Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a neck massager provided in the present application, the neck massager includes an elastic arm 100, a first handle 130, a second handle 140, a conductive silicone part 120, a first pressure sensor 150, a second pressure sensor 160, and an electrical pulse generator (not shown) electrically connected to the conductive silicone part 120, the first handle 130 and the second handle 140 are fixedly connected to two sides of the elastic arm 100, the conductive silicone part 120 is disposed on one side of the elastic arm 100 facing the neck of a human body, the conductive silicone part 120 can emit electrical pulses, the first pressure sensor 150 is disposed on one side of the elastic arm 100 facing the neck of the human body and close to the first handle 130, and the second pressure sensor 160 is disposed on one side of the elastic arm 100 facing the neck of the human body and close to the second handle 120, and is configured to detect data of a carotid artery.
Optionally, the first pressure sensor 150 and the second pressure sensor 160 are telescopically disposed on one side of the elastic arm 100 facing the neck of the human body, when the acquisition instruction is not received, the first pressure sensor 150 and the second pressure sensor 160 are located in the elastic arm 100, the appearance of the elastic arm 100 is not affected, when the acquisition instruction is received, the first pressure sensor 150 and the second pressure sensor 160 extend out of the elastic arm 100 to form a protruding structure (as shown in the figure) for data acquisition, and after the acquisition is completed, the first pressure sensor 150 and the second pressure sensor 160 retract into the elastic arm 100.
Further, in some embodiments, the first pressure sensor 150 and the second pressure sensor 160 can be replaced by other sensors, such as replacing the first pressure sensor 150 with a temperature sensor or a distance sensor, and the second pressure sensor 160 is not replaced.
After the first pressure sensor 150 is replaced by a distance sensor, when the distance sensor detects that the neck massager is correctly worn on the neck, an acquisition instruction is triggered, and the second pressure sensor 160 is controlled to extend out for data acquisition.
In some embodiments, at least one of the first and second pressure sensors 150, 160 is a photoelectric sensor for detecting the difference in intensity of reflected light absorbed through the neck of the human body, tracing the change in blood vessel volume over the cardiac cycle, and calculating the pulse from the resulting pulse waveform. When at least one of the first pressure sensor 150 and the second pressure sensor 160 is a photoelectric sensor, the first pressure sensor 150 and the second pressure sensor 160 need not to be made into a telescopic structure, and only need to be disposed on one side of the elastic arm 100 facing the neck, and do not protrude or recess, and do not affect the appearance of the elastic arm 100.
Referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of a health detection method of a neck massager provided in the present application, the method including:
step 21: pulse data is collected.
Optionally, in an embodiment, pressure sensors are disposed on two sides of one side of the neck massage instrument facing the neck of the human body, and the pulse data is obtained by detecting the artery of the neck through the pressure sensors disposed on the neck massage instrument. The pressure sensor can be a resistance type sensor, a capacitance type sensor and a piezoelectric type sensor, and can also be a spraying type pressure sensor made of novel nanometer materials.
In the present embodiment, the neck massager may refer to a neck massager as shown in fig. 1.
In some embodiments, after the neck massager is in the wearing state, first trigger information is generated, and pulse data is acquired in response to the first trigger information.
In some embodiments, a distance sensor is disposed on the neck massager for acquiring the distance between the neck massager and the human body. When the distance between the distance sensor and the human body is smaller than a set threshold value, first trigger information is generated. Then when first trigger information sent by the distance sensor is acquired, pulse data are acquired. For example, the threshold is set to 0.5 cm, and when the distance between the distance sensor and the human body is detected to be 0.4 cm and is smaller than the set threshold, the first trigger information is generated. It is understood that the setting of the threshold value varies correspondingly to satisfy the condition for generating the first trigger information, according to the actual configuration of the neck massager and the distance sensor.
In some embodiments, a camera is disposed on the neck massager for capturing images. When the neck massager is taken up by a user, the camera shoots images, when the shot images are identified as neck images, a first trigger instruction is generated after a preset time, and pulse data are collected in response to first trigger information. For example, the preset time is 10 seconds, when the shot image is a neck image, it is determined that the neck massager is about to be worn, and after waiting for the preset time, the default neck massager is worn, and then a first trigger instruction is generated to acquire pulse data.
