CN108433459B - A kind of intelligent simulation device for jewelry try-on environment and its working method - Google Patents

Abstract

The invention discloses an intelligent simulation device used for a jewelry try-on environment and a working method thereof. The device includes a jewelry counter, a control mechanism and a counter support. The control mechanism includes a processor, a driving device and a storage device. The driving device and the storage device are respectively connected with The processor is connected, and the storage device is used to store different types of scene data. The jewelry counter includes several counter units. The counter units are spliced horizontally. The counter unit includes a display area and a storage area. The display area is used for displaying jewelry, and the storage area is used for storage. Jewelry, the display area includes at least four first electronic displays, the first electronic displays are arranged on the left side, the right side, the bottom surface of the display area and the opposite side of the user, and the first electronic displays are all connected with the processor for simulating the output processor For the scene data sent, the display area further includes lighting groups, which are arranged on the edges of the first electronic displays on the left and right sides of the display area, and are connected to the driving device.

Description

A kind of intelligent simulation device for jewelry try-on environment and its working method

technical field

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

Background technique

When purchasing valuables such as jewelry, users tend to weigh it over and over again, try them on several times, and then make payment after full consideration. However, most users will still be dissatisfied with the product after purchasing even if they think twice before purchasing. The reason is that jewelry stores The try-on environment inside is different from the user's daily life environment.

Jewelry stores generally choose special lighting to visually provide users with a wrong look and feel to improve users’ sense of identity with jewelry. However, the outdoor lighting is different from the lighting in the store, and the outdoor environment and the background of the jewelry store are also quite different. Therefore, after the user buys the jewelry, the effect will be far inferior to the effect when trying on the jewelry in the store. To sum up, the present invention improves the environment of the jewelry try-on to increase the authenticity of the try-on environment. .

SUMMARY OF THE INVENTION

Purpose of the invention: In order to overcome the shortcomings in the background technology, the embodiments of the present invention provide an intelligent simulation device for a jewelry try-on environment and a working method thereof, which can effectively solve the problems involved in the above background technology.

Technical solution: an intelligent simulation device for a jewelry try-on environment, comprising a jewelry counter, a control mechanism and a counter support, the control mechanism includes 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 to store different types of scene data, the jewelry counter includes a number of counter units, the counter units are spliced horizontally, the counter units include a display area and a storage area, the The display area is used to display jewelry, the storage area is used to store jewelry, the display area includes at least four first electronic displays, and the first electronic displays are arranged on the left, right, and bottom surfaces of the display area and the opposite of the user, the first electronic display is connected to the processor for simulating and outputting scene data sent by the processor, and the display area further includes a lighting group, and the lighting group is arranged in the The edges of the first electronic display on the left and right sides of the display area, and the lighting group is connected with the driving device.

As a preferred 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, and the second electronic display is connected to the driving device. The processor is connected, and the second electronic display cooperates with the first electronic display.

As a preferred mode of the present invention, the display area further includes a jewelry support and a first lifting device, and the first lifting device is connected to the driving device for controlling the lifting height of the jewelry support.

As a preferred mode of the present invention, the storage area includes a camera device and a pickup device, the camera device is connected to the processor, and is used for capturing an image in the storage area and sending the image to a The processor, the extracting device is connected to the driving device for extracting the jewelry in the storage area and transferring the jewelry to the jewelry holder.

As a preferred mode of the present invention, the counter support includes a second lifting device, and the second lifting device is connected to the driving device for controlling the lifting height of the counter unit.

As a preferred mode of the present invention, it comprises the following working steps:

a) The processor establishes a connection relationship with the mobile terminal located in the same network;

b) the processor receives a simulation request sent by the mobile terminal, where the simulation request includes a simulation scenario condition;

c) the processor determines whether the simulated scene conditions include picture information;

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

e) if no, the processor extracts the matched scene data from the storage device according to the simulated scene condition 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 an off signal to the driving device, and the driving device drives the lighting 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 the light above, and the second electronic display is turned on to work together:

The processor outputs a rotation signal to the driving device, and the driving device drives the rotating top cover to rotate by a preset angle, and the preset angle is set by the 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 holder does not match, it also includes a method for adjusting goods:

the processor obtains the 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 storage area.

