CN112089969A - Neck massager, sign data acquisition system and sign data acquisition method - Google Patents
Neck massager, sign data acquisition system and sign data acquisition method Download PDFInfo
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- A61N1/00—Electrotherapy; Circuits therefor
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- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
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- A61B5/1455—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters
- A61B5/14551—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters for measuring blood gases
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- A61B5/6801—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be attached to or worn on the body surface
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- A61N1/18—Applying electric currents by contact electrodes
- A61N1/32—Applying electric currents by contact electrodes alternating or intermittent currents
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- A61N1/36—Applying electric currents by contact electrodes alternating or intermittent currents for stimulation
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Abstract
The application relates to the technical field of massage instruments, and specifically discloses a neck massage instrument, sign data acquisition system and sign data acquisition method, this neck massage instrument includes: a structural body; a massage assembly; the acquisition assembly is arranged on the structure main body and is used for acquiring physical sign data; the memory is arranged on the structure main body and used for storing the physical sign data; the communication circuit is arranged on the structure main body and used for establishing communication connection with external electronic equipment; the control circuit is arranged on the structure main body, is electrically coupled with the massage component, the acquisition component, the communication circuit and the memory and is used for controlling the massage component to massage the neck of the user and controlling the acquisition component to acquire sign data to be stored in the memory, responds to a report instruction from external electronic equipment received by the communication circuit, acquires the sign data of the memory and reports the sign data to the external electronic equipment through the communication circuit. By the method, active reporting of the user sign data can be achieved.
Description
Technical Field
The application relates to the technical field of massage instruments, in particular to a neck massage instrument, a sign data acquisition system and a sign data acquisition method.
Background
In recent years, the onset of cervical spondylosis has been on the trend toward younger patients due to work, bad lifestyle, and the like. In order to relieve the neck fatigue and reduce the occurrence of cervical spondylosis, massage products such as neck massagers appear on the market, and the neck massagers can relieve the neck fatigue in a neck massage mode.
At present, the neck massager has a single function (only massage) and cannot meet the diversified requirements of users.
Disclosure of Invention
The technical problem that this application mainly solved provides a neck massage appearance, sign data acquisition system and sign data acquisition method, realizes the sign data of gathering the user to the purpose of in time reporting historical sign data.
In order to solve the technical problem, the application adopts a technical scheme that: there is provided a neck massager comprising:
the structure body is sleeved on the neck of a user;
the massage component is arranged on the structure main body and is used for massaging the neck of the user;
the acquisition assembly is arranged on the structure main body and is used for acquiring physical sign data;
the memory is arranged on the structure main body and used for storing the physical sign data;
the communication circuit is arranged on the structure main body and used for establishing communication connection with external electronic equipment;
the control circuit is arranged on the structure main body, is electrically coupled with the massage component, the acquisition component, the communication circuit and the memory and is used for controlling the massage component to massage the neck of the user and controlling the acquisition component to acquire sign data to be stored in the memory, responds to a report instruction from external electronic equipment received by the communication circuit, acquires the sign data of the memory and reports the sign data to the external electronic equipment through the communication circuit.
In order to solve the above technical problem, another technical solution adopted by the present application is: there is provided a vital signs data acquisition system, the system comprising: the neck massager comprises a neck massager and electronic equipment in communication connection with the neck massager;
the neck massager includes:
the structure body is sleeved on the neck of a user;
the massage component is arranged on the structure main body and is used for massaging the neck of the user;
the acquisition assembly is arranged on the structure main body and is used for acquiring physical sign data;
the memory is arranged on the structure main body and used for storing the physical sign data;
the communication circuit is arranged on the structure main body and used for establishing communication connection with external electronic equipment;
the control circuit is arranged on the structure main body, is electrically coupled with the massage component, the acquisition component, the communication circuit and the memory, and is used for controlling the massage component to massage the neck of the user and controlling the acquisition component to acquire physical sign data to store the physical sign data in the memory;
the electronic equipment is used for operating the health management application to establish communication connection with the cloud inquiry platform and sending a reporting instruction to the neck massager when the health management application is operated;
the control circuit is also used for responding to a reporting instruction from the electronic equipment received by the communication circuit, acquiring the physical sign data of the memory and reporting the physical sign data to the electronic equipment through the communication circuit;
the electronic equipment is further used for receiving the sign data and feeding the sign data back to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and judges whether a user corresponding to the sign data is a suspected infected person.
In order to solve the above technical problem, the present application adopts another technical solution: a sign data acquisition method based on a neck massager is provided, and comprises the following steps:
the neck massager acquires physical sign data through an acquisition assembly arranged in the neck massager;
the neck massager establishes communication connection between the neck massager and the electronic equipment through a communication circuit arranged in the neck massager;
the electronic equipment runs the health management application to establish communication connection with the cloud inquiry platform and sends a reporting instruction to the neck massager when running the health management application;
the neck massager receives the reporting instruction through the communication circuit, responds to the reporting instruction through a control circuit arranged in the neck massager, and controls the communication circuit to report the physical sign data to the electronic equipment;
the electronic equipment receives the sign data and feeds the sign data back to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and judges whether a user corresponding to the sign data is a suspected infected person.