In some embodiments, a photoelectric sensor is arranged on one side of the neck massager, which faces towards the neck of the human body, and the pulse data is obtained by detecting the neck through the photoelectric sensor arranged on the neck massager. Specifically, when a light beam with a certain wavelength irradiates the surface of the skin of the neck, the light beam is transmitted to the photoelectric sensor in a transmission or reflection mode, and the light intensity detected by the photoelectric sensor is weakened in the process of absorption and attenuation by muscles and blood of the skin of the neck, wherein the absorption of the skin muscles, tissues and the like to the light is kept unchanged in the whole blood circulation, the volume of the blood in the skin is changed in a pulsating mode under the action of the heart, the peripheral blood volume is the largest when the heart contracts, the light absorption amount is also the largest, and the detected light intensity is the smallest; when the heart is in diastole, on the contrary, the detected light intensity is the maximum, so that the light intensity received by the photoelectric sensor is in pulsatile change, the light intensity change is converted into an electric signal, and the change of volume pulse blood flow can be obtained, namely pulse data is acquired.
In another embodiment, the neck massager may be externally connected with a device dedicated for pulse detection, for example, the neck massager is provided with a data interface, such as a type-C interface, a lighting interface, a USB interface, a coaxial plug, etc., and the externally connected pulse detection device may be an electronic pulse blood pressure meter, an oximeter, etc.
In addition, during pulse detection, corresponding voice reminding can be performed, for example, before starting, a user is reminded to keep still, reminding is performed at the beginning, timing is started, and when collection is finished, the user is reminded again.
Step 22: and judging whether the pulse data is abnormal or not.
The pulse abnormality is mainly characterized in that the number of beats per minute is lower than normal data or higher than normal data, and the frequency of pulse beats is abnormal, such as short pulse.
Alternatively, the identity information of the user and the normal pulse data corresponding to the identity information may be acquired in advance. For example, the neck massager may be connected to a mobile terminal (e.g., a mobile phone) in advance, and user identity information including age, gender, medical history and the like may be input at the mobile phone terminal, and then the labeled pulse data matched with the identity information may be obtained from the mobile phone terminal, and the information may be sent to the neck massager for storage.
It is understood that there is a close relationship between the pulse and the heart, and when the pulse is abnormal, the heart is abnormal at a high probability.
In some embodiments, the pulse data is sent to the mobile terminal, and the mobile terminal sends the pulse data and the identity information of the user to the server, so that the server obtains normal pulse data corresponding to the identity information, and determines whether the pulse data is abnormal according to the normal pulse data, so as to generate a determination result. And acquiring a judgment result sent by the server, wherein the judgment result comprises normality and abnormality.
In some embodiments, the pulse data is sent to the server, and the identity information of the user is sent at the same time, and after receiving the identity information, the server obtains normal pulse data corresponding to the identity information, and determines whether the pulse data is abnormal according to the normal pulse data, so as to generate a determination result. And acquiring a judgment result sent by the server, wherein the judgment result comprises normality and abnormality.
In some embodiments, when it is determined that the above-mentioned abnormality occurs in the pulse data, step 23 is executed, and if there is no abnormality, the pulse acquisition is ended.
In some embodiments, if there is no abnormality, a warning sound of normal pulse is emitted through a loudspeaker of the neck massager.
Step 23: sending an electrocardio detection request, and starting to acquire and detect electrocardio data when detecting that the neck massager is connected to an external electrocardio acquisition device and acquiring an electrocardio detection instruction.
Optionally, a warning light may be disposed on the neck massager, and in step 22, if the pulse data is normal, the pulse data is displayed in green, if the pulse data is abnormal, the pulse data is displayed in red, and the user is further reminded of performing the electrocardiographic detection in red. In addition, the neck massager can integrate a voice function and remind a user of electrocardio detection in a voice mode.
