CN102902067B - Power-saving structure for three-dimensional (3D) glasses - Google Patents

Abstract

The invention provides a power-saving structure for three-dimensional (3D) glasses, comprising a glasses bracket, two nose pads, two glasses legs and a power device. The glasses bracket comprises two glasses frames which are respectively externally coupled with the glasses feet and the nose pads are arranged at the inner side of the glasses bracket. The power device comprises a battery supply and a touch switch. A button is arranged at the inner side surface of the touch switch which is corresponding to the nose pads. The button protrudes from the inner side surfaces of the nose pads and is elastic. According to the power-saving structure, the use of power electricity is automatically controlled after the glasses are worn, so that the glasses power can be effectively utilized and unnecessary waste is saved.

Description

3D glasses electricity-saving structure

Technical field

The present invention relates to a kind of 3D glasses electricity-saving structure, espespecially a kind of Glasses structure watching 3D image.

Background technology

Since the film making distribution of 3D stereopsis, viewing 3D stereopsis has become a kind of trend.Current viewing 3D stereopsis, still needs to wear exclusive 3D anaglyph spectacles.In general, this kind of 3D glasses for stereoscopic, according to the pattern of running, divides into passive type and active two classes.Passive type 3D anaglyph spectacles refers to described glasses and is made up of simple eyeglass and mirror holder, does not relate to the running of any mechanical type or electronic type, such as red blue filter type 3D anaglyph spectacles or polarization type 3D anaglyph spectacles.Active 3D anaglyph spectacles reaches 3D stereo display effect by the actively operate of glasses itself, such as dual screen formula 3D anaglyph spectacles or liquid crystal type 3D anaglyph spectacles.Current liquid crystal type 3D anaglyph spectacles is widely used in the people's livelihood entertainment field such as 3D TV, and the mode adopting left and right to replace broadcasting pictures produces aberration to present 3D stereopsis.The running of this kind of active glasses needs electric power to be provided to produce image, but due to the volumetric spaces of glasses limited, be difficult to arrange long-lasting power supply.Be generally the time limit increasing and use, the power supply of this kind of glasses is arranged has switch, and so that when not using, powered-down is to prevent the consumption of electric power immediately, only the usefulness of this active switch economize on electricity is not good, and reason often can forget powered-down.Thus dealer designs induction power switch, increases synchronous sensor device, with initiatively detect glasses continue for some time do not operate time, i.e. automatic powered-down.Although this kind of inductive switch has the usefulness of instant powered-down, in fact the synchronous sensor device in this periphery increases the more electric power of cost consumption on the contrary.

Summary of the invention

In view of this, be necessary to provide a kind of 3D glasses electricity-saving structure.

The invention provides a kind of 3D glasses electricity-saving structure, it comprises a mirror holder, two nose pads, two mirror pin and supply units.Described mirror holder has two picture frames, and described picture frame connects described mirror pin at outboard shafts respectively, and inner side arranges described nose pad.Described supply unit has a battery supply and a touch switch.The medial surface of the corresponding described nose pad of described touch switch has a button.Described button protrudes from the inner surface of described nose pad, and has elasticity.

Compare prior art, 3D glasses electricity-saving structure of the present invention, is arranged by mechanical touch switch, thus just can press turn-on power when making lens wear on the inner surface of nose pad, just can cut off the electricity supply immediately when taking off one's spectacles, not only structure is simple, easy to use and really effectively can save electric power.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of 3D glasses electricity-saving structure of the present invention.

Fig. 2 is the decomposing schematic representation of the supply unit of 3D glasses electricity-saving structure of the present invention.

Fig. 3 is the cut-open view of the touch switch of 3D glasses electricity-saving structure of the present invention.

Fig. 4 is the cut-open view of Fig. 3 touch switch when glasses are not worn.

Fig. 5 is the cut-open view of Fig. 3 touch switch when lens wear.

Main element symbol description

Glasses structure	10
		Mirror holder	12
Front baffle	122
		Afterframe	124
Picture frame	126
		Joining base	1262
Bearing seat	1264
		Nose pad	14
The rebasing seat of nose	142
		Hole	1420
Ose bag	144
		Mirror pin	16
Supply unit	18
		Circuit substrate	180
Battery supply	182
		Touch switch	184
Fixed screw	1840
		Gum cover	1842
Button	1844
		Kong Zhu	18442
Annular projection	18444
		Spring	1846
Conducting strip	1847、1848
		Wire	186

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Do one below in conjunction with accompanying drawing to the present invention specifically to introduce.

