阅读说明：本技术 心电测量方法、装置、按摩设备及存储介质 (Electrocardiogram measuring method and device, massage equipment and storage medium ) 是由 刘杰 彭昶 于 2020-12-03 设计创作，主要内容包括：本申请属于终端技术领域,具体而言,涉及一种心电测量方法、装置、按摩设备及存储介质。其中,一种心电测量方法,所述方法应用于按摩设备,所述按摩设备的工作状态包括心电测量状态及按摩状态,所述按摩设备包括电极元件,所述方法包括：接收心电测量指令；基于所述心电测量指令,控制所述电极元件在所述心电测量状态采集用户的心电信号；其中,在所述按摩设备处于所述按摩状态时,所述电极元件用于输出电脉冲信号；在所述按摩设备处于所述心电测量状态时,所述电极元件用于采集所述心电信号。采用本申请可以简化按摩设备结构的同时提高心电测量的便利性。(The application belongs to the technical field of terminals, and particularly relates to an electrocardio measuring method and device, massage equipment and a storage medium. The method is applied to massage equipment, the working state of the massage equipment comprises an electrocardio measuring state and a massage state, the massage equipment comprises an electrode element, and the method comprises the following steps: receiving an electrocardio measuring instruction; controlling the electrode element to acquire an electrocardiosignal of a user in the electrocardio measuring state based on the electrocardio measuring instruction; wherein, when the massage device is in the massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in the electrocardio measuring state, the electrode element is used for collecting the electrocardio signals. By adopting the method and the device, the convenience of electrocardio measurement can be improved while the structure of the massage equipment can be simplified.)

1. An electrocardiographic measurement method, which is applied to a massage apparatus, wherein the operating state of the massage apparatus includes an electrocardiographic measurement state and a massage state, the massage apparatus includes an electrode element, and the method includes:

receiving an electrocardio measuring instruction;

controlling the electrode element to acquire an electrocardiosignal of a user in the electrocardio measuring state based on the electrocardio measuring instruction; wherein, when the massage device is in the massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in the electrocardio measuring state, the electrode element is used for collecting the electrocardio signals.

2. The method according to claim 1, wherein after receiving the electrocardiograph measurement instruction, the controlling the electrode element to acquire the electrocardiograph signal of the user in the electrocardiograph measurement state based on the electrocardiograph measurement instruction further comprises:

responding to the electrocardio measuring instruction, and determining the working state of the massage equipment;

and if the massage equipment is in the massage state, switching the massage equipment from the massage state to the electrocardio measurement state.

3. The method of claim 2, wherein the determining the operational status of the massage device comprises:

and when the electrode element is detected to output the electric pulse signal, determining that the working state of the massage equipment is a massage state.

4. The method according to claim 1, wherein the operating state of the massage apparatus further comprises a hot compress state or a standby state;

after receiving the electrocardio measurement instruction, before controlling the electrode element to acquire the electrocardio signal based on the electrocardio measurement instruction, the method further comprises the following steps:

responding to the electrocardio measurement instruction, and acquiring the working state of the massage equipment;

and when the working state indicates that the massage equipment is in the hot compress state or the standby state, the working state of the massage equipment is switched to the electrocardio measurement state.

5. The method according to claim 1, wherein the controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction further comprises:

and processing the electrocardiosignals to obtain electrocardio characteristic information.

6. The method according to claim 1, wherein the controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction further comprises:

outputting the electrocardiosignals to target electronic equipment so that the target electronic equipment processes the electrocardiosignals to obtain electrocardio characteristic information;

and receiving the electrocardio characteristic information sent by the target electronic equipment.

7. The method of claim 5 or 6, further comprising:

acquiring a massage mode matched with the electrocardio characteristic information;

and controlling the electrode element to output an electric pulse signal corresponding to the massage mode.

8. The method of claim 5, further comprising:

and outputting the electrocardio characteristic information to target electronic equipment so that the target electronic equipment displays the electrocardio characteristic information.

9. The method of claim 5 or 6, further comprising:

and when the electrocardio characteristic information accords with a preset early warning condition, sending out early warning information.

10. The method of claim 1, further comprising:

and when the preset measurement time is reached, sending out electrocardio measurement reminding information.

11. The method of claim 1, further comprising:

and when the preset measuring time is reached, if the current state of the massage equipment is not the massage state, generating the electrocardio measuring instruction.

12. The method according to claim 1, wherein the controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction further comprises:

and outputting the electrocardiosignals to target electronic equipment so that the target electronic equipment displays electrocardio characteristic information corresponding to the electrocardiosignals.

13. The method of claim 1, wherein the electrode element comprises a movable electrode element connected to a body of the massage device by a wire.

14. An electrocardiogram measuring device is characterized in that the working state of the electrocardiogram measuring device comprises an electrocardiogram measuring state and a massage state, the electrocardiogram measuring device comprises an electrode element, and the method comprises the following steps:

the command receiving unit is used for receiving an electrocardio measuring command;

the signal acquisition unit is used for controlling the electrode element to acquire the electrocardiosignals of the user in the electrocardio measurement state based on the electrocardio measurement instruction; when the electrocardio measuring device is in the massage state, the electrode element is used for outputting an electric pulse signal; when the electrocardio measuring device is in the electrocardio measuring state, the electrode element is used for collecting the electrocardiosignals.

15. A massaging apparatus comprising a memory for storing a computer program operable on a processor and a processor for executing the computer program to carry out the method of any one of claims 1 to 13.

16. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the method of any one of the preceding claims 1 to 13.

Technical Field

The application belongs to the technical field of terminals, and particularly relates to an electrocardio measuring method and device, massage equipment and a storage medium.

Background

With the development of scientific technology and the improvement of the thought level of people, people pay more and more attention to the health. For example, a user may perform a physical examination each year to determine his or her physical condition. Among them, cardiovascular health is a major concern for users, and for example, users can acquire cardiovascular health through electrocardiographic detection. The user can go to a hospital or a physical examination center, and the electrocardio monitor is used for carrying out electrocardio measurement to obtain the cardiovascular health condition.

Disclosure of Invention

The embodiment of the application provides an electrocardio measuring method, an electrocardio measuring device, a massage device and a storage medium, which can simplify the structure of the massage device and improve the convenience of electrocardio measurement. The technical scheme of the embodiment of the application is as follows:

in a first aspect, an embodiment of the present application provides an electrocardiographic measurement method, where the method is applied to a massage device, an operating state of the massage device includes an electrocardiographic measurement state and a massage state, the massage device includes an electrode element, and the method includes:

receiving an electrocardio measuring instruction;

controlling the electrode element to acquire an electrocardiosignal of a user in the electrocardio measuring state based on the electrocardio measuring instruction; wherein, when the massage device is in the massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in the electrocardio measuring state, the electrode element is used for collecting the electrocardio signals.

In a second aspect, an embodiment of the present application provides an electrocardiograph measurement apparatus, where a working state of the electrocardiograph measurement apparatus includes an electrocardiograph measurement state and a massage state, the electrocardiograph measurement apparatus includes an electrode element, and the method includes:

the command receiving unit is used for receiving an electrocardio measuring command;

the signal acquisition unit is used for controlling the electrode element to acquire the electrocardiosignals of the user in the electrocardio measurement state based on the electrocardio measurement instruction; when the electrocardio measuring device is in the massage state, the electrode element is used for outputting an electric pulse signal; when the electrocardio measuring device is in the electrocardio measuring state, the electrode element is used for collecting the electrocardiosignals.

