CN215219343U - Wireless touch-control light filtering glasses - Google Patents

Abstract

The utility model discloses a wireless touch control light filtering glasses, which comprises a light filtering lens capable of filtering ultraviolet rays with specific wave bands, mirror supporting legs connected with two sides of the light filtering lens, and a wireless touch control system at least arranged on one mirror supporting leg; the wireless touch system comprises a wireless control assembly and a touch assembly, wherein the wireless control assembly is installed in a cavity formed inside a mirror supporting leg, the touch assembly is arranged on the mirror supporting leg and is electrically connected with the wireless control assembly, the touch assembly is used for sensing touch action and transmitting a touch signal to the wireless control assembly, and the wireless control assembly is used for receiving the touch signal and sending the wireless control signal. The wireless touch filter glasses of this embodiment can filter specific wave band ultraviolet ray, can give the ultraviolet ray below the corresponding wavelength and block and can not reach eyes in, thereby the light of remaining wavelength sees through glasses and reaches detection effect, the damage of the blue light that also protects simultaneously to glasses.

Description

Wireless touch-control light filtering glasses

Technical Field

The utility model relates to a bluetooth glasses especially relates to a wireless touch-control light filtering glasses.

Background

The glasses that exist on the market all are the bluetooth glasses that do not have the special wave band of ultraviolet ray to filter, and on the ultraviolet ray that specific wave band ultraviolet light source sent shined the human body, ordinary bluetooth glasses can't filter this ultraviolet ray, and these ultraviolet rays shined and can cause certain injury to human eyes on the human eyes.

In addition, many bluetooth eyes basic fuselage that charge at present on the market can set up a shift knob, must press shift knob just can awaken the fuselage and carry out work when using, otherwise need press shift knob to close the fuselage when not using, and standby energy consumption is than higher, and operating time is not long.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a protection when the people is detecting skin with main part mirror, protection glasses that glasses can be fine lets the detection effect more obvious.

The utility model provides a wireless touch control light filtering glasses, which comprises a light filtering lens capable of filtering ultraviolet rays with specific wave bands, lens supporting legs connected with two sides of the light filtering lens, and a wireless touch control system arranged on at least one of the lens supporting legs; the wireless touch system comprises a wireless control assembly and a touch assembly, wherein the wireless control assembly is installed in a cavity formed in the mirror supporting leg, the touch assembly is arranged on the mirror supporting leg and electrically connected with the wireless control assembly, the touch assembly is used for sensing touch action and transmitting a touch signal to the wireless control assembly, and the wireless control assembly is used for receiving the touch signal and sending a wireless control signal.

In one embodiment, the filter lens includes a lens body and a filter film covering the surface of the lens body, wherein the filter film can filter ultraviolet rays with a specific waveband.

In one embodiment, the specific wavelength band is 420nm to 500 nm.

In one embodiment, the wireless control assembly comprises a power supply module, a distance detection module electrically connected with the power supply module, and a main control chip electrically connected with both the power supply module and the distance detection module, wherein the main control chip is a short-distance wireless communication chip; the distance detection module is used for sending a distance measurement signal to the main control chip, and the main control chip is used for sending a wireless control signal according to the received distance measurement signal and the received touch signal.

In one embodiment, the detection module includes an infrared distance sensor, and/or the short-range wireless communication chip is a bluetooth chip.

In one embodiment, the touch control is located on the inside of the mirror leg near the ear.

In one embodiment, the touch control part is a touch copper sheet or a touch foam.

In an embodiment, the magnetic charging device further comprises a magnetic charging component installed in a cavity formed inside the mirror supporting leg, wherein the magnetic charging component comprises an electric connector and two magnets, and the magnetic poles of the two magnets on the same plane are opposite.

In one embodiment, the root of the mirror leg is hinged to the filter lens side by a hardware connection.

In one embodiment, a nose bridge support for supporting a nose bridge is arranged on the filter lens, and the whole nose bridge support is of a semi-circular arc structure.

To sum up, the wireless touch-control light filtering glasses of this embodiment can filter specific wave band ultraviolet ray, can give the ultraviolet ray below the corresponding wavelength and block and can not reach eyes in, thereby the light of remaining wavelength sees through glasses and reaches the detection effect, the damage of the blue light that also protects simultaneously to glasses. In addition, through the mode that sets up apart from infrared sensor and touch copper sheet sensor, perfect the problem of having avoided design shift knob on the glasses fuselage, and more have intellectuality and convenient sense in the interaction, also have more new meaning in the experience. The common problem of high standby power consumption of common Bluetooth glasses is avoided in energy consumption, and the advantages of no power-off and long standby time are realized.

Drawings

Fig. 1 is a schematic structural view of the wireless touch filter glasses of the present invention.

Fig. 2 is an explosion diagram of the wireless touch filter glasses of the present invention.

