CN111815383A - Virtual glasses try-on machine - Google Patents

Abstract

The invention discloses a virtual glasses try-on machine which comprises a machine body, a working chamber and a rear door, wherein a base is arranged at the bottom of the machine body, a liquid crystal touch screen is arranged on the upper part of the front surface of the machine body, a try-on camera module is arranged on the upper part of the liquid crystal touch screen, the working chamber is arranged in the middle of the machine body, a glasses placing cavity is formed in the working chamber, and a glasses placing platform is arranged at the inner bottom of the glasses placing cavity. This virtual machine of trying on glasses, the full-automatic record of lens parameter automatic reading device, try on the camera and try on glasses style on line, the lens parameter reads the back, combine to try on the style of selecting, direct order on line, help the customer to have practiced thrift the time cost, the automation of having realized the lens measurement, application network and AR technique, compare the entity shop and reduced the cost of labor, rent cost etc, on the other hand, both saved the space cost who is used for depositing more glasses, reduce the stock pressure, the wasting of resources that the product of having a bad luck brought has been reduced again simultaneously.

Description

Virtual glasses try-on machine

Technical Field

The invention relates to a virtual glasses try-on machine.

Background

In recent years, the Chinese macroscopic economy has steadily developed, and along with the rigid demand of high myopia rate, the Chinese spectacle retail market has steadily increased. With the increase of dominant income of residents year by year, the living standard and the consumption capability of the residents are continuously improved, the residents have the ability to buy a plurality of pairs of glasses to meet the wearing requirements of different occasions, select a spectacle frame made of ultra-light new materials and multifunctional lenses with radiation resistance, fatigue resistance and the like, and the rapid increase of the retail market of the glasses is stimulated. According to the Euromonitor research report, the Chinese glasses retail market scale is increased from 208.20 billion yuan in 2006 to 673.94 billion yuan in 2015, and the annual average composite growth rate reaches 13.94%.

In recent years, the online shopping environment of China is gradually improved, and domestic electronic online shopping is in a situation of high-speed development. Compared with the traditional offline channel, the online glasses selling method has the following advantages: firstly, the glasses have a plurality of styles, so that the problem that the product style cannot be fully displayed due to the area and the inventory pressure of a physical store is solved; secondly, the system directly contacts with the terminal clients and can widely, clearly and deeply transmit brand and product information.

However, because the network selling glasses can not provide optometry service, the network selling contact lenses are strictly controlled, the on-line glasses retail is mainly sunglasses at present, and the network selling glasses account for the Chinese glasses retail market in a low proportion. However, internet e-commerce currently adopts various means such as online display, offline experience store glasses matching, online reservation, and online glasses matching, and is continuously making up for the disadvantages of network glasses sale. Therefore, the glasses self-service machine is produced, but the technology of virtual try-on of the glasses is still blank.

Disclosure of Invention

In order to solve the blank of the virtual glasses try-on field, the invention provides a virtual glasses try-on machine which is provided with a full-automatic lens parameter reading device for recording, a camera is tried on the style of glasses on line, after the lens parameters are read, the lens parameters are combined with the style selected by try-on, the order is directly placed on line, and customers are helped to save time cost.

In order to achieve the purpose, the invention adopts the following technical scheme:

a virtual glasses try-on machine comprises a machine body, a working bin and a rear door, wherein a base is arranged at the bottom of the machine body, a liquid crystal touch screen is arranged on the upper portion of the front face of the machine body, a try-on camera module is arranged on the upper portion of the liquid crystal touch screen, a group of loudspeakers are arranged on the left side and the right side of the lower portion of the liquid crystal touch screen, two groups of WIFI antennas are arranged on the left side of the top of the machine body in an aligned mode, the rear door is arranged on the rear face of the machine body;

the middle part of fuselage is provided with the working bin, and the inside of working bin has seted up glasses and has placed the cavity, and the interior bottom that the cavity was placed to glasses is provided with glasses place the platform, installs the door closure on the glasses place the platform, and the back of door closure is provided with door translation structure to the upper portion of door is provided with discernment camera head spare.

