CN113542571A - Electronic toilet mirror and working method thereof - Google Patents

Abstract

The invention relates to the technical field of household equipment, and aims to provide an electronic toilet mirror and a working method thereof. The invention discloses an electronic dressing mirror, comprising: the image acquisition module is used for acquiring image signals; the image processing module is connected with the image acquisition module and used for receiving and processing the image signals to generate corresponding image video signals; the image display module is connected with the image processing module and used for receiving and displaying the image video signal; and the bracket component is used for mounting the image acquisition module, the image processing module and the image display module so that the acquisition end of the image acquisition module and the display end of the image display module are arranged oppositely. The invention is convenient for users to watch the parts which are not easy to be watched directly in the dressing mirror, such as the back and the like, is convenient for users to dress, and has good imaging effect.

Description

Electronic toilet mirror and working method thereof

Technical Field

The invention relates to the technical field of household equipment, in particular to an electronic toilet mirror and a working method thereof.

Background

A vanity mirror is a mirror that provides users with appearance finishing requirements such as makeup and grooming, haircut and hair dyeing, and is often used in a bedroom or a bathroom. In the prior art, the toilet mirror is usually set as a plane mirror, when a user needs to watch the back, the back of the user, and other parts, two mirrors are usually needed to be matched for realization, namely, a main mirror and an auxiliary mirror are set, wherein the main mirror is positioned on the front of the user, the auxiliary mirror is positioned on the back of the user, and the back and other parts of the user are reflected through the main mirror after imaging in the auxiliary mirror, so that the user can watch the back and other parts.

However, in the process of using the prior art, the inventor finds that at least the following problems exist in the prior art: the imaging of the back and other parts is reflected to the eyes of a person through the auxiliary mirror and the main mirror in sequence, and the imaging effect in the main mirror is poor due to multiple imaging, if the imaging is small, the user cannot grasp the operation distance in the dressing process, and the dressing of the back and other parts is inconvenient; in addition, due to the limitation of specular imaging reflection, it is difficult to completely display a complete image of the back and the like of the user.

Disclosure of Invention

The present invention is directed to solving the above-mentioned problems, at least to some extent, and provides an electronic vanity mirror and a method of operating the same.

The technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides an electronic vanity mirror comprising:

the image acquisition module is used for acquiring image signals;

the image processing module is connected with the image acquisition module and used for receiving and processing the image signals to generate corresponding image video signals;

the image display module is connected with the image processing module and used for receiving and displaying the image video signal;

and the bracket component is used for mounting the image acquisition module, the image processing module and the image display module so that the acquisition end of the image acquisition module and the display end of the image display module are arranged oppositely.

In one possible design, the electronic vanity mirror further comprises a light supplement lamp, and the light supplement lamp is mounted on the support assembly.

In one possible design, the bracket assembly includes:

the first mounting frame is used for mounting the image acquisition module and the image processing module, and the image acquisition module is rotatably connected with the first mounting frame;

the second mounting rack is used for mounting the image display module, and the image display module is rotatably connected with the second mounting rack;

the connecting frame is used for connecting the first mounting frame and the second mounting frame, the first mounting frame and the second mounting frame are respectively connected with the two end portions of the connecting frame in a rotating mode, the connecting frame comprises a plurality of connecting rods which are connected in sequence, and the connecting rods are connected in a rotating mode.

In one possible design, the first mounting frame comprises a first supporting rod and a first bending rod, the first bending rod is U-shaped, one end of the first supporting rod is rotatably connected with one end of the connecting frame, the other end of the first supporting rod is fixedly or rotatably connected with a cross rod of the first bending rod, and the image acquisition module is rotatably arranged between two arms of the first bending rod; the U-shaped frame is characterized in that the second mounting frame comprises a second supporting rod and a second bending rod, the second bending rod is also of a U shape, one end of the second supporting rod is rotatably connected with the other end of the connecting frame, the other end of the second supporting rod is connected with a cross rod of the second bending rod, and the image display module is rotatably arranged between two arms of the second bending rod.