Detailed Description

Before the embodiments are described in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangements of components set forth in the following description or illustrated in the drawings. The utility model discloses can be the embodiment that other modes realized. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including," "comprising," "having," and the like, herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. In particular, when "a certain element" is described, the present invention is not limited to the number of the element being one, and may include a plurality of the elements.

Referring to fig. 1, the exemplary wireless touch filter glasses of the present invention includes a filter lens 2 capable of filtering ultraviolet rays in a specific wavelength band, a mirror leg 1 connected to two sides of the filter lens 2, and a wireless touch system 3 at least disposed on the mirror leg 1; the wireless touch system 3 comprises a wireless control component installed in a cavity formed inside the mirror supporting leg 1 and a touch component arranged on the mirror supporting leg 1 and electrically connected with the wireless control component, the touch component 16 is used for sensing a touch action and transmitting a touch signal to the wireless control component, and the wireless control component is used for receiving the touch signal and sending the wireless control signal. The wireless touch filter glasses of this embodiment can filter specific wave band ultraviolet ray, can give the ultraviolet ray below the corresponding wavelength and block and can not reach eyes in, thereby the light of remaining wavelength sees through glasses and reaches detection effect, the damage of the blue light that also protects simultaneously to glasses.

The filter lens 2 is a lens capable of filtering ultraviolet rays of a specific wavelength band, and as an embodiment of the filter lens 2 capable of filtering ultraviolet rays of a specific wavelength band, the filter lens 2 includes a lens body and a filter film covering the surface of the lens body, and the filter film can filter ultraviolet rays of a specific wavelength band. The specific wavelength band of this embodiment is 420nm to 500 nm. Namely, the filter lens 2 is a high-pass filter film with a certain wavelength between 420 and 500nm coated on the surface of the lens body. The lens body material can be quartz glass, ultra-white glass, transparent resin lens (including PC, acrylic, CR-39, etc.), etc. The technology for enabling the lens to achieve the light filtering effect is divided into two major types, namely optical film plating and injection molding color mixing. The optical film coated on the glass lens can be classified into four types: chemical deposition, thermal evaporation, mechanical (including both spray and immersion) and the more advanced magnetron base-jet coating at present.

Specifically, the wireless control assembly comprises a power module 7, a distance detection module electrically connected with the power module 7, and a main control chip 5 electrically connected with both the power module 7 and the distance detection module, wherein the main control chip 5 is a short-distance wireless communication chip, and the main control chip 5 can be wirelessly connected with the mobile device; the distance detection module is used for sending a distance measurement signal to the main control chip 5, and the main control chip 5 sends a wireless control signal to the mobile device according to the received distance measurement signal and the touch signal. This distance detection module's setting has prevented on the one hand that hand or other skin mistake from touching 16 side, leads to the electric capacity change to make the filter glasses detect the lamp and light. On the other hand, the glasses are assisted to enter a low power consumption state, and the battery of the glasses body cannot be quickly consumed due to long-time standby.

Illustratively, the distance detection module includes an infrared distance sensor. Illustratively, the short-range wireless communication chip is a bluetooth chip. Illustratively, the mobile device includes a cell phone, a mobile phone, or a tablet computer.

The touch control 16 is provided on the inside of the mirror leg 1 near the ear. Illustratively, the touch control member 16 is a touch copper sheet or touch foam.

The utility model discloses an exemplary wireless touch-control light filtering glasses's working process does: when the people did not wear glasses, infrared distance sensor detected that glasses did not wear yet, just touched 16 that one side of touch-control piece by mistake, and the mirror main part also can not lighted, after the glasses were worn to the human body, infrared distance sensor detected that the human body has worn glasses, carries out a bluetooth with the host computer mirror body automatically and pairs, and human head skin contacts touch-control piece 16 this moment, and glasses just can work, and the detection mode of the host computer mirror body just can be awaken up. Otherwise when not wearing glasses and taking off glasses, can detect this scene apart from infrared inductor, the fuselage just can break off the bluetooth in the certain time and connect, and the fuselage automatically gets into the low-power consumption state.

This wireless touch-control light filtering glasses has configured a distance infrared sensor and touch copper sheet sensor at the fuselage medial surface, and when the people was wearing the use, this scene of people can be detected to infrared distance sensor, can awaken up the fuselage and carry out a bluetooth with the host computer mirror body automatically and pair the connection, and human head skin becomes the work of beginning with touch copper sheet sensor contact this moment, alright produce interactive control with the host computer mirror body. On the contrary, when the glasses are not worn and taken down, the infrared distance sensor can detect the action, the glasses can be disconnected with the automatic Bluetooth of the main machine body in a certain time, the glasses body can enter a low-power-consumption standby state, and the glasses can be awakened again when waiting for the next operation. Such a design perfect has avoided designing a shift knob on the glasses fuselage, and has more intellectuality and convenient sense in the interaction, also has more new meaning in the experience. The common problem of high standby power consumption of common Bluetooth glasses is perfectly avoided in energy consumption, and the advantages of no power-off and long standby time are realized.