Furthermore, an ARM board is installed inside the machine body, and a maintenance layout module is arranged below the ARM board.

Further, the bottom of door translation structure is provided with supporting beam, and the centre of supporting beam is provided with the translation bottom plate, install step motor and ball screw on the translation bottom plate, it has the hold-in range to rotate between step motor and the ball screw, ball screw's the other end supports the trailing flank at the translation connecting plate, both sides all are provided with a set of guide rail slider about the bottom surface of translation connecting plate, guide rail slider is located translation bottom plate upper surface, the door closure is installed on guide rail slider's upper portion, the left side of door closure sets up back photoelectric switch and preceding photoelectric switch, the below of door translation structure is provided with focal power measuring module simultaneously.

Further, a strong current module and a weak current module are installed at the bottom inside the machine body respectively, four groups of switching power supply boxes are selected for use by the strong current module, the power supply boxes are supplied with power from the outside of the equipment, the weak current module is an equipment line control board, fans are installed below the strong current module and the weak current module, and the outer sides of the two groups of fans face to a group of heat dissipation frames at the bottom on the rear door.

Further, a set of shock attenuation gyro wheel is all installed to four corners in the bottom of base, and shock attenuation gyro wheel adopts the universal wheel structure to the rear portion of every group shock attenuation gyro wheel all sets up the brake structure.

Furthermore, the back door is hinged to the right side of the back side face of the machine body, the back door is of a rotatable structure, the rotatable angle of the back door is set to be 0-90 degrees, and meanwhile, a door lock is arranged on the back door.

Furthermore, six groups of infrared photoelectric correlation switches are correspondingly arranged on the left side and the right side inside the working bin, a lifting separation blade is arranged on the rear side face of the working bin, a parameter recorder chuck is arranged in the middle of the glasses placement platform at the bottom of the working bin, left and right parameter recorder clamps are arranged on the left side and the right side of the glasses placement platform, and a pressure mirror component is arranged on the upper portion of the inner side of the glasses placement platform.

Has the advantages that:

1. the overall structure setting of this virtual machine of trying on of glasses is more reasonable, and the full automatic record of lens parameter automatic reading device tries on the glasses style on line of camera, and the lens parameter reads the back, combines to try on the style of selecting, and the direct order of putting down on line helps the customer to practice thrift the time cost.

2. The virtual glasses try-on machine realizes the automation of lens measurement, network application and AR technology, and greatly reduces labor cost, rent cost and the like compared with a physical store.

3. The virtual try-on machine for glasses improves the problem of waste caused by repeated glasses resources, a merchant can return all glasses into a store through the virtual try-on machine for glasses, each type of glasses can be customized and sold with a target only by feeding one sample, the space cost for storing more glasses is saved, the inventory pressure is reduced, and meanwhile, the waste of resources caused by products sold in late is reduced.

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a schematic left side view of the structure of the present invention;

FIG. 3 is a schematic top view of the structure of the present invention;

FIG. 4 is a schematic backside view of the structure of the present invention;

FIG. 5 is a schematic perspective view of the structure of the present invention;

FIG. 6 is a schematic left side view of the interior of the fuselage of the inventive structure;

FIG. 7 is a right side elevational view of the interior of the fuselage of the inventive structure;

FIG. 8 is a schematic diagram of an IR photo-electric correlation switch according to the present invention;

FIG. 9 is a schematic view of the structure of the lens parameter recorder chuck and fixture of the present invention;

FIG. 10 is a schematic view of the door cover of the present invention;

FIG. 11 is an expanded view of a lens parameter measurement configuration within the fuselage of the inventive structure;

FIG. 12 is a schematic view of the door translation structure of the present invention;