In a possible design, the link still includes the pole setting, the pole setting sets up in the link between arbitrary two adjacent connecting rods, corresponds two connecting rods and all is connected with the pole setting rotation.

In one possible design, the image acquisition module includes:

the lens module is used for focusing light;

the imaging module is used for generating the image signal according to the light transmitted by the lens module and transmitting the image signal to the image processing module;

the acquisition end of the lens module is opposite to the display end of the image display module.

In one possible design, the imaging module employs CMOS sensors of the OV2741, IMX323, IMX415, or OV08B series.

In one possible design, the image processing module employs an ISP processor model XC7160 or FH 8556.

In one possible design, the image display module employs a MIPI high definition screen model LQ070M1SX 01.

In a second aspect, the present invention provides a method for operating an electronic vanity mirror as described above, comprising the steps of:

the image acquisition module acquires an image signal and sends the image signal to the image processing module;

the image processing module receives and processes the image signal received by the image acquisition module and then generates a corresponding image video signal;

and the image display module receives and displays the image video signal sent by the image processing module.

The invention has the beneficial effects that:

the user can conveniently watch the parts, such as the back and the like, of the user, which are not easy to directly watch in the dressing mirror, so that the user can conveniently dress, and the imaging effect is good. Specifically, in the implementation process of this embodiment, the image acquisition module may acquire image signals of the back, the back of the head, and the like of the user, then the image processing module processes the image signals to obtain corresponding image video signals, and finally, the image video signals are displayed in the image display module, the bracket assembly may set the image acquisition module and the image display module relatively, and when the user faces the image acquisition module and faces away from the image display module, the image data of the back and the like acquired by the image acquisition module may be viewed on the image display module; in the process, the image data of the back and other parts of the user are directly collected by the image collection module and are completely displayed by the image display module, so that the problem of incomplete display is avoided, and meanwhile, the distance of the image watched by the user is consistent with the distance of the image collected by the image collection module, so that the error of judgment of the user on the distance and the near distance caused by the change of the imaging size is avoided, and the user can dress the back and other parts.

Drawings

FIG. 1 is a block diagram of an electronic vanity mirror of the present invention;

FIG. 2 is a schematic view of the structure of the electronic vanity mirror of the present invention;

FIG. 3 is a view showing a usage scenario of the electronic vanity mirror of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

Example 1:

the present embodiment provides an electronic vanity mirror, as shown in fig. 1 to 2, including:

the image acquisition module 1 is used for acquiring image signals;

the image processing module 2 is connected with the image acquisition module 1 and is used for receiving and processing the image signals to generate corresponding image video signals;

the image display module 3 is connected with the image processing module 2 and used for receiving and displaying the image video signal;

the bracket component is used for installing the image acquisition module 1, the image processing module 2 and the image display module 3 so as to enable the acquisition end of the image acquisition module 1 and the display end of the image display module 3 to be arranged oppositely.

The embodiment can facilitate the user to watch the part which is not easy to be watched directly in the dressing mirror by human eyes such as the back, is convenient for the user to dress, and has good imaging effect. Specifically, in the implementation process of this embodiment, as shown in fig. 3, the image acquisition module 1 may acquire image signals of the back, the back of the head, and the like of the user, then the image processing module 2 processes the image signals to obtain corresponding image video signals, and finally the image video signals are displayed in the image display module 3, the bracket assembly may set the image acquisition module 1 and the image display module 3 relatively, and when the user faces the image acquisition module 1 and faces away from the image display module 3, the image data of the back, and the like, acquired by the image acquisition module 1 may be viewed on the image display module 3; in this process, because image data of user back class position is directly gathered to image acquisition module 1, show through image display module 3 is complete at last, avoid showing incomplete problem, can make the distance of the image that the user watched keep unanimous with the distance of the image that image acquisition module 1 gathered simultaneously to avoid because the user that the change of imaging size caused to the judgement error of distance, and then do benefit to the user and dress up to positions such as back.