In some embodiments, the neck massager is in communication connection with a mobile terminal (such as a mobile phone), and the mobile terminal is usually carried around. The neck massager sends the electrocardio detection request to the mobile terminal to remind a user to connect an external electrocardio detection device with the neck massager. For example, can install application program (APP) that corresponds with the neck massage appearance in the cell-phone, the user can set up the neck massage appearance through APP, and the neck massage appearance also can further remind the user to carry out the electrocardio and detect through APP, and likewise, also can show the pulse testing result through APP.
Further, when the neck massager detects that the external electrocardio detection device is connected to the neck massager, the electrocardio detection instruction is obtained, and the collection and detection of the electrocardio data are started.
Wherein, the neck massager is provided with an interface connected with the electrocardio detection device, and the external electrocardio detection device can be an electrocardio collection box, such as a 12-lead electrocardio collection box and an 18-lead electrocardio collection box. The data end of the electrocardio acquisition box is connected with the neck massager, the acquisition end of the electrocardio acquisition box is connected with a plurality of electrode plates which are connected in a lead way, and the electrode plates are attached to the designated position of a human body and used for acquiring electrocardiosignals.
In some embodiments, the manner of acquiring the electrocardiograph detection instruction is that a user generates the electrocardiograph detection instruction at the mobile terminal and then sends the electrocardiograph detection instruction to the neck massager, and the neck massager starts to acquire and detect electrocardiograph data when receiving the electrocardiograph detection instruction and determining to connect to an external electrocardiograph acquisition device.
In some embodiments, the manner of obtaining the electrocardiograph detection instruction is that the user operates the neck massager to generate the electrocardiograph detection instruction, for example, by touching an electrocardiograph detection button on the neck massager. And then when an electrocardio detection instruction is obtained and the electrocardio detection instruction is confirmed to be connected to an external electrocardio acquisition device, the collection and detection of the electrocardio data are started.
In contrast to the prior art, the present application provides a method for health detection of a neck massager, which includes: collecting pulse data; judging whether the pulse data is abnormal or not; if so, sending an electrocardio detection request, and starting to acquire and detect electrocardio data when detecting that the neck massage instrument is connected to an external electrocardio acquisition device and obtains an electrocardio detection instruction. Through the mode, the neck massager is used for collecting pulse data of a user and reminding the user of carrying out electrocardio detection when the pulse data are abnormal, and the collected electrocardio data are detected, so that on one hand, the functions of the neck massager are increased, the practicability of the neck massager is improved, on the other hand, the neck massager can carry out pulse and electrocardio data detection anytime and anywhere based on the portable characteristic, the operation is more convenient, the dependence of the user on the neck massager can be improved, and the health condition of the heart of a human body can be more accurately judged by the mode, so that the user can see a doctor in time.
Referring to fig. 3, fig. 3 is a schematic flow chart of a health detection method of a neck massager according to a second embodiment of the present application, the method including:
step 31: pulse data is collected.
The neck massager collects the pulse data by the same or similar scheme of the embodiment.
In some embodiments, a temperature sensor is arranged on the neck massager and used for acquiring the body temperature data of the human body. When the temperature sensor acquires the body temperature data of the human body, whether the body temperature data exceeds a set threshold value or not is detected, a second trigger instruction is generated when the body temperature data exceeds the set threshold value, and the neck massager acquires pulse data through the pressure sensor or the photoelectric sensor in response to the second trigger instruction.
In some embodiments, whether the neck massager is worn correctly is detected, the temperature acquisition function of the temperature sensor is activated under the condition of correct wearing, a second trigger instruction is generated when the acquired temperature data accord with the temperature of the human body, and the neck massager acquires pulse data through the pressure sensor or the photoelectric sensor in response to the second trigger instruction.
Step 32: and judging whether the pulse data is abnormal or not.
Step 32 is the same as or similar to the scheme of the above embodiment, and is not described here.
When the pulse data is judged to be abnormal, step 33 is executed.
Step 33: sending an electrocardio detection request to remind a user to connect an external electrocardio detection device with the neck massager.