FIG. 13 is a schematic view of the structure of the door cover of the present invention;

reference numbers in the figures: 1. a base, 100, a damping roller, 2, a body, 3, a glasses placement platform, 4, a door cover, 5, a speaker, 6, a liquid crystal touch screen, 7, a trial camera module, 8, a WIFI antenna, 9, an identification camera component, 10, a glasses placement cavity, 11, a strong current module, 12, a focal power measurement module, 13, a door translation structure, 14, a maintenance layout module, 15, a fan, 16, a weak current module, 17, an ARM board, 18, a working chamber, 19, a heat dissipation frame, 20, a back door, 21, an infrared photoelectric correlation switch, 22, a lifting baffle, 23, a parameter recorder chuck, 24, a parameter recorder clamp, 25, a supporting beam, 26, a translation connecting board, 27, a guide rail slider, 28, a translation bottom board, 29, a ball screw, 30, a synchronous belt, 31, a stepping motor, 32, a back photoelectric switch, 33, a front photoelectric switch, 34, a parameter recorder sliding table, 35. support column, 36, press mirror part.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

As shown in fig. 1-13, the present invention provides an eyeglasses virtual try-on machine, which comprises a base 1, a shock-absorbing roller 100, a machine body 2, an eyeglasses placing platform 3, a door cover 4, a speaker 5, a liquid crystal touch screen 6, a try-on camera module 7, a WIFI antenna 8, an identification camera component 9, an eyeglasses placing cavity 10, a strong electric module 11, a focal power measuring module 12, a door translation structure 13, a maintenance layout module 14, a fan 15, a weak electric module 16, an ARM board 17, a working chamber 18, a heat dissipation frame 19, a rear door 20, an infrared photoelectric correlation switch 21, a lifting baffle 22, a parameter recorder chuck 23, a parameter recorder clamp 24, a supporting beam 25, a translation connecting plate 26, a guide rail slider 27, a translation bottom plate 28, a ball screw 29, a synchronous belt 30, a stepping motor 31, a rear photoelectric switch 32, a front photoelectric switch 33, a parameter recorder slide table 34, a supporting column 35 and a glasses pressing component 36, the bottom of the machine body 2 is provided with a base 1, a group of damping rollers 100 is mounted at four corners of the bottom of the base 1, the damping rollers 100 adopt universal wheel structures, the rear portion of each group of damping rollers 100 is provided with a brake structure, the upper portion of the front surface of the machine body 2 is provided with a liquid crystal touch screen 6, the upper portion of the liquid crystal touch screen 6 is provided with a try-on camera module 7, the left side and the right side of the lower portion of the liquid crystal touch screen 6 are provided with a group of loudspeakers 5, the left side of the top of the machine body 2 is provided with two groups of WIFI antennas 8 in an aligned mode, the back of the machine body 2 is provided with; the rear door 20 is hinged on the right side of the rear side face of the machine body 2, the rear door 20 is of a rotatable structure, the rotatable angle of the rear door 20 is set to be 0-90 degrees, meanwhile, a door lock is arranged on the rear door 20, a working bin 18 is arranged in the middle of the machine body 2, a glasses placing cavity 10 is arranged inside the working bin 18, a glasses placing platform 3 is arranged at the inner bottom of the glasses placing cavity 10, a bin door cover 4 is arranged on the glasses placing platform 3, a bin door translation structure 13 is arranged behind the bin door cover 4, a supporting cross beam 25 is arranged at the bottom of the bin door translation structure 13, a translation bottom plate 28 is arranged in the middle of the supporting cross beam 25, a stepping motor 31 and a ball screw 29 are arranged on the translation bottom plate 28, a synchronous belt 30 rotates between the stepping motor 31 and the ball screw 29, the other end of the ball screw 29 abuts against the rear side face of the translation connecting plate 26, the guide rail slide block 27 is positioned on the upper surface of the translation bottom plate 28, the upper part of the guide rail slide block 27 is provided with the bin door cover 4, the left side of the bin door cover 4 is provided with the rear photoelectric switch 32 and the front photoelectric switch 33, meanwhile, the lower part of the bin door translation structure 13 is provided with the focal power measuring module 12, the upper part of the working bin 18 is provided with the identification camera head component 9, the left side and the right side of the inner part of the working bin 18 are correspondingly provided with six groups of infrared photoelectric correlation switches 21, the rear side of the working bin 18 is provided with the lifting baffle 22, the middle part of the glasses placing platform 3 at the bottom of the working bin 18 is provided with the parameter recorder chuck 23, the left side and the right side of the glasses placing platform 3 are both provided with the left parameter recorder chuck 24, the upper part of the inner side of the glasses placing platform 3 is provided with the lens pressing component 36, the inner upper surface of the machine body 2 is provided with the, four groups of switching power supply boxes are selected for use by the strong current module 11, the power supply boxes are supplied with power from the outside of the equipment, the weak current module 16 is an equipment line control board, the fans 15 are arranged below the strong current module 11 and the weak current module 16, and the outer sides of the two groups of fans 15 face to a group of heat dissipation frames 19 at the bottom of the rear door 20.