It should be noted that, for example, data acquisition, processing, and output such as image signals, the acquisition, processing, and result output of the corresponding data can be realized based on the functions of the image processing module 2 itself, and there is no technical limitation in terms of improvement of computer programs for the specific functions of the image acquisition module 1, the image processing module 2, and the image display module 3 in this embodiment.

In this embodiment, the electronic vanity mirror further comprises a light supplement lamp, and the light supplement lamp is installed on the support assembly. It should be noted that the light supplement lamp is arranged, so that the light supplement operation can be realized under the condition of insufficient light, and further, the embodiment can be applied to a use scene with dark light; in this embodiment, the light filling lamp adopts the LED light filling lamp.

It should be understood that, in this embodiment, a power supply module is further provided, and the power supply module is configured to provide electric power support for each component in the image acquisition module 1, the image processing module 2, and the image display module 3. In addition, in this embodiment, the image acquisition module 1, the image processing module 2, the image display module 3, and the power module are all electrically connected, and the connection modes are common knowledge of those skilled in the art, and are not described herein again.

In this embodiment, the bracket assembly includes:

the first mounting rack 4 is used for mounting the image acquisition module 1 and the image processing module 2, and the image acquisition module 1 is rotatably connected with the first mounting rack 4;

the second mounting rack 5 is used for mounting the image display module 3, and the image display module 3 is rotatably connected with the second mounting rack 5;

the connecting frame 6 is used for connecting the first mounting frame 4 and the second mounting frame 5, the first mounting frame 4 and the second mounting frame 5 are respectively connected with two end portions of the connecting frame 6 in a rotating mode, the connecting frame 6 comprises a plurality of connecting rods 61 which are connected in sequence, and the connecting rods 61 are connected in a rotating mode.

Specifically, the first mounting frame 4 and the second mounting frame 5 can rotate around the vertical direction of the connecting frame 6, the image display module 3 can rotate around the horizontal direction of the second mounting frame 5, and the connecting rods 61 in the connecting frame 6 can rotate around the vertical direction, so that the adjustment of the distance between the image acquisition module 1 and the image display module 3 and the adjustment of the relative angle between the image acquisition module and the image display module in the horizontal direction can be realized; in addition, the image acquisition module 1 can rotate around the horizontal direction of the first mounting frame 4, so that the relative angle between the image acquisition module 1 and the image display module 3 in the vertical direction can be adjusted.

The setting of bracket component can realize adjusting such as distance, angle between image acquisition module 1 and the image display module 3, and the adjustment range of distance and relative angle between image acquisition module 1 and the image display module 3 has further been enlarged in the setting of link 6 to be convenient for adjust the position of image acquisition module 1 and image display module 3 in the electron toilet glass according to the user's demand, and then increase the application scene of electron toilet glass.

In this embodiment, the first mounting frame 4 includes a first supporting rod 41 and a first bending rod 42, the first bending rod 42 is a u-shaped one, one end of the first supporting rod 41 is rotatably connected to one end of the connecting frame 6, and the other end of the first supporting rod 41 is fixedly or rotatably connected to a cross rod of the first bending rod 42, in this embodiment, the other end of the first supporting rod 41 is fixedly connected to the cross rod of the first bending rod 42, the image acquisition module 1 is rotatably disposed between two arms of the first bending rod 42, specifically, the first bending rod 42 is rotatable around a vertical direction of the connecting frame 6, and the image acquisition module 1 is rotatable around a horizontal direction of the first bending rod 42; the second mounting bracket 5 includes a second support rod 51 and a second bending rod 52, the second bending rod 52 is also configured as a u-shape, one end of the second support rod 51 is rotatably connected to the other end of the connecting bracket 6, the other end of the second support rod 51 is fixedly or rotatably connected to the cross rod of the second bending rod 52, in this embodiment, the other end of the second support rod 51 is fixedly connected to the cross rod of the second bending rod 52, the image display module 3 is rotatably disposed between two arms of the second bending rod 52, specifically, the second bending rod 52 can rotate around the vertical direction of the connecting bracket 6, and the image display module 3 can rotate around the horizontal direction of the second bending rod 52. The first bending rod 42 and the second bending rod 52 are arranged, so that the connection strength between the image acquisition module 1 and the first bending rod 42 and between the image display module 3 and the second bending rod 52 is high, and the stability of the whole electronic toilet mirror is improved.