The beneficial effect of this application is: compared with the prior art, the neck massager is additionally provided with the acquisition assembly and the communication circuit, the control circuit is electrically coupled with the massage assembly, the acquisition assembly, the communication circuit and the memory, the control circuit responds to a reporting instruction from external electronic equipment received by the communication circuit and controls the communication circuit to report historical sign data to the external electronic equipment, active reporting of user sign data can be achieved, and efficiency of reporting the sign data is improved.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:
FIG. 1 is a schematic structural view of a first embodiment of the neck massager of the present application;
FIG. 2 is a schematic structural view of a main body of the first embodiment of the neck massager of the present application;
FIG. 3 is a functional block diagram of a first embodiment of the neck massager of the present application;
FIG. 4 is a schematic view of a massage assembly of a second embodiment of the neck massager of the present application;
FIG. 5 is a functional block diagram of a second embodiment of the neck massager of the present application;
FIG. 6 is a functional block diagram of a third embodiment of the neck massager of the present application;
FIG. 7 is a functional block diagram of a fourth embodiment of the neck massager of the present application;
FIG. 8 is a schematic block diagram of a fifth embodiment of the neck massager of the present application;
FIG. 9 is a functional block diagram of a sixth embodiment of the neck massager of the present application;
FIG. 10 is a functional block diagram of a seventh embodiment of the neck massager of the present application;
FIG. 11 is a functional block diagram of an eighth embodiment of the neck massager of the present application;
FIG. 12 is a functional block diagram of a ninth embodiment of the neck massager of the present application;
FIG. 13 is a functional block diagram of an embodiment of a vital signs data acquisition system of the present application;
fig. 14 is a schematic flow chart of a first embodiment of a vital sign data acquisition method of the present application;
fig. 15 is a flowchart of step S50 in fig. 14;
fig. 16 is a schematic flow chart of a second embodiment of the vital sign data acquisition method of the present application;
fig. 17 is a schematic flow chart of a third embodiment of the vital sign data acquisition method of the present application;
fig. 18 is a flowchart of step S10 in fig. 14.
The reference numbers illustrate:
reference numerals | Name (R) | Reference numerals | Name (R) |
10 | |
11a | |
11 | |
11b | |
12 | |
21 | |
13 | |
22 | Electric |
14 | |
23 | |
15 | |
131 | |
16 | |
311、321 | |
110 | Clamping |
312 | |
120 | |
3121 | Temperature sensing film |
111 | Rear clamping body | 3122 | A |
112、113 | |
3123 | |
132 | Heart rate and |
313 | First integrated |
322 | Heart rate and |
133 | Blood |
130 | |
332 | |
135 | Data processing module | 333 | |
17 | |
334 | Second integrated |
171 | Electric |
100 | Sign |
122 | |
20 | |
123 | |
123 | Temperature sensor |
Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the 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.
It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are referred to in the embodiments of the present application, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.
In addition, if there is a description of "first", "second", etc. in the embodiments of the present application, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if appearing throughout the text, "and/or" is meant to include three juxtaposed aspects, taking "A and/or B" as an example, including either the A aspect, or the B aspect, or both A and B satisfied aspects. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.
The application provides a neck massager.
In one embodiment, as shown in fig. 1-3, the neck massager 10 includes: the massage device comprises a structure body 11, a massage component 12, a collection component 13, a memory 14, a communication circuit 15 and a control circuit 16. The massage component 12, the collection component 13, the memory 14, the communication circuit 15 and the control circuit 16 are disposed on the structure body 11, and the control circuit 16 is electrically coupled to the massage component 12, the collection component 13, the memory 14 and the communication circuit 15. The communication circuit 15 includes a wireless communication circuit or a wired communication circuit, and is used for realizing a wired communication connection or a wireless communication connection between the neck massager 10 and an electronic device (not shown).
The main structure body 11 is used for sleeving the neck of the user, as shown in fig. 2, the main structure body 11 includes: a substantially "U" -shaped grip part 110 and two weight parts 120 respectively installed at both ends of the grip part 110, the grip part 110 being used to grip the user's neck, the weight parts 120 being capable of providing a forward traction at the ends of the grip part 110, so that the grip part 110 better grips the user's neck. According to the stress analysis, the weight part 120 can reduce the clamping force of the clamping part 110 for clamping the neck of the user to a certain extent, and the wearing comfort of the user is improved. The holding part 110 is designed in a structure suitable for holding the rear half of the neck of the user, and the weight part 120 is designed in a structure suitable for overlapping the clavicle at the shoulder of the user. First half neck encloses to have carotid artery etc. and be unsuitable for energetically to centre gripping, can avoid producing the oppression to user's neck through clamping part 110 and counter weight portion 120 matched with centre gripping mode, wears more comfortablely.
The clamping portion 110 includes: a rear clamping body 111 and two side clamping bodies 112 and 113 respectively mounted at both ends of the rear clamping body 111. The clamping portion 110 is divided into three parts, and the three parts can respectively realize different functions according to respective positions. The rear clamping body 111 is mainly used for clamping the rear neck region of a user, the two side clamping bodies 112 and 113 respectively correspond to the side neck regions at two sides, and the three parts can be mutually matched, so that the neck of the user can be clamped cooperatively.
The rear holder 111 has a rigid deformation-resistant structure, and the side holders 112 and 113 are elastic bodies. The clamping part 110 adopts two elastic bodies which are separately arranged, but not a whole elastic arm, so that the two side clamping bodies 112 can clamp the neck of a user in a swing lap joint mode, the deformation of the two side clamping bodies 112 can be better controlled, and the problem of inconvenience in wearing caused by too large deformation amplitude of the two side clamping bodies 112 in the operation of the user can be avoided.
As shown in fig. 4 and 5, the rear clamping body 111 includes: an outer shell 11a and an inner shell 11b, the outer shell 11a and the inner shell 11b forming a cavity. The massage assembly 12 is for massaging the neck of a user, wherein the massage assembly 12 comprises: the electric massage device comprises a support 21, an electric pulse generating device 22 and a massage sheet 23, wherein the support 21 is installed on one side, far away from the outer shell 11a, of the inner shell 11b, the electric pulse generating device 22 is arranged in a cavity formed by the outer shell 11a and the inner shell 11b, the massage sheet 23 is arranged on the support 21 and is electrically coupled with the electric pulse generating device 22, the electric pulse generating device 22 is electrically coupled with the control circuit 16, and the electric pulse generating device 22 is used for generating pulse current through the massage sheet 23 under the control of the control circuit 16, so that the skin of the neck of a user is stimulated, and the effect of massaging.