As shown in fig. 1-7, the overall external structure of the virtual try-on machine of this glasses is shown in the figure, mainly include the shock attenuation gyro wheel 100 that the bottom is used for removing, shock attenuation gyro wheel 100 is not direct mount in the bottom of fuselage 2, but install the bottom at base 1 under fuselage 2 bottom surfaces, make when carrying out the roll formula removal through shock attenuation gyro wheel 100, shock attenuation is carried out, avoid the inner structure impaired, be provided with speaker 5 simultaneously, liquid crystal touch screen 6 and try on camera module 7, intelligent operation structure, contain voice broadcast, it is more convenient, and the setting of working bin 18, be used for measuring the focal power, and is very convenient and practical, can save more time.

As shown in fig. 5-13, the internal structure of the machine body 2, the strong current module 11 and the weak current module 16 for supplying power, and the fan 15 and the heat dissipation frame 19 of the heat dissipation structure are shown, the focal power measuring module 12 is used for measuring the parameters of the eyeglass lens placed on the eyeglass placing platform 3, the lifting stop piece 22 is lowered, the parameters are clamped and stabilized by the parameter recorder chuck 23, the parameter recorder clamp 24 and the lens pressing component 36, then the rear photoelectric switch 32 and the front photoelectric switch 33 are detected, the stepping motor 31 drives the ball screw 29 to rotate together through the synchronous belt 30, the ball screw 29 pushes the translation connecting plate 26 to move forward, the translation connecting plate 26 drives the upper bin door cover 4 to move forward together, so that the bin door cover 4 can move outward and completely cover the eyeglass placing platform 3 in the working bin 18, and the lens parameters are automatically read and then fully automatically recorded, the styles of the glasses can be tried on line by trying on the camera module 7, after the parameters of the lenses are read, the selected styles are tried on line, and the orders are placed directly on line, so that customers are helped to save time and cost, and the glasses are more convenient to use.

The working principle is as follows: when the virtual glasses try-on machine is used, firstly, a touch screen operation process is started on the liquid crystal touch screen 6, in the operation process, the loudspeaker 5 can perform voice broadcast along with the touch screen, the operation is clearer and clearer, and a user can know the operation more, glasses worn by the user at present are placed on the glasses placing platform 3 in the glasses placing cavity 10, the lifting separation blade 22 is lowered, the glasses are clamped and stabilized through the parameter recorder chuck 23, the parameter recorder clamp 24 and the lens pressing part 36, then the rear photoelectric switch 32 and the front photoelectric switch 33 are detected, the stepping motor 31 in the bin gate translation structure 13 drives the ball screw 29 to rotate together through the synchronous belt 30, the ball screw 29 pushes the translation connecting plate 26 to move forwards, the translation connecting plate 26 drives the bin gate cover 4 on the upper portion to move forwards together, so that the bin gate cover 4 can move outwards and completely cover the glasses placing platform 3 in the working bin 18, the measuring head of focal power measurement module 12 front end can be under the drive of step-by-step machine, move forward, conveniently measure the glasses lens parameter on the glasses place the platform 3, the lens parameter is automatic to be read the back and full-automatic record, can try on the glasses style on line through trying camera module 7, this equipment mainly carries out WIFI network signal connection through WIFI antenna 8 above, after the lens parameter reads, combine to try on the style of selecting, try on the glasses on line, direct the getting off of line, more manpower resources of energy-conservation, also save more time for the user simultaneously, the live time is more nimble, the operation is also more intelligent nimble, practical value is higher.