In a third aspect, a massage device comprises a memory for storing a computer program operable on a processor and a processor for executing the computer program to implement the method of any of the first aspects.

In a fourth aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, and the computer program is used for implementing any one of the methods described above when executed by a processor.

In a fifth aspect, embodiments of the present application provide a computer program product, where the computer program product includes a non-transitory computer-readable storage medium storing a computer program, where the computer program is operable to cause a computer to perform some or all of the steps as described in the first aspect of embodiments of the present application. The computer program product may be a software installation package.

The beneficial effects brought by the technical scheme provided by some embodiments of the application at least comprise:

in one or more embodiments of the present application, the massage device may receive an electrocardiographic measurement instruction, and based on the electrocardiographic measurement instruction, the electrode element may be controlled to collect an electrocardiographic signal of a user in an electrocardiographic measurement state, because the electrode element is used to output an electrical pulse signal when the massage device is in the massage state, and is used to collect the electrocardiographic signal when the massage device is in the electrocardiographic measurement state, the massage device may complete collection of the electrocardiographic signal without providing an additional electrocardiographic collection element, and may complete collection of the electrocardiographic signal without adding a massage device element, and may also perform electrocardiographic measurement without going to a special medical institution, may simplify an electrocardiographic collection process while simplifying a structure of the massage device, and may improve convenience of electrocardiographic measurement.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a background schematic diagram of an electrocardiography measurement method applied to an embodiment of the present application;

FIG. 2 is a system architecture diagram illustrating a method for measuring electrocardiography according to an embodiment of the present application;

FIG. 3 is a schematic flow chart of a method for measuring electrocardiography according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating an example of a user inputting an ECG measurement command according to an embodiment of the present application;

FIG. 5 is a schematic flow chart illustrating a method for measuring electrocardiography according to an embodiment of the present application;

fig. 6 is a schematic structural view of a neck massager according to an embodiment of the present application;

fig. 7 is a schematic diagram showing a logical structure of an electric pulse massage apparatus according to an embodiment of the present application;

FIG. 8 is a schematic flow chart illustrating a method for measuring electrocardiography according to an embodiment of the present application;

FIG. 9 is a schematic flow chart illustrating a method for measuring electrocardiography according to an embodiment of the present application;

FIG. 10 is a schematic diagram illustrating an example interface of an electronic device according to an embodiment of the present application;

fig. 11 is a schematic diagram illustrating an example interface of an electronic device according to an embodiment of the present application;

FIG. 12 is a schematic structural diagram of an electrocardiograph measurement device according to an embodiment of the present application;

fig. 13 is a schematic structural view of a massage apparatus according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, 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, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. 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.

In the description of the present application, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present application, it is noted that, unless explicitly stated or limited otherwise, "including" and "having" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art. Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Fig. 1 is a background schematic diagram of an electrocardiographic measurement method applied to an embodiment of the present application. With the development of scientific technology and the improvement of the knowledge level of users, users pay more and more attention to their health. In addition to daily healthy diet, regular work and rest, and active exercise, continuous monitoring becomes a major concern for users. For example, the user may go to a medical facility for electrocardiographic measurements. The medical institution refers to a facility capable of performing electrocardiographic measurement. The medical institution is provided with an electrocardio monitoring device. The electrocardiographic monitoring device may be, for example, a conventional electrocardiographic monitoring device that employs 12-lead synchronous detection so that conventional electrocardiographic detection, guardian electrocardiographic detection, dynamic electrocardiographic detection, and the like can be performed. The electrocardio monitoring device can also be a 3-lead electrocardio monitoring device, and is mainly used in real-time electrocardio monitors of an ICU (intensive care unit) and a CCU (coronary heart disease intensive care unit). Therefore, when the user performs the electrocardiographic measurement, the user needs to use the electronic device in advance to make an appointment with the electronic device in the medical institution through the server, and go to the corresponding medical institution for detection at the corresponding time after the appointment succeeds, so that the electrocardiographic measurement steps are complex, and the electrocardiographic measurement is inconvenient.

The massage equipment can be further provided with a sensor corresponding to the electrocardio measurement for the electrocardio measurement, but the massage equipment is small in size, so that the structure of the massage equipment is complex due to the addition of the sensor corresponding to the electrocardio measurement, and the problem of inconvenience in the electrocardio measurement is caused.

Fig. 2 is a system architecture diagram illustrating a method of electrocardiography measurement according to some embodiments of the present application. As shown in fig. 2, the massage device, which may be, for example, a neck massager, may be provided with a switching control. The neck massager can detect an electrocardio measuring instruction received when the switching control is clicked, and the neck massager controls the electrode element of the neck massager to acquire electrocardio signals. The electrode element can be, for example, an electrode sheet for outputting an electric pulse signal when the neck massager is in a massage state. When the neck massager acquires the electrocardiosignals, the neck massager can send the electrocardiosignals to the electronic equipment connected with the neck massager, so that the electronic equipment displays the electrocardioparameters corresponding to the electrocardiosignals. The embodiment of the application provides an electrocardio measuring method, which can simplify the structure of massage equipment and improve the convenience of electrocardio measurement.

The present application will be described in detail with reference to specific examples.

In one embodiment, as shown in fig. 3, an electrocardiographic measurement method is proposed, which can be implemented by means of a computer program and which can be run on a massage device based on electrodes with electrode elements. The computer program may be integrated into the application or may run as a separate tool-like application.

Specifically, the electrocardio-measuring method comprises the following steps:

step 101, receiving an electrocardio measurement instruction;

according to some embodiments, the main execution body of the present embodiment is a massage apparatus including, but not limited to, a neck massager, an eye massager, and the like. The working state of the massage equipment comprises but is not limited to an electrocardio measuring state and a massage state, and when the massage equipment is in the massage state, the massage equipment can massage the corresponding part of a user. For example, when the neck massage apparatus is in a massage state, the neck massage apparatus can massage the neck of the user. When the massage equipment is in the electrocardio measuring state, the massage equipment can carry out electrocardio measurement. The massage device can also comprise other functions, for example, when the massage device comprises a massage function and an electrocardio measurement function, the massage device can also comprise a positioning function and the like.

It is easy to understand that the massage device comprises electrode elements. Electrode elements include, but are not limited to, electrode heads or electrode patches. The electrode element may be a fixed electrode element or may be a movable electrode element, which may be, for example, an attachable gel electrode element.

According to some embodiments, when the massage device detects that the user inputs an electrocardiographic measurement instruction for electrocardiographic measurement, the massage device may receive the electrocardiographic measurement instruction. The electrocardiogram measurement instruction includes but is not limited to a voice electrocardiogram measurement instruction, a click electrocardiogram measurement instruction, a timing electrocardiogram measurement instruction and the like. The electrocardio measurement instruction received by the massage equipment can be an electrocardio measurement instruction directly input by a user on the massage equipment, and can also be an electrocardio measurement instruction input by the user through electronic equipment and received by the massage equipment.

