CN116661595B - Virtualized bathroom mirror system with wearing simulation function and simulation method - Google Patents

Abstract

The invention discloses a virtualized bathroom mirror system with a wearing simulation function and a simulation method, wherein the virtualized bathroom mirror system comprises a control unit, and a bathroom mirror, a camera and a first projection device which are in communication connection with the control unit; the bathroom mirror is configured to provide a developing area; the camera is used for collecting first human body data on the back of the user from the back of the user and collecting second human body data on the front of the user through a mirror image in the bathroom mirror; the first projection device is used for projecting a wearing image of the wearing article to a developing area of the bathroom mirror; the invention forms the state that the mirror image of the user is attached to the wearing article, so that the user can intuitively feel the wearing effect of the wearing article, the wearing reality feel is better, and the use experience is improved.

Description

Virtualized bathroom mirror system with wearing simulation function and simulation method

Technical Field

The invention relates to the technical field of wearing display of bathroom mirrors, in particular to a virtualized bathroom mirror system with a wearing simulation function.

Background

In the shopping process, people often need to try on in a fitting room to observe the effect after wearing, however, privacy leakage risks exist in the fitting room; meanwhile, after people shop on the internet, the clothes are required to be replaced and tried on, however, the newly purchased clothes are not cleaned, so that the clothes are stained with a lot of dust and other foreign matters, and skin allergy reaction can occur to skin allergy personnel when the clothes are tried on.

For this reason, in the prior art, chinese patent application No. 202011043259.6 discloses a virtual wearing system and control method thereof, a virtual fitting system and a virtual wearing mirror; the human body image is directly acquired through a camera integrated in the wearing mirror and displayed through the display equipment, and then the virtual fitting is realized by combining the image of the matched type clothes with the human body image; so that the above-mentioned problems can be solved.

However, in the technical scheme, the simulated clothes are worn on the simulated portrait, so that the body feeling of people is not real enough when the clothes are used, and the use experience is poor.

Disclosure of Invention

The invention aims to overcome the defects and provide a virtualized bathroom mirror system with wearing simulation function, which can improve the use experience.

In order to achieve the above object, the present invention is specifically as follows:

a virtualized bathroom mirror system with a wearing simulation function comprises a control unit, and a bathroom mirror, a camera and a first projection device which are in communication connection with the control unit; the bathroom mirror is configured to provide a developing area; the camera is used for collecting first human body data on the back of the user from the back of the user and collecting second human body data on the front of the user through a mirror image in the bathroom mirror; the first projection device is used for projecting wearing images of the wearing object to the developing area of the bathroom mirror.

Optionally, the control unit determines a wearing article applicable to the user model according to the first human body data, determines a wearing position and a first contour shape of the wearing article according to the data information of the wearing article, and sends the wearing position of the wearing article to the first projection device and the bathroom mirror.

Optionally, the control unit obtains a second contour shape of the user in the bathroom mirror according to the second human body data, determines coordinate information and wearing contour of the wearing object in the bathroom mirror according to the second contour shape and the first contour shape, and sends the coordinate information and the wearing contour to the first projection device and the bathroom mirror.

Optionally, the bathroom mirror forms a developing area for receiving the wearing image according to the wearing position, the wearing contour and the coordinate information, and the developing area is overlapped with the second contour shape.

Optionally, the bathroom mirror comprises a mirror frame, a mirror body, a light-transmitting belt and a powder distribution assembly which are arranged in the mirror frame, and further comprises a first power assembly which is arranged in the mirror frame; the mirror body is located the light transmission area, the cloth powder subassembly is used for making the light transmission area take and forms the development area, a power component is used for driving the light transmission area and rotates.

Optionally, the bathroom mirror further comprises a mirror support and a second power assembly arranged on the mirror support, wherein the mirror frame is slidably connected to the mirror support, and the second power assembly is used for driving the mirror frame to slide.

Optionally, the bathroom mirror further comprises a light-transmitting plate arranged on the mirror frame, and the light-transmitting plate enables the mirror body, the light-transmitting belt and the powder distribution assembly to be located in a space formed by the light-transmitting plate and the mirror frame.

Optionally, the camera is located between the first projection device and the second projection device, and the second projection device is used for performing supplementary projection when the first projection device is shielded.

Optionally, the camera is further configured to acquire a coincident image when the developing region coincides with the second contour shape.