The limitation of the protection scope of the present invention is understood by those skilled in the art, and various modifications or changes which can be made by those skilled in the art without inventive efforts based on the technical solution of the present invention are still within the protection scope of the present invention.

Claims (7)

1. The utility model provides a virtual machine of trying on of glasses, includes fuselage (2), working bin (18) and back door (20), its characterized in that: the novel multifunctional mobile phone comprises a body (2), a base (1) is arranged at the bottom of the body (2), a liquid crystal touch screen (6) is installed on the upper portion of the front face of the body (2), a try-on camera module (7) is installed on the upper portion of the liquid crystal touch screen (6), a set of loudspeakers (5) are installed on the left side and the right side of the lower portion of the liquid crystal touch screen (6), two sets of WIFI antennas (8) are installed on the left side of the top of the body (2) in an aligned mode, a rear door (20) is installed on the rear face of the body (2), and;

the glasses-placing mechanism is characterized in that a working bin (18) is arranged in the middle of the machine body (2), glasses-placing cavities (10) are formed in the working bin (18), glasses-placing platforms (3) are arranged at the inner bottoms of the glasses-placing cavities (10), bin door covers (4) are mounted on the glasses-placing platforms (3), bin door translation structures (13) are arranged behind the bin door covers (4), and identification camera head parts (9) are arranged on the upper portion of the working bin (18).

2. The virtual glasses try-on machine according to claim 1, characterized in that: an ARM board (17) is installed on the inside of the machine body (2), and a maintenance layout module (14) is arranged below the ARM board (17).

3. The virtual glasses try-on machine according to claim 1, characterized in that: the bottom of door translation structure (13) is provided with supporting beam (25), and the centre of supporting beam (25) is provided with translation bottom plate (28), install step motor (31) and ball screw (29) on translation bottom plate (28), it has hold-in range (30) to rotate between step motor (31) and ball screw (29), the other end of ball screw (29) supports the trailing flank at translation connecting plate (26), both sides all are provided with a set of guide rail slider (27) about the bottom surface of translation connecting plate (26), guide rail slider (27) are located translation bottom plate (28) upper surface, door cover (4) are installed on the upper portion of guide rail slider (27), the left side of door cover (4) sets up back photoelectric switch (32) and preceding photoelectric switch (33), the below of door translation structure (13) is provided with focal power measurement module (12) simultaneously.

4. The virtual glasses try-on machine according to claim 1, characterized in that: strong current module (11) and weak current module (16) are installed respectively to the inside bottom of fuselage (2), and four switching power supply boxes are chooseed for use in strong current module (11), and the power supply box is by the outside power supply of equipment, and weak current module (16) are the equipment control circuit board, and the below installation of strong current module (11) and weak current module (16) all has fan (15) to a set of heat dissipation frame (19) of bottom on back door (20) are all towards in the outside of two sets of fan (15).

5. The virtual glasses try-on machine according to claim 1, characterized in that: a set of shock attenuation gyro wheel (100) are all installed to four corners in the bottom of base (1), and shock attenuation gyro wheel (100) adopt the universal wheel structure to the rear portion of every group shock attenuation gyro wheel (100) all sets up the brake structure.

6. The virtual glasses try-on machine according to claim 1, characterized in that: the rear door (20) is hinged to the right side of the rear side face of the machine body (2), the rear door (20) is of a rotatable structure, the rotatable angle of the rear door (20) is set to be 0-90 degrees, and meanwhile a door lock is arranged on the rear door (20).

7. The virtual glasses try-on machine according to claim 1, characterized in that: six groups of infrared photoelectric correlation switches (21) are correspondingly arranged on the left side and the right side inside the working bin (18), a lifting blocking piece (22) is arranged on the rear side face of the working bin (18), a parameter recorder chuck (23) is arranged in the middle of the glasses placement platform (3) at the bottom of the working bin (18), left and right parameter recorder clamps (24) are arranged on the left side and the right side of the glasses placement platform (3), and a pressure mirror component (36) is arranged on the upper portion of the inner side of the glasses placement platform (3).

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