Optionally, when the electrocardiographic measurement instruction received by the massage device is a voice electrocardiographic measurement instruction, a microphone may be disposed on the massage device, and the microphone may be configured to collect a voice signal input by a user. When the massage device controls the microphone to collect the voice signal, the massage device can analyze the voice signal by adopting a voice recognition algorithm to obtain a voice electrocardio measurement instruction input by a user.

Optionally, when the electrocardiographic measurement instruction received by the massage device is a click electrocardiographic measurement instruction, a switching control may be provided on the massage device, and the switching control is used to switch the electrocardiographic acquisition function and the massage function. When the electrocardio measurement instruction received by the massage equipment is a click electrocardio measurement instruction, the massage equipment can be respectively provided with a massage control and an electrocardio acquisition control. When the switching control is arranged on the massage equipment, the massage equipment is in a massage state and detects that the user clicks the switching control, and the massage equipment can receive a click electrocardio measurement instruction.

Optionally, before the electrocardiographic measurement instruction received by the massage device is the click electrocardiographic measurement instruction, the massage device may set a measurement time every fixed time, may also set a fixed time every day as the measurement time, and may also set a next measurement time based on the previous electrocardiographic measurement completion. When the preset measuring time is reached, the massage equipment can receive the timing electrocardio measuring instruction.

It will be readily appreciated that the massage device may be, for example, a neck massager. The electrocardiographic measurement command received by the neck massager can be, for example, a click electrocardiographic measurement command input by a user on the neck massager. When the neck massager detects that the user clicks the electrocardio measuring control, the neck massager can receive a click electrocardio measuring instruction. At this time, an exemplary schematic diagram of the user inputting the electrocardiograph measurement instruction may be as shown in fig. 4.

102, controlling an electrode element to acquire an electrocardiosignal of a user in an electrocardio measurement state based on an electrocardio measurement instruction; wherein, when the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in an electrocardio measuring state, the electrode element is used for collecting electrocardiosignals.

According to some embodiments, the operating state of the massage device includes a massage state and an electrocardiographic measurement state. The massage device may comprise an electrode element. When the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal, so that muscles at the position of the electrode element can be periodically contracted and relaxed to achieve a massage effect. When the massage equipment is in an electrocardio measuring state, the electrode element does not output an electric pulse signal and can be used for collecting electrocardio signals.

It is easy to understand that when the massage device receives the electrocardio measuring instruction, the massage device can control the electrode element to collect the electrocardio signal of the user in the electrocardio measuring state based on the received electrocardio measuring instruction. When the massage equipment is in a massage state, the electrode element can output an electric pulse signal, so that the massage equipment can acquire electrocardiosignals without arranging an additional measuring element. As bioelectric activity occurs in all parts of the heart during excitation, the bioelectric activity can be transmitted to the body surface through the conductive tissues and body fluid around the heart, and therefore, when the electrode elements are placed on the body surface, the massage equipment can control the electrode elements to acquire electrocardiosignals.

Optionally, the electrode elements comprise at least one pair of electrode elements. When the number of the electrode elements is a pair, the massage device can control the electrode elements to output electric pulse signals when the massage device is in a massage state, so that muscles at the positions of the electrode elements can be periodically contracted and relaxed to achieve a massage effect. When the massage device is in the electrocardio measuring state, the massage device can control the pair of electrode elements to collect electrocardiosignals of the user in the electrocardio measuring state.

According to some embodiments, when the electrode element is controlled by the massage device to collect the electrocardiosignals of the user in the electrocardio measuring state, the massage device can collect the electrocardiosignals within a preset time length and can also collect the electrocardiosignals for a preset number of times. The preset time period may be, for example, one acquisition cycle of the electrocardiographic signal.

It will be readily appreciated that the massage device may be, for example, a neck massager. The neck massager comprises a pair of electrode elements. When the neck massage instrument receives a click electrocardio measurement instruction input by a user on the neck massage instrument, the neck massage instrument can control the pair of electrodes to acquire electrocardio signals. When the neck massager controls the pair of electrodes to collect electrocardiosignals, the neck massager can collect the electrocardiosignals within a preset time length. The preset time period may be, for example, 2 minutes.

According to some embodiments, the number of electrode elements may be, for example, two pairs. The two pairs of electrodes may be, for example, a pair of electrode elements and B pair of electrode elements, respectively. The massage device may use at least one of the two pairs of electrode elements. When the massage device is in a massage state, the pair of electrode elements A is controlled to output electric pulse signals, so that muscles at the positions of the electrode elements can be periodically contracted and relaxed, and a massage effect is achieved. When the massage equipment is in an electrocardio measuring state, the massage equipment can control the pair of electrode elements B to collect electrocardiosignals.

Alternatively, the number of electrode elements may be, for example, two pairs. The massage device can be in a massage state and an electrocardio measurement state at the same time, at the moment, the massage device can control the electrode element A to output electric pulse signals, so that muscles at the position of the electrode element can be periodically contracted and relaxed to achieve a massage effect, and meanwhile, the electrode element B is controlled to acquire electrocardio signals.

In one or more embodiments of the present application, the massage device may receive an electrocardiographic measurement instruction, and based on the electrocardiographic measurement instruction, the electrode element may be controlled to collect an electrocardiographic signal, and the electrode element is configured to output an electrical pulse signal when the massage device is in a massage state, and is configured to collect the electrocardiographic signal when the massage device is in the electrocardiographic measurement state, so that the massage device may collect the electrocardiographic signal without providing an additional electrocardiographic collecting element, and may collect the electrocardiographic signal without adding a massage device element, and may also perform electrocardiographic measurement without going to a special medical institution, so that the structure of the massage device may be simplified, the electrocardiographic collecting process may be simplified, and convenience of electrocardiographic measurement may be improved.

Please refer to fig. 5, which provides a schematic flow chart of an electrocardiographic measurement method according to an embodiment of the present application. As shown in fig. 5, the method comprises the following steps S201-S207.

Step 201, receiving an electrocardiogram measurement instruction;

the specific process is as described above, and is not described herein again.

According to some embodiments, when the preset measurement time is reached, if the current state of the massage device is not the massage state, the massage device may generate an electrocardiographic measurement instruction.

According to some embodiments, the preset measurement time may be set by the massage apparatus based on a time setting instruction of the user, or may be set by the massage apparatus when it leaves the factory. When the preset measurement time is reached, the massage apparatus may acquire the current state of the massage apparatus and detect whether the current state is a massage state. If the current state of the massage equipment is not the massage state, the massage equipment can generate an electrocardio measurement instruction, the situation that the massage of the user is interrupted when the preset measurement moment is reached can be reduced, the situation that the massage experience of the user is poor when the user uses the massage equipment is reduced, and the use experience of the user can be improved.

It will be readily appreciated that the preset measurement time may be, for example, 8:00am on 12 months 10 in 2019. When 8:00am at 12 days 10 and 12 months in 2019 is reached, the massage apparatus acquires that the current state is a hot compress state. When the massage equipment detects that the hot compress state in the current state is not the massage state, the massage equipment can generate an electrocardio measurement instruction.

Step 202, responding to an electrocardio measurement instruction, and determining the working state of the massage equipment;

according to some embodiments, when the massage device receives the electrocardiographic measurement instruction, the massage device may determine an operating state of the massage device in response to the received electrocardiographic measurement instruction. The working state of the massage device includes, but is not limited to, a massage state, an electrocardiograph measurement state, a standby state, a hot compress state, and the like. The standby state is a state in which the massage apparatus is in an on state but the electrode elements are not operated. When the massage equipment is in a hot compress state, the massage equipment can achieve the hot compress effect through the electric pulse signals output by the control electrode elements. Massage device can set up different hot compress gears, and different hot compress gears correspond different temperatures.

