat (4-2) in draw-in groove.

11. a kind of visual performances according to claim 7 optimize training devices, it is characterised in that: described Rear translational drive mechanism (4) also includes the rear focus-variable lens translation limit switch electrically connected with electric-controlled plate (6)； Described rear focus-variable lens translation limit switch is fixed on support (5), and upper eyeglass seat (4-1) water after being positioned at The extreme position that prosposition moves；After described, upper eyeglass seat (4-1) is provided with and can spacing with the translation of rear focus-variable lens open The upper Impactor (4-1-1) that the mechanical contact closed matches.