The massage sheet 23 and the support 21 are made of elastic materials, so that the massage sheet can be better attached to the neck of a user, and the massage effect is improved. For example, the massage sheet 23 may be a conductive silicone sheet, and the support 21 may be a non-conductive silicone frame.
The acquisition component 13 is used for acquiring the physical sign data, and the memory 14 can store the physical sign data acquired by the acquisition component 13. The acquisition component 13 acquires the vital sign data for storage in the memory 14 under the control of the control circuit 16. In the embodiment of the present invention, when acquiring the physical sign data of the user, the body temperature is generally increased and the blood oxygen saturation is generally decreased when an infectious disease (for example, a new coronavirus pneumonia) occurs in a densely populated area, and therefore, the physical sign information includes the body temperature, the heart rate, the blood oxygen saturation, or the blood pressure, which is not limited herein.
As shown in fig. 6, the collection assembly 13 may include at least one of a body temperature collector 131, a heart rate blood pressure measurer 132, and a blood oxygen saturation measurer 133. The body temperature collector 131 is used for collecting body temperature data of a user, the heart rate blood pressure measurer 132 is used for measuring the heart rate and blood pressure of the carotid artery of the user, and the blood oxygen saturation measurer 133 is used for detecting the blood oxygen saturation of the user.
The communication circuit 15 is used for establishing communication connection with external electronic equipment, when the external electronic equipment runs a health management application, the external electronic equipment sends a reporting instruction to the neck massager 10, and the control circuit 16 is used for responding to the reporting instruction received by the communication circuit 15 from the external electronic equipment, acquiring the physical sign data of the memory 14, and reporting the physical sign data to the external electronic equipment through the communication circuit 15.
Compared with the prior art, the neck massager 10 of the embodiment is additionally provided with the acquisition component 13 and the communication circuit 15, the control circuit 16 is electrically coupled with the massage component 12, the communication circuit 15, the acquisition component 13 and the communication circuit 15, the control circuit 16 responds to a reporting instruction from external electronic equipment received by the communication circuit 15 and controls the communication circuit 15 to report historical sign data to the external electronic equipment, automatic reporting of user sign data can be achieved, and efficiency of reporting the sign data is improved.
In one embodiment, as shown in fig. 7, the body temperature collector 131 includes: the temperature sensing unit 312 comprises a temperature sensing film 3121 with resistivity varying with temperature, a first electrode 3122 and a second electrode 3123, wherein the temperature sensing film 3121 is attached to the detection end 311.
The temperature sensing film 3121 and the first and second electrodes 3122 and 3123 may be fabricated by a chemical vapor deposition method, so that the temperature sensing unit 312 in the form of a film is obtained. The temperature sensing unit 312 in the form of a thin film has good flexibility, so that the temperature sensing unit 312 can be prevented from cracking during the bending process of the probe 311.
The first electrode 3122 and the second electrode 3123 are respectively connected to both ends of the temperature sensing film 3121, the first electrode 3122 and the second electrode 3123 are respectively electrically connected to the first integrated circuit 313 through a wire, and the first integrated circuit 313 is electrically connected to the control circuit 16. The resistivity of the temperature sensing film 3121 changes with the temperature, so that the electrical signal output by the temperature sensing unit 312 changes, and the electrical signal output by the temperature sensing unit 312 corresponds to the body temperature of the human body, so that the first integrated circuit 313 can obtain the body temperature of the human body in real time by detecting the electrical signal of the temperature sensing unit 312 in real time.
The first integrated circuit 313 is used for detecting the voltage values at the two ends of the temperature sensing film 3121 and the current values passing through the temperature sensing film 3121 in real time, calculating a resistance value according to the voltage values and the current values, and obtaining body temperature data corresponding to the resistance value.
Specifically, the control circuit 16 controls the first integrated circuit 313 to detect the voltage U1 across the temperature sensing film 3121 and the current I1 of the temperature sensing film 3121, and processes the voltage U1 and the current I1 to obtain the resistance value R1 of the temperature sensing film 3121, and obtain the corresponding body temperature according to the resistance value R1. The body temperature collector 131 may pre-store a temperature-resistance relation table of the temperature sensing film 3121, and obtain the body temperature corresponding to the resistance value by querying the body temperature-resistance relation table.
In order to improve the flexibility of the temperature sensing film 3121 and the temperature sensing performance of the temperature sensing unit 312, in this embodiment, the material of the temperature sensing film 3121 is a flexible thermal resistance material with good thermal effect, such as graphene, nickel, metal oxide, thermistor alloy, and the like. The material of the first electrode 3122 and the second electrode 3123 includes a carbon nanotube or a metal nanowire having excellent conductivity. The graphene, the carbon nanotube and the metal nanowire are made of a homogeneous material, so that the temperature sensing film 3121, the first electrode 3122 and the second electrode 3123 can be tightly combined together without being separated, and the electrical performance of the temperature sensing unit 312 is ensured. Further, the material of the connection wire between the temperature sensing unit 312 and the integrated circuit module includes silver nanowires, and the integrated circuit module is a flexible circuit board. This further improves the flexibility of the temperature-sensitive film 3121.
Compared with the prior art, the neck massager 10 is additionally provided with the body temperature collector 131, the body temperature data of a user can be accurately measured, and the neck massager 10 is convenient to carry and simple to operate.
