CN108433459B - Intelligent simulation device for jewelry try-on environment and working method thereof - Google Patents

Abstract

The invention discloses an intelligent simulation device for jewelry try-on environment and a working method thereof, the intelligent simulation device comprises a jewelry counter, a control mechanism and a counter support, the control mechanism comprises a processor, a driving device and a storage device, the driving device and the storage device are respectively connected with the processor, the storage device is used for storing scene data of different types, the jewelry counter comprises a plurality of counter units which are transversely spliced, each counter unit comprises a display area and a storage area, the display area is used for displaying jewelry, the storage area is used for storing the jewelry, the display area comprises at least four first electronic displays, the first electronic displays are arranged on the left side, the right side, the bottom surface and the opposite surface of a user of the display area, the first electronic displays are all connected with the processor and are used for simulating and outputting the scene data sent by the processor, the display area also comprises an illuminating lamp group, the illuminating lamp group is arranged on the edges of the first electronic displays on the left side and the right side, the lighting lamp group is connected with the driving device.

Description

Intelligent simulation device for jewelry try-on environment and working method thereof

Technical Field

The invention relates to the field of intelligent jewelry, in particular to intelligent simulation equipment for a jewelry try-on environment and a working method thereof.

Background

When the jewelry is purchased, the user often balances three times, tries on the jewelry for a plurality of times and pays after fully considering, but most users still have dissatisfaction with the product after purchasing even if the user tries on the jewelry again and again before purchasing, because the trying-on environment in the jewelry shop is different from the daily living environment of the user.

The jewelry stores generally select special lights to visually provide wrong impressions for users to improve the recognition of the users to the jewelry, but the outdoor light is different from the lights in the stores, and the outdoor environment is quite different from the background of the jewelry stores, so that the jewelry is worn by the users daily in a better way than the jewelry is tried in the stores after the users buy the jewelry.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides intelligent simulation equipment for a jewelry try-on environment and a working method thereof, which can effectively solve the problems related to the background art.

The technical scheme is as follows: an intelligent simulation device for jewelry try-on environment comprises a jewelry counter, a control mechanism and a counter support, wherein the control mechanism comprises a processor, a driving device and a storage device, the driving device and the storage device are respectively connected with the processor, the storage device is used for storing scene data of different types, the jewelry counter comprises a plurality of counter units, the counter units are transversely spliced, each counter unit comprises a display area and a storage area, the display area is used for displaying jewelry, the storage areas are used for storing the jewelry, the display areas comprise at least four first electronic displays, the first electronic displays are arranged on the left side, the right side and the bottom surface of the display area and opposite surfaces of users, and the first electronic displays are all connected with the processor and used for simulating and outputting the scene data sent by the processor, the display area further comprises illuminating lamp groups, the illuminating lamp groups are arranged on the edges of the first electronic displays on the left side and the right side of the display area, and the illuminating lamp groups are connected with the driving device.

As a preferable mode of the present invention, the display area further includes a rotating top cover, the rotating top cover is connected to the driving device, the rotating top cover includes a second electronic display, the second electronic display is connected to the processor, and the second electronic display and the first electronic display cooperate with each other.

As a preferable mode of the invention, the display area further comprises a jewelry support and a first lifting device, and the first lifting device is connected with the driving device and is used for controlling the lifting height of the jewelry support.

As a preferable mode of the present invention, the storage area includes a camera and an extraction device, the camera is connected to the processor and is configured to capture an image in the storage area and send the image to the processor, and the extraction device is connected to the driving device and is configured to extract jewelry in the storage area and transfer the jewelry to the jewelry support.

As a preferable mode of the present invention, the counter support includes a second lifting device, and the second lifting device is connected to the driving device and is configured to control a lifting height of the counter unit.