Refer to shown in Fig. 1, the decomposing schematic representation of 3D glasses electricity-saving structure of the present invention.Described Glasses structure 10 comprises a mirror holder 12, two nose pads 14, two mirror pin 16 and a supply unit 18.

Described mirror holder 12 includes a front baffle 122 and an afterframe 124, and the configuration of described forward and backward framework 122,124 is symmetrical, forms described mirror holder 12 framework after the relative combinations of front and back.Described mirror holder 12 has two picture frames about 126 and arranges, and arranges the eyeglass (not indicating in figure) producing 3D stereopsis in described picture frame 126.Described picture frame 126 has a joining base 1262 respectively in the outside of described front baffle 122, the outside of framework 124 then has a bearing seat 1264 respectively in the rear, when described forward and backward framework 122,124 combines, described bearing seat 1264 is coupling described mirror pin 16, and can arrange described supply unit 18 in the described joining base 1262 of side wherein.In addition, the inner side of described two picture frames 126 arranges described nose pad 14 respectively, thus makes described nose pad 14 be symmetricly set on the inner side of described mirror holder 12, when wearing described Glasses structure 10, can recline and be cross-placed on nose.

Described supply unit 18 has a battery supply 182 and a touch switch 184.Described battery supply 182 is arranged on a circuit substrate 180 having in described joining base 1262 (as shown in Figure 2), and described touch switch 184 is arranged on one of them nose pad 14 of described picture frame 126.Described nose pad 14 has a rebasing seat 142 of nose and an ose bag 144, described ose bag 144 is placed on the outer rim of the rebasing seat 142 of described nose, the rebasing seat 142 of described nose has the hole 1420 running through pedestal, described hole 1420 is in order to arrange described touch switch 184.Have wire 186 between described touch switch 184 and described battery supply 182 to arrange, described wire 186 makes to reach electric connection between described battery supply 182 and described touch switch 184.Described touch switch 184 comprises a gum cover 1842, button 1844, spring 1846, two conducting strips 1847,1848 and fixed screw 1840.Described gum cover 1842 is sheathed on the top layer of described button 1844, and the bottom surface of described button 1844 has a hole post 18442, the described hole 1420 of the rebasing seat 142 of the corresponding described nose of described hole post 18442, and described button 1844 is arranged on the rebasing seat 142 of described nose.Sheathed described spring 1846 between described button 1844 bottom surface and the rebasing seat of described nose 142, makes described button 1844 can produce upper and lower elasticity running on the rebasing seat of described nose 142, and described gum cover 1842 can be made to continue to maintain the surface protruding from described nose pad 14.The described hole post 18442 of the corresponding described button 1844 of described fixed screw 1840 is spirally connected locking, makes described button 1844 be fixedly arranged on unlikely on the rebasing seat of described nose 142 coming off (as shown in Figure 3).Described two conducting strips 1847,1848 are connected with described wire 186 respectively, make described two conducting strips 1847,1848 have different electric power polarities respectively, and one is cathode conductive film 1847, is cathode conductive film 1848.Described cathode conductive film 1847 is arranged on a surface of the rebasing seat 142 of described nose, corresponding to described button 1844 bottom surface.Another relatively described cathode conductive film 1847 on the surface that described cathode conductive film 1848 is positioned at the rebasing seat of described nose 142.Described cathode conductive film 1847 is surrounded on the hole 1420 of the rebasing seat 142 of described nose, the annular projection 18444 had with correspondence described button 1844 bottom surface.Described cathode conductive film 1848 is socketed on described fixed screw 1840, is locked in the bottom surface of described button 1844 hole post 18442.Described button 1844 and described fixed screw 1840 are electrical good conductor material, such as metal material, identical with described cathode conductive film 1848 electrical in order to make described button 1844 have.