In one embodiment, as shown in fig. 8, the heart rate blood pressure measurer 132 includes: a detection end 321 for contacting with the skin of the neck of the user, a heart rate and blood pressure sensor 322, the heart rate and blood pressure sensor 322 is respectively electrically connected with the detection end 321 and the control circuit 16, and is used for measuring the blood pressure of the carotid artery of the user to obtain blood pressure data and measuring the pulse frequency of the carotid artery of the user to obtain heart rate data.
In use, the probe end 321 is pressed against the skin surface of the pulsating carotid artery, and the control circuit 16 controls the probe end 321 to apply a slight force to the neck of the user, so that the probe end 321 is in close contact with the skin. The control circuit 16 controls the heart rate blood pressure sensor 322 to collect heart rate data and blood pressure data of the user, wherein the heart rate blood pressure sensor 322 is an integrated sensor formed by integrating a heart rate sensing unit and a blood pressure sensing unit, the heart rate blood pressure measurer 132 is used for measuring the carotid artery blood pressure of the user when the heart rate blood pressure measurer is in contact with the neck of the user to obtain the blood pressure data of the user and storing the blood pressure data into the memory 14, and measuring the carotid artery pulse frequency of the user to obtain the heart rate data of the user and storing the heart rate data into the memory 14.
Compared with the prior art, the neck massager 10 of the application is additionally provided with the heart rate and blood pressure measurer 132, the heart rate and blood pressure data of a user can be accurately measured, and the neck massager 10 is convenient to carry and simple to operate.
In one embodiment, as shown in fig. 9, the oximetry unit 133 includes: at least one light emitting component 332, at least one light sensitive sensor 333, and a second integrated circuit 334.
At least one light emitting component 332 and at least one photosensitive sensor 333 are both mounted on the same side of the structural body, the light emitting component 332 is used for emitting light in at least one light wave band, and the photosensitive sensor 333 is used for receiving the light emitted by the at least one light emitting component and generating a sensing signal.
The second integrated circuit 334 is electrically connected to the light sensitive sensor 333, and the control circuit 16 is electrically coupled to the light emitting component 332 and the second integrated circuit 334. The control circuit 16 controls the at least one light emitting component 332 to emit light in at least one light band and controls the second integrated circuit 334 to receive and process the sensing signal generated by the at least one light sensitive sensor to obtain the blood oxygen saturation level.
Specifically, when the main structure 11 is sleeved on the neck of the user, the light emitting part 332 may emit light of at least one light band to a side of the main structure 11 close to the neck of the user. Since the structural body 11 is in contact with the human body, when the light emitting part 332 emits light of at least one optical band, the light of the at least one optical band can enter into the human body. The light sensor 333 receives the reflected light of the at least one light band, which is absorbed by blood and tissue of the human body, and generates a corresponding sensing signal. The second integrated circuit 334 receives and processes the sensing signal generated by the at least one light-sensitive sensor and calculates the blood oxygen saturation level based on the intensity variation of the reflected light based on the principle of photoelectric detection of the blood volume variation with the pulse.
The detecting ends 311, 321 and the massage sheet 23 in the above embodiments are integrated.
In one embodiment, as shown in fig. 10, the acquisition assembly 13 includes an acquisition module 130 and a data processing module 135, the acquisition module 130 is configured to periodically acquire a plurality of corresponding vital sign data. The acquisition module 130 can acquire a plurality of corresponding sign data at certain intervals under the control of the control circuit 16, so as to save the energy consumption of the system. Or other components (such as keys, a remote controller, etc.) of the neck massager 10 trigger the acquisition module 130 to acquire the physical sign parameters, so as to save the energy consumption of the system to the maximum extent. The collection module 130 is at least one of the body temperature collector, the heart rate and blood pressure measurer, and the blood oxygen saturation measurer of the above embodiments, which is not limited herein.
The control circuit 16 is electrically coupled to the data processing module 135 and the acquisition module 130, and the control circuit 16 is configured to control the data processing module 135 to sort the vital sign data to generate a vital sign data set with a predetermined format.
Specifically, the data processing module 135 compares the physical sign data with a preset standard value, determines whether each physical sign data is in a reasonable range, and if the physical sign data is out of the reasonable range, arranges the abnormal physical sign data and the acquisition time of the physical sign data to generate a physical sign data set in a predetermined format.
Further, as shown in fig. 11, the neck massager 10 further includes a power supply module 17, an electric quantity monitoring unit 171 is installed inside the power supply module 17, and the electric quantity monitoring unit 171 is electrically connected to the control circuit 16. When the power monitoring unit 171 monitors that the remaining power of the power supply module 17 is lower than the threshold, the power monitoring unit 171 may feed back the power information of the power supply module 17 to the control circuit 16.
In one embodiment, the control circuit 16 is specifically configured to determine whether the massage assembly 12 is performing a massage and whether the internal power of the neck massager 10 is lower than a threshold value in response to a report command received by the communication circuit 15 from an external electronic device, and discard the report command and not report the physical sign data to the external electronic device through the communication circuit 15 if the massage assembly 12 is performing a massage and the internal power of the neck massager 10 is lower than the threshold value.
Compared with the prior art, the control circuit 16 of the neck massager 10 can judge whether the massage component 12 is massaging and whether the internal electric quantity of the neck massager 10 is lower than a threshold value when responding to the report instruction from the external electronic device received by the communication circuit 15, so that the neck massage function of the neck massager 10 can be ensured, and the failure of reporting the sign data can be avoided.
Further, after confirming that the massage assembly 12 is performing massage and the internal power of the neck massager 10 is lower than the threshold value, the control circuit 16 further obtains the physical sign data of the memory 14, confirms whether the physical sign data meets the emergency condition, and if so, controls the massage assembly 12 to stop massaging and reports the physical sign data to the external electronic device through the communication circuit 15.
