CN220344107U - Fitting mirror - Google Patents

Abstract

The utility model belongs to the technical field of articles for daily use, and discloses a fitting mirror, which comprises a frame body, a plane mirror, a 3D display screen and an identification module, wherein the frame body can be placed on a fixed part; the plane mirror is arranged on one side surface of the frame body; the 3D display screen is arranged on the side surface of the frame body, which is away from the plane mirror; the recognition module is arranged on the frame body and is in communication connection with the 3D display screen, and the recognition module can obtain a human body 3D model of a fitting person positioned in front of the 3D display screen and display the model through the 3D display screen. According to the fitting mirror provided by the utility model, a fitting person can clearly watch the fitting effect of the front side and the side through the plane mirror, the mirror image posture in the plane mirror and the actual posture of the fitting person are synchronously changed, the fitting effect during posture change can be watched well, the fitting person can watch the fitting effect of other visual angles through the 3D display screen, and the fitting requirement of the fitting person can be met better.

Description

Fitting mirror

Technical Field

The utility model belongs to the technical field of articles for daily use, and particularly relates to a fitting mirror.

Background

Fitting mirrors are indispensable articles in homes and shops to help fitting persons watch the fitting effect and personal image of clothes.

The traditional fitting mirror adopts a common plane reflecting mirror, and based on the light reflection law, a fitting person can see a virtual image which is mirror symmetrical to the fitting person, and the mode can only see the front and the side, and can not know the visual effects of other angles; for this reason, intelligent fitting mirrors appear on the market, through taking the photo of fitting person's each angle, obtain fitting person's 3D model, 3D model shows through the mirror surface, fitting person is through watching 3D model in order to learn the visual effect of each visual angle of self from each angle, however, the definition of the drawing that this kind of mode presented is not enough, moreover, the 3D model that presents is asynchronous with self's gesture, can't watch the fitting effect when gesture changes well to can't satisfy fitting person's fitting demand well.

Therefore, there is a need for a fitting mirror that solves the above-mentioned technical problems.

Disclosure of Invention

The utility model aims to provide a fitting mirror which can clearly observe fitting effects of the front face and the side face, well observe effects when the posture changes and also can observe fitting effects of all angles, thereby better meeting fitting requirements of fitting persons.

To achieve the purpose, the utility model adopts the following technical scheme:

a fitting mirror, comprising:

the frame body can be placed on the fixed part;

the plane mirror is arranged on one side surface of the frame body;

the 3D display screen is arranged on the side surface of the frame body, which is away from the plane mirror;

the identification module is arranged on the frame body and is in communication connection with the 3D display screen, and the identification module can obtain a human body 3D model of a fitting person positioned in front of the 3D display screen and display the model through the 3D display screen.

As a preferable technical scheme of the fitting mirror, the frame body comprises a base and a mounting plate, wherein the base can be placed on the fixed part, the mounting plate is connected to the base, and the plane mirror and the 3D display screen are respectively arranged on two opposite sides of the mounting plate.

As a preferable technical scheme of the fitting mirror, the fitting mirror further comprises a rotating assembly, and the mounting plate is rotatably connected with the base through the rotating assembly.

As a preferable technical scheme of the fitting mirror, the rotating assembly comprises a rotating shaft and a bearing, wherein the rotating shaft extends vertically, one end of the rotating shaft is fixedly connected to the middle of the bottom end of the mounting plate, the bearing is mounted in the middle of the top of the base, and the other end of the rotating shaft is fixedly penetrated in the bearing.

As a preferable technical scheme of the fitting mirror, the rotating assembly further comprises a driving piece, the driving piece is arranged on the base, and the output end of the driving piece is in driving connection with the rotating shaft and can drive the rotating shaft to rotate around the axis of the rotating shaft.

As a preferable technical solution of the fitting mirror, the identification module includes:

the light field acquisition module is arranged on the side surface of the frame body, on which the 3D display screen is arranged, and is positioned above the 3D display screen, and the light field acquisition module is used for acquiring light field data around the fitting person;

the light field data processing module is arranged on the frame body and is in communication connection with the light field acquisition module, and the light field data processing module can obtain the human body 3D model of the fitting person according to the light field data.

