CN202815348U - Intelligent presbyopic glasses - Google Patents

Abstract

The embodiment of the utility model discloses intelligent presbyopic glasses for continuously adjusting focuses of lenses of the presbyopic glasses. The intelligent presbyopic glasses comprise a glasses frame, adjustable lenses and an adjusting controller, wherein the adjustable lenses are placed on the glasses frame, and the adjustable lenses are used for adjusting focuses of the lenses according to control signals sent by the adjusting controller; and the adjusting controller is arranged on any leg of the glasses frame, and the adjusting controller is used for sending the corresponding control signals to the adjustable lenses according to the action of a user. Through the intelligent presbyopic glasses, the focuses of the lenses can be automatically adjusted according to the current vision activity of the user, and the adjustment of the focuses is continuously changed, so that the user does not need to spend time on adapting, and the dizziness brought to the user when the focuses are adjusted in the conventional technical scheme is avoided at the same time.

Description

A kind of intelligent presbyopic glasses

Technical field

The utility model relates to the presbyopic glasses design field, relates in particular to a kind of intelligent presbyopic glasses.

Background technology

Presbyopia (Presbyopia) is a kind ofly to cause the phenomenon of looking nearly difficulty owing to human eyeball regulating power descends gradually, and the presbyopia patient must add in addition convex lens and could obtain clearly near vision near work outside its static refraction is corrected.The adult especially surpasses 45 years old adult, and major part all can progressively enter the presbyopia stage.The presbyopia needs of patients is worn presbyopic glasses and is carried out closely eyesight activity, for example watches books, newspaper, but when the presbyopia needs of patients further carries out remote eyesight activity, then needs to take off one's presbyopic glasses and just can see remote object clearly.Wear frequently and win presbyopic glasses and cause very big inconvenience in life to the presbyopia patient.

At present, the presbyopia patient can use a kind of multifocal some presbyopic glasses to obtain simultaneously closely eyesight and remote eyesight.The eyeglass of multifocal some presbyopic glasses adopts the special lenses with a plurality of progressive focuses, a plurality of fixing focuses are generally arranged, no matter the presbyopia patient can both find suitable focus when carrying out closely eyesight activity or remote eyesight activity, thereby only wear secondary presbyopic glasses, just can obtain simultaneously closely eyesight and remote eyesight.

But, the user of multifocal some presbyopic glasses need to need to expend two weeks even longer time when wearing at first, allow eyeball adapt to these multifocal some presbyopic glasses, in addition, because the focal variation of multifocal some presbyopic glasses is not continuous, carrying out to bring dizzy sense to the user when focus is adjusted.

The utility model content

In order to address the above problem, the utility model provides a kind of intelligent presbyopic glasses, be used for carrying out continuous focus adjustment at the lens of presbyopic glasses, by implementing the utility model scheme, the focus that can automatically regulate lens according to the current eyesight activity of user, and the adjusting of this focus is continually varying, so that need not to expend time in, the user adapts to, simultaneously also avoided carrying out in the prior art scheme focus and brought dizzy sense to the user when adjusting, and further still can regulate again the presbyopic number of degrees of near-sighted distance after the intensification and needn't purchase again in addition how secondary presbyopic glasses when user's presbyopic degree.

A kind of intelligent presbyopic glasses, comprise spectacle frame, described intelligent presbyopic glasses also comprise: adjustable lens and adjustment control, described adjustable lens are positioned on the lens frame of described spectacle frame, and the control signal that described adjustable lens is used for sending according to described adjustment control is regulated the focus of self; Described adjustment control is arranged on arbitrary foot rest of described spectacle frame, and described adjustment control is used for sending corresponding control signal according to user's action to described adjustable lens.

Preferably, described adjustment control is connected by wire with described adjustable lens, so that described adjustment control can transmit control signal to described adjustable lens.

Preferably, described wire is arranged at described spectacle frame edge.

Preferably, described adjustment control also comprises: forward is regulated button and negative regulation button, and described forward is regulated button and described negative regulation button is arranged on the described adjustment control.

Preferably, described control signal is voltage signal; Described adjustable lens is concavees lens, plano lens or the convex lens that the electricity consumption sensitive material is made, and the voltage signal that described adjustable lens is used for sending according to described adjustment control is regulated the focus of self.