Specifically, the values of body temperature, heart rate, blood pressure, and blood oxygen saturation are compared with the emergency condition in the database by the control circuit 16 to determine whether the user is in an emergency. When the physical sign data of the user is judged to be in accordance with the emergency state such as abnormal heart rate, abnormal blood pressure, abnormal blood oxygen saturation or abnormal body temperature, the control circuit 16 controls the massage component 12 to stop massaging and reports the physical sign data to the external electronic equipment through the communication circuit 15. The abnormal heart rate refers to the heart rate exceeding the normal range of the normal human body, the abnormal blood pressure refers to the blood pressure exceeding the normal range of the normal human body, and the abnormal body temperature refers to the body temperature exceeding the normal range of the normal human body.
In one embodiment, as shown in fig. 12, in addition to the massage sheet 23, the massage assembly 12 further includes a heating module 122 and a temperature sensor 123 for sensing the temperature of the heating module 122, the temperature sensor 123 and the massage sheet 23 both engaging the heating module 122, the heating module 122 and the temperature sensor 123 being electrically connected to the control circuit 16. It will be appreciated that the heating module 122 may ensure that the massage pellicles 23 are at a temperature range of approximately 35 c to 42 c, or may be adjusted to accommodate different temperatures. The temperature sensor 123 may sense the temperature of the heating module 122 and feed back the temperature of the heating module 122 to the control circuit 16.
When the detecting end 311 and the massage sheet 23 are integrated, the heating module 122 heats the massage sheet 23, so that the body temperature data collected by the body temperature collector 131 is inaccurate. In order to avoid inaccurate body temperature data, the control circuit 16 is further configured to control the temperature sensor 123 to sense the temperature of the heating module 122 when the body temperature collector 131 collects the body temperature data, so as to determine whether the heating module 122 is in a heating state. If the heating module 122 is in the heating state, the control circuit 16 is further configured to control the heating module 122 to be in the non-heating state and control the body temperature collector 131 to stop collecting the body temperature data, until the temperature of the heating module 122 is lower than the threshold, control the body temperature collector 131 to collect the body temperature data again to store in the memory 14.
In one embodiment, the massage assembly 12 may be a pulse massage assembly that massages by: the electric pulse generator 22 can release specific low-frequency pulse current to the neck of the user to stimulate the muscle and the nerve ending sensation receptor in the muscle, so that the muscle can perform involuntary contraction, the muscle and nerve which are sore and painful due to fatigue or injury can be relaxed, and the pain can be relieved or relieved.
In order to avoid the influence of the low-and-medium-frequency pulse current on the collected sign data, the control circuit 16 is specifically configured to determine whether the massage mode of the massage component 12 is to release the specific low-and-medium-frequency pulse current to the neck of the user when the collection component 13 is controlled to collect the sign data, and if so, control the collection component 13 to stop collecting the sign data.
As shown in fig. 13, the present application further provides a vital signs data acquisition system 100, comprising: a neck massager 10 and an electronic device 20, wherein the electronic device 20 is communicatively connected with the neck massager 10.
The neck massager 10 includes: the massage device comprises a structure body 11, a massage component 12, a collection component 13, a memory 14, a communication circuit 15 and a control circuit 16. The massage component 12, the collection component 13, the memory 14, the communication circuit 15 and the control circuit 16 are disposed on the main structure body 11, and the control circuit 16 is electrically coupled to the massage component 12, the communication circuit 15, the collection component 13 and the communication circuit 15. Wherein, the structure main body 11 is used for the cover to locate the user neck, and massage subassembly 12 is used for massaging the user neck, and collection subassembly 13 is used for gathering the sign data, and memory 14 is used for storing the sign data. The communication circuit 15 is used for establishing a communication connection with the electronic device. The control circuit 16 is used for controlling the massage assembly 12 to massage the neck of the user and controlling the acquisition assembly 13 to acquire the physical sign data to be stored in the memory 14.
The electronic device 20 is configured to send a report command to the neck massager 10 when the health management application is running.
Specifically, the user may open a specified web page through a browser on the electronic device 20 or establish a communication connection with the cloud inquiry platform by running a health management application (e.g., an application program such as a jingdong health, a clove doctor, a safe doctor, etc.). And, when running the health management application, the electronic device 20 sends a report instruction to the neck massager 10.
The communication circuit 15 is configured to receive a reporting instruction from the electronic device, and the control circuit 16 is configured to obtain the physical sign data of the memory 14 in response to the reporting instruction from the electronic device received by the communication circuit 15, and report the physical sign data to the electronic device through the communication circuit 15.
The electronic device 20 is further configured to receive the sign data, and feed back the sign data to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and determines whether a user corresponding to the sign data is a suspected user.
The cloud inquiry platform is communicated with the electronic equipment and the doctor terminal respectively, and the doctor obtains the physical sign data and the personal information of the user through the doctor terminal and preliminarily judges whether the user corresponding to the physical sign data is a suspected infected person or not.
By the method, when the electronic device 20 runs the health management application and establishes communication connection with the cloud inquiry platform, a report instruction is sent to the neck massager 10 to obtain historical sign data stored in the neck massager 10, and the historical sign data of the user is fed back to the cloud inquiry platform, so that whether the user corresponding to the sign data is a suspected infected person or not is judged on line, great convenience is provided for the user, and the phenomena of difficulty in reservation, registration and cross infection are avoided.
Further, in an embodiment, the electronic device 20 is specifically configured to receive the sign data, sort the sign data, generate a sign data set in a predetermined format, and feed back the sign data set and the personal information of the user to the cloud inquiry platform.
Specifically, the electronic device 20 may compare the sign data with a preset standard value, determine whether each sign data is within a reasonable range, and if the sign data is outside the reasonable range, sort out abnormal sign data and the acquisition time of the sign data to generate a sign data set in a predetermined format.