The method comprises the following working steps:

a) the processor establishes a connection relation with a mobile terminal in the same network;

b) the processor receives a simulation request sent by the mobile terminal, wherein the simulation request comprises a simulation scene condition;

c) the processor judges whether the simulated scene conditions comprise picture information or not;

d) if so, the processor extracts the picture information and sends the picture information to the first electronic display as scene data;

e) if not, the processor extracts matched scene data from the storage device according to the simulated scene conditions and sends the scene data to the mobile terminal;

f) the processor acquires scene data selected by the mobile terminal and sends the scene data to the first electronic display;

g) the first electronic display sequentially outputs the received scene data;

h) the processor outputs a closing signal to the driving device, and the driving device drives the lighting lamp group to stop working.

As a preferred mode of the present invention, during the scene simulation of the first electronic display, the rotating top cover is adjusted to block light from above, and the second electronic display is turned on to cooperate with:

the processor outputs a rotation signal to the driving device, the driving device drives the rotating top cover to rotate by a preset angle, and the preset angle is set by a user;

the processor sends the scene data to the first electronic display and the second electronic display, and the first electronic display and the second electronic display output the scene data.

As a preferred mode of the present invention, if the jewelry size of the jewelry support is not the same, the method further comprises:

the processor obtains a target size;

the processor outputs a first descending signal to the driving device, and the driving device drives the first lifting device to descend to the goods storage area.

As a preferred mode of the present invention, an automatic shipment method includes:

the camera device shoots images in the goods storage area and sends the images to the processor;

the processor determines the model of the jewelry on the jewelry support and judges whether the jewelry with the same model and the target size exists in the storage area;

if yes, the processor locks the jewelry and outputs an extraction signal to the driving device, and the driving device drives the extraction device to extract the jewelry and transfers the jewelry to the jewelry support;

the processor outputs a first ascending signal to the driving device, and the driving device drives the first lifting device to ascend to a display area.

As a preferred mode of the invention, when trying on jewelry, a user adjusts the height of the display area according to different positions of wearing the jewelry:

the processor outputs a second ascending signal to the driving device, and the driving device drives the second lifting device to ascend by a preset height;

and the processor outputs a second descending signal to the driving device, and the driving device drives the second lifting device to descend by a preset height.

The preset height is set by a user.

The invention realizes the following beneficial effects:

the intelligent simulation equipment for the jewelry try-on environment provided by the invention can prevent the interference of special lamplight in a shop to the vision of a user, and simulate a real outdoor environment to reduce the indoor and indoor impression errors of the jewelry; the rotary top cover is started when the jewelry is tried on and is shielded on a glass shell of the display area to prevent redundant light from entering the display area, and the rotary top cover is provided with a second electronic display which works synchronously with the first electronic display in the display area to further enhance the simulation effect; the jewelry support is connected with a first lifting device, the first lifting device penetrates through the bottom surface of the display area, and the storage area is used for storing jewelry with the same type and size as those in the display area above the storage area; the counter support is equipped with second elevating gear, the vertical height in show area can be adjusted to second elevating gear, and the user of being convenient for closely observes the try-on effect of ornament in the simulation scene.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure. FIG. 1 is a schematic structural diagram of an intelligent simulation device for jewelry try-on environment according to the present invention;

FIG. 2 is a schematic view of a counter unit according to the present invention;

FIG. 3 is a schematic view of a rotary top cover structure provided by the present invention;

FIG. 4 is a schematic structural view of the rotary top cover according to the present invention;

FIG. 5 is a schematic view of a storage area according to the present invention;

FIG. 6 is a flow chart of a method for operating an intelligent simulation device for jewelry fitting environments according to the present invention;

FIG. 7 is a flow chart of an automatic load adjustment method provided by the present invention;

FIG. 8 is a flow chart of a jewelry extraction method provided by the present invention;

fig. 9 is a block diagram of a control mechanism according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