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

the camera device captures an image in the storage area and sends the image to the processor;

The processor determines the jewelry model on the jewelry holder, and determines whether there is jewelry of the same model and target size in the storage area;

If so, 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 transfer the jewelry to the jewelry holder;

The processor outputs a first rising signal to the driving device, and the driving device drives the first lifting device to rise to the display area.

As a preferred mode of the present invention, when the user tries on the jewelry, the height of the display area is adjusted according to the different parts of the jewelry:

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

The processor outputs a second lowering signal to the driving device, and the driving device drives the second lifting device to lower a preset height.

The preset height is set by the user.

The present invention achieves the following beneficial effects:

The intelligent simulation device for the jewelry try-on environment provided by the present invention can prevent the visual disturbance of the user caused by special lighting in the store, and simulate the real outdoor environment to reduce the viewing and perception error of the jewelry indoors and outdoors; It is activated when trying on the jewelry, which is shielded on the glass shell of the display area to prevent excess light from entering the display area, and the rotating top cover is equipped with a second electronic display, which is connected to the first electronic display in the display area. An electronic display works synchronously to further enhance the simulation effect; the jewelry support is connected with a first lifting device, the first lifting device passes through the bottom surface of the display area, and the storage area is used to store the jewelry of the same model in the display area above it. , the present invention provides the function of automatic adjustment of goods, which can quickly replace the same jewelry of different sizes; the counter support is equipped with a second lifting device, and the second lifting device can adjust the vertical height of the display area, which is convenient for users to observe the jewelry at a close distance. Simulate the try-on effect in the scene.

Description of drawings

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

2 is a schematic structural diagram of a counter unit provided by the present invention;

3 is a schematic structural diagram of a rotating top cover provided by the present invention;

4 is a schematic structural diagram of the rotating top cover provided by the present invention when working;

FIG. 5 is a schematic structural diagram of a storage area provided by the present invention;

6 is a flowchart of a working method of an intelligent simulation device for a jewelry try-on environment provided by the present invention;

Fig. 7 is the flow chart of the automatic adjustment method provided by the present invention;

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

FIG. 9 is a structural block diagram of the control mechanism provided by the present invention.

Detailed ways

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

Example 1

As shown in Figures 1, 2, 3, 4, 5, and 9, an intelligent simulation device for a jewelry try-on environment includes a jewelry counter 1, a control mechanism 2 and a counter support 3, and the control mechanism 2 includes a processor 4, The drive device 5 and the storage device 6 are respectively connected to the processor 4, and the storage device 6 is used to store different types of scene data. The jewelry counter 1 includes several counter units 7. The counter units 7 are spliced horizontally. The unit 7 includes a display area 8 and a storage area 9. The display area 8 is used to display jewelry, and the storage area 9 is used to store the jewelry. The display area 8 includes at least four first electronic displays 10. The first electronic displays 10 are arranged in the display area. On the left side, the right side, the bottom surface and the opposite side of the user in the area 8, the first electronic display 10 is connected with the processor 4 for simulating the scene data sent by the output processor 4, and the display area 8 also includes a lighting group 11, lighting The lamp groups 11 are arranged on the edges of the first electronic display 10 on the left and right sides of the display area 8 , and the lighting lamp groups 11 are connected with the driving device 5 .

The display area 8 also includes a rotating top cover 12, the rotating top cover 12 is connected with the driving device 5, the rotating top cover 12 includes a second electronic display 13, the second electronic display 13 is connected with the processor 4, and the second electronic display 13 is connected with the first electronic display 13. The electronic displays 10 work together.

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

The storage area 9 includes a camera device 16 and an extraction device 17. The camera device 16 is connected to the processor 4 for capturing images in the storage area 9 and sending the images to the processor 4. The extraction device 17 is connected to the driving device 5, Used to pick up the jewelry in the storage area 9 and transfer the jewelry to the jewelry holder 14 .