In some embodiments, an electrocardiographic detection request command is issued to a first speaker of the neck massager to cause the first speaker to issue a request prompt tone to remind the user to connect an external electrocardiographic detection device to the neck massager. For example, after an electrocardiographic detection request command is sent to a first loudspeaker of the neck massager, the first loudspeaker sends an analysis command and sends a corresponding request prompt sound, such as "please connect an external electrocardiographic detection device, and confirm to perform electrocardiographic data acquisition after the connection is completed".
In some embodiments, an electrocardiographic detection request instruction is sent to the mobile terminal so as to enable a loudspeaker of the mobile terminal to send a request prompt tone to remind a user of connecting an external electrocardiographic detection device with the neck massager.
In some embodiments, the first speaker of the neck massager and the second speaker of the mobile terminal are simultaneously sent with an electrocardiograph detection request instruction, so that the first speaker sends a request prompt tone, and the speaker of the mobile terminal sends a request prompt tone, so as to remind the user to connect the external electrocardiograph detection device with the neck massager.
Step 34: when the neck massager is connected to the external electrocardio acquisition device and an electrocardio detection instruction is obtained, the electrocardio data acquired by the external electrocardio acquisition device is obtained.
In some embodiments, the neck massager is connected with the external electrocardiogram collecting device through bluetooth, and acquires electrocardiogram data of the external electrocardiogram collecting device after acquiring an electrocardiogram detection instruction after being connected with the external electrocardiogram collecting device.
In some embodiments, the neck massager is connected with the external electrocardio acquisition device through a data line, and after the neck massager is connected with the external electrocardio acquisition device and an electrocardio detection instruction is obtained, the electrocardio data of the external electrocardio acquisition device are obtained in real time.
Step 35: and processing the electrocardiogram data to obtain an electrocardiogram detection result.
In some embodiments, the electrocardiographic data is sent to the mobile terminal, so that the mobile terminal processes the electrocardiographic data and obtains an electrocardiographic detection result of the mobile terminal. And sending a control instruction to the mobile terminal, and controlling the mobile terminal to send out reminding information so as to remind a user to check the electrocardio detection result.
Referring to fig. 4, fig. 4 is a schematic flow chart of a health detection method of a neck massager according to a third embodiment of the present application, the method including:
step 41: pulse data is collected.
In some embodiments, the user schedules the health check to be performed on time, such as eight morning hours a day, eight evening hours a day. When detecting that the current time is the health detection time, the neck massager detects the current state, if the neck massager is in a wearing state, sends a trigger signal to collect pulse data, if the neck massager is not in the wearing state, sends a prompt tone to remind a user to wear the neck massager, and if the neck massager is detected to be in the wearing state, sends the trigger signal to collect the pulse data.
Step 42: and judging whether the pulse data is abnormal or not.
Step 43: sending an electrocardio detection request to remind a user to connect an external electrocardio detection device with the neck massager.
Step 44: when the neck massager is connected to the external electrocardio acquisition device and an electrocardio detection instruction is obtained, the electrocardio data acquired by the external electrocardio acquisition device is obtained.
Steps 41 to 44 are the same as or similar to the technical solutions in the above embodiments, and are not described herein.
In some embodiments, after the neck massager is detected to be connected to the external electrocardio-acquisition device, when an electrocardio-detection instruction is not acquired within a preset time, a prompt message is sent to remind a user to acquire electrocardio data by using the external electrocardio-acquisition device. For example, after the neck massager is detected to be connected to the external electrocardiogram acquisition device, if the user forgets to start the external electrocardiogram acquisition device, no electrocardiogram detection instruction is generated, and after the preset time is exceeded, prompt information is sent to remind the user to use the external electrocardiogram acquisition device to acquire electrocardiogram data. And then acquiring the electrocardiogram data acquired by the external electrocardiogram acquisition device when acquiring the electrocardiogram detection instruction. By the method, the problem that the user forgets to start the external electrocardio acquisition device and cannot acquire the electrocardio data can be avoided.
Step 45: and uploading the electrocardiogram data to a server so that the server detects the electrocardiogram data and generates a detection result.
