CN105929554A - Smart 3D glasses with lighting function - Google Patents

Abstract

The invention discloses smart 3D glasses with lighting function. The smart 3D glasses comprise a glasses leg body, a first frame body connected with the glasses leg body, and a second frame body, wherein 3D lenses are arranged on the second frame body, and one side of the second frame body is provided with a branch rod, of which the free end is pivoted to the first frame body. The smart 3D glasses further comprise a servo motor arranged on the first frame body and used to rotate the branch rod, a circuit box arranged in the first frame body, and a battery box and a communication box are arranged on the glasses leg body. A smart circuit is arranged in the circuit box. Wireless control of the glasses by a mobile terminal can be realized through the smart circuit. Folding up and down of the 3D lenses can be controlled remotely, and the 3D lenses can be folded down when needed and folded up when not needed. The smart 3D glasses are convenient to use and are high in intelligent level.

Description

Intelligence 3D glasses can be illuminated

Technical field

The present invention relates to one and can illuminate intelligence 3D glasses.

Background technology

Wearable intelligent equipment, as a kind of future technology, no matter in fashion world or on electric consumers market, is all focus of concern.Having it is the application of 3D film, just seems that the market of 3D glasses is more important, therefore develops a wearable device that can realize intelligentized 3D glasses type and be just particularly important.

Summary of the invention

It is an object of the invention to overcome disadvantages described above, it is provided that one can illuminate intelligence 3D glasses.

For achieving the above object, the concrete scheme of the present invention is as follows: one can illuminate intelligence 3D glasses, includes temple main body and connected first picture frame main body；Also including the second picture frame main body, described second picture frame main body is provided with 3D eyeglass, and the side of the second picture frame main body is provided with a bar, the free end of described branch bar and the first picture frame main body pivot joint；Also include be located in the first picture frame main body, for rotating the servomotor of a bar；Being provided with circuit box in first picture frame main body, temple main body is provided with battery case and communication cartridge；Being provided with smart circuit in described circuit box, smart circuit includes CPU element and the communicator being connected with its signal and servo-driver, and described servo-driver is electrically connected with servomotor；Communicator includes communication antenna, and described communication antenna is located in communication cartridge.

Wherein, described communication antenna includes the dielectric-slab of rectangle, and described dielectric-slab is provided with two symmetrical radiating elements；Each described radiating element includes arc feed arm；The short arc limit of described arc feed arm is provided with rectangle decoupling and windows, and described arc feed arm is provided with semicircle feed away from the side that rectangle decoupling is windowed and windows；Also including two fan-shaped fan beam arms, the short arc limit of two fan beam arms is oppositely arranged, and two fan beam arms two ends with described arc feed arm respectively are connected；The side on the short arc limit of each fan beam arm is extended to the side away from long arc limit respectively the first radiation arm, and described first radiation arm is not connected with one end of fan beam arm and extends to the side away from arc feed arm and have first linking arm of " several " font；The second linking arm having " Π " font is extended in one end that first linking arm is not connected with the first radiation arm；Also include the second radiation arm and the 3rd radiation arm connected respectively with two second linking arm one end；The first U-shaped arm that described second radiation arm includes U-shaped and the first L-arm of L-shaped being connected with first U-shaped arm one end；Described 3rd radiation arm includes the second U-shaped arm including U-shaped and second L-arm of the L-shaped being connected with second U-shaped arm one end；The brachium that the longitudinal arm of described first L-arm is more longitudinal than the second L-arm, and the arm free end of described first L-arm longitudinal direction and the horizontal arm of the second L-arm flush；The power feed hole for feeding coupling it is additionally provided with in described arc feed arm.

Wherein, two the first radiation arms are equipped with sector notch towards the side of arc feed arm.

Wherein, the transverse width of described first radiation arm is 0.4-1.2mm.

Wherein, two the first linking arms are provided with rectangular shaped semiconductor isolation strip in forming rectangular area；Being filled with semiconductor in rectangular shaped semiconductor isolation strip, described semiconductor is silica.

Wherein, if the transverse width of the second linking arm is X, the transverse width of the first linking arm is Y, and the arm brachium of the first L-arm longitudinal direction is N, then N+X=2Y.

Wherein, described dielectric-slab is additionally provided with two parasitic oscillator unit, the first parasitic oscillator arms that each parasitic oscillator unit includes rectangle and the second parasitic oscillator arms of triangle extended from the first parasitic oscillator arms.

Wherein, the peripheral side plating of described dielectric-slab is provided with a circle cage ring arm.