It is easy to understand that when the neck massager receives the click electrocardio measurement instruction, the neck massager can determine the working state of the neck massager. The neck massager determines the operating state, which may be a massage state, for example.

Optionally, when the neck massager receives the electrocardiograph measurement instruction, the neck massager can also acquire control information clicked by the user last time. When the massage equipment acquires that the control information is the massage control, the massage equipment determines that the working state is the massage state.

Step 203, switching the working state of the massage equipment into an electrocardio measuring state when the working state indicates that the massage equipment is in a hot compress state or a standby state;

according to some embodiments, since the operating state of the massage apparatus includes, but is not limited to, a massage state, an electrocardiographic measurement state, a standby state, a hot compress state, and the like, when the massage apparatus acquires the operating state, the massage apparatus may detect whether the operating state indicates that the massage apparatus is in the hot compress state or the standby state. When the massage equipment detects that the working state indicates that the massage equipment is in a hot compress state or a standby state, the massage equipment can switch the working state of the massage equipment into an electrocardio measurement state.

It is easy to understand that when the massage apparatus receives the electrocardiographic measurement instruction, the working state of the massage apparatus acquired by the massage apparatus may be, for example, a standby state. The standby state indicates that the massage device is in a standby state, that is, when the massage device is not in the electrocardiographic measurement state, the massage device can switch the standby state of the massage device to the electrocardiographic measurement state.

Optionally, when the operating condition that massage equipment obtained was the hot compress state, this hot compress state instruction massage equipment was in the hot compress state, and the neck massage appearance can switch the hot compress state of neck massage appearance into electrocardio measuring state.

According to some embodiments, when the massage state of the massage device is switched to the electrocardiogram measurement state, the massage device can control the signal selector in the massage device to select the electrocardiogram collecting device so as to control the electrodes to collect the electrocardiogram signals. Wherein, the signal selector is a physical switching device, and the signal selector includes but is not limited to a relay, an analog switch, etc.

204, controlling the electrode element to acquire an electrocardiosignal of the user in an electrocardio measurement state based on the electrocardio measurement instruction; wherein, when the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in an electrocardio measuring state, the electrode element is used for collecting electrocardiosignals;

the specific process is as described above, and is not described herein again.

According to some embodiments, the massage device of embodiments of the present application further comprises a processor for processing the cardiac electrical signal. When the massage equipment acquires electrocardiosignals based on the electrocardio measuring instruction, the massage equipment can control the electrode element to acquire the electrocardiosignals. The specific process can be as follows: the bioelectricity change direction, path, sequence and time of each part of the heart in the exciting process are regular, and the bioelectricity change is reflected on the body surface through the conductive tissue and body fluid around the heart, so that each part of the body also generates regular bioelectricity change in each cardiac cycle, and the massage equipment can control the electrode elements to acquire the bioelectricity signals. When the massage equipment acquires the bioelectricity signal, the massage equipment can control the processor of the massage equipment to amplify, filter, convert analog to digital and the like the bioelectricity signal to obtain the electrocardiosignal.

According to some embodiments, when the electrode element is a movable electrode element, the electrode element can be installed on any part of the body surface where the electrocardiosignal can be measured. When the electrode element is a movable electrode element, the massage equipment can send out a reminding signal before the motor element is controlled to collect electrocardiosignals, and the reminding signal can be used for reminding a user to install and fix the movable electrode element. When the user completes the fixing of the movable electrode element, the user can input a determination instruction for the reminder signal on the massage apparatus. When the massage equipment receives the determined instruction, the massage equipment can control the movable electrode element to acquire electrocardiosignals. The movable electrode element can improve the convenience of electrocardio measurement. For example, when the movable electrode element of the neck massager can be fixed on the chest of the user, the electrocardio measurement is more accurate.

It is easily understood that the movable electrode may be detachably connected to the main body of the massage apparatus through a wire, and may be fixedly connected to the main body of the massage apparatus through a wire. The detachable connection can be plugged in, for example. For example, when the massage device is a neck massager, the schematic structural diagram of the neck massager can be as shown in fig. 6.

Optionally, when the electrode element is a movable electrode element, the massage device may control the movable electrode element to output an electric pulse signal when the massage device is in a massage state, so that the massage device may massage the muscle at the position of the movable electrode element.

Step 205, processing the electrocardiosignal to obtain electrocardio characteristic information;

according to some embodiments, the electrocardiographic feature information refers to information corresponding to electrocardiographic signals, and includes, but is not limited to, voltage parameter information, time parameter information, heart rate parameter information, electrocardiographic axis parameter information, and the like. When the massage device controls the electrode element to acquire the electrocardiosignals of the user in the electrocardio measurement state based on the electrocardio measurement instruction, the massage device can process the electrocardiosignals to obtain the electrocardio characteristic information corresponding to the electrocardiosignals. The processing of the cardiac electrical signal by the massage device includes, but is not limited to, image recognition processing, digital information acquisition processing, and the like.

According to some embodiments, when the massage device processes the electrocardio signal to obtain the electrocardio characteristic information, the massage device may transmit the electrocardio characteristic information to the target electronic device, so that the target electronic device displays the electrocardio characteristic information.

It is easy to understand that when the neck massager controls the electrode element to acquire the electrocardiosignals of the user in the electrocardio measuring state, the neck massager can process the electrocardiosignals to obtain the electrocardio characteristic information. The electrocardiographic characteristic information may be in the form of an electrocardiogram, for example. When the neck massager sends the electrocardio characteristic information to the target electronic equipment through the electrocardio characteristic information, the target electronic equipment can receive the electrocardio characteristic information and display the electrocardio characteristic information on a display screen of the target electronic equipment.

Step 206, obtaining a massage mode matched with the electrocardio characteristic information;

according to some embodiments, when the electrocardiosignal of the user is acquired by the massage device control electrode element in the electrocardio measuring state, the massage device can switch the electrocardio measuring state into the massage state. When the massage device is switched to the massage state, the massage device can acquire the electrocardio characteristic information corresponding to the electrocardiosignal. When the massage device acquires the electrocardio characteristic information, the massage device can acquire a massage mode matched with the electrocardio characteristic information. For example, before the massage device acquires the massage mode corresponding to the electrocardiographic signal, the massage device may store the electrocardiographic feature information and the massage mode in a massage set in an associated manner, that is, the massage device may set different massage modes for electrocardiographic feature information of different gears. When the massage device acquires the electrocardiographic feature information, the massage device may acquire a massage pattern matching the electrocardiographic feature information based on the massage set.

It is easy to understand that when the massage device acquires the massage mode corresponding to the electrocardiographic feature information, the massage device may acquire the electrocardiographic feature information first. The electrocardiograph characteristic information includes, but is not limited to, voltage parameter information, time parameter information, heart rate parameter information, electrocardiograph axis parameter information, and the like. When the massage device acquires the electrocardiogram characteristic information, the massage device can acquire a massage mode matched with the electrocardiogram characteristic information. The massage equipment can adopt a signal identification algorithm to identify the electrocardio characteristic information corresponding to the electrocardio signals. For example, the massage device may acquire the number of heart beats in one cycle by using a signal recognition algorithm, that is, the massage device may acquire the heart rate parameter.