As shown in fig. 1, 2, 3, 4, 5, and 9, an intelligent simulation device for jewelry try-on environment comprises a jewelry counter 1, a control mechanism 2, and a counter support 3, wherein the control mechanism 2 comprises a processor 4, a driving device 5, and a storage device 6, the driving device 5 and the storage device 6 are respectively connected with the processor 4, the storage device 6 is used for storing scene data of different types, the jewelry counter 1 comprises a plurality of counter units 7, the counter units 7 are transversely spliced, the counter units 7 comprise a display area 8 and a storage area 9, the display area 8 is used for displaying jewelry, the storage area 9 is used for storing jewelry, the display area 8 comprises at least four first electronic displays 10, the first electronic displays 10 are arranged on the left side, the right side, the bottom side, and the opposite side of a user of the display area 8, the first electronic displays 10 are all connected with the processor 4 and are used for simulating and outputting the scene data sent by the processor 4, the display area 8 further comprises an illumination lamp set 11, the illumination lamp set 11 is arranged on the edges of the first electronic displays 10 on the left side and the right side of the display area 8, and the illumination lamp set 11 is connected with the driving device 5.

The display area 8 further comprises a rotating top cover 12, the rotating top cover 12 is connected with the driving device 5, the rotating top cover 12 comprises a second electronic display 13, the second electronic display 13 is connected with the processor 4, and the second electronic display 13 is cooperated with the first electronic display 10.

The display area 8 further comprises a jewelry support 14 and a first lifting device 15, and the first lifting device 15 is connected with the driving device 5 and used for controlling the lifting height of the jewelry support 14.

The storage area 9 comprises a camera device 16 and an extraction device 17, the camera device 16 is connected with the processor 4 and used for shooting images in the storage area 9 and sending the images to the processor 4, and the extraction device 17 is connected with the driving device 5 and used for extracting jewelries in the storage area 9 and transferring the jewelries to the jewel support 14.

The counter support 3 comprises a second lifting device 18, and the second lifting device 18 is connected with the driving device 5 and used for controlling the lifting height of the counter unit 7.

Specifically, the intelligent simulation equipment for jewelry try-on environment provided by the invention comprises a jewelry counter 1, a control mechanism 2 and a counter support 3, wherein the control mechanism 2 comprises a processor 4, a driving device 5 and a storage device 6, the jewelry counter 1 comprises a plurality of counter units 7, each counter unit 7 comprises a display area 8 and a storage area 9, each display area 8 comprises a first electronic display 10, a lighting lamp set 11, a rotating top cover 12, a jewelry support 14 and a first lifting device 15, each rotating top cover 12 comprises a second electronic display 13, each storage area 9 comprises a camera 16 and a pick-up device 17, and each counter support 3 comprises a second lifting device 18.

The display area 8 of the jewelry counter 1 is surrounded by a transparent glass outer cover, an opening is formed in the outer side of the display area 8, a user can observe jewelry in the display area 8 through glass materials above and outside the display area, the rotary top cover 12 cannot cover the display area 8 in a default state, only when the jewelry counter is used for scene simulation, the rotary top cover 12 is turned over to the display area 8, after the rotary top cover 12 is turned over, the rotary top cover 12, the left side, the right side, the bottom face and the opposite face of the user form a five-face surrounding simulation space, the simulation space is provided with five first electronic displays 10 and five second electronic displays 13, and scenes required by the user are simulated in the simulation space. In order to enhance the simulation effect, the top of the display area 8 is not horizontal, and the display area 8 is configured to be higher at the outer side and lower at the inner side. In the display area 8, a conventional lighting lamp set 11 is arranged, the lighting lamp set 11 is arranged at the edge of the first electronic display 10 to form a lamp strip, the lighting lamp set 11 and the first electronic display 10 work alternately, and when the jewelry is not tried on, the lighting lamp set 11 is turned on and the first electronic display 10 is turned off; when trying on jewelry, the set of lights 11 is off and the first electronic display 10 is on. The first electronic display 10 of the bottom surface of the display area 8 is formed by splicing a plurality of small screens, a plurality of vacant positions are reserved during splicing, a jewelry support 14 is arranged on the vacant positions, the bottom of the jewelry support 14 is connected with a first lifting device 15, the first lifting device 15 is directly communicated with the storage area 9 below the display area 8, the storage area 9 and the display area 8 are in one-to-one correspondence, namely, jewelries of the same type as those in the display area 8 above are stored in the storage area 9 below, when no jewelries of the size suitable for a user exist in the display area 8, the jewelries of the proper size can be automatically extracted from the storage area 9, the camera 16 is arranged at the bottom of the display area 8, the storage area 9 below is covered by a shooting range, the extraction device 17 is arranged on a mechanical claw, the mechanical claw is arranged on the side wall of the storage area 9, and the extraction device 17 and the camera 16 are jointly operated. The counter support 3 is arranged at the bottom of the jewelry counter 1, the counter support 3 and the counter units 7 have one-to-one correspondence, namely, one counter support 3 controls the lifting work of one counter unit 7, and the counter units 7 can independently lift and do not influence each other.