Wherein, in order to charge to wireless touch-control filter glasses, the utility model discloses exemplary wireless touch-control filter glasses are still including installing the magnetism in the cavity of the inside formation of mirror landing leg 1 and inhale the subassembly that charges, and magnetism is inhaled the subassembly that charges and is including installing in electric connector 20 and two magnet 19, and wherein, the magnetic pole of two magnet 19 coplanar is opposite. As shown in fig. 2, in the magnetic charging structure, two PODO PINs (i.e. electrical connectors 20) are mounted on the right leg housing 18, and two magnets 19 are mounted on the right leg housing 18, wherein the magnetic poles of the same plane of the two magnets are opposite, so that when the magnetic charger charges the glasses, the magnetic charger charges the glasses only in the right direction, and if the magnetic charger charges the glasses, the magnetic charger repels the glasses, the charging cannot be performed, and the structure prevents the circuit from being burnt out due to the reverse charging of the positive and negative poles in the direction corresponding to the magnetic charger.

The root of the mirror supporting leg 1 is hinged with the side part of the filter lens 2 through a hardware connecting piece. Illustratively, as shown in fig. 2, the left leg 12 is hinged to the filter lens 2 through a hardware pivot C13, a hardware pivot D14, and a screw. The right leg comprises a right leg shell 18 and a right leg cover 11 which are oppositely closed, and the right leg is hinged with the filter lens 2 through a hardware rotating shaft A6 and a hardware rotating shaft B10.

Of course, the utility model discloses be provided with the bridge of the nose that is used for the bracketing bridge of the nose on exemplary wireless touch-control filter glasses's the filter lens 2 and prop 4, bridge of the nose props 4 wholly and is half circular arc face structure.

The wireless touch filter glasses of this embodiment can filter specific wave band ultraviolet ray, can give the ultraviolet ray below the corresponding wavelength and block and can not reach eyes in, thereby the light of remaining wavelength sees through glasses and reaches detection effect, the damage of the blue light that also protects simultaneously to glasses. In addition, through the mode that sets up apart from infrared sensor and touch copper sheet sensor, perfect the problem of having avoided design shift knob on the glasses fuselage, and more have intellectuality and convenient sense in the interaction, also have more new meaning in the experience. The common problem of high standby power consumption of common Bluetooth glasses is avoided in energy consumption, and the advantages of no power-off and long standby time are realized.

The concepts described herein may be embodied in other forms without departing from the spirit or characteristics thereof. The particular embodiments disclosed should be considered illustrative rather than limiting. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. Any changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. A wireless touch filter glasses is characterized by comprising a filter lens capable of filtering ultraviolet rays with a specific waveband, mirror supporting legs connected to two sides of the filter lens, and a wireless touch system at least arranged on one of the mirror supporting legs; the wireless touch system comprises a wireless control assembly and a touch assembly, wherein the wireless control assembly is installed in a cavity formed in the mirror supporting leg, the touch assembly is arranged on the mirror supporting leg and electrically connected with the wireless control assembly, the touch assembly is used for sensing touch action and transmitting a touch signal to the wireless control assembly, and the wireless control assembly is used for receiving the touch signal and sending a wireless control signal.

2. The wireless touch filter glasses of claim 1, wherein the filter lens comprises a lens body and a filter film covering the surface of the lens body, and the filter film can filter ultraviolet rays in a specific wavelength band.

3. The wireless touch filter glasses according to claim 1 or 2, wherein the specific wavelength band is 420nm to 500 nm.

4. The wireless touch filter glasses of claim 1, wherein the wireless control component comprises a power module, a distance detection module electrically connected to the power module, and a main control chip electrically connected to both the power module and the distance detection module, the main control chip being a short-range wireless communication chip; the distance detection module is used for sending a distance measurement signal to the main control chip, and the main control chip is used for sending a wireless control signal according to the received distance measurement signal and the received touch signal.

5. The wireless touch filter glasses of claim 4, wherein the distance detection module comprises an infrared distance sensor, and/or the short-range wireless communication chip is a Bluetooth chip.

6. The wireless touch filter glasses of claim 4, wherein the touch control member is disposed inside the mirror legs at a position near the ears.

7. The wireless touch filter glasses of claim 6, wherein the touch control component is a touch copper sheet or a touch foam.

8. The wireless touch filter glasses according to any one of claims 4 to 7, further comprising a magnetic charging component installed in a cavity formed inside the mirror leg, wherein the magnetic charging component includes an electrical connector and two magnets, and magnetic poles of the two magnets on the same plane are opposite.

9. The wireless touch filter glasses of claim 1, wherein the root of the mirror leg is hinged to the filter lens side by a hardware connection.

10. The wireless touch filter glasses according to claim 1, wherein a nose bridge support for supporting a nose bridge is disposed on the filter glasses, and the nose bridge support is a semi-circular arc structure as a whole.

Images