It is easy to understand that when the neck massager controls the electrode element to acquire the electrocardiosignals, the neck massager can acquire the electrocardio characteristic information corresponding to the electrocardiosignals. When the neck massager acquires the electrocardio characteristic information, the neck massager can detect whether the electrocardio characteristic information belongs to the range of the electrocardio characteristic information corresponding to the massage mode. For example, when the neck massager detects that the electrocardio characteristic information belongs to the electrocardio characteristic information range corresponding to the Y massage mode, the massage mode obtained by the neck massager and matched with the electrocardio signal is the Y massage mode.

And step 207, controlling the electrode element to output an electric pulse signal corresponding to the massage mode.

According to some embodiments, when the massage apparatus controls the electrode elements to acquire the electrocardiographic signals of the user in the electrocardiographic measurement state, the massage apparatus may switch the electrocardiographic measurement state to the massage state. When the massage equipment is switched to a massage state, the massage equipment can process the electrocardio signals to obtain electrocardio characteristic information, obtain a massage mode matched with the electrocardio characteristic information and control the electrode elements to output electric pulse signals corresponding to the massage mode. Therefore, the massage device can adjust the massage mode based on the collected electrocardiosignals, and the use experience of the user can be improved.

It is easy to understand that when the neck massager finishes collecting electrocardiosignals, the neck massager can switch the electrocardio measuring state into the massage state. When the neck massager is switched to a massage state, the neck massager can process the electrocardio signals to obtain the electrocardio characteristic information and obtain a massage mode matched with the electrocardio characteristic information. The massage mode which is acquired by the neck massage instrument and matched with the electrocardio characteristic information can be a Y massage mode, for example. The neck massage instrument can control the electrode element to output an electric pulse signal corresponding to the Y massage mode.

According to some embodiments, the massage device may be, for example, an electric pulse massager. Fig. 7 is a schematic diagram showing a logical structure of an electric pulse massage apparatus according to an embodiment of the present application. As shown in fig. 7, the electric pulse massage apparatus includes electrode elements, which may be electrode tips or electrode patches. When the electric pulse massage instrument is used for function selection, the function can be switched through the signal selector. The electric pulse massager comprises an electric pulse generating device and an Electrocardiogram (ECG) collecting device. The electric pulse massage instrument can control the corresponding device to work based on the function selected by the signal selector.

Fig. 8 is a schematic flow chart of an electrocardiographic measurement method according to an embodiment of the present application. As shown in fig. 8, when the electric pulse massage apparatus starts to operate, that is, when the electric pulse massage apparatus is in an on state, the electric pulse massage apparatus can perform function selection based on a function selection instruction of a user. The electric pulse massager can judge whether the function is a massage function. When the electric pulse massager judges that the function is a massage function, a signal selector of the electric pulse massager can connect the electric pulse generating device to the electrode element and start to output massage waveforms. When the massage time is up, the electric pulse massage instrument can end the massage function. When the electric pulse massager judges that the function is not the massage function, the electric pulse massager can judge whether the function is the ECG acquisition function. When the electric pulse massager judges that the function is the ECG acquisition function, the signal selector of the electric pulse massager can connect the ECG acquisition device to the electrode element, and start ECG electrocardio acquisition and store the acquired data. When the electric pulse massager stores the acquired data, the electric pulse massager can end the ECG acquisition function.

In one or more embodiments of the present application, the massage device may obtain a working state of the massage device in response to the electrocardiographic measurement instruction, and switch the massage state to the electrocardiographic measurement state when the working state indicates that the massage device is in the massage state, so as to determine that the electrocardiographic signal is collected when the massage device is in the electrocardiographic measurement state, and improve accuracy of electrocardiographic measurement. In addition, the massage device can control the electrode element to collect the electrocardiosignals of the user in the electrocardio measuring state based on the electrocardio measuring instruction, and the electrode element is used for outputting the electric pulse signals when the massage device is in the massage state, so that the electrocardio signals can be collected without arranging an additional electrocardio collecting element, the structure of the massage device can be simplified, a special medical institution is not required to carry out the electrocardio measurement, and the convenience of the electrocardio measurement can be improved. Finally, the massage device can acquire a massage mode matched with the electrocardio characteristic information, control the electrode element to output an electric pulse signal corresponding to the massage mode, adjust the massage mode based on the electrocardio signal and improve the use convenience of the massage device.

Please refer to fig. 9, which provides a schematic flow chart of an electrocardiographic measurement method according to an embodiment of the present application. As shown in fig. 9, the method includes the following steps S301 to S307.

Step 301, sending an electrocardiogram measurement reminding message when a preset measurement time is reached;

according to some embodiments, the massage device may send an electrocardiographic measurement prompting message when the massage device determines that a preset measurement time is reached. The electrocardio-measurement reminding information is used for reminding a user of carrying out electrocardio-measurement. For example, the massage apparatus may set the measurement timing in advance. The massage device may be set based on user-entered time-setting instructions including, but not limited to, voice time-setting instructions, click time-setting instructions, text time-setting instructions, and the like. The massage equipment can set a measuring moment at intervals of fixed time, can also set a fixed time every day as the measuring moment, and can also set the next measuring moment based on the previous electrocardio measurement.

It will be readily appreciated that the massage device may be set to perform an electrocardiographic measurement every six hours. The massage device can also set 8:00am, 12:00pm and 6:00pm of each day as the electrocardio measuring time. The massage equipment can also set the next measurement time to be 3:00pm when 1:00pm electrocardio measurement is finished.

According to some embodiments, for example, the massage device sets 8:00am, 12:00pm, and 6:00pm per day as electrocardiographic measurement times. When the massage equipment detects that the current time 12:00pm is the preset measurement time, the massage equipment can send out electrocardio measurement reminding information. The electrocardiographic measurement reminding information includes but is not limited to vibratory electrocardiographic measurement reminding information, flickering electrocardiographic measurement reminding information, voice electrocardiographic measurement reminding information and the like.

It is easy to understand that, when the massage device is connected with the electronic device, the massage device can send the electrocardiographic measurement reminding information to the electronic device when the preset measurement time is reached, so that the electronic device sends the electrocardiographic measurement reminding information. The electrocardiographic measurement reminding information may be, for example, "please take electrocardiographic measurement", and an exemplary schematic diagram of an interface of the electronic device at this time may be as shown in fig. 10.

Optionally, after sending the electrocardiographic measurement prompting information, the user may input an electrocardiographic measurement instruction or a cancel instruction for the electrocardiographic measurement prompting information. If the massage equipment or the electronic equipment receives the electrocardio measurement instruction, the massage equipment can be controlled to execute subsequent electrocardio measurement, and if the cancel instruction is received, the subsequent electrocardio measurement is not executed.

According to some embodiments, step S301 may also be performed after step S305. For example, when the massage device controls the electrode element to acquire the electrocardiosignal of the user in the electrocardio measuring state based on the electrocardio measuring instruction, the massage device can also send out reminding information. The reminding information is used for reminding the measurement time of next electrocardio measurement so that a user can timely carry out the electrocardio measurement.