In this embodiment, the connecting frame 6 further includes a vertical rod 62, the vertical rod 62 is disposed between any two adjacent connecting rods 61 in the connecting frame 6, and the two corresponding connecting rods 61 are rotatably connected to the vertical rod 62.

Specifically, in this embodiment, the connecting frame 6 includes four connecting rods 61, the four connecting rods 61 are sequentially and rotatably connected, and the four connecting rods 61 all rotate around the vertical direction; the upright rod 62 is used for supporting the first mounting frame 4, the second mounting frame 5 and the connecting frame 6, and in the embodiment, the upright rod 62 is a telescopic rod, so that a user can conveniently adjust the image acquisition module 1 and the image display module 3 to a height suitable for the user according to requirements.

In this embodiment, the image capturing module 1 includes:

the lens module 11 is used for focusing light;

the imaging module is used for generating the image signal according to the light transmitted by the lens module 11 and transmitting the image signal to the image processing module 2;

the collection end of the lens module 11 is opposite to the display end of the image display module 3.

In this embodiment, the imaging module adopts a CMOS sensor of the type OV2741, IMX323, IMX415, or OV08B series. The CMOS (Complementary Metal-Oxide-Semiconductor) sensor has the advantages of high integration level, low power consumption, high speed, low cost and the like, and the imaging module adopts the CMOS sensor, so that the imaging module of the embodiment has higher integration level, lower power consumption and higher image transmission speed.

The imaging module in the embodiment can adopt, but is not limited to 1080 high-definition sensors with the model of OV2741 or IMX323 and 4K sensors with the model of IMX415 or OV08B series. The 1080 high-definition sensor with the model of OV2741 has the characteristics of high image quality, easiness in integration, small size, low power consumption and the like, has an 1/6-inch optical format, can realize excellent low-light operation, has a pixel size of 1.4 microns and supports original data output; the 1080 high-definition sensor with the model of OV2741 has the characteristics of high sensitivity, high cost performance and the like; the 4K sensor with the model of IMX415 is realized based on a stacked CMOS technology, has the characteristics of small size and the like, can realize 4K photography, and can shoot clearer images in a dark environment; the 4K sensor with the model number of OV08B series adopts a back-illuminated pixel technology and an optimized upper pin and lower pin arrangement design, can realize the minimum size of a module in the horizontal direction, provides a small (5.1 x 6.5mm) fixed-focus camera module for a front-facing camera, can support two or four MIPI (Mobile Industry Processor Interface) outputs and reach 800 ten thousand full-pixel resolutions of 30 frames per second (fps), and provides the maximum system design flexibility for multi-camera configuration.

In this embodiment, the image processing module 2 uses an ISP processor of model XC7160 or FH 8556. In this embodiment, the ISP (Image Signal Processing) Image processor is a chip module integrating various Image Processing algorithms, and can perform Processing such as auto exposure, auto focus, auto white balance, aberration compensation, noise reduction, dead pixel removal, digital zoom, and color enhancement on the Image Signal received by the imaging module. Specifically, the ISP processor may be, but is not limited to, an ISP processor using model XC7160, a high performance 4K coaxial high definition camera ISP processor using model FH 8556. The high-performance 4K coaxial high-definition camera ISP processor with the model number of FH8556 is a high-performance professional security camera Image processing chip aiming at a CIS (CMOS Image Sensor), can support a 4-channel MIPI interface, can process wide dynamic data synthesized by two frames, and has strong performance. When the image processing module 2 adopts an ISP processor with model FH8556, it can be implemented by matching with an AHD-to-MIPI conversion chip with model TP9550, so as to output an image video signal in MIPI format.

