Eyeshade adjusting method and eyeshade

[0021] In order to make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the following describes the embodiments of the present invention in detail with reference to the accompanying drawings. However, a person of ordinary skill in the art can understand that in each embodiment of the present invention, many technical details are proposed for the reader to better understand the present application. However, even without these technical details and various changes and modifications based on the following embodiments, the technical solution claimed in this application can be realized.

[0022] The first embodiment of the present invention relates to an adjustment method of an eye mask. The core of this embodiment is that a number of adjustable massage protrusions are provided in the eye mask. The massage protrusions correspond to eye points. The adjustment method includes: obtaining the user’s orbital parameters; adjusting the number of massage protrusions set in the eye mask according to the acquired orbital parameters. Position; after receiving the user's massage instruction, control the massage protrusions to massage the user's eye points, so that the position of the massage protrusions in the eye mask can be adjusted to adapt to the orbital parameters of different users, which is beneficial to provide users with more targeted Service. The implementation details of the adjustment method of the eye mask of this embodiment will be described below in detail. The following content is only provided for ease of understanding and is not necessary for implementing this solution.

[0023] The adjustment method of the eye mask in this embodiment is as follows figure 1 As shown, in this embodiment, there are several adjustable massage protrusions in the eye mask. The massage protrusions correspond to eye acupoints. Different massage protrusions can correspond to different eye acupoints. One eye acupuncture point can also correspond to multiple massage protrusions. This embodiment does not specifically limit this. The adjustment methods of the eye mask specifically include:

[0024] Step 101: Obtain the user's orbital parameters.

[0025] Specifically, the orbital parameters can be manually input by the user. For example, the user can measure the orbital parameters through a device with a measurement function. A manual input button is set on the eye mask, and the user manually inputs the measured orbital parameters through the button. , So that the eye mask can obtain the user's orbital parameters. The user can also use a mobile terminal to take pictures of the eyes and obtain pictures of the eyes. The mobile terminal can be a smart device with a shooting function such as a mobile phone or a tablet. The mobile terminal in this embodiment uses a mobile phone as an example, but in practical applications In, not limited to this. The mobile phone can perform image recognition on the captured eye image through application software with image analysis function, extract the feature points in the eye image, and obtain the user's eye parameters by measuring the distance between the feature points. For example, the user’s eye parameters can be as figure 2 The length d of the orbit, the height h of the orbit, the distance L between the two eyeballs, and the distance between the inner corners of the eyes m. It should be noted that this embodiment only provides several types of eye parameters. The application is not limited to this.

[0026] Step 102: Adjust the positions of several massage protrusions provided in the eye mask according to the acquired orbital parameters.

[0027] Specifically, the corresponding relationship between the orbital parameters and the ideal positions of the several massage protrusions can be pre-stored in the eye mask, and the corresponding relationship can be obtained by those skilled in the art after conducting multiple experiments. Such as image 3 8 massage protrusions are provided in the eye mask shown. In this embodiment, only 8 massage protrusions are taken as an example, and the number of massage protrusions in practical applications is not limited to this. For example, if the length of the orbit in the orbital parameter is figure 2 In the d, then the ideal positions of the massage protrusion 1 and the massage protrusion 3 can be understood as the positions from the center point O1 and d/2 of the eye mask respectively, namely image 3 The ideal position of the middle massage protrusion 1 is point A, and the ideal position of the massage protrusion 3 is point B. The ideal positions of the massage protrusion 2 and the massage protrusion 4 can be obtained from the height h of the orbit in the orbit parameter, namely image 3 The ideal position of the middle massage protrusion 2 is point C, and the ideal position of the massage protrusion 3 is point D. The ideal position of the massage protrusion 5 can be obtained from the distance m between the inner corners of the eyes, that is, the distance from the position of point D to the right by m. Location E point. The ideal positions of the massage protrusions 6, 7, and 8 are determined in the same manner as the above-mentioned ideal positions of the massage protrusions, and will not be repeated here to avoid repetition. Considering that there may be slight differences in the orbital parameters of the left and right eyes of the user, the corresponding relationship between the left orbital parameters and the ideal position of the massage protrusion can be pre-stored in the eye mask, and the right orbital parameters and the ideal position of the massage protrusion can also be pre-stored The corresponding relationship. When the eye mask is adjusted, the ideal positions of several massage protrusions corresponding to the acquired orbital parameters can be determined according to the pre-stored correspondence relationship, and then the positions of the several massage protrusions set in the eye mask are adjusted according to the determined ideal positions.