Step 302, when detecting that the electrode element outputs an electric pulse signal, determining the working state of the massage equipment to be a massage state;

according to some embodiments, when the massage apparatus is in different states, the working states of the electrode elements are different, so that the massage apparatus can determine the working state of the massage apparatus by acquiring the working states of the electrode elements. After the massage equipment receives the electrocardio measurement instruction, the massage equipment can detect whether the electrode element outputs an electric pulse signal or not. When the massage device detects that the electrode elements output the electric pulse signals, the massage device can determine that the working state of the massage device is a massage state.

It is easy to understand that when the neck massager receives the electrocardio measuring instruction, the neck massager can acquire whether the electrode element outputs the electric pulse signal. When the neck massager detects that the electrode elements output the electric pulse signals, the working state of the neck massager is determined to be a massage state. When the neck massager acquires the electric pulse signal output by the electrode element, the neck massager can also detect whether the electric pulse signal is larger than a preset electric pulse signal. When the neck massager detects that the electric pulse signal is greater than the preset electric pulse signal, the neck massager can determine that the working state of the neck massager is a massage state. The neck massager can reduce the condition of inaccurate state determination caused by the error of the neck massager, and improve the accuracy of electrocardio measurement.

303, switching the massage state into an electrocardio measurement state when the working state indicates that the massage equipment is in the massage state;

according to some embodiments, when the massage device acquires the operating state of the massage device, the massage device may determine the state of the massage device based on the operating state. When the working state obtained by the massage equipment indicates that the massage equipment is in a massage state, the massage equipment can switch the massage state into an electrocardio measurement state.

It is easy to understand that when the neck massager receives the click electrocardio measurement instruction, the neck massager can acquire the working state of the neck massager. The operating state acquired by the neck massager may be, for example, a massage state. When the massage state indicates that the neck massage apparatus is in the massage state, the neck massage apparatus can switch the massage state of the neck massage apparatus to the electrocardio measurement state.

304, controlling an electrode element to acquire an electrocardiosignal based on an electrocardio measurement instruction; wherein, when the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in an electrocardio measuring state, the electrode element is used for collecting electrocardiosignals;

the specific process is as described above, and is not described herein again.

305, outputting the electrocardiosignals to target electronic equipment so that the target electronic equipment processes the electrocardiosignals to obtain electrocardio characteristic information;

according to some embodiments, the electronic device may be an electronic device having a display screen, including but not limited to: wearable devices, handheld devices, personal computers, tablet computers, in-vehicle devices, smart phones, computing devices or other processing devices connected to a wireless modem, and the like. The terminal devices in different networks may be called different names, for example: user equipment, access terminal, subscriber unit, subscriber station, mobile station, remote terminal, mobile device, user terminal, wireless communication device, user agent or user equipment, cellular telephone, cordless telephone, Personal Digital Assistant (PDA), terminal equipment in a 5th generation mobile network or future evolution network, and the like.

It is easy to understand that the target electronic device may be the only device connected to the massage device, or at least one of a plurality of electronic devices connected to the massage device, and in this case, the target electronic device is not specifically referred to a fixed electronic device. The target electronic device may be determined based on a device setting instruction of a user, and may also be factory-set for the massage device. The massage device factory setting may be, for example, an electronic device that is connected to the massage device for the longest time as a target electronic device. The user's device setting instructions include, but are not limited to, voice device setting instructions, pointing device setting instructions, text device setting instructions, and the like. The device setting instruction can be directly input by the user on the massage device, or can be set by the user through an electronic device connected with the massage device.

It is easy to understand that when the massage device controls the electrode element to acquire the electrocardiosignals based on the electrocardio measurement instruction, the massage device can output the electrocardiosignals to the target electronic device so that the target electronic device processes the electrocardiosignals to obtain the electrocardio characteristic information. Namely, when the target electronic equipment receives the electrocardiosignals sent by the massage equipment, the target electronic equipment can process the electrocardiosignals to obtain the electrocardio characteristic information. When the target electronic device obtains the electrocardiogram characteristic information, the target electronic device can send the electrocardiogram characteristic information to the massage device and can also display the electrocardiogram characteristic information on the display screen. The electrocardiograph characteristic information includes but is not limited to ECG, electrocardiograph characteristic information in digital format, electrocardiograph characteristic information in text format, and the like. The ECG is a visual time series diagram of the activity of the human heart, which visually reflects the electrical activity changes generated by each cardiac cycle of the user's heart.

Optionally, the target electronic device may be, for example, a G smart phone. When the neck massager controls the electrode element to acquire the electrocardiosignals based on the electrocardio measuring instruction, the neck massager can output the electrocardiosignals to the G smart phone. When the G smart phone receives the electrocardiographic signal, the electrocardiographic signal can be converted into an electrocardiogram, and the electrocardiogram is displayed on the display screen of the G smart phone, and at this time, an exemplary schematic diagram of an interface of the G smart phone can be shown in fig. 11.

According to some embodiments, when the massage device sends and outputs the electrocardiographic signal to the target electronic device, so that the target electronic device displays the electrocardiographic feature information corresponding to the electrocardiographic signal, the massage device may perform conversion processing on the electrocardiographic signal to obtain the electrocardiographic feature information corresponding to the electrocardiographic signal, and output the electrocardiographic information to the target electronic device. When the target electronic device receives the electrocardiographic information, the target electronic device can display the electrocardiographic information.

Step 306, receiving the electrocardio characteristic information sent by the target electronic equipment;

according to some embodiments, when the target electronic device obtains the electrocardiographic feature information, the target electronic device may transmit the electrocardiographic feature information to the massage device. When the massage device detects that the target electronic device sends the electrocardiogram characteristic information, the massage device can receive the electrocardiogram characteristic information sent by the target electronic device.

It is readily understood that the target electronic device may be, for example, a G smart phone. When the neck massager controls the electrode element to acquire the electrocardiosignals based on the electrocardio measuring instruction, the neck massager can output the electrocardiosignals to the G smart phone. When the G smart phone receives the electrocardiosignals, the electrocardiosignals can be converted into electrocardiograms. The G smart phone may send the electrocardiogram to the massage device. When the massage device detects that the G smart phone sends the electrocardiogram, the massage device can receive the electrocardiogram sent by the G smart phone. When the massage device has a display screen, the massage device can exhibit the electrocardiogram.

And 307, sending out early warning information when the electrocardio characteristic information meets the preset early warning condition.

According to some embodiments, the preset warning condition may be a warning condition input by the user based on the human health condition information. When the control electrode element of the massage equipment receives the electrocardio characteristic information, the massage equipment can judge whether the electrocardio characteristic information meets the preset early warning condition. When the massage equipment judges that the electrocardio characteristic information accords with the preset early warning condition, the massage equipment can send out early warning information. The early warning information is used for prompting that the electrocardio characteristic information of the user accords with a preset early warning condition so that the user can perform related examination in time. The pre-set pre-alarm conditions include, but are not limited to, heart rate range, mean cardiac axis range, amplitude range, cardiac cyclic axis translocation parameters, and the like.

It is easy to understand that when the neck massager receives the electrocardio characteristic information, the neck massager can judge whether the electrocardio characteristic information meets the preset early warning condition. When the neck massager judges that the electrocardio characteristic information accords with the preset early warning condition, the neck massager can send out early warning information.