Wherein, described fan beam arm is provided with circular flow-disturbing hole.

Wherein, also including the cam device for taking pictures and recording a video, described cam device is located on the upside of the first picture frame main body, and cam device is connected with CPU element signal；

Wherein, also including massage unit, described massage unit includes vibration motor and the vibrations driver element being electrically connected, and described vibrations driver element is connected with CPU element signal；Vibration motor is located at the side of the close temple main body of the first picture frame main body；

Wherein, the Zoom lens unit being located in the first picture frame main body is also included；

Wherein, the LED illumination unit being provided with below the first picture frame main body is also included；Described smart circuit also includes LED drive unit, and described LED drive unit is electrically connected with LED illumination unit, and described LED drive unit is electrically connected with CPU element.

The invention have the benefit that realize mobile terminal by smart circuit can be with controlled in wireless glasses, the turnover of especially 3D eyeglass, the most just fall, it is not necessary to time just dig, convenient use, intelligent high.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the present invention structural representation with part section；

Fig. 3 is the theory diagram of the smart circuit of the present invention；

Fig. 4 is the structural representation of the communication antenna of the present invention；

Fig. 5 is the radiative unit structure schematic diagram of the present invention；

Fig. 6 is the datagram of the standing-wave ratio of the communication antenna of the present invention

Fig. 7 is the datagram of the return loss of the communication antenna of the present invention

Description of reference numerals in Fig. 1 to Fig. 7:

1-the first picture frame main body；11-Zoom lens unit；12-vibration motor；13-LED lighting unit；14-cam device；

2-the second picture frame main body；21-branch bar；3-temple main body；31-battery case；32-communication cartridge；4-servomotor；

F1-dielectric-slab；F21-rectangular shaped semiconductor isolation strip；F22-parasitism oscillator unit；F23-cage ring arm；F3-arc feed arm；F31-semicircle feed is windowed；F4-fan beam arm；F41-circle flow-disturbing hole；F5-the first radiation arm；F6-the first linking arm；F7-the second linking arm；F81-the first U-shaped arm；F82-the first L-arm；F83-the second U-shaped arm；F84-the second L-arm.

Detailed description of the invention

The present invention is further detailed explanation with specific embodiment below in conjunction with the accompanying drawings, is not that the practical range of the present invention is confined to this.

As shown in Figures 1 to 7, the one described in the present embodiment can illuminate intelligence 3D glasses, includes temple main body 3 and connected first picture frame main body 1；Also including the second picture frame main body 2, described second picture frame main body 2 is provided with 3D eyeglass, and the side of the second picture frame main body 2 is provided with a bar 21, the free end of described branch bar 21 and the first picture frame main body 1 pivot joint；Also include be located in the first picture frame main body 1, for rotating the servomotor 4 of a bar 21；Wherein, power can be passed to a bar 21 by belt mode by servomotor 4, rotates for it；Being provided with circuit box in first picture frame main body 1, temple main body 3 is provided with battery case 31 and communication cartridge 32；Being provided with smart circuit in described circuit box, smart circuit includes CPU element and the communicator being connected with its signal and servo-driver, and described servo-driver is electrically connected with servomotor 4；Communicator includes communication antenna, and described communication antenna is located in communication cartridge 32；Being provided with rechargeable battery in battery case 31, rechargeable battery is for powering to smart circuit and servomotor 4；Communicator is for being connected with the wireless signal such as mobile terminal or controller；Realizing mobile terminal by smart circuit can be with controlled in wireless glasses, and the turnover of especially 3D eyeglass the most just falls, it is not necessary to time just dig, convenient use, intelligent high.