[0028] In practical applications, the eye mask can also calculate the position adjustment amount of several massage protrusions according to the acquired orbital parameters and the current positions of the massage protrusions set in the eye mask; adjust the number of massage protrusions set in the eye mask according to the position adjustment amount s position. For example, Figure 4 In the orbit parameter, the length of the orbit is 2d1, and the distance between the current position of the massage protrusion 1 and the O1 point is d2, then the position adjustment amount of the massage protrusion 1 is d2-d1. In the orbital parameters, the height of the orbit is 2h1, and the distance between the current position of the massage protrusion 2 and the O1 point is h2, then the position adjustment amount of the massage protrusion 2 is h2-h1. The calculation method of the position adjustment amount of other massage protrusions is similar to the calculation method of the position adjustment amount of the massage protrusions 1 and 2 described above. To avoid repetition, it will not be repeated here. The eye mask adjusts the positions of several massage protrusions provided in the eye mask according to the calculated adjustment amount.

[0029] It is worth mentioning that sliding guide rails can be provided in the eye mask. After determining the ideal position of the massage protrusions, by controlling the movement of the massage protrusions on the sliding guide rails, the positions of the massage protrusions provided in the eye mask are adjusted to make the massage The protrusion can be quickly moved to the ideal position to adapt to the size of the eye socket. In practical applications, a telescopic mechanism can also be provided in the eye mask, and the massage protrusions are provided on the telescopic mechanism; by controlling the telescopic mechanism to expand and contract, the positions of several massage protrusions provided in the eye mask can be adjusted to help adapt to the depth of the eye sockets of different users.

[0030] It should be noted that the user can issue instructions to move, extend or contract the eye mask, so that after receiving the user's instruction, the eye mask can control the position of the massage protrusion to gradually move, extend or contract.

[0031] Step 103: After receiving the user's massage instruction, control the massage protrusions to massage the user's eye points.

[0032] Specifically, after receiving the user's massage instruction, the eye mask controls the massage protrusions to massage the user's eye points. The massage instruction can be a voice instruction or a key instruction triggered by pressing a button set on the eye mask. In practical applications, if the eye mask establishes a communication connection with the mobile terminal, the massage instruction can also be sent through the mobile terminal.

[0033] It should be noted that if the massage protrusion has not been adjusted to a position that adapts to the user's orbital parameters after receiving the user's massage instruction, the massage protrusion can adjust the position while massaging. If the massage protrusion has been adjusted to a position adapted to the user's orbital parameters after receiving the user's massage instruction, then the user's eye points can be directly massaged.

[0034] It is worth mentioning that the corresponding relationship between the orbital parameters and the massage mode can also be stored in the eye mask; it is understandable that different orbital parameters correspond to different users. Therefore, the corresponding relationship between the pre-stored orbital parameters and the massage mode allows the eye mask to be based on the corresponding relationship. The massage mode corresponding to the orbital parameters is determined, and in the determined massage mode, the massage protrusions are controlled to massage the user's eye points. Different massage modes can be reflected in different massage intensities, different massage temperatures, etc., so that the eye mask can provide different massage methods for different users, which further facilitates the use of users.