The beneficial effects of the invention are as follows: according to the invention, the first human body data on the back of the user and the second human body data of the user on the mirror image are obtained through the camera, so that the wearing position, the first outline shape and the second outline shape of the wearing object are obtained through the control unit according to the first human body data and the second human body data, the coordinate information and the wearing outline of the wearing object are determined according to the second outline shape, the wearing position and the first outline shape, the bathroom mirror is controlled to form a developing area consistent with the coordinate information and the wearing outline, and the first projection device projects the wearing image of the wearing object onto the developing area according to the coordinate information and the wearing outline, so that the wearing effect of the wearing object is more intuitively perceived by the user, the wearing reality feeling is better, and the use experience is improved.

Drawings

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

FIG. 2 is a schematic view of the bathroom mirror of the present invention;

FIG. 3 is a schematic view of another view of the bathroom mirror of the present invention;

FIG. 4 is an exploded schematic view of the bathroom mirror of the present invention;

FIG. 5 is a partial cross-sectional view of the bathroom mirror of the present invention;

FIG. 6 is an exploded view of the powder dispensing assembly of the present invention;

FIG. 7 is a schematic cross-sectional view of a powder distribution assembly of the present invention;

reference numerals illustrate: 1. a control unit; 2. bathroom mirror; 21. a frame; 22. a mirror body; 23. a light transmitting belt; 24. a powder distribution assembly; 241. a powder distribution frame body; 242. a powder distribution cover; 2431. a powder pump; 2432. a spray pipe; 2441. a static electricity eliminating roller; 2442. a shield; 245. a powder collecting roller; 246. a powder scraping plate; 247. a laser emitting module; 248. a transfer roller; 249. a powder distribution roller; 251. a power motor; 252. a roll shaft; 26. a mirror support; 271. a power push rod; 28. a light-transmitting plate; 3. a camera; 4. a first projection device; 5. a communication module; 6. and a second projection device.

Detailed Description

The invention will now be described in further detail with reference to the drawings and the specific embodiments, without limiting the scope of the invention.

As shown in fig. 1 to 7, the virtualized bathroom mirror system with the wearing simulation function according to the present embodiment includes a control unit 1, and a bathroom mirror 2, a camera 3 and a first projection device 4 which are communicatively connected with the control unit 1; the bathroom mirror 2 is configured to provide a developing area; the camera 3 is used for collecting first human body data on the back of the user from the back of the user and collecting second human body data on the front of the user through a mirror image in the bathroom mirror 2; the first projection device 4 projects a wearing image of the wearing article onto the development area of the bathroom mirror 2. The first human body data comprise data such as the height, arm length, fat and thin of the user; the second human body data includes data of chest circumference, five sense organs, facial forms, etc. of the user. The control unit 1 stores a photo database containing different wearing articles in advance; the control unit 1 is in communication connection with the bathroom mirror 2, the camera 3 and the first projection device 4 through the communication module 5.

In this embodiment, the control unit 1 determines a wearing article suitable for the user model according to the first body data, determines the wearing position and the first contour shape of the wearing article according to the data information of the wearing article, and sends the wearing position of the wearing article to the first projection device 4 and the bathroom mirror 2. In this embodiment, the control unit 1 obtains a second contour shape of the user in the bathroom mirror 2 according to the second human body data, determines coordinate information and a wearing contour of the wearing article in the bathroom mirror 2 according to the second contour shape and the first contour shape, and sends the coordinate information and the wearing contour to the first projection device 4 and the bathroom mirror 2. The data information includes information of the model, color, category, etc. of the wearing article. In this embodiment, the bathroom mirror 2 forms a development area for receiving the wearing image according to the wearing position, the wearing contour, and the coordinate information, and overlaps the development area with the second contour shape.

In practical application, the bathroom mirror 2 is mounted on a front wall, the camera 3 and the first projection device 4 are mounted on a rear wall, a user stands in front of the bathroom mirror 2 in a direction facing the bathroom mirror 2, the user selects a wearing object to be simulated and worn through a handheld mobile terminal, the camera 3 shoots a first image of the back of the user from behind, first body type data of the user are obtained through the first image, and second body type data of the user are obtained through the second image, wherein the first body type data of the user is obtained through the first image, and the second body type data of the user is obtained through the second image; the camera 3 sends the first body type data and the second body type data to the control unit 1, the control unit 1 selects a corresponding type of wearing article from the photo database according to the first body type data, and determines the wearing position of the wearing article and the first contour shape of the wearing article according to the specific type, type and other data information of the wearing article, if the wearing article is a hat, the wearing position is determined to be a head, and if the wearing article is a shirt, the wearing position is determined to be an upper body area; then the wearing position of the wearing article is sent to the first projection device 4 and the bathroom mirror 2; meanwhile, the control unit 1 determines a second contour shape of the user in the bathroom mirror 2 according to the second body type data, so that coordinate information and a wearing contour of the wearing article in the bathroom mirror 2 are determined according to the second contour shape, the wearing position of the wearing article and the first contour shape, the coordinate information is a spatial position of the wearing article in the bathroom mirror, the wearing contour is a contour shape of the wearing article in the bathroom mirror, and the wearing contour and the coordinate information are sent to the first projection device 4 and the bathroom mirror 2;