According to some embodiments, the massage device may set a plurality of different preset pre-warning conditions, wherein the different preset pre-warning conditions may correspond to different pre-warning modes. When the massage equipment sends out the early warning information, when the electrocardio characteristic information accords with different preset early warning conditions, the massage equipment can carry out early warning in different modes. For example, when the massage device determines that the electrocardiographic feature information meets the first preset early warning condition, the massage device itself may send out early warning information, which may be, for example, early warning information sent out in a vibration manner. When the massage equipment determines that the electrocardio characteristic information accords with the second preset early warning condition, the massage equipment can send out early warning information to the target electronic equipment. The user using the massage device may be, for example, an M-user, and the target electronic device may be, for example, an electronic device used by relatives of the M-user. When the massage equipment determines that the electrocardio characteristic information accords with the third preset early warning condition, the massage equipment can send out early warning information to the electronic equipment where the medical institution is located, so that the M user can be rescued in time.

In one or more embodiments of the application, when the preset measurement time is reached, the massage device can send out electrocardio measurement reminding information, so that a user can perform electrocardio measurement in time, and the use experience of the user is improved. Secondly, when the massage device detects that the electrode element outputs the electric pulse signal, the working state of the massage device is determined to be a massage state, and when the working state indicates that the massage device is in the massage state, the massage state can be switched to an electrocardio measurement state, the electrocardio signal can be acquired when the massage device is determined to be in the electrocardio measurement state, and the accuracy of electrocardio measurement can be improved. In addition, the massage device can control the electrode element to collect the electrocardiosignals based on the electrocardio measurement instruction, and the electrode element is used for outputting the electric pulse signals when the massage device is in a massage state, so that the electrocardio signals can be collected without arranging an additional electrocardio collection element, the structure of the massage device can be simplified, a special medical institution is not required to carry out electrocardio measurement, and the convenience of the electrocardio measurement can be improved. Then, the massage device can output the electrocardiosignals to the target electronic device, so that the target electronic device can display the electrocardiosignals corresponding to the electrocardiosignals, users can acquire the electrocardiosignals in time, and the use experience of the users can be improved. And finally, when the electrocardio characteristic information accords with preset early warning, early warning information is sent out so that a user can know the self condition in time, and the use experience of the user can be improved.

The electrocardiograph measurement device provided by the embodiment of the present application will be described in detail with reference to fig. 12. It should be noted that the electrocardiograph measuring device shown in fig. 12 is used to execute the method of the embodiment shown in fig. 3-11 of the present application, and for convenience of description, only the portion related to the embodiment of the present application is shown, and details of the specific technology are not disclosed, please refer to the embodiment shown in fig. 3-11 of the present application.

Please refer to fig. 12, which shows a schematic structural diagram of an electrocardiograph measurement apparatus according to an embodiment of the present application. The electrocardiograph measuring apparatus 1200 may be implemented as all or a part of a user terminal by software, hardware, or a combination of both. According to some embodiments, the electrocardiograph measuring device 1200 includes an instruction receiving unit 1201 and a signal acquisition unit 1202, and is specifically configured to:

an instruction receiving unit 1201, configured to receive an electrocardiographic measurement instruction;

the signal acquisition unit 1202 is used for controlling the electrode element to acquire the electrocardiosignals of the user in the electrocardio measurement state based on the electrocardio measurement instruction; wherein, when the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in an electrocardio measuring state, the electrode element is used for collecting electrocardiosignals.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes a state switching unit configured to, after receiving the electrocardiograph measurement instruction, control the electrode element to acquire the electrocardiograph signal of the user in the electrocardiograph measurement state based on the electrocardiograph measurement instruction, and further includes:

responding to the electrocardio measurement instruction, and determining the working state of the massage equipment;

if the massage equipment is in the massage state, the massage equipment is switched from the massage state to the electrocardio measurement state.

According to some embodiments, the electrocardiograph measuring device 1200 includes a state determining unit for determining an operating state of the massage apparatus, including:

when the electrode element is detected to output the electric pulse signal, the working state of the massage equipment is determined to be a massage state.

According to some embodiments, the operating state of the massage device further comprises a hot compress state or a standby state;

the state switching unit is used for controlling the electrode element to collect the electrocardiosignals based on the electrocardio measuring instruction after receiving the electrocardio measuring instruction, and is also specifically used for:

responding to the electrocardio measurement instruction, and acquiring the working state of the massage equipment;

and when the working state indicates that the massage equipment is in a hot compress state or a standby state, switching the working state of the massage equipment into an electrocardio measurement state.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes a signal processing unit for controlling the electrode element to acquire the electrocardiograph signal of the user in the electrocardiograph measuring state based on the electrocardiograph measuring instruction, and further includes:

and processing the electrocardiosignal to obtain electrocardio characteristic information.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes an information receiving unit for controlling the electrode element to acquire the electrocardiograph signal of the user in the electrocardiograph measuring state based on the electrocardiograph measuring instruction, and further includes:

outputting the electrocardiosignals to target electronic equipment so that the target electronic equipment processes the electrocardiosignals to obtain electrocardio characteristic information;

and receiving the electrocardio characteristic information sent by the target electronic equipment.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes a signal control unit for acquiring a massage pattern matching the electrocardiograph feature information;

the control electrode element outputs an electric pulse signal corresponding to the massage mode.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes an information output unit for outputting electrocardiograph feature information to the target electronic device, so that the target electronic device displays the electrocardiograph feature information.

According to some embodiments, the electrocardiograph measuring apparatus 1200 includes an early warning unit, configured to send out early warning information when the electrocardiograph feature information meets a preset early warning condition.

According to some embodiments, the electrocardiograph measuring device 1200 includes an information reminding unit configured to send an electrocardiograph measurement reminding message when a preset measurement time is reached.

According to some embodiments, the electrocardiographic measurement apparatus 1200 includes an instruction generation unit configured to generate an electrocardiographic measurement instruction when a preset measurement time is reached and if the current state of the massage device is not a massage state.

According to some embodiments, the information output unit is further configured to, based on the electrocardiographic measurement instruction, control the electrode element to acquire an electrocardiographic signal of the user in the electrocardiographic measurement state, and then output the electrocardiographic signal to the target electronic device, so that the target electronic device displays electrocardiographic feature information corresponding to the electrocardiographic signal.

According to some embodiments, the electrode element comprises a movable electrode element connected with the body of the massage device by a wire.

In one or more embodiments of the present application, the electrocardiograph measurement device can receive an electrocardiograph measurement instruction, and based on the electrocardiograph measurement instruction, the electrode element can be controlled to collect an electrocardiograph signal, and because the electrode element is used to output an electrical pulse signal when the electrocardiograph measurement device is in a massage state, and is used to collect the electrocardiograph signal when the electrocardiograph measurement device is in an electrocardiograph measurement state, the electrocardiograph measurement device can complete the collection of the electrocardiograph signal without arranging an additional electrocardiograph collection element, and can complete the collection of the electrocardiograph signal without adding an element of the electrocardiograph measurement device, and does not need to go to a special medical institution to perform electrocardiograph measurement, so that the structure of the electrocardiograph measurement device can be simplified, the electrocardiograph collection process can be simplified, and convenience of electrocardiograph.

Please refer to fig. 13, which is a schematic structural diagram of a massage apparatus provided in an embodiment of the present application. As shown in fig. 13, the massage apparatus 1300 may include: at least one processor 1301, at least one network interface 1304, a user interface 1303, memory 1305, at least one communication bus 1302.