[0035] Compared with the prior art, in the embodiment of the present invention, a plurality of adjustable massage protrusions are arranged in the eye mask, and the massage protrusions correspond to the acupoints of the eye, so that the position of the massage protrusions can be adjusted. Obtain the user's orbital parameters, and adjust the positions of several massage protrusions in the eye mask according to the acquired orbital parameters, which is beneficial for the positions of the massage protrusions provided in the eye mask to match the user's orbital parameters after adjustment. Since the adjusted massage protrusions are consistent with the user’s orbital parameters, after receiving the user’s massage instruction, the massage protrusions are controlled to massage the user’s eye points, which is conducive to more precise massage of the user’s eyes, thereby providing Users provide more targeted services.

[0036] The second embodiment of the present invention relates to an adjustment method of an eye mask. The second embodiment is roughly the same as the first embodiment, and the main difference is that the method of obtaining the orbital parameters is different. In the first embodiment, the user input or the orbital parameters sent by the mobile terminal are directly received. In the second embodiment of the present invention, the orbital parameters are obtained from the acquired eye image. This embodiment provides a faster and more convenient method for obtaining the orbital parameters.

[0037] The adjustment method of the eye mask in this embodiment is as follows figure 2 As shown, specifically including:

[0038] Step 201: Obtain an eye image of the user.

[0039] Specifically, the eye mask can establish a communication connection with the mobile terminal, and the mobile terminal sends the captured eye image to the eye mask after photographing the user's eye. A camera can also be set in the eye mask, and the eye image can be captured by the camera set in the eye mask. The better camera in the eye mask can be an inward facing camera. When the user wears the eye mask, the inward facing camera can capture the user's eye image.

[0040] Step 202: Obtain orbital parameters according to the eye image.

[0041] Specifically, the eye mask can analyze the captured eye image, for example, use image recognition technology to analyze the acquired eye image, filter the feature points of the eye contour in the eye image, and pass the distance between the feature points Get eye parameters.

[0042] Step 203: Adjust the positions of several massage protrusions provided in the eye mask according to the acquired orbital parameters.

[0043] Step 204: After receiving the user's massage instruction, control the massage protrusions to massage the user's eye points.

[0044] Steps 203 to 204 are substantially the same as steps 102 to 103 in the first embodiment, and to avoid repetition, they will not be repeated here.

[0045] Compared with the prior art, the embodiment of the present invention acquires the orbital parameters based on the eye image, and the eye image can be acquired by taking a camera set in the eye mask or by receiving the eye image taken by the mobile terminal. The eye image provides a quicker and more convenient method for obtaining orbital parameters.

[0046] The third embodiment of the present invention relates to an adjustment method of an eye mask. The third embodiment is a further improvement of the second embodiment. The main improvement lies in the fact that the eye mask sends a shooting request to the mobile terminal, so that the eye image captured by the mobile terminal is clearer and clearer, which is more conducive to clear eye images Obtain eye parameters quickly and accurately.

[0047] The adjustment method of the eye mask in this embodiment is as follows image 3 As shown, specifically including:

[0048] Step 301: Send a shooting request to the mobile terminal.

[0049] Specifically, the shooting requirement may only be a requirement for the preset distance range, that is, the mobile terminal monitors that the distance between the mobile terminal and the user’s eyes is within the preset distance range, or it may only be for the preset ratio range. That is, the mobile terminal detects that the proportion of the user's eyes in the preview image is within the preset ratio range, and it can also be the preset distance range requirement and the preset ratio range requirement. The preset distance range can be set by those skilled in the art according to actual needs, and the clearest eye image can be taken as the setting standard. The preset ratio range can be set by those skilled in the art according to actual needs, and the largest eye image can be taken as the setting standard.

[0050] Step 302: Instruct the mobile terminal to photograph the eyes of the user when the photographing requirement is met.