One described in the present embodiment can illuminate intelligence 3D glasses, and described communication antenna includes the dielectric-slab f1 of rectangle, described dielectric-slab f1 and is provided with two symmetrical radiating elements；Each described radiating element includes arc feed arm f3；The short arc limit of described arc feed arm f3 is provided with rectangle decoupling and windows, and described arc feed arm f3 is provided with semicircle away from the side that rectangle decoupling is windowed and feeds the f31 that windows；Also including two fan-shaped fan beam arm f4, the short arc limit of two fan beam arm f4 is oppositely arranged, and two fan beam arm f4 two ends with described arc feed arm f3 respectively are connected；The side on the short arc limit of each fan beam arm f4 is extended to the side away from long arc limit respectively the first radiation arm f5, and described first radiation arm f5 is not connected with one end of fan beam arm f4 and extends the first linking arm f6 having " several " font to the side away from arc feed arm f3；The the second linking arm f7 having " Π " font is extended in one end that first linking arm f6 is not connected with the first radiation arm f5；Also include the second radiation arm and the 3rd radiation arm connected respectively with two second linking arm f7 one end；The first U-shaped arm f81 that described second radiation arm includes U-shaped and the first L-arm f82 of L-shaped being connected with first U-shaped arm f81 one end；Described 3rd radiation arm includes the second U-shaped arm f83 including U-shaped and the second L-arm f84 of the L-shaped being connected with second U-shaped arm f83 one end；Described arm longitudinal for first L-arm f82 is than the brachium of the second L-arm f84 longitudinal direction, and described arm free end longitudinal for first L-arm f82 and the second arm horizontal for L-arm f84 flush；The power feed hole for feeding coupling it is additionally provided with in described arc feed arm f3.Gyroscope and Network Analyzer and electricity is utilized to adjust its data of analysis as follows, owing to this antenna frequency spectrum Primary communication frequency band is 0.7-1.1GHz, in whole frequency band, than at 30.30db to 34.20dB before and after being surveyed, illustrate that its gain performance is the most perfect in frequency band, additionally, as the performance in terms of Fig. 7, device return loss is protruded, it is had to be maintained at about-35dB in wider frequency band, return loss at whole high band is held in below-10dB, and water is average more than other similar antenna levels；Further, since the well-designed of structure, its standing-wave ratio performance is the most excellent, and as shown in Figure 6, the standing-wave ratio in its whole frequency band is all within 1.25, and some frequency range is even up to about 1.1.

One described in the present embodiment can illuminate intelligence 3D glasses, and two the first radiation arm f5 are equipped with sector notch towards the side of arc feed arm f3.The setting of sector notch, by analyzer and actual test, finds that sector notch, under the performance premise not reducing standing-wave ratio, adds gain, improves antenna performance.

One described in the present embodiment can illuminate intelligence 3D glasses, and the transverse width of described first radiation arm f5 is 0.4-1.2mm.This width is preferable width, and the first radiation arm f5 of this width is found by checking, is so that antenna electrical performance reaches optimal width.

One described in the present embodiment can illuminate intelligence 3D glasses, and two the first linking arm f6 are provided with rectangular shaped semiconductor isolation strip f21 in forming rectangular area；Being filled with semiconductor in the f21 of rectangular shaped semiconductor isolation strip, described semiconductor is silica；Being found by test and actual detection, arranging of this structure can be effectively increased isolation level.

One described in the present embodiment can illuminate intelligence 3D glasses, two parasitic oscillator unit f22 it are additionally provided with, the first parasitic oscillator arms that each parasitic oscillator unit f22 includes rectangle and the second parasitic oscillator arms of triangle extended from the first parasitic oscillator arms on described dielectric-slab f1.Parasitic oscillator arms can improve antenna stabilization, improves entirety cooperation performance.

Preferably, the one described in the present embodiment can illuminate intelligence 3D glasses, if the transverse width of the second linking arm f7 is X, the transverse width of the first linking arm f6 is Y, and arm brachium longitudinal for the first L-arm f82 is N, then N+X=2Y；By calculating, as long as meeting this formula, its structure will reach optimal reasonable level, it is possible to significantly increases the properties of antenna；There is its gain can increase 2-6%.

One described in the present embodiment can illuminate intelligence 3D glasses, and the peripheral side plating of described dielectric-slab f1 is provided with a circle cage ring arm f23；Increase isolation, reduce interference.

One described in the present embodiment can illuminate intelligence 3D glasses, and described fan beam arm f4 is provided with circular flow-disturbing hole f41.Flow-disturbing hole can increase the current length in radiation arm, and one can increase bandwidth, it can in addition contain significantly increase gain.

One described in the present embodiment can illuminate intelligence 3D glasses, also includes the cam device 14 for taking pictures and recording a video, and described cam device 14 is located on the upside of the first picture frame main body 1, and cam device 14 is connected with CPU element signal；Video recording of taking pictures can be carried out at any time.

One described in the present embodiment can illuminate intelligence 3D glasses, also includes massage unit, and described massage unit includes vibration motor 12 and the vibrations driver element being electrically connected, and described vibrations driver element is connected with CPU element signal；Vibration motor 12 is located at the side of the close temple main body 3 of the first picture frame main body 1；Eye can be massaged, allow wear more comfortable.

One described in the present embodiment can illuminate intelligence 3D glasses, also includes the Zoom lens unit 11 being located in the first picture frame main body 1；The people of convenient different myopic degree uses.