The neck massager 10 further includes: and a positioning unit (not shown) electrically connected to the control circuit 16, the positioning unit being configured to acquire current position information of the neck massager 10. The control circuit 16 is used for controlling the communication circuit to transmit the current position information of the neck massage apparatus 10 to the electronic device 20. The electronic device 20 judges whether the current position information of the neck massager 10 exceeds a preset safety range by analyzing the position information of the neck massager 10 and the information of the infection source region, and generates warning information according to the judgment result to warn the user to do personal protection. The electronic device 20 may obtain information of an infection source area from the cloud server, where the information of the infection source area includes a disease area, an area that an infected person has gone, a confirmed diagnosis area, and the number of cases.
The electronic device 20 is further configured to receive the preliminary determination result and the isolation area range of the cloud inquiry platform, and if the preliminary determination result indicates that the user is a suspected infected person, the electronic device 20 starts a positioning function and reports the current position information of the electronic device 20 to the cloud inquiry platform, so that the cloud inquiry platform notifies a third-party execution mechanism to take an epidemic prevention measure for the user. Wherein, the epidemic prevention measure comprises: checking and registering at home, sterilizing the residence of the user or transporting the user to a hospital.
It should be noted that the neck massager 10 of the vital sign data collecting system 100 of the present embodiment is the neck massager 10 in the above embodiment, and the detailed description of the related contents refers to the above embodiment, which is not repeated herein.
As shown in fig. 14, the present application further provides a method for collecting vital sign data based on the neck massager 10, wherein the massage assembly 12 of the neck massager 10 can be used for massaging the neck of the user. It should be noted that the neck massager 10 of the present embodiment is the neck massager 10 of the above embodiment, and the detailed description of the related contents refers to the above embodiment, which is not repeated herein.
The physical sign data acquisition method based on the neck massager 10 comprises the following steps:
s10: the neck massager 10 collects physical sign data through a collection assembly 13 arranged in the neck massager.
Specifically, under the control of the control circuit 16 of the neck massager 10, the acquisition assembly 13 acquires the vital sign data to be stored in the memory 14. The collection component 13 may include at least one of a body temperature collector 131, a heart rate blood pressure measurer 132, and a blood oxygen saturation measurer 133. The body temperature collector 131 is used for collecting body temperature data of a user, the heart rate blood pressure measurer 132 is used for measuring the heart rate and blood pressure of the carotid artery of the user, and the blood oxygen saturation measurer 133 is used for detecting the blood oxygen saturation of the user.
S20: the neck massager 10 establishes a communication connection between the neck massager 10 and the electronic device through a communication circuit 15 provided therein.
Specifically, the communication circuit 15 includes a wireless communication circuit or a wired communication circuit, and the neck massager 10 establishes a wireless communication connection or a wired communication connection between the neck massager 10 and the electronic device through the communication circuit 15 provided therein.
S30: the electronic device 20 runs the health management application to establish a communication connection with the cloud inquiry platform, and sends a report instruction to the neck massager 10 when running the health management application.
Specifically, the electronic device 20 opens a specified web page through a browser or establishes a communication connection with the cloud inquiry platform by running a health management application (e.g., an application program such as a jingdong health, clove doctor, safe doctor, etc.). And, when running the health management application, the electronic device 20 sends a report instruction to the neck massager 10.
S40: the neck massager 10 receives a reporting instruction sent by an external electronic device through the communication circuit 15, and responds to the reporting instruction through the control circuit 16 arranged in the neck massager to control the communication circuit 15 to report the physical sign data to the electronic device.
Specifically, the user may open a designated web page through a browser on the electronic device, or access a health management platform such as a jingdong health doctor, a syringic doctor, a safe doctor and the like through the social platform, or run a health management application, and at this time, the electronic device sends a report instruction to the neck massager 10. The communication circuit 15 receives the reporting instruction from the electronic device, and the control circuit 16 responds to the reporting instruction from the electronic device received by the communication circuit 15 to obtain the physical sign data of the memory 14, and reports the physical sign data to the electronic device through the communication circuit 15.
S50: the electronic device 20 receives the sign data and feeds the sign data back to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and judges whether the user corresponding to the sign data is a suspected infected person.
The cloud inquiry platform can access medical data, and the cloud inquiry platform judges whether the user is a suspected infected person or not by comparing the medical data with the user sign data. For example, the value in the physical sign data of the user may be compared with the normal value range of the medical data when the patient is not ill, and if the physical sign data is out of the normal value range, the user is determined to be a suspected infected person, and if the physical sign data is within the normal value range, the physical health of the user is determined. For example, the physical sign data of the user may be compared with abnormal data in the medical data when the patient is ill, and if the physical sign data falls within the range of the abnormal data, the user may be determined as a suspected infected person, and if the physical sign data is not within the range of the abnormal data, the user may be determined as healthy. Specifically, the neck temperature is normal at 36 to 37 degrees celsius, when the body temperature in the user sign data is 36, 36.5, or 37 degrees celsius, the cloud inquiry platform determines that the body of the user is healthy, and when the body temperature in the user sign data is 37.5 or 35 degrees celsius, the user is determined to be a suspected infected person.
By the method, when the electronic device 20 runs the health management application and establishes communication connection with the cloud inquiry platform, a report instruction is sent to the neck massager 10 to obtain historical sign data stored in the neck massager 10, and the historical sign data of the user is fed back to the cloud inquiry platform, so that whether the user corresponding to the sign data is a suspected infected person or not is judged on line, great convenience is provided for the user, and the phenomena of difficulty in reservation, registration and cross infection are avoided.
As shown in fig. 15, S50 includes the steps of:
s51: after receiving the sign data, the electronic device 20 sorts the sign data to generate a sign data set with a predetermined format.
S52: the electronic device 20 feeds back the sign data set and the user personal information to the cloud inquiry platform.