As a preferable technical scheme of the fitting mirror, the light field acquisition module comprises a light field camera or a plurality of cameras which are arranged in an array. As a preferable technical scheme of the fitting mirror, the recognition module further comprises a gesture recognition module, wherein the gesture recognition module is arranged on one side of the frame body, provided with the 3D display screen, and is used for recognizing gestures of a fitting person and translating, rotating or zooming the human body 3D model displayed on the 3D display screen according to the gestures.

As a preferred technical scheme of above-mentioned fitting mirror, still include inductive switch, inductive switch set up in on the support body, all with 3D display screen with the recognition module electricity is connected, inductive switch can respond to whether stand before the 3D display screen has the fitting person, in order to open or close 3D display screen with the recognition module.

As a preferable technical scheme of the fitting mirror, the induction switch is an infrared induction switch, an ultrasonic induction switch or a photoelectric induction switch.

The utility model has the beneficial effects that:

the utility model provides a fitting mirror, a fitting person can use the plane mirror to photograph the front side and the side, and the definition of the plane mirror is higher, so that the fitting effect of the front side and the side can be clearly watched through the plane mirror, the mirror image posture in the plane mirror and the actual posture of the fitting person are synchronously changed, the fitting effect during the posture change can be watched well, and the fitting person can watch the fitting effect of other visual angles through a 3D display screen. The 3D display screen and the plane mirror are respectively arranged on two opposite sides of the frame body, so that the occupied space of the whole fitting mirror is small, and the fitting mirror is convenient to put and store.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the following description will briefly explain the drawings needed in the description of the embodiments of the present utility model, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the contents of the embodiments of the present utility model and these drawings without inventive effort for those skilled in the art.

Fig. 1 is a schematic structural view of a fitting mirror according to an embodiment of the present utility model.

In the figure:

2. a plane mirror; 3. a 3D display screen; 4. a rotating assembly;

11. a mounting plate; 12. a base; 51. a light field acquisition module; 52. a light field data processing module; 53. and (5) a gesture recognition module.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar parts throughout, or parts having like or similar functions. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "mounted" are to be construed broadly, and may be, for example, mounted, connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intermediary, or may be in communication with one another or in an interaction relationship between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, unless explicitly stated and limited otherwise, a first feature "above" or "below" a second feature may include the first feature and the second feature being in direct contact, or may include the first feature and the second feature not being in direct contact but being in contact by another feature therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides a fitting mirror, which includes a frame body, a plane mirror 2, a 3D display screen 3 and an identification module, wherein the frame body can be placed on a fixed part; the plane mirror 2 is arranged on one side surface of the frame body; the 3D display screen 3 is arranged on the side surface of the frame body, which is away from the plane mirror 2; the recognition module is arranged on the frame body and is in communication connection with the 3D display screen 3, and the recognition module can obtain a human body 3D model of a fitting person positioned in front of the 3D display screen 3 and display the model through the 3D display screen 3.

The fitting mirror that this embodiment provided, the fitting person can use plane mirror 2 to shine its front and side, because the definition of plane mirror 2 is higher, consequently, can watch the fitting effect of front and side clearly through plane mirror 2, moreover, the gesture of mirror image and fitting person's actual gesture synchronous change in plane mirror 2, fitting effect when gesture change can be watched well, and fitting person can also watch the fitting effect of other visual angles through 3D display screen 3, this fitting mirror's use is various, can satisfy fitting person's fitting demand better. The 3D display screen 3 and the plane mirror 2 are respectively arranged at two opposite sides of the frame body, so that the occupied space of the whole fitting mirror is small, and the fitting mirror is convenient to put and store.

It will be appreciated that the fixed location refers to a surface such as the floor or table surface of the room, i.e. the fitting mirror can be placed directly on the floor or table surface of the room.

Specifically, the support body includes base 12 and mounting panel 11, and base 12 can be placed on fixed part, and mounting panel 11 rotates to be connected in base 12, and plane mirror 2 and 3D display 3 set up respectively in the opposite both sides of mounting panel 11. The base 12 is used for bearing the mounting plate 11, and the mounting plate 11 is used for bearing the plane mirror 2 and the 3D display screen 3.