Wherein a communication bus 1302 is used to enable connective communication between these components.

The user interface 1303 may include electrode elements, and the optional user interface 1303 may also include a standard wired interface or a wireless interface.

The network interface 1304 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface).

Processor 1301 may include one or more processing cores, among other things. The processor 1301 connects the various components throughout the massage device 1300 using various interfaces and lines to perform various functions of the massage device 1300 and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 1305 and invoking data stored in the memory 1305. Optionally, the processor 1301 may be implemented in at least one hardware form of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 1301 may integrate one or a combination of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It is to be understood that the modem may not be integrated into the processor 1301, but may be implemented by a single chip.

The Memory 1305 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). Optionally, the memory 1305 includes a non-transitory computer-readable medium. The memory 1305 may be used to store an instruction, a program, code, a set of codes, or a set of instructions. The memory 1305 may include a program storage area and a data storage area, wherein the program storage area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described above, and the like; the storage data area may store data and the like referred to in the above respective method embodiments. The memory 1305 may optionally be at least one memory device located remotely from the processor 1301. As shown in fig. 13, the memory 1305, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and an application program for electrocardiographic measurement.

In the massage apparatus 1300 shown in fig. 13, the massage apparatus 1300 includes an electrocardiographic measurement state and a massage state, the massage apparatus includes an electrode element, and the user interface 1303 is mainly used for providing an input interface for a user to obtain data input by the user; the processor 1301 may be configured to invoke an application program for electrocardiographic measurement stored in the memory 1305, and specifically perform the following operations:

receiving an electrocardio measuring instruction;

controlling the electrode element to acquire an electrocardiosignal of a user in an electrocardio measurement state based on the electrocardio measurement instruction; wherein, when the massage device is in a massage state, the electrode element is used for outputting an electric pulse signal; when the massage equipment is in an electrocardio measuring state, the electrode element is used for collecting electrocardiosignals.

According to some embodiments, the processor 1301 is configured to, after receiving the electrocardiographic measurement instruction, control the electrode element to acquire an electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction, and further specifically configured to perform the following steps:

responding to the electrocardio measurement instruction, and determining the working state of the massage equipment;

if the massage equipment is in the massage state, the massage equipment is switched from the massage state to the electrocardio measurement state. According to some embodiments, the processor 1301 is configured to, when determining the operating state of the massage apparatus, perform the following steps:

when the electrode element is detected to output the electric pulse signal, the working state of the massage equipment is determined to be a massage state.

According to some embodiments, the operating state of the massage device further comprises a hot compress state or a standby state; the processor 1301 is configured to perform the following steps after receiving the electrocardiographic measurement instruction and before controlling the electrode element to acquire the electrocardiographic signal based on the electrocardiographic measurement instruction:

responding to the electrocardio measurement instruction, and acquiring the working state of the massage equipment;

and when the working state indicates that the massage equipment is in a hot compress state or a standby state, switching the working state of the massage equipment into an electrocardio measurement state.

According to some embodiments, the processor 1301 is configured to execute, after controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction, further specifically to execute the following steps:

and processing the electrocardiosignal to obtain electrocardio characteristic information.

According to some embodiments, the processor 1301 is configured to execute, after controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction, further specifically to execute the following steps:

outputting the electrocardiosignals to target electronic equipment so that the target electronic equipment processes the electrocardiosignals to obtain electrocardio characteristic information;

and receiving the electrocardio characteristic information sent by the target electronic equipment.

According to some embodiments, processor 1301 is further specifically configured to perform the following steps:

acquiring a massage mode matched with the electrocardio characteristic information;

the control electrode element outputs an electric pulse signal corresponding to the massage mode.

According to some embodiments, processor 1301 is further specifically configured to perform the following steps:

and outputting the electrocardio characteristic information to the target electronic equipment so that the target electronic equipment displays the electrocardio characteristic information.

According to some embodiments, processor 1301 is further specifically configured to perform the following steps:

and when the electrocardio characteristic information accords with the preset early warning condition, sending out early warning information.

According to some embodiments, processor 1301 is further specifically configured to perform the following steps:

and when the preset measurement time is reached, sending out electrocardio measurement reminding information.

According to some embodiments, processor 1301 is further specifically configured to perform the following steps:

and when the preset measuring time is reached, if the current state of the massage equipment is not the massage state, generating an electrocardio measuring instruction.

According to some embodiments, the processor 1301 is configured to execute the following steps after controlling the electrode element to acquire the electrocardiographic signal of the user in the electrocardiographic measurement state based on the electrocardiographic measurement instruction:

and outputting the electrocardiosignals to the target electronic equipment so that the target electronic equipment displays the electrocardio characteristic information corresponding to the electrocardiosignals.

According to some embodiments, the electrode element of the massage device comprises a movable electrode element, which is connected with the body of the massage device by a wire.

In one or more embodiments of the present application, the massage device may receive an electrocardiographic measurement instruction, and based on the electrocardiographic measurement instruction, the electrode element may be controlled to collect an electrocardiographic signal, and the electrode element is configured to output an electrical pulse signal when the massage device is in a massage state, and is configured to collect the electrocardiographic signal when the massage device is in the electrocardiographic measurement state, so that the massage device may collect the electrocardiographic signal without providing an additional electrocardiographic collecting element, and may collect the electrocardiographic signal without adding a massage device element, and may also perform electrocardiographic measurement without going to a special medical institution, so that the structure of the massage device may be simplified, the electrocardiographic collecting process may be simplified, and convenience of electrocardiographic measurement may be improved.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the above-described method. The computer-readable storage medium may include, but is not limited to, any type of disk including floppy disks, optical disks, DVD, CD-ROMs, microdrive, and magneto-optical disks, ROMs, RAMs, EPROMs, EEPROMs, DRAMs, VRAMs, flash memory devices, magnetic or optical cards, nanosystems (including molecular memory ICs), or any type of media or device suitable for storing instructions and/or data.

Embodiments of the present application also provide a computer program product comprising a non-transitory computer readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps of any one of the electrocardiographic measurement methods as recited in the above method embodiments.

It is clear to a person skilled in the art that the solution of the present application can be implemented by means of software and/or hardware. The "unit" and "module" in this specification refer to software and/or hardware that can perform a specific function independently or in cooperation with other components, where the hardware may be, for example, a Field-ProgrammaBLE Gate Array (FPGA), an Integrated Circuit (IC), or the like.

It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one type of division of logical functions, and there may be other divisions when actually implementing, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of some service interfaces, devices or units, and may be an electrical or other form.

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 solution 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 are 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 unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable memory. Based on such understanding, the technical solution of the present application may be substantially implemented or a part of or all or part of the technical solution contributing to the prior art may be embodied in the form of a software product stored in a memory, and including several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned memory comprises: various media capable of storing program codes, such as a usb disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by a program, which is stored in a computer-readable memory, and the memory may include: flash disks, Read-Only memories (ROMs), Random Access Memories (RAMs), magnetic or optical disks, and the like.

The above description is only an exemplary embodiment of the present disclosure, and the scope of the present disclosure should not be limited thereby. That is, all equivalent changes and modifications made in accordance with the teachings of the present disclosure are intended to be included within the scope of the present disclosure. Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.