As shown in fig. 16, further, after step S10, the method further includes:
s60: the neck massager 10 determines whether the massage assembly 12 is performing massage and whether the internal power of the neck massager 10 is below a threshold value in response to a report command from an external electronic device received by the communication circuit 15 through the control circuit 16.
Specifically, the neck massager 10 further includes a power supply module 17, an electric quantity monitoring unit 171 is installed inside the power supply module 17, and the electric quantity monitoring unit 171 is electrically connected to the control circuit 16. When the power monitoring unit 171 monitors that the remaining power of the power supply module 17 is lower than the threshold, the power monitoring unit 171 may feed back power information to the control circuit 16. The neck massager 10 determines via the control circuit 16 whether the massage assembly 12 is massaging and whether the internal power of the neck massager 10 is below a threshold.
If yes, i.e. the massage assembly 12 is performing a massage and the internal power of the neck massager 10 is lower than the threshold value, the process proceeds to step S70.
S70: the neck massager 10 discards the reporting instruction and does not report the physical sign data to the external electronic device through the communication circuit 15.
Compared with the prior art, the control circuit 16 of the neck massager 10 can judge whether the massage component 12 is massaging and whether the internal electric quantity of the neck massager 10 is lower than a threshold value when responding to the report instruction from the external electronic device received by the communication circuit 15, so that the neck massage function of the neck massager 10 can be ensured, and the failure of reporting the sign data can be avoided.
As shown in fig. 17, further, after step S60, the method further includes:
if yes, the neck massager 10, via the control circuit 16, proceeds to step S80 after confirming that the massage assembly 12 is performing a massage and that the internal power of the neck massager 10 is below the threshold.
S80: and acquiring the sign data of the memory 14 to confirm whether the sign data meets the emergency condition.
Specifically, the neck massager 10 compares the values of the body temperature, the heart rate, the blood pressure, and the blood oxygen saturation with the emergency condition in the database through the control circuit 16, and then determines whether the user is in an emergency state. When the physical sign data of the user is judged to be in accordance with the emergency state such as abnormal heart rate, abnormal blood pressure, abnormal blood oxygen saturation or abnormal body temperature, the control circuit 16 controls the massage component 12 to stop massaging and reports the physical sign data to the external electronic equipment through the communication circuit 15. The abnormal heart rate means that the heart rate exceeds the normal range of a normal human body, the abnormal blood pressure means that the blood pressure exceeds the normal range of the normal human body, the abnormal body temperature means that the body temperature exceeds the normal range of the normal human body, and the abnormal blood oxygen saturation means that the blood oxygen saturation is lower than the normal range of the normal human body.
If yes, i.e. the vital sign data meets the emergency condition, the process proceeds to step S90. If not, the process proceeds to step S70.
S90: the massage component 12 is controlled by the control circuit 16 to stop massaging, and the physical sign data is reported to the external electronic device through the communication circuit 15.
Further, the massage assembly 12 of the neck massager 10 of the present application comprises a massage sheet 23, a heating module 122, and a temperature sensor 123 for sensing the temperature of the heating module 122, wherein the temperature sensor 123 and the massage sheet 23 are attached to the heating module 122, and the heating module 122 and the temperature sensor 123 are respectively electrically connected to the control circuit 16. It will be appreciated that the heating module 122 may ensure that the massage pellicles 23 are at a temperature range of approximately 35 c to 42 c, or may be adjusted to accommodate different temperatures. The temperature sensor 123 may sense the temperature of the heating module 122 and feed back the temperature of the heating module 122 to the control circuit 16.
As shown in fig. 18, step S10 further includes the steps of:
s11: when the body temperature collector 131 collects body temperature data, the neck massager 10 controls the temperature sensor 123 to sense the temperature of the heating module 122 through the control circuit 16 arranged therein, so as to judge whether the heating module 122 is in a heating state;
if so, that is, the heating module 122 is in the heating state, the process proceeds to step S12.
S12: the neck massager 10 controls the heating module 122 to be in a non-heating state through the control circuit 16 and controls the body temperature collector 131 to stop collecting the body temperature data until the temperature of the heating module 122 is lower than the threshold value, and controls the body temperature collector 131 to collect the body temperature data again to store the body temperature data in the memory 14.
Specifically, when the detecting end 311 and the massage sheet 23 are integrated, the heating module 122 heats the massage sheet 23, which will cause the body temperature data collected by the body temperature collector 131 to be inaccurate. In order to avoid inaccurate body temperature data, the control circuit 16 is further configured to control the temperature sensor 123 to sense the temperature of the heating module 122 when the body temperature collector 131 collects the body temperature data, so as to determine whether the heating module 122 is in a heating state. If the heating module 122 is in the heating state, the control circuit 16 is further configured to control the heating module 122 to be in the non-heating state and control the body temperature collector 131 to stop collecting the body temperature data, until the temperature of the heating module 122 is lower than the threshold, control the body temperature collector 131 to collect the body temperature data again to store in the memory 14.
The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.
Claims (15)
1. A neck massager, characterized in that the neck massager comprises:
the structure body is sleeved on the neck of a user;
the massage component is arranged on the structure body and is used for massaging the neck of the user;
the acquisition assembly is arranged on the structure main body and is used for acquiring physical sign data;
the memory is arranged on the structure main body and used for storing the physical sign data;
the communication circuit is arranged on the structure main body and is used for establishing communication connection with external electronic equipment;
control circuit, set up in on the main structure body, the electric coupling massage subassembly gather the subassembly communication circuit and the memory is used for control massage subassembly is to user's neck massage, and control gather the subassembly and gather sign data in order to save the memory, the response communication circuit receives come from external electronic equipment report the instruction, acquire the memory sign data, through communication circuit to external electronic equipment reports sign data.