The fitting mirror provided in this embodiment further comprises a rotating assembly 4, and the mounting plate 11 is rotatably connected to the base 12 through the rotating assembly 4. The swivel assembly 4 provides a swivel connection of the mounting plate 11 and the base 12. The mounting plate 11 rotates relative to the base 12 to facilitate adjustment of the positions of the flat mirror 2 and the 3D display 3. When the plane mirror 2 is required to be used, the plane mirror 2 is turned towards a fitting person by the rotary mounting plate 11, and when the 3D display screen 3 is required to be used, the 3D display screen 3 is turned towards the fitting person by the rotary mounting plate 11, so that the use is convenient and quick.

Specifically, the rotating assembly 4 includes a rotating shaft extending in the vertical direction, one end of which is fixedly connected to the middle of the bottom end of the mounting plate 11, and a bearing mounted to the middle of the top of the base 12, and the other end of which is fixedly penetrated in the bearing. The shaft and the bearing realize a rotational connection of the mounting plate 11 and the base 12. As shown by the arc arrow in FIG. 1, the mounting plate 11 rotates around a rotating shaft, and the rotating shaft is positioned in the middle of the mounting plate 11 and the base 12, so that the space swept by the mounting plate 11 in the rotating process is smaller, and the indoor space utilization rate is improved.

More specifically, the rotating assembly 4 further includes a driving member, where the driving member is disposed on the base 12, and an output end of the driving member is drivingly connected to the rotating shaft, and is capable of driving the rotating shaft to rotate around its own axis. The driving piece drives the mounting plate 11 to rotate through driving the rotating shaft to rotate so as to realize the automatic overturning of the mirror surface.

In this embodiment, the driving member is a motor.

Preferably, the motor is provided with an angle encoder, so that the rotating angle can be accurately controlled. Specifically, the recognition module comprises a light field acquisition module 51 and a light field data processing module 52, the light field acquisition module 51 is arranged on the side surface of the frame body, on which the 3D display screen 3 is arranged, and is positioned above the 3D display screen 3, and the light field acquisition module 51 is used for acquiring light field data around a fitting person; the light field data processing module 52 is arranged on the frame body and is in communication connection with the light field acquisition module 51, and the light field data processing module 52 can obtain a human body 3D model of a fitting person according to light field data. In the present embodiment, the light field acquisition module 51 is disposed on the mounting board 11, and the light field data processing module 52 is disposed on the base 12. Specifically, in the use process, the fitting person is located at the front side of the 3D display screen 3 and is located in the effective detection area of the light field acquisition module 51, the fitting person rotates the body, the light field acquisition module 51 can complete 360-degree light field acquisition on the fitting person, and some image coding algorithms are adopted to conduct data fusion on the acquired light field data with different angles, so that a human body 3D model of the fitting person is obtained, and then the human body 3D model is displayed through the 3D display screen 3 for the fitting person to watch. The structure and specific working principle of the light field acquisition module 51 and the light field data processing module 52 can refer to the prior art, and will not be described herein.

In this embodiment, the 3D display 3 includes a planar liquid crystal display and a lenticular film disposed on the planar liquid crystal display. 3D display effect can be realized, and simple structure, the cost is lower moreover. The lenticular grating pitch of the lenticular grating film is non-integer multiple of the width of the sub-pixels of the planar liquid crystal display screen, in order to balance the resolution loss in the horizontal direction and the vertical direction, the lenticular grating and the planar liquid crystal display screen are obliquely stuck, and the inclination angle is about 7 degrees, so that the 3D display screen 3 supports the display of the super-multi-view light field, a wearer can see different angle information of the human body 3D model on the 3D display screen 3 at the same time, and can see the 3D display effect without wearing any vision-aiding equipment (including 3D glasses, helmets and the like) through the 3D display screen 3, the convergence adjustment conflict is overcome, and the visual fatigue is not caused when the wearer looks for a long time.