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

Specifically, an intelligent simulation device for a jewelry try-on environment provided by the present invention includes a jewelry counter 1, a control mechanism 2 and a counter support 3, and the control mechanism 2 includes a processor 4, a driving device 5 and a storage device 6. The jewelry counter 1 includes several counter units 7, the counter unit 7 includes a display area 8 and a storage area 9, the display area 8 includes a first electronic display 10, a lighting group 11, a rotating top cover 12, a jewelry holder 14 and a first lifting device 15, The rotating top cover 12 includes a second electronic display 13 , the storage area 9 includes a camera device 16 and a pickup device 17 , and the counter support 3 includes a second lifting device 18 .

Among them, the display area 8 of the jewelry counter 1 is surrounded by a transparent glass cover, and the outer side is provided with an opening. Users can observe the jewelry in the display area 8 through the upper and outer glass materials, and the rotating top cover 12 will not cover it by default. Above the display area 8, the rotating top cover 12 will be turned over to the top of the display area 8 only when the present invention performs scene simulation. After the rotating top cover 12 is turned over, the rotating top cover 12 and the left and right sides of the display area 8 , the bottom surface and the opposite side of the user form a simulation space surrounded by five sides, the simulation space has five first electronic displays 10 and a second electronic display 13, and the simulation space simulates the scene required by the user. In order to enhance the simulation effect, the top of the display area 8 is not horizontal, and the display area 8 is set as a structure with a high outer side and a low inner side. In the display area 8, a conventional lighting group 11 is provided. The lighting group 11 is arranged on the edge of the first electronic display 10 to form a light strip. The lighting group 11 and the first electronic display 10 work alternately. When the illuminating lamp group 11 is turned on and the first electronic display 10 is turned off; when trying on the jewelry, the illuminating lamp group 11 is turned off and the first electronic display 10 is turned on. The first electronic display 10 on the bottom surface of the display area 8 is formed by splicing a number of small screens, leaving a number of vacancies during splicing, and a jewelry bracket 14 is arranged on the vacant space, and the bottom of the jewelry bracket 14 is connected with the first lifting device 15. The lifting device 15 leads directly to the storage area 9 below the display area 8, and the storage area 9 has a one-to-one correspondence with the display area 8, that is, the lower storage area 9 stores the same type of jewelry as the upper display area 8 , when there is no jewelry of suitable size in the display area 8, the jewelry of the appropriate size can be automatically extracted from the storage area 9. The camera device 16 is arranged at the bottom of the display area 8, and the shooting range covers the storage area 9 below. The device 17 is arranged on the mechanical claw, and the mechanical claw is arranged on the side wall of the storage area 9 . The extraction device 17 and the camera device 16 work together. The counter bracket 3 is arranged at the bottom of the jewelry counter 1, and the counter bracket 3 has a one-to-one correspondence with the counter unit 7, that is, one counter bracket 3 controls the lifting work of one counter unit 7, and each counter unit 7 can be lifted independently and mutually. Does not affect.

Embodiment 2

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

a) The processor 4 establishes a connection relationship with the mobile terminal located in the same network;

b) the processor 4 receives the simulation request sent by the mobile terminal, and the simulation request includes the simulation scene condition;

c) the processor 4 judges whether the picture information is included in the simulated scene condition;

d) if so, 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 the 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 acquires the 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 shutdown signal to the driving device 5, and the driving device 5 drives the lighting group 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 together:

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, and the preset angle is set by the 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 the user tries on the jewelry, he adjusts the height of the display area 8 according to the different parts 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 to a preset height;

The processor 4 outputs a second lowering signal to the driving device 5, and the driving device 5 drives the second lifting device 18 to lower the preset height.

The preset height is set by the user.