Preferably, described adjustment control also comprises: angular displacement sensor, described angular displacement sensor is arranged in the described adjustment control, described angular displacement sensor is used for gathering the angle of inclination information of described spectacle frame, so that described adjustment control can send corresponding control signal to described adjustable lens according to described angle of inclination information.

Preferably, described adjustment control also comprises: power module, and the power supply main body of described power module is arranged in the described adjustment control, and the charge port of described power module is arranged on the described adjustment control.

As can be seen from the above technical solutions, the utlity model has following advantage:

Replace with adjustable lens by the presbyopic glasses lens with routine, the focus of adjustable lens can be regulated continuously, the focus of regulating adjustable lens by adjustment control according to user's concrete action control adjustable lens again is so that the focus of current presbyopic glasses and user's action is complementary.And the adjusting of this focus is continually varying, adapts to so that the user need not to expend time in, and also avoided carrying out in the prior art scheme simultaneously focus and brought dizzy sense to the user when adjusting.

Description of drawings

Fig. 1 is the intelligent presbyopic glasses structural representation of the utility model embodiment;

Fig. 2 is the intelligent presbyopic glasses detailed construction synoptic diagram of the utility model embodiment.

Embodiment

Below in conjunction with the Figure of description in the utility model, the technical scheme in the utility model is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

See also Fig. 1, be a kind of intelligent presbyopic glasses synoptic diagram.

The described intelligent presbyopic glasses of present embodiment comprise with lower member: spectacle frame 1, adjustable lens 2 and adjustment control 3.

Wherein, spectacle frame 1 can be the spectacle frame of the common or material of any material, any shape, and present embodiment is not done concrete the restriction to spectacle frame.

Adjustable lens 2 is positioned on the lens frame of spectacle frame 1, and the shape of adjustable lens and spectacle frame 1 lens frame are complementary.Adjustable lens 2 is used for the focus according to the control signal adjusting self of adjustment control 3 transmissions.

Adjustment control 3 is arranged on arbitrary foot rest of spectacle frame 1, and the size of adjustment control is enough little, can improve like this integrated level of intelligent presbyopic glasses.Adjustment control 3 is used for sending corresponding control signal according to user's action to adjustable lens 2.

Before the described intelligent presbyopic glasses of present embodiment use, preset the variable range of focal length.Initialization focus variable range only need to be determined its bound, when the general user bows is carrying out closely eyesight activity, as reading a book, reading newspaper, is underway equidistant or remote eyesight activity when the user looks squarely, as goes window-shopping, enjoys scenery.Therefore, the focus of the adjustable lens the when user is bowed at ordinary times is as first threshold, and the focus of the adjustable lens the when user is looked squarely is as Second Threshold, and value is the variable range of focal length between first threshold and the Second Threshold.

The user is when carrying out the eyesight activity, all can there be certain angle of inclination in its head, adjustment control 3 is according to the angle of inclination of active user's head, and namely the control signal of a correspondence is exported at the angle of inclination of spectacle frame 1, and this control signal can indicate adjustable lens 2 to be adjusted to the focus of appointment.For example, be adjusted to focus f from focus f1 ₂

See also Fig. 2, on the basis of the described intelligent presbyopic glasses of Fig. 1, Fig. 2 will describe these intelligence presbyopic glasses.

The intelligence presbyopic glasses are except comprising with lower member: spectacle frame 1, adjustable lens 2 and the adjustment control 3, these intelligence presbyopic glasses also comprise:

Wire 4, adjustment control 3 also comprises: forward is regulated button 31, negative regulation button 32, angular displacement sensor 33 and power module 34.

Adjustment control 3 is connected by wire 4 with adjustable lens 2, and control signal is transferred to adjustable lens 2 by wire 4.The adjustment control 3 that is arranged so that of wire 4 can transmit control signal to adjustable lens 2.

Preferably, wire 4 is arranged at spectacle frame 1 edge, perhaps, can be embedded in spectacle frame 1 the inside, does not do concrete restriction here.