Optionally, the light field collecting module 51 includes a light field camera, wherein the light field camera is to add a micro lens array in front of a photosensitive element of a common camera, so that light field information with different angles can be irradiated to different positions of the photosensitive element, and in the use process, a fitting person rotates the body in an effective detection area of the light field collecting module 51, so that 360-degree light field collection can be completed for the fitting person, and the collected light field information can be processed by the light field data processing module 52.

Optionally, the light field acquisition module 51 comprises a plurality of cameras arranged in an array. The cameras can be arranged in a straight line or in an arc, each camera shoots light field information of different angles of the fitting person, and in the use process, the fitting person rotates the body in an effective detection area of the light field acquisition module 51, so that 360-degree light field acquisition can be completed for the fitting person.

Optionally, the light field acquisition module 51 comprises a binocular camera or a depth camera for acquiring light field data around the fitting person. The binocular camera or depth camera is capable of obtaining depth images, which are used by the light field data processing module 52 to obtain a more accurate 360 degree model of the human body.

Specifically, the recognition module further includes a gesture recognition module 53, where the gesture recognition module 53 is disposed on one side of the frame where the 3D display screen 3 is disposed, and is configured to recognize a gesture of a fitting person, and translate, rotate or zoom a 3D model of the human body displayed on the 3D display screen 3 according to the gesture. The gesture recognition module 53 can realize the function of remotely controlling the human body 3D model, and can move, rotate or zoom the human body 3D model displayed on the 3D display screen 3, so that the human body 3D model can be more clearly and accurately watched from all angles of the whole body with the view angle of bystanders. Specifically, the gesture recognition module 53 is fixed on the base 12, and different gestures are defined for movement, rotation and scaling, and the gesture recognition module 53 can recognize the gestures of the left hand and the right hand of the fitting person, and control the human 3D model according to the gestures to execute the activities corresponding to the gestures, so as to obtain fitting effects of different viewing angles. The specific structure and the specific working principle of the gesture recognition module 53 can refer to the prior art, and are not described herein.

Specifically, the gesture recognition module 53 is a motion controller, for example, a leapfrog motion, in which two infrared cameras are built, and the two infrared cameras capture the gestures of the hands from different angles to obtain the motion information of the hands in a three-dimensional space, which can recognize the gestures and actions of the left and right hands of the fitting person, and can move, rotate or enlarge the 3D model of the human body on the display screen through the user-defined gestures, so that the fitting person can view the image of the whole body from various angles with the view angle of the bystander.

Specifically, the gesture recognition module 53 is disposed obliquely upward on the base 12, so that the detection area of the gesture recognition module 53 faces toward the fitting person, thereby satisfying that the gesture recognition module 53 can accurately recognize the gesture of the fitting person.

Specifically, the base 12 is provided with a hollow structure, so that the overall weight of the fitting mirror is reduced, the fitting mirror is convenient to move, and the space inside the base 12 can be used as a containing cavity.

In this embodiment, the light field data processing modules 52 are all disposed in the base 12, which is attractive and also plays a role in protecting the light field data processing modules 52.

The fitting mirror that this embodiment provided still includes inductive switch, and inductive switch sets up on the support body, all is connected with 3D display screen 3 and recognition module electricity, and inductive switch can respond to 3D display screen 3 before whether stand the fitting person to open or close 3D display screen 3 and recognition module. The arrangement of the inductive switch further improves the convenience of the use of the fitting mirror. When a fitting person wants to watch fitting effects at multiple angles, the 3D display screen 3 is turned to the front of the fitting person, and when the induction switch senses that the fitting person is in front of the 3D display screen 3, the 3D display screen 3 and the identification module are started; after the use is finished, when the inductive switch senses that no person is in front of the 3D display screen 3, the 3D display screen 3 and the identification module are closed.

Specifically, the inductive switch is an infrared inductive switch, an ultrasonic inductive switch or a photoelectric inductive switch. The infrared induction switch, the ultrasonic induction switch or the photoelectric induction switch realizes the automatic opening and closing of the 3D display screen 3 and the identification module. The specific structure and working principle of the infrared induction switch, the ultrasonic induction switch or the photoelectric induction switch can refer to the prior art, and the detailed description is omitted herein. Of course, the inductive switch may be any other type of inductive switch, which is not specifically limited herein.