Specifically, the present invention includes two control methods, one is using the mechanical buttons on the jewelry counter 1 to perform various operations, and the other is using a mobile terminal to establish a connection with the processor 4 to perform wireless operations. This embodiment describes the second control method. Before trying on the jewelry, the user connects the mobile terminal to the wireless network in the store, and 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 , it will automatically establish a connection with the mobile terminal, and data transmission can be realized between the mobile terminal and the processor 4. Jewelry shops generally choose special lighting to visually provide users with a wrong look and feel, so as to improve the user's sense of identity with jewelry. However, the outdoor light is different from the lighting in the store, and the outdoor environment is quite different from the background of the jewelry store. Therefore, after the user buys the jewelry, the effect of wearing it in daily life will be far worse than the effect of trying it in the store. On the other hand, the present invention improves the environment for trying on the jewelry, so as to increase the authenticity of the trying-on environment. The trying-on environment includes lighting and background. After the processor 4 establishes a connection relationship with the mobile terminal, the user selects the simulation scene of the jewelry. The simulation scene provided by the present invention includes two sources. One is to receive data sent by the user; data. If the user needs to customize the simulation scene, then add picture information or video information to the simulation scene conditions, and the processor 4 displays the picture information or video information included in the simulation scene conditions on the first electronic display 10 after receiving the simulation scene conditions. There is no need to customize the simulation scene, then add constraints to the simulation scene conditions, the processor 4 extracts the scene data that meets the constraints in the storage device 6 according to the constraints and sends the scene data to the mobile terminal, and the user selects one through the mobile terminal. or multiple scene data and feedback the selected scene data 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 group 11 in the display area 8 stops working, and after the simulation of the first electronic display 10 is completed, the lighting group 11 in the display area 8 is turned on again.

The lighting group 11 in the display area 8 can be turned on or off at any time, but the lights in the store cannot be turned on or off at any time. Since the outer cover of the display area 8 is made of glass material, the lighting above the display area 8 may affect the simulation effect. A rotating top cover 12 is provided. The rotating top cover 12 is in a one-to-one relationship with the counter unit 7. The rotating top cover 12 can completely cover the top of the display area 8 to prevent excess light from entering the display area 8. The rotating top cover 12 includes the first The second electronic display 13 cooperates with the first electronic display 10 to enhance the simulation effect. When the rotating top cover 12 is opened, the second electronic display 13 is turned on synchronously, and the processor 4 synchronously distributes the scene data to the first electronic display 10 and the second electronic display 13. The first electronic display 10 and the second electronic display 13 output scene data synchronously, wherein the rotating top cover 12 can only be rotated in the vertical space, and the rotation angle thereof is between 0 and 270 degrees.

In order to facilitate the user to observe the try-on effect of the jewelry in the simulated scene at a close distance, the present invention adds a second lifting device 18 capable of lifting up and down in the counter support 3, and the second lifting device 18 establishes a one-to-one correspondence with the counter unit 7 , a single second lifting device 18 can only control the lifting and lowering of one counter unit 7 .

Embodiment 3

As shown in FIG. 7 , if the jewelry size of the jewelry holder 14 does not match, it also includes the adjustment method:

The processor 4 obtains the target size;

The processor 4 outputs a first descending signal to the driving device 5 , and the driving device 5 drives the first lifting device 15 to descend to the storage area 9 .

The automatic dispatch methods include:

The camera device 16 captures the image in the storage area 9 and sends the image to the processor 4;

The processor 4 determines the jewelry model on the jewelry holder 14, and judges whether there is jewelry of the same model and target size in the storage area 9;

If so, 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 holder 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 .

Specifically, the jewelry displayed in the display area 8 is limited, and one type of jewelry will only be displayed in one size, while the jewelry of the same style of other sizes is stored in the storage area 9 below the display area 8. In a general jewelry store, when the jewelry is displayed When the size of a certain piece of jewelry in zone 8 does not match the user, a waiter will exchange it. The back-and-forth replacement steps are cumbersome and easily lead to loss of jewelry. The present invention provides an automatic adjustment method to reduce the exchange time. The first lifting device 15 and the jewelry holder 14 are recommended. There is a one-to-one correspondence. After confirming that the goods need to be adjusted, the user sets the target size through the mobile terminal and sends the target size to the processor 4. The processor 4 calculates the distance from the jewelry holder 14 to the bottom of the storage area 9, and sends it to the driving device. 5 outputs the first descending signal, the driving device 5 drives the first lifting device 15 to descend the above-mentioned distance, a camera device 16 is arranged in the storage area 9, and the camera can acquire the image of any position in the storage area 9 and send the image to the processor 4. The processor 4 first confirms the jewelry model on the jewelry support 14, then obtains the jewelry model included in the received image, and marks the jewelry with the same model as the jewelry on the jewelry support 14 in the storage area 9, and further from the above The jewelry that matches the target size is extracted from the marked jewelry and replaced with the jewelry on the jewelry holder 14 . Finally, the processor 4 outputs the first rising signal to the driving device 5 , and the driving device 5 drives the first lifting device 15 . rise to its original position.