One described in the present embodiment can illuminate intelligence 3D glasses, also includes the LED illumination unit 13 being provided with below the first picture frame main body 1；Described smart circuit also includes LED drive unit, and described LED drive unit is electrically connected with LED illumination unit 13, and described LED drive unit is electrically connected with CPU element.

The above is only a preferred embodiment of the present invention, therefore all equivalence changes done according to structure, feature and the principle described in present patent application scope or modification, it is included in the protection domain of present patent application.

Claims (9)

1. one kind can illuminate intelligence 3D glasses, it is characterised in that: include temple main body (3) and connected first picture frame main body (1)；Also including the second picture frame main body (2), described second picture frame main body (2) is provided with 3D eyeglass, and the side of the second picture frame main body (2) is provided with a bar (21), the free end of described branch bar (21) and the first picture frame main body (1) pivot joint；Also include and be located in the first picture frame main body (1), to be used for rotating a bar (21) servomotor (4)；Being provided with circuit box in first picture frame main body (1), temple main body (3) is provided with battery case (31) and communication cartridge (32)；Being provided with smart circuit in described circuit box, smart circuit includes CPU element and the communicator being connected with its signal and servo-driver, and described servo-driver is electrically connected with servomotor (4)；Communicator includes communication antenna, and described communication antenna is located in communication cartridge (32)；

Also include the LED illumination unit (13) being provided with the first picture frame main body (1) lower section；Described smart circuit also includes LED drive unit, and described LED drive unit is electrically connected with LED illumination unit (13), and described LED drive unit is electrically connected with CPU element.

One the most according to claim 1 can illuminate intelligence 3D glasses, it is characterised in that: described communication antenna includes the dielectric-slab (f1) of rectangle, and described dielectric-slab (f1) is provided with two symmetrical radiating elements；Each described radiating element includes arc feed arm (f3)；The short arc limit of described arc feed arm (f3) is provided with rectangle decoupling and windows, and described arc feed arm (f3) is provided with semicircle feed away from the side that rectangle decoupling is windowed and windows (f31)；Also including two fan-shaped fan beam arms (f4), the short arc limit of two fan beam arms (f4) is oppositely arranged, and two fan beam arms (f4) two ends with described arc feed arm (f3) respectively are connected；The side on the short arc limit of each fan beam arm (f4) is extended to the side away from long arc limit respectively the first radiation arm (f5), and described first radiation arm (f5) is not connected with one end of fan beam arm (f4) and extends to the side away from arc feed arm (f3) and have first linking arm (f6) of " several " font；The second linking arm (f7) having " Π " font is extended in one end that first linking arm (f6) is not connected with the first radiation arm (f5)；Also include the second radiation arm and the 3rd radiation arm connected respectively with two the second linking arm (f7) one end；The first U-shaped arm (f81) that described second radiation arm includes U-shaped and first L-arm (f82) of L-shaped being connected with first U-shaped arm (f81) one end；Described 3rd radiation arm includes the second U-shaped arm (f83) including U-shaped and second L-arm (f84) of the L-shaped being connected with second U-shaped arm (f83) one end；The brachium that arm that described first L-arm (f82) is longitudinal is more longitudinal than the second L-arm (f84), and the arm free end of described first L-arm (f82) longitudinal direction and the horizontal arm of the second L-arm (f84) flush；It is additionally provided with the power feed hole for feeding coupling on described arc feed arm (f3).

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: two the first radiation arms (f5) are equipped with sector notch towards the side of arc feed arm (f3).

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: the transverse width of described first radiation arm (f5) is 0.4-1.2mm.

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: two the first linking arms (f6) are provided with rectangular shaped semiconductor isolation strip (f21) in forming rectangular area；Being filled with semiconductor in rectangular shaped semiconductor isolation strip (f21), described semiconductor is silica.

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: the transverse width setting the second linking arm (f7) is Y as X, the transverse width of the first linking arm (f6), and the arm brachium of the first L-arm (f82) longitudinal direction is N, then N+X=2Y.

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterized in that: on described dielectric-slab (f1), be additionally provided with two parasitic oscillator unit (f22), the first parasitic oscillator arms that each parasitic oscillator unit (f22) includes rectangle and the second parasitic oscillator arms of triangle extended from the first parasitic oscillator arms.

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: the peripheral side plating of described dielectric-slab (f1) is provided with circle cage ring arm (f23).

One the most according to claim 2 can illuminate intelligence 3D glasses, it is characterised in that: described fan beam arm (f4) is provided with circular flow-disturbing hole (f41).