Under the general use requirement, the fitting person can rotate one side of the plane mirror 2 to face himself, at this time, without using any external power supply and auxiliary devices, and the fitting person can watch own plane mirror image in the plane mirror 2.

If a person who wants to watch the images in all directions by bystanders can turn the 3D display screen 3 to himself, at this time, the fitting mirror will automatically turn on the power switch, the light field acquisition module 51, the light field data processing module 52, the gesture recognition module 53 and the 3D display screen 3 all start to work electrically, the person who wants to watch the human body rotates the human body within the effective detection area range of the light field acquisition module 51, so that the light field information of all angles of the human body is acquired by the light field acquisition module 51, the light field data processing module 52 performs data fusion on the acquired light field information of different angles to obtain the human body 3D model of the person who is wearing the fitting, and finally displays the human body 3D model on the 3D display screen 3, the person who is wearing the fitting can watch the stereoscopic images of different angles by slightly left and right lateral movement in front of the 3D display screen 3, the general viewing angle range is about 50 degrees, and if the person who wants to watch the stereoscopic images of larger angles (for example, the stereoscopic images behind the person can watch the human body 3D model on the 3D display screen 3 by using the user-defined gesture.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. A fitting mirror, comprising:

the frame body can be placed on the fixed part;

the plane mirror (2) is arranged on one side surface of the frame body;

the 3D display screen (3) is arranged on the side surface of the frame body, which is away from the plane mirror (2);

the recognition module is arranged on the frame body and is in communication connection with the 3D display screen (3), and the recognition module can obtain a human body 3D model of a fitting person positioned in front of the 3D display screen (3) and display the model through the 3D display screen (3).

2. Fitting mirror according to claim 1, characterized in that the frame comprises a base (12) and a mounting plate (11), the base (12) being able to be placed on the fixed part, the mounting plate (11) being connected to the base (12), the plane mirror (2) and the 3D display screen (3) being arranged on opposite sides of the mounting plate (11), respectively.

3. Fitting mirror according to claim 2, further comprising a swivel assembly (4), wherein the mounting plate (11) is rotatably connected to the base (12) by means of the swivel assembly (4).

4. A fitting mirror according to claim 3, wherein the rotation assembly (4) comprises a rotation shaft extending vertically and having one end fixedly connected to a middle portion of the bottom end of the mounting plate (11), and a bearing mounted to a middle portion of the top of the base (12), and the other end of the rotation shaft being fastened to the bearing.

5. Fitting mirror according to claim 4, characterized in that the rotating assembly (4) further comprises a driving element, which is arranged on the base (12), and the output end of which is connected with the rotating shaft in a driving manner, so that the rotating shaft can be driven to rotate around the axis of the rotating shaft.

6. The fitting mirror according to claim 1, wherein the identification module comprises:

the light field acquisition module (51) is arranged on the side surface of the frame body, on which the 3D display screen (3) is arranged, and is positioned above the 3D display screen (3), and the light field acquisition module (51) is used for acquiring light field data around the fitting person;

the light field data processing module (52) is arranged on the frame body and is in communication connection with the light field acquisition module (51), and the light field data processing module (52) can obtain the human body 3D model of the fitting person according to the light field data.

7. Fitting mirror according to claim 6, characterized in that the light field acquisition module (51) comprises a light field camera or a plurality of cameras arranged in an array.

8. Fitting mirror according to claim 6, wherein the recognition module further comprises a gesture recognition module (53), the gesture recognition module (53) being arranged at a side of the frame body where the 3D display screen (3) is arranged, for recognizing a gesture of the fitting person and translating, rotating or zooming the human 3D model displayed on the 3D display screen (3) according to the gesture.

9. The fitting mirror according to any one of claims 1-8, further comprising an inductive switch, wherein the inductive switch is disposed on the frame body and is electrically connected to the 3D display screen (3) and the identification module, and the inductive switch is capable of sensing whether the fitting person stands in front of the 3D display screen (3) to turn on or off the 3D display screen (3) and the identification module.

10. The fitting mirror according to claim 9, wherein the inductive switch is an infrared inductive switch, an ultrasonic inductive switch or a photoelectric inductive switch.