Example two

As shown in fig. 6, a working method of an intelligent simulation device for jewelry try-on environment comprises the following working steps:

a) the processor 4 establishes a connection relation with a mobile terminal in the same network;

b) the processor 4 receives a simulation request sent by the mobile terminal, wherein the simulation request comprises a simulation scene condition;

c) the processor 4 judges whether the simulated scene condition includes picture information;

d) if yes, the processor 4 extracts the picture information and sends the picture information to the first electronic display 10 as scene data;

e) if not, the processor 4 extracts matched scene data from the storage device 6 according to the simulated scene conditions and sends the scene data to the mobile terminal;

f) the processor 4 obtains scene data selected by the mobile terminal and sends the scene data to the first electronic display 10;

g) the first electronic display 10 sequentially outputs the received scene data;

h) the processor 4 outputs a closing signal to the driving device 5, and the driving device 5 drives the lighting lamp set 11 to stop working.

During the scene simulation of the first electronic display 10, the rotating top cover 12 is adjusted to block the light above, and the second electronic display 13 is turned on to work:

the processor 4 outputs a rotation signal to the driving device 5, and the driving device 5 drives the rotating top cover 12 to rotate by a preset angle, wherein the preset angle is set by a user;

the processor 4 sends the scene data to the first electronic display 10 and the second electronic display 13, and the first electronic display 10 and the second electronic display 13 output the scene data.

When trying on jewelry, the user adjusts the height of the display area 8 according to the different positions of the jewelry:

the processor 4 outputs a second rising signal to the driving device 5, and the driving device 5 drives the second lifting device 18 to rise by a preset height;

the processor 4 outputs a second descending signal to the driving device 5, and the driving device 5 drives the second lifting device 18 to descend by a preset height.

The preset height is set by the user.

Specifically, the invention comprises two control methods, wherein one control method is to use a mechanical button on the jewelry counter 1 to carry out various operations, and the other control method is to use a mobile terminal to establish connection with the processor 4 to carry out wireless operation. This embodiment illustrates a second control method, before trying on jewelry, the user connects the mobile terminal to the wireless network in the store, the processor 4 searches for devices in the wireless network in real time, when the processor 4 finds the mobile terminal in the wireless network, the connection with the mobile terminal is automatically established, data transmission can be realized between the mobile terminal and the processor 4, the jewelry shop generally selects special light, provides users with wrong visual perception in vision to improve the perception of the users to the jewelry, but the outdoor light is different from the shop light, and the outdoor environment is quite different from the background of the jewelry shop, therefore, after the user purchases the jewelry, the effect of wearing the jewelry is far inferior to that of trying on the jewelry in a shop, and in conclusion, the jewelry is improved in the environment of trying on the jewelry so as to increase the authenticity of the environment of trying on the jewelry, wherein the environment of trying on the jewelry comprises light and a background. After the processor 4 and the mobile terminal establish a connection relation, a user selects a simulation scene of the jewelry, wherein the simulation scene provided by the invention comprises two sources, one of which receives data sent by the user; second, the local data in the device 6 is stored. If the user needs to customize the simulation scene, adding picture information or video information in the simulation scene condition, the processor 4 receives the simulation scene condition and then displays the picture information or video information included in the simulation scene condition in the first electronic display 10, if the user does not need to customize the simulation scene, then adding a constraint condition in the simulation scene condition, the processor 4 extracts scene data meeting the constraint condition from the storage device 6 according to the constraint condition and sends the scene data to the mobile terminal, the user selects one or more scene data through the mobile terminal and feeds the selected scene data back to the processor 4, and the processor 4 displays the received scene data selected by the user in the first electronic display 10. During the operation of the first electronic display 10, the lighting lamp set 11 in the display area 8 stops operating, and after the simulation of the first electronic display 10 is completed, the lighting lamp set 11 in the display area 8 is turned on again.