[0051] Specifically, the mobile terminal can establish a communication connection with the eye mask. The mobile terminal acquires the distance to the eye in real time during shooting, and starts shooting when it detects that the distance to the eye is within a preset distance range. Alternatively, the mobile terminal can also send the real-time obtained distance to the eye to the eye mask, and the eye mask sends an instruction to the mobile terminal to shoot when determining that the received distance is within the preset distance range, indicating that the mobile terminal is in the current position Shooting will help you get a clear eye image.

[0052] The mobile terminal can also turn on the camera function when approaching the eye, monitor the proportion of the eye image in the preview image in the camera in real time, and prompt the user to press the button when the proportion is within the preset ratio range The shooting button is used to shoot eye images, or automatically shoot when it is detected that the shooting requirements of the preset ratio range are met.

[0053] Step 303: Acquire an eye image of the user.

[0054] That is to say, the user's eye image is acquired by the mobile terminal taking the user's eye in step 302.

[0055] Step 304: Obtain orbital parameters according to the eye image.

[0056] Step 305: Adjust the positions of several massage protrusions provided in the eye mask according to the acquired orbital parameters.

[0057] Step 306: After receiving the user's massage instruction, control the massage protrusions to massage the user's eye points.

[0058] Step 304 to step 306 are substantially the same as step 202 to step 204 in the second embodiment, and to avoid repetition, they will not be repeated here.

[0059] Compared with the prior art, in this embodiment, the eye mask sends a shooting request to the mobile terminal; the shooting request is that the mobile terminal detects that the distance between the mobile terminal and the user's eyes is within a preset distance range, and/or moves The terminal monitors that the proportion of the user's eyes in the preview image is within the preset proportion range; the eye mask instructs the mobile terminal to photograph the user's eyes when the shooting requirements are met. By sending a shooting request to the mobile terminal, the eye image captured by the mobile terminal is made clearer, so that the clear and clear eye image is more conducive to quickly and accurately acquiring eye parameters.

[0060] The division of the steps of the various methods above is only for clarity of description. When implemented, it can be combined into one step or some steps can be split into multiple steps, as long as they include the same logical relationship, they are all within the protection scope of this patent. ; Adding insignificant modifications to the algorithm or process or introducing insignificant design, but not changing the core design of the algorithm and process are within the scope of protection of the patent.

[0061] The fourth embodiment of the present invention relates to an eye mask, such as Figure 7 As shown, it includes at least one processor 401; and a memory 402 communicatively connected with at least one processor 401; wherein, the memory 401 stores instructions executable by at least one processor 402, and the instructions are executed by at least one processor 401, In this way, at least one processor 401 can execute the above-mentioned method for adjusting the eye mask.

[0062] The memory 402 and the processor 401 are connected in a bus manner, and the bus may include any number of interconnected buses and bridges. The bus connects one or more processors and various circuits of the memory 402 together. The bus can also connect various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., which are all known in the art, and therefore, no further descriptions thereof are provided herein. The bus interface provides an interface between the bus and the transceiver. The transceiver may be one element or multiple elements, such as multiple receivers and transmitters, providing a unit for communicating with various other devices on the transmission medium. The data processed by the processor is transmitted on the wireless medium through the antenna, and further, the antenna also receives the data and transmits the data to the processor 401.

[0063] The processor 401 is responsible for managing the bus and general processing, and can also provide various functions, including timing, peripheral interfaces, voltage regulation, power management, and other control functions. The memory 402 may be used to store data used by the processor when performing operations.

[0064] That is, those skilled in the art can understand that all or part of the steps in the method of the above-mentioned embodiments can be implemented by a program instructing relevant hardware. The program is stored in a storage medium and includes several instructions to enable a device ( It may be a single chip microcomputer, a chip, etc.) or a processor (processor) that executes all or part of the steps of the methods described in the embodiments of the present application. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disks or optical disks and other media that can store program codes.

[0065] Those of ordinary skill in the art can understand that the above-mentioned embodiments are specific examples for realizing the present invention, and in practical applications, various changes can be made to them in form and details without departing from the spirit and spirit of the present invention. range.