In some embodiments, the electrocardiographic data is uploaded to a server, so that the server detects the electrocardiographic data and generates a detection result, and after the detection result is generated, the detection result is sent to the neck massager. For example, after receiving the electrocardiographic data, the service determines a diagnosis result of the electrocardiographic data through a preset algorithm, and formulates a corresponding detection result according to the diagnosis result. Such as adding a doctor suggestion or a maintenance suggestion into the detection result.
Step 46: and receiving the detection result sent by the server.
In some implementations, after step 46, the detection results are sent to the mobile terminal for display to the user.
By the method, when the pulse of the user is abnormal, the electrocardio data is collected and detected, the detection result is displayed to the user, the heart health condition of the human body can be judged more accurately, the user can visually check the health condition, and the user can see a doctor in time when the health is abnormal.
Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of the neck massager provided in the present application, the neck massager 50 includes a processor 51 and a memory 52 connected to the processor 51, the memory 52 is used for storing program data, and the processor 51 is used for executing the program data to implement the following method:
collecting pulse data; judging whether the pulse data is abnormal or not; if so, sending an electrocardio detection request, and starting to acquire and detect electrocardio data when detecting that the neck massage instrument is connected to an external electrocardio acquisition device and obtains an electrocardio detection instruction.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: the pulse data is obtained by detecting the neck artery through a pressure sensor arranged on the neck massage instrument, or the pulse data is obtained by detecting the neck through a photoelectric sensor arranged on the neck massage instrument.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: acquiring pulse data when first trigger information sent by a distance sensor is acquired; the first trigger information is generated when the distance between the first trigger information and the human body detected by the distance sensor is smaller than a set threshold value.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: when second trigger information sent by the temperature sensor is acquired, pulse data are acquired; the second trigger information is generated when the temperature data of the human body acquired by the temperature sensor exceeds a set threshold.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: sending an electrocardio detection request to remind a user to connect an external electrocardio detection device with the neck massager; when the neck massager is connected to an external electrocardio acquisition device and an electrocardio detection instruction is obtained, obtaining electrocardio data acquired by the external electrocardio acquisition device; and processing the electrocardiogram data to obtain an electrocardiogram detection result.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: sending an electrocardio detection request instruction to a first loudspeaker of the neck massager so that the first loudspeaker sends a request prompt tone to remind a user to connect an external electrocardio detection device with the neck massager; or/and sending an electrocardio detection request instruction to the mobile terminal so as to enable a loudspeaker of the mobile terminal to send a request prompt tone to remind a user of connecting an external electrocardio detection device with the neck massager.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: and sending prompt information to remind a user to use the external electrocardio acquisition device to acquire electrocardio data when the neck massager is detected to be connected to the external electrocardio acquisition device and an electrocardio detection instruction is not acquired within preset time.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: uploading the electrocardiogram data to a server so that the server detects the electrocardiogram data and generates a detection result; and receiving the detection result sent by the server.
Optionally, when the processor 51 is used to execute the program data, the following method is further implemented: and sending the detection result to the mobile terminal so as to display the detection result to the user.
Referring to fig. 6, fig. 6 is a schematic structural diagram of an embodiment of a computer-readable storage medium 60 provided by the present application, the computer-readable storage medium being used for storing program data 61, the program data 61 being used for implementing the following method steps when being executed by a processor:
collecting pulse data; wherein, the pulse data is obtained by detecting the neck artery by a pressure sensor arranged on the neck massager; judging whether the pulse data is abnormal or not; if so, sending an electrocardio detection request, and starting to acquire and detect electrocardio data when detecting that the neck massage instrument is connected to an external electrocardio acquisition device and obtains an electrocardio detection instruction.
It can be understood that, when the readable storage medium 60 in this embodiment can be applied to a neck massager, for implementing any of the above embodiments, reference is made to the above embodiments specifically, and details are not described here.
In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other manners. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated units in the other embodiments described above may be stored in a computer-readable storage medium if they are implemented in the form of software functional units and sold or used as separate products. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.