The lighting lamp set 11 in the display area 8 can be turned on or off at any time, but the lighting in the shop cannot be turned on or off at any time, because the display area 8 is covered with glass materials, the lighting above the display area 8 may affect the simulation effect, the invention also provides a rotary top cover 12, the rotary top cover 12 and the counter unit 7 suggest a one-to-one correspondence relationship, the rotary top cover 12 can completely cover the upper part of the display area 8 to prevent redundant lighting from entering the display area 8, the rotary top cover 12 comprises a second electronic display 13 which is matched with the first electronic display 10 to enhance the simulation effect, when the rotary top cover 12 is turned on, the second electronic display 13 is synchronously turned on, the processor 4 synchronously distributes the scene data to the first electronic display 10 and the second electronic display 13, and the first electronic display 10 and the second electronic display 13 synchronously output the scene data, wherein, the swivel cap 12 can only swivel in the vertical space by an angle between 0 and 270 degrees.

In order to facilitate a user to observe the try-on effect of the jewelry in a simulated scene in a short distance, the second lifting device 18 capable of realizing ascending and descending is added in the counter support 3, the second lifting device 18 and the counter units 7 are in one-to-one correspondence, and the single second lifting device 18 can only control the ascending and descending of one counter unit 7.

EXAMPLE III

As shown in fig. 7, if the jewelry size of the jewelry holder 14 is not the same, the method further comprises:

the processor 4 obtains a target size;

the processor 4 outputs a first lowering signal to the driving device 5, and the driving device 5 drives the first lifting device 15 to lower to the cargo storage area 9.

The automatic goods adjusting method comprises the following steps:

the camera device 16 shoots the images in the goods storage area 9 and sends the images to the processor 4;

the processor 4 determines the model of the jewelry on the jewelry support 14 and judges whether the jewelry with the same model and the target size exists in the storage area 9;

if yes, the processor 4 locks the jewelry and outputs an extraction signal to the driving device 5, and the driving device 5 drives the extraction device 17 to extract the jewelry and transfer the jewelry to the jewelry support 14;

the processor 4 outputs a first rising signal to the driving device 5, and the driving device 5 drives the first lifting device 15 to rise to the display area 8.

In particular, the jewelries displayed in the display area 8 are limited, one jewelries can only display one size, and the jewelries with the same size are stored in the storage area 9 below the display area 8, in a common jewelery, when the size of a certain jewelries in the display area 8 is not consistent with that of a user, a waiter exchanges the jewelries, the exchange steps are complicated, and the jewelries are easy to lose, the invention provides an automatic adjusting method, the exchange time is reduced, the first lifting device 15 and the jewelries support 14 suggest a one-to-one corresponding relation, after the adjustment is confirmed, the user sets a target size through a mobile terminal and sends the target size to the processor 4, the processor 4 calculates the distance from the jewelries support 14 to the bottom of the storage area 9, and outputs a first descending signal to the driving device 5, the driving device 5 drives the first lifting device 15 to descend for the distance, the camera 16 is arranged in the storage area 9, the camera shooting can acquire images at any positions in the storage area 9 and send the images to the processor 4, the processor 4 firstly confirms the model of the jewelry on the jewelry support 14, then acquires the model of the jewelry in the received images, marks the jewelry in the storage area 9, which is the same as the model of the jewelry on the jewelry support 14, further extracts the jewelry which is in accordance with the target size from the marked jewelry, replaces the jewelry with the target size on the jewelry support 14, and finally, the processor 4 outputs a first rising signal to the driving device 5, and the driving device 5 drives the first lifting device 15 to rise to the original position.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. An intelligent simulation device for jewelry try-on environment comprises a jewelry counter, a control mechanism and a counter support, and is characterized in that the control mechanism comprises a processor, a driving device and a storage device, the driving device and the storage device are respectively connected with the processor, the storage device is used for storing scene data of different types, the jewelry counter comprises a plurality of counter units, the counter units are transversely spliced, the counter units comprise a display area and a storage area, the display area is used for displaying jewelry, the storage area is used for storing jewelry, the display area comprises at least four first electronic displays and a rotating top cover, the first electronic displays are arranged on the left side, the right side, the bottom surface and the opposite face of a user of the display area, and the first electronic displays are all connected with the processor, the rotating top cover is connected with the driving device and comprises a second electronic display, the second electronic display is connected with the processor and works with the first electronic display, the display area further comprises illuminating lamp groups, the illuminating lamp groups are arranged on the edges of the first electronic display on the left side and the right side of the display area, and the illuminating lamp groups are connected with the driving device;