In this embodiment, after the image signal is processed by the image processing module and the corresponding image video signal is generated, the corresponding image video signal is directly input to the image display module, thereby avoiding the installation of devices such as a digital signal processor and the like, and saving the assembly cost of this embodiment.

In this embodiment, the image display module 3 adopts a 7-inch MIPI high definition screen with a model number of LQ070M1SX 01.

Example 2:

on the basis of embodiment 1, the present embodiment provides a working method of an electronic vanity mirror, including the following steps:

the image acquisition module 1 acquires an image signal and sends the image signal to the image processing module 2;

the image processing module 2 receives and processes the image signal received by the image acquisition module 1, and then generates a corresponding image video signal;

the image display module 3 receives and displays the image video signal sent by the image processing module.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: modifications of the technical solutions described in the embodiments or equivalent replacements of some technical features may still be made. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An electronic vanity mirror, comprising: the method comprises the following steps:

the image acquisition module is used for acquiring image signals;

the image processing module is connected with the image acquisition module and used for receiving and processing the image signals to generate corresponding image video signals;

the image display module is connected with the image processing module and used for receiving and displaying the image video signal;

and the bracket component is used for mounting the image acquisition module, the image processing module and the image display module so that the acquisition end of the image acquisition module and the display end of the image display module are arranged oppositely.

2. An electronic vanity mirror according to claim 1, wherein: the electronic dressing mirror further comprises a light supplement lamp, and the light supplement lamp is installed on the support assembly.

3. An electronic vanity mirror according to claim 1, wherein: the bracket assembly includes:

the first mounting frame is used for mounting the image acquisition module and the image processing module, and the image acquisition module is rotatably connected with the first mounting frame;

the second mounting rack is used for mounting the image display module, and the image display module is rotatably connected with the second mounting rack;

the connecting frame is used for connecting the first mounting frame and the second mounting frame, the first mounting frame and the second mounting frame are respectively connected with the two end portions of the connecting frame in a rotating mode, the connecting frame comprises a plurality of connecting rods which are connected in sequence, and the connecting rods are connected in a rotating mode.

4. An electronic vanity mirror according to claim 3, wherein: the first mounting frame comprises a first supporting rod and a first bending rod, the first bending rod is U-shaped, one end of the first supporting rod is rotatably connected with one end of the connecting frame, the other end of the first supporting rod is fixedly or rotatably connected with a cross rod of the first bending rod, and the image acquisition module is rotatably arranged between two arms of the first bending rod; the U-shaped frame is characterized in that the second mounting frame comprises a second supporting rod and a second bending rod, the second bending rod is also of a U shape, one end of the second supporting rod is rotatably connected with the other end of the connecting frame, the other end of the second supporting rod is connected with a cross rod of the second bending rod, and the image display module is rotatably arranged between two arms of the second bending rod.

5. An electronic vanity mirror according to claim 3, wherein: the link still includes the pole setting, the pole setting sets up in the link between arbitrary two adjacent connecting rods, corresponds two connecting rods and all rotates with the pole setting to be connected.

6. An electronic vanity mirror according to claim 1, wherein: the image acquisition module includes:

the lens module is used for focusing light;

the imaging module is used for generating the image signal according to the light transmitted by the lens module and transmitting the image signal to the image processing module;

the acquisition end of the lens module is opposite to the display end of the image display module.

7. An electronic vanity mirror according to claim 6, wherein: the imaging module adopts CMOS sensors with models of OV2741, IMX323, IMX415 or OV08B series.

8. An electronic vanity mirror according to claim 1, wherein: the image processing module employs an ISP processor of model XC7160 or FH 8556.

9. An electronic vanity mirror according to claim 1, wherein: the image display module adopts an MIPI high definition screen with the model number of LQ070M1SX 01.

10. A method of operating an electronic vanity mirror according to any of claims 1 to 9, characterized in that: the method comprises the following steps:

the image acquisition module acquires an image signal and sends the image signal to the image processing module;

the image processing module receives and processes the image signal received by the image acquisition module and then generates a corresponding image video signal;

and the image display module receives and displays the image video signal sent by the image processing module.

Images