the bathroom mirror 2 forms a developing area overlapped with the coordinate information according to the wearing article, the wearing position of the wearing article, the wearing contour and the coordinate information, so that the developing area is overlapped with the second contour shape, and then the first projection device 4 projects the wearing image of the wearing article to the developing area according to the coordinate information, the wearing contour and the wearing position, so that a user intuitively perceives a mirror image when the wearing article is attached in the bathroom mirror 2.

According to the embodiment, the first human body data on the back of the user and the second human body data of the user on the mirror image are obtained through the camera 3, so that the wearing position, the first contour shape and the second contour shape of the wearing object are obtained through the control unit 1 according to the first human body data and the second human body data, the coordinate information and the wearing contour of the wearing object are determined according to the second contour shape, the wearing position and the first contour shape, the bathroom mirror 2 is controlled to form a developing area consistent with the coordinate information and the wearing contour, the first projection device 4 projects the wearing image of the wearing object onto the developing area according to the coordinate information and the wearing contour, the wearing object attaching state of the mirror image of the user is formed, the wearing effect of the wearing object is more intuitively felt by the user, the wearing reality feeling is better, and the use experience is improved.

According to the embodiment, the camera 3 is arranged to collect the first human body data on the back of the user and the second human body data of the mirror image in the bathroom mirror 2, so that the human body data of the user can be obtained more comprehensively, the wearing simulation effect is improved, and the collection cost is reduced.

In some embodiments, the bathroom mirror 2 includes a mirror frame 21, a mirror body 22, a light-transmitting belt 23 and a powder distribution assembly 24 disposed in the mirror frame 21, and a first power assembly disposed in the mirror frame 21; the mirror body 22 is located in the light-transmitting belt 23, the powder distribution assembly 24 is used for enabling a developing area to be formed on the light-transmitting belt 23, and the first power assembly is used for driving the light-transmitting belt 23 to rotate. In this embodiment, the control unit 1 and the communication module 5 are mounted on the rear side of the frame 21.

Specifically, the outer surface of the light-transmitting belt 23 is coated with a photosensitive material that can generate and collect positive charges on the illuminated area under laser irradiation, and the mirror 22 is located between the front-side inner surface and the rear-side inner surface of the light-transmitting belt 23;

the powder distribution assembly 24 comprises a powder distribution frame 241 and a powder distribution cover 242 covered on the powder distribution frame 241, an accommodating space is formed between the powder distribution cover 242 and the powder distribution frame 241, a first cavity, a second cavity and a third cavity are partitioned in the accommodating space, the first cavity is provided with a first window and a second window at intervals, negatively charged powder is loaded in the first cavity, a powder pump 2431 for conveying the powder is arranged in the first cavity, the output end of the powder pump 2431 extends to the second cavity, the output end of the powder pump 2431 is connected with a spray pipe 2432, a static eliminating roller 2441 is further rotationally connected in the first cavity, a roller surface part of the static eliminating roller is positioned in the second window, a shielding cover 2442 positioned in the first cavity is further rotationally connected in the first cavity, the powder collecting roller 245 positioned on one side of the static eliminating roller 2441, a scraping plate 246 is further arranged in the first cavity, the output end of the powder pump 2431 extends to the second cavity, the output end of the powder pump 2431 is connected with a spray pipe 2432, a third window is rotationally connected with the roller surface of the third cavity, a laser transmitting roller 248 is further arranged in the third cavity, the roller surface part of the third cavity is rotationally connected with the third window, the roller surface of the third window is in contact with the third window is rotatably connected with the roller 248, the roller surface part of the third window is in the third window is rotatably connected with the third window, and the roller 248 is positioned in the third window, the third window is positioned in the third window is further rotationally.

When the control unit 1 works, the first power component is controlled to work, the first power component drives the light-transmitting belt 23 to rotate, meanwhile, the laser emission module 247 irradiates onto the outer surface of the rear side of the light-transmitting belt 23 according to the wearing outline of a wearing article in the bathroom mirror 2, so that the light-transmitting belt 23 is generated and gathers positive charges by the laser irradiation area to form an electrostatic latent image of the wearing article, when the light-transmitting belt 23 drives the positively charged electrostatic latent image to move to correspond to the area of the powder distribution roller 249, negatively charged powder on the powder distribution roller 249 is adsorbed to the electrostatic latent image area, a developing area for receiving the first projection device 4 to project the wearing image is formed, then the light-transmitting belt 23 drives the developing area to move to the front side of the mirror 22, the developing area moves to a position corresponding to the coordinate information, the projection of the developing area on the surface of the mirror 22 coincides with the second outline shape, and after the coincidence is completed, the first projection device 4 projects the wearing image of the wearing article in the developing area, so that the wearing effect of the wearing article is formed on the mirror image of a user.