The above-mentioned embodiments are only for illustrating the technical concept and characteristics of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement them accordingly, and cannot limit the protection scope of the present invention with this. All equivalent transformations 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. a kind of intelligent simulation equipment for jewelry try-on environment, comprising jewelry counter, control mechanism and counter support, it is characterized in that, described control mechanism comprises processor, drive device and storage device, described drive device and described The storage devices are respectively connected with the processor, and the storage devices are used to store different types of scene data. The jewelry counter includes several counter units. The counter units are spliced horizontally. The counter units include a display area and a storage area. , the display area is used to display jewelry, the storage area is used to store jewelry, the display area includes at least four first electronic displays and a rotating top cover, the first electronic displays are arranged on the display area. On the left side, the right side, the bottom side and the opposite side of the user, the first electronic display is connected to the processor for simulating output of scene data sent by the processor, and 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 with the processor, the second electronic display cooperates with the first electronic display, and the display area also includes a lighting group , the lighting group is arranged on the edge of the first electronic display on the left and right sides of the display area, and the lighting group is connected with the driving device; The display area further includes a jewelry support and a first lifting device, the first lifting device is connected with the driving device and is used to control the lifting height of the jewelry support, and the storage area includes a camera device and an extraction device, The camera device is connected to the processor for capturing images in the storage area and sending the images to the processor, and the extracting device is connected to the driving device for extracting the image Store the jewelry in the storage area and transfer the jewelry to the jewelry support. If the jewelry size of the jewelry support does not match, it also includes an adjustment method: the processor obtains the target size, and the processor sends the driver to the driver. The device outputs a first descending signal, the driving device drives the first lifting device to descend to the storage area, and the method for automatic cargo adjustment includes: the camera device captures an image in the storage area and sends the image to the storage area. The processor; the processor determines the jewelry model on the jewelry holder, and determines whether there is jewelry of the same model and target size in the storage area, if so, the processor locks the jewelry and sends it to all the jewelry. The driving device outputs an extraction signal, the driving device drives the extraction device to extract the jewelry and transfers the jewelry to the jewelry holder, the processor outputs a first rising signal to the driving device, and the driving device The device drives the first lifting device to ascend to the 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 uses 2 . 3 . for controlling the lifting height of the counter unit. 3. a kind of working method for the intelligent simulation equipment of jewelry try-on environment according to claim 2 is characterized in that: comprise the following working steps: a) The processor establishes a connection relationship with the mobile terminal located in the same network; b) the processor receives a simulation request sent by the mobile terminal, where the simulation request includes a simulation scenario condition; c) the processor determines whether the simulated scene conditions include picture information; d) if yes, the processor extracts the picture information and sends the picture information to the first electronic display as scene data; e) if no, the processor extracts the matched scene data from the storage device according to the simulated scene condition 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 an off signal to the driving device, and the driving device drives the lighting group to stop working. 4 . The working method of an intelligent simulation device for a jewelry try-on environment according to claim 3 , wherein: during the scene simulation performed by the first electronic display, the rotating top cover is adjusted to block the upper part. 5 . light, while turning on the second electronic display works with: The processor outputs a rotation signal to the driving device, and the driving device drives the rotating top cover to rotate by a preset angle, and the preset angle is set by the 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 working method of a kind of intelligent simulation device for jewelry try-on environment according to claim 3, it is characterized in that: when user tries on jewelry, adjust the height of described display area according to the different parts of wearing jewelry: the processor outputs a second rising signal to the driving device, and the driving device drives the second lifting device to rise 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 a preset height; The preset height is set by the user.

Images