Adjustment control 3 also comprises: forward is regulated button 31 and negative regulation button 32, and forward is regulated button 31 and negative regulation button 32 is arranged on the adjustment control 3.Forward regulates button 31 and negative regulation button 32 can when initialization focus variable range, carry out self-regulation by user oneself to the focus under the standard head action.For example, look squarely the place ahead after wearing these intelligence presbyopic glasses, at this moment the possibility visual field is also unintelligible, then by pressing forward adjusting button 31 or negative regulation button 32 until get a clear view, at this moment the focus of adjustable lens 2 is exactly the optimum focal point that is fit to this user, can be used as a threshold value of focus variable range.

Preferably, control signal is voltage signal.Concavees lens, plano lens or the convex lens of adjustable lens 2 for the electricity consumption sensitive material is made, adjustable lens 2 are used for the focus according to the voltage signal adjusting self of adjustment control 3 transmissions.

Adjustment control 3 also comprises: angular displacement sensor 33, angular displacement sensor 33 is arranged in the adjustment control 3, angular displacement sensor 33 is used for gathering the angle of inclination information of spectacle frame 1, so that adjustment control 3 can send corresponding control signal to adjustable lens 2 according to this angle of inclination information.

Adjustment control 3 also comprises: power module 34, and the power supply main body of power module 34 is arranged in the adjustment control 3, and the charge port of power module 34 is arranged on the adjustment control 3.

In addition and since the user may about the situation of two eyes different, therefore need two cover adjustment controls to about 2 adjustable lens regulates respectively, preferably, the quantity of adjustment control 3 is 2.

Adjustment control 3 in the described intelligent presbyopic glasses of present embodiment can come according to user's head pitching degree the size of automatic regulation output voltage signal, thereby so that the adjusting of the focus of adjustable lens 2 realizes changing continuously, and then so that eyes of user continue to be in the state that gets a clear view.

In the present embodiment, replace with adjustable lens 2 by the presbyopic glasses lens with routine, the focus of adjustable lens 2 can be regulated continuously, the focus of regulating adjustable lens by adjustment control 3 according to user's concrete action control adjustable lens 2 again is so that the focus of current presbyopic glasses and user's action is complementary.And the adjusting of this focus is continually varying, adapts to so that the user need not to expend time in, and also avoided carrying out in the prior art scheme simultaneously focus and brought dizzy sense to the user when adjusting.

More than a kind of intelligent presbyopic glasses provided by the utility model are described in detail, for one of ordinary skill in the art, thought according to the utility model embodiment, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (7)

1. intelligent presbyopic glasses comprise spectacle frame, it is characterized in that, described intelligent presbyopic glasses also comprise: adjustable lens and adjustment control,

Described adjustable lens is positioned on the lens frame of described spectacle frame, and the control signal that described adjustable lens is used for sending according to described adjustment control is regulated the focus of self;

Described adjustment control is arranged on arbitrary foot rest of described spectacle frame, and described adjustment control is used for sending corresponding control signal according to user's action to described adjustable lens.

2. intelligent presbyopic glasses according to claim 1 is characterized in that,

Described adjustment control is connected by wire with described adjustable lens, so that described adjustment control can transmit control signal to described adjustable lens.

3. intelligent presbyopic glasses according to claim 2 is characterized in that,

Described wire is arranged at described spectacle frame edge.

4. according to claim 1,2 or 3 described intelligent presbyopic glasses, it is characterized in that described adjustment control also comprises: forward is regulated button and negative regulation button,

Described forward is regulated button and described negative regulation button is arranged on the described adjustment control.

5. according to claim 1,2 or 3 described intelligent presbyopic glasses, it is characterized in that,

Described control signal is voltage signal;

Described adjustable lens is for making the electricity consumption sensitive material make concavees lens, plano lens or convex lens, and the voltage signal that described adjustable lens is used for sending according to described adjustment control is regulated the focus of self.

6. according to claim 1,2 or 3 described intelligent presbyopic glasses, it is characterized in that described adjustment control also comprises: angular displacement sensor,

Described angular displacement sensor is arranged in the described adjustment control, described angular displacement sensor is used for gathering the angle of inclination information of described spectacle frame, so that described adjustment control can send corresponding control signal to described adjustable lens according to described angle of inclination information.

7. according to claim 1,2 or 3 described intelligent presbyopic glasses, it is characterized in that described adjustment control also comprises: power module,

The power supply main body of described power module is arranged in the described adjustment control, and the charge port of described power module is arranged on the described adjustment control.

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