When a user selects other wearing articles to wear, the light-transmitting belt 23 drives the developing area to move to correspond to the position of the powder collecting roller 245, negative powder on the developing area is absorbed by the powder collecting roller 245, the powder on the roller surface of the powder collecting roller 245 is scraped by the powder scraping plate 246 and is recovered into the first cavity, and when the electrostatic latent image moves to correspond to the position of the electrostatic eliminating roller 2441, the electrostatic latent image on the light-transmitting belt 23 is eliminated by the electrostatic eliminating roller 2441 so as to form the next electrostatic latent image; the powder pump 2431 ejects the negatively charged powder in the first chamber into the second chamber through the nozzle 2432 toward the transfer roller 248, the transfer roller 248 transfers the powder in the second chamber onto the powder distribution roller 249, and the powder distribution roller 249 transfers the powder to the electrostatic latent image region of the light-transmitting belt 23, thereby forming a developing region for receiving the wearing image.

In this embodiment, the first power assembly includes a power motor 251 and two rollers 252 disposed at intervals, the rollers 252 are rotatably connected in the frame 21, the light-transmitting belt 23 is wound on the two rollers 252, the power motor 251 is mounted on the frame 21, and an output end of the power motor 251 is connected with one end of one of the rollers 252, so as to drive the light-transmitting belt 23 to rotate.

In some embodiments, the bathroom mirror 2 further includes a mirror support 26 and a second power assembly disposed on the mirror support 26, wherein the mirror frame 21 is slidably connected to the mirror support 26, and the second power assembly is used for driving the mirror frame 21 to slide. Specifically, the mirror support 26 is fixed on the front wall surface, and the mirror frame 21 is driven to move up and down by the second power assembly, so that the heights of the mirror body 22 and the light-transmitting belt 23 are adjusted to adapt to users with different heights, and the structure is more flexible. Further, the second power assembly comprises two power push rods 271, the two power push rods 271 are distributed on two sides of the mirror support 26, the output ends of the power push rods 271 are connected with the mirror frame 21, limiting strip holes are formed in two sides of the mirror support 26, the mirror frame 21 is correspondingly provided with a first limiting pin and a second limiting pin in a protruding mode, the first limiting pin and the second limiting pin are correspondingly and movably clamped into the limiting strip holes, the two first limiting pins are respectively connected with the output ends of the two power push rods 271, and the second limiting pin is located above the first limiting pin, so that the stroke of the mirror frame 21 is limited by being matched with the limiting strip holes.

In some embodiments, the bathroom mirror 2 further includes a light-transmitting plate 28 disposed on the mirror frame 21, wherein the light-transmitting plate 28 positions the mirror body 22, the light-transmitting belt 23, and the powder distribution assembly 24 in a space formed by the light-transmitting plate 28 and the mirror frame 21; thus, the light-transmitting belt 23, the mirror body 22 and the powder distribution assembly 24 in the mirror frame 21 are protected.

In some embodiments, the virtualized bathroom mirror system with the wearing simulation function further comprises a second projection device 6 communicatively connected to the control unit 1, wherein the camera 3 is located between the first projection device 4 and the second projection device 6, and the second projection device 6 is used for performing supplementary projection when the first projection device 4 is blocked. In actual use, the control unit 1 simultaneously sends the coordinate information of the wearing article in the bathroom mirror 2, the wearing position and the wearing contour of the wearing article to the second projection device 6, so that when the projection of the first projection device 4 is partially blocked by the user, the second projection device 6 can carry out supplementary projection on the blocked part, thereby ensuring the integrity of the wearing image of the wearing article, and the structure is more reliable.

In some embodiments, the camera 3 is further configured to collect a coincident image when the developing area is coincident with the second contour shape. So set up, camera 3 sends the coincidence image that gathers to control unit 1, and control unit 1 judges whether the deviation that the profile coincides is within the deviation threshold value scope through the coincidence image, if the coincidence deviation exceeds the deviation threshold value upper limit, control unit 1 control first power component, second power component drive light transmissivity area 23 and the picture frame 21 body remove to adjust the position of developing area, until the coincidence deviation is within the scope of coincidence deviation threshold value, further guarantees the wearing effect that shows in the mirror body 22.