Refer to Fig. 4, when described Glasses structure 10 is not yet worn, the described button 1844 of described touch switch 184 upholds elastic force effect by described spring 1846, the gum cover 1842 of described button 1844 is raised on the surface of described nose pad 14, makes the described annular projection 18444 of described button 1844 bottom surface form with between corresponding described cathode conductive film 1847 gap be separated by simultaneously.Described button 1844 and the connection of described cathode conductive film 1848, make described annular projection 18444 electrical with negative pole.Gap between described annular projection 18444 and described cathode conductive film 1847, the power circuit that described touch switch 184 is formed with described wire 186 and described battery supply 182 forms open circuit.Therefore, when described Glasses structure 10 is not yet worn, because described battery supply 182 circuit forms open circuit, do not have the waste situation of any electricity usage.But when user wears described Glasses structure 10, contact fits on the nose of user by described nose pad 14, by the weight of described Glasses structure 10 itself, when described nose pad 14 contacts nose, described touch switch 184 directly can be pressed.Please refer to Fig. 5 again, when described touch switch 184 pressurized, the gum cover 1842 of described button 1844 is pressed towards in the rebasing seat 142 of described nose, makes described gum cover 1842 and described ose bag 144 at grade, and can smooth comfortable wearing on nose.When described button 1844 is pressed towards in the rebasing seat 142 of described nose, described spring 1846 is compressed, thus the described annular projection 18444 of described button 1844 bottom surface directly presses on described cathode conductive film 1847.Described annular projection 18444 presses described cathode conductive film 1847, and described battery supply 182 circuit will be made to form path, allows described battery supply 182 can provide electric power required for described Glasses structure 10.Described Glasses structure 10 continues to wear, and continuous compression can be kept the supply access of described battery supply 182 circuit by described touch switch 184.If by described Glasses structure 10 from taking on the face, by the recovery elastic force of described spring 1846 by compression, the described cathode conductive film 1847 contacted is departed from immediately by making described annular projection 18444, allow described battery supply 182 circuit along with the supply forming open circuit cut-out electric power, the user demand of effective corresponding user's lens wear, provides in good time electric power to reach the usefulness of power saving.

The electric power of battery supply 182 of the present invention provides and interruption, is reached automatically by the running of wearing or taking off described Glasses structure 10 of user, directly and the effective electric power using described battery supply 182.Compared to the current device of 3D Glasses structure in power saving, it is simple that 3D glasses electricity-saving structure of the present invention has structure, and easy to use, power saving effect is function preferably.

In addition, those skilled in the art also can do other change in spirit of the present invention, and certainly, these changes done according to the present invention's spirit, all should be included within the present invention's scope required for protection.

Claims (7)

1. a 3D glasses electricity-saving structure, it comprises a mirror holder, two nose pads, two mirror pin and a supply unit, described mirror holder has two picture frames, described picture frame connects described mirror pin at outboard shafts respectively, inner side arranges described nose pad, described supply unit has a battery supply and a touch switch, the medial surface of the corresponding described nose pad of described touch switch has a button, described button protrudes from the inner surface of described nose pad, and there is elasticity, described nose spacer has a rebasing seat of nose and an ose bag, described ose bag is placed on the outer rim of the rebasing seat of described nose, the rebasing seat of described nose has the hole running through pedestal, described hole is in order to arrange described touch switch, described touch switch comprises a gum cover, a button, a spring, two conducting strips and a fixed screw, described gum cover is sheathed on the top layer of described button, the bottom surface of described button has a Kong Zhu, the described hole of the rebasing seat of the corresponding described nose of described hole post, described button is made to be arranged on the rebasing seat of described nose, sheathed described spring between described button bottom surface and the rebasing seat of described nose, the described Kong Zhu of the corresponding described button of described fixed screw is spirally connected locking.

2. 3D glasses electricity-saving structure as claimed in claim 1, it is characterized in that: described mirror holder includes a front baffle and an afterframe, the outside of described front baffle has a joining base respectively, the outside of described afterframe has a bearing seat respectively, described bearing seat is coupling described mirror pin, arranges described supply unit in the described joining base of wherein side.

3. 3D glasses electricity-saving structure as claimed in claim 2, is characterized in that: have a circuit substrate in described joining base, described circuit substrate arranges described battery supply.

4. 3D glasses electricity-saving structure as claimed in claim 1, it is characterized in that: have a wire between described battery supply and described touch switch, described wire makes to reach electric connection between described battery supply and described touch switch.

5. 3D glasses electricity-saving structure as claimed in claim 1, it is characterized in that: described two conducting strips, one is cathode conductive film, one for cathode conductive film, described cathode conductive film is arranged on a surface of the rebasing seat of described nose, corresponding to described button bottom surface, described cathode conductive film be then positioned at the rebasing seat of described nose another on the surface.

6. 3D glasses electricity-saving structure as claimed in claim 5, is characterized in that: described cathode conductive film is surrounded on the described hole of the rebasing seat of described nose, the annular projection that corresponding described button bottom surface has.

7. 3D glasses electricity-saving structure as claimed in claim 5, is characterized in that: described cathode conductive film is socketed on described fixed screw, and is locked in the bottom surface of described button hole post, and described button has identical with described cathode conductive film electrical.