the display area further comprises a jewelry support and a first lifting device, the first lifting device is connected with the driving device and used for controlling the lifting height of the jewelry support, the storage area comprises a camera device and an extraction device, the camera device is connected with the processor and used for shooting images in the storage area and sending the images to the processor, the extraction device is connected with the driving device and used for extracting the jewelry in the storage area and transferring the jewelry to the jewelry support, and if the jewelry size of the jewelry support is not consistent, the display area further comprises a goods adjusting method: the processor obtains a target size, the processor outputs a first descending signal to the driving device, the driving device drives the first lifting device to descend to the goods storage area, and the automatic goods adjusting method comprises the following steps: the camera device shoots images in the goods storage area and sends the images to the processor; the processor determines the model of the jewelry on the jewelry support and judges whether the jewelry with the same model and the target size exists in the storage area, if yes, the processor locks the jewelry and outputs an extraction signal to the driving device, the driving device drives the extraction device to extract the jewelry and transfer the jewelry to the jewelry support, the processor outputs a first lifting signal to the driving device, and the driving device drives the first lifting device to lift to a display area.

2. An intelligent simulation device for a jewelry try-on environment according to claim 1, wherein: the counter support comprises a second lifting device, and the second lifting device is connected with the driving device and used for controlling the lifting height of the counter unit.

3. The method of claim 2, wherein the method comprises: the method comprises the following working steps:

a) the processor establishes a connection relation with a mobile terminal in the same network;

b) the processor receives a simulation request sent by the mobile terminal, wherein the simulation request comprises a simulation scene condition;

c) the processor judges whether the simulated scene conditions comprise picture information or not;

d) if so, the processor extracts the picture information and sends the picture information to the first electronic display as scene data;

e) if not, the processor extracts matched scene data from the storage device according to the simulated scene conditions and sends the scene data to the mobile terminal;

f) the processor acquires scene data selected by the mobile terminal and sends the scene data to the first electronic display;

g) the first electronic display sequentially outputs the received scene data;

h) the processor outputs a closing signal to the driving device, and the driving device drives the lighting lamp group to stop working.

4. The method of claim 3, wherein the method comprises: during scene simulation of the first electronic display, adjusting the rotating top cover to block light rays above the rotating top cover, and simultaneously starting the second electronic display to work in a matched mode:

the processor outputs a rotation signal to the driving device, the driving device drives the rotating top cover to rotate by a preset angle, and the preset angle is set by a user;

the processor sends the scene data to the first electronic display and the second electronic display, and the first electronic display and the second electronic display output the scene data.

5. The method of claim 3, wherein the method comprises: when a user tries on the jewelry, the height of the display area is adjusted according to different jewelry wearing positions:

the processor outputs a second ascending signal to the driving device, and the driving device drives the second lifting device to ascend by a preset height;

the processor outputs a second descending signal to the driving device, and the driving device drives the second lifting device to descend by a preset height;

the preset height is set by a user.

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