The foregoing description is only one preferred embodiment of the invention, and therefore all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are intended to be embraced therein.

Claims (9)

1. The virtualized bathroom mirror system with the wearing simulation function is characterized by comprising a control unit, and a bathroom mirror, a camera and a first projection device which are in communication connection with the control unit; the bathroom mirror is configured to provide a developing area; the camera is used for collecting first human body data on the back of the user from the back of the user and collecting second human body data on the front of the user through a mirror image in the bathroom mirror; the first projection device is used for projecting a wearing image of the wearing article to a developing area of the bathroom mirror;

the bathroom mirror comprises a mirror frame, a mirror body, a light-transmitting belt and a powder distribution assembly, and also comprises a first power assembly, wherein the mirror body, the light-transmitting belt and the powder distribution assembly are arranged in the mirror frame; the lens body is positioned in the light-transmitting belt, the powder distribution assembly is used for enabling the light-transmitting belt to form a developing area, and the first power assembly is used for driving the light-transmitting belt to rotate;

the outer surface of the light-transmitting belt is coated with a photosensitive material, and the photosensitive material can generate and gather positive charges on an illumination area under the irradiation of laser;

the powder distribution assembly comprises a powder distribution frame body and a powder distribution cover covered on the powder distribution frame body, wherein a containing space is formed between the powder distribution cover and the powder distribution frame body, negatively charged powder is loaded in the containing space, a powder pump for conveying the powder is arranged in the containing space, and a laser emission module with an emission side facing to a light transmission belt and a powder distribution roller are rotatably connected in the containing space;

when the laser projection device is used, the laser emission module irradiates the outer surface of the rear side of the light-transmitting belt according to the wearing outline of a wearing object in the bathroom mirror, so that the light-transmitting belt is generated and gathers positive charges in the laser irradiation area to form an electrostatic latent image of the wearing object, and when the light-transmitting belt drives the positively charged electrostatic latent image to move to correspond to the area of the powder distribution roller, negatively charged powder on the powder distribution roller is adsorbed in the electrostatic latent image area to form a developing area for receiving the projection wearing image of the first projection device.

2. The virtualized bathroom mirror system with wearing simulation function according to claim 1, wherein the control unit determines a wearing article applicable to a user model according to first human body data, determines a wearing position and a first contour shape of the wearing article according to data information of the wearing article, and sends the wearing position of the wearing article to the first projection device and the bathroom mirror.

3. The virtualized bathroom mirror system with the wearing simulation function according to claim 2, wherein the control unit obtains a second contour shape of the user in the bathroom mirror according to the second human body data, determines coordinate information and wearing contours of the wearing article in the bathroom mirror according to the second contour shape and the first contour shape, and sends the coordinate information and the wearing contours to the first projection device and the bathroom mirror.

4. A virtualized bathroom mirror system as recited in claim 3 wherein the bathroom mirror forms a developed area for receiving a wearing image based on the wearing position, the wearing contour, and the coordinate information and wherein the developed area is coincident with the second contour shape.

5. The virtualized bathroom mirror system of claim 4 wherein the bathroom mirror further comprises a mirror support and a second power assembly disposed on the mirror support, the mirror frame being slidably coupled to the mirror support, the second power assembly being configured to drive the mirror frame to slide.

6. The virtualized bathroom mirror system with wearing simulation function according to claim 4, wherein the bathroom mirror further comprises a light-transmitting plate arranged on the mirror frame, wherein the light-transmitting plate enables the mirror body, the light-transmitting belt and the powder distribution assembly to be arranged in a space formed by the light-transmitting plate and the mirror frame.

7. The virtualized bathroom mirror system of claim 1, further comprising a second projection device communicatively coupled to the control unit, wherein the camera is positioned between the first projection device and the second projection device, wherein the second projection device is configured to supplement the projection when the first projection device is occluded.

8. A virtualized bathroom mirror system as recited in claim 3 wherein the camera is further configured to capture an image of the developed area coincident with the second contour shape.

9. A method of simulating a virtualized bathroom mirror system as recited in claim 4 comprising the steps of:

s100: acquiring first human body data and second human body data of a user;

s200: determining a wearing position, a first contour shape and a second contour shape of a user of the wearing article through the first human body data and the second human body data;

s300: determining coordinate information and wearing contours of the wearing article in the bathroom mirror according to the second contour shape and the first contour shape;

s400: providing a developing area overlapped with the second contour shape according to the coordinate information and the wearing contour;

s500: and projecting the wearing image to the developing area according to the coordinate information and the wearing contour.