2. The neck massager of claim 1 wherein the acquisition assembly comprises an acquisition module and a data processing module;
wherein the acquisition module is used for periodically acquiring a plurality of corresponding physical sign data;
the control circuit is electrically coupled to the data processing module and the acquisition module, and is used for controlling the data processing module to arrange the physical sign data to generate a physical sign data set with a predetermined format.
3. The neck massager of claim 1,
the collection assembly includes a body temperature collector, the body temperature collector includes: the temperature sensing unit comprises a temperature sensing film, a first electrode and a second electrode, wherein the resistivity of the temperature sensing film changes along with the temperature, the temperature sensing film is attached to the detection end, the first electrode and the second electrode are respectively connected with two ends of the temperature sensing film, the first electrode and the second electrode are respectively and electrically connected with the first integrated circuit through leads, and the first integrated circuit is electrically connected with the control circuit;
the first integrated circuit is used for detecting voltage values at two ends of the temperature sensing film and current values passing through the temperature sensing film in real time, calculating a resistance value according to the voltage values and the current values, and obtaining body temperature data corresponding to the resistance value.
4. The neck massager of claim 3,
the massage assembly comprises a massage sheet, a heating module and a temperature sensor for sensing the temperature of the heating module, the temperature sensor and the massage sheet are both attached to the heating module, and the heating module and the temperature sensor are respectively and electrically connected with the control circuit;
the control circuit is also used for controlling the temperature sensor to sense the temperature of the heating module when the body temperature collector collects body temperature data so as to judge whether the heating module is in a heating state or not;
if the heating module is in a heating state, the control circuit is further used for controlling the heating module to be in a non-heating state and controlling the body temperature collector to stop collecting body temperature data, and when the temperature of the heating module is lower than a threshold value, the body temperature collector is controlled to collect the body temperature data again to be stored in the memory.
5. The neck massager of claim 1,
the collection subassembly includes the body temperature collector, heart rate blood pressure measurement ware includes: the heart rate and blood pressure sensor is respectively electrically connected with the detection end and the control circuit and used for measuring the carotid artery blood pressure of the user to obtain blood pressure data and measuring the carotid artery pulse frequency of the user to obtain heart rate data.
6. The neck massager of claim 3 or 5,
the massage assembly has a massage sheet for contact with the skin of the neck of the user;
wherein, the detection end and the massage sheet are of an integrated structure.
7. The neck massager of claim 1,
the collection assembly includes an oximetry, the oximetry including:
at least one light emitting component mounted on the structural body for emitting light in at least one optical band;
the at least one photosensitive sensor and the at least one luminous component are arranged on the same side of the structure body and used for receiving light emitted by the at least one luminous component and generating a sensing signal;
a second integrated circuit electrically connected to the light sensitive sensor;
the control circuit is electrically coupled with the light emitting component and the second integrated circuit and used for controlling the at least one light emitting component to emit light and controlling the second integrated circuit to receive and process the sensing signal generated by the at least one photosensitive sensor so as to obtain the blood oxygen saturation.
8. The neck massager of claim 1,
the control circuit is specifically configured to, in response to a report instruction received by the communication circuit from the external electronic device, determine whether the massage component is performing massage and whether the internal electric quantity of the neck massager is lower than a threshold, and if the massage component is performing massage and the internal electric quantity of the neck massager is lower than the threshold, discard the report instruction and not report the sign data to the external electronic device through the communication circuit.
9. The neck massager of claim 8,
the control circuit further acquires the physical sign data of the memory after confirming that the massage assembly is massaging and the internal electric quantity of the neck massager is lower than a threshold value, confirms whether the physical sign data meets an emergency state condition, controls the massage assembly to stop massaging if the physical sign data meets the emergency state condition, and reports the physical sign data to the external electronic equipment through the communication circuit.
10. The neck massager of claim 1,
the control circuit is specifically used for judging whether the massage mode of the massage assembly is releasing specific low-medium frequency pulse current to the neck of a user when controlling the acquisition assembly to acquire the sign data, and controlling the acquisition assembly to stop acquiring the sign data if the massage mode of the massage assembly is releasing specific low-medium frequency pulse current to the neck of the user.
11. A vital sign data acquisition system, the system comprising: the neck massager comprises a neck massager and electronic equipment in communication connection with the neck massager;
the neck massager includes:
the structure body is sleeved on the neck of a user;
the massage component is arranged on the structure body and is used for massaging the neck of the user;
the acquisition assembly is arranged on the structure main body and is used for acquiring physical sign data;
the memory is arranged on the structure main body and used for storing the physical sign data;
the communication circuit is arranged on the structure main body and used for establishing communication connection with the electronic equipment;
the control circuit is arranged on the structure main body, is electrically coupled with the massage component, the acquisition component, the communication circuit and the memory, and is used for controlling the massage component to massage the neck of the user and controlling the acquisition component to acquire physical sign data to store the physical sign data in the memory;
the electronic equipment is used for running a health management application to establish communication connection with a cloud inquiry platform and sending a reporting instruction to the neck massager when the health management application is run;
the control circuit is further configured to respond to a reporting instruction from the electronic device received by the communication circuit, acquire the sign data of the memory, and report the sign data to the electronic device through the communication circuit;
the electronic equipment is further used for receiving the sign data and feeding the sign data back to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and judges whether a user corresponding to the sign data is a suspected infected person.
12. The system of claim 11,
the electronic equipment is specifically used for receiving the sign data, sorting the sign data, generating a sign data set with a preset format, and feeding the sign data set and the personal information of the user back to the cloud inquiry platform.
13. A sign data acquisition method based on a neck massager is characterized by comprising the following steps:
the neck massager acquires physical sign data through an acquisition assembly arranged in the neck massager;
the neck massager establishes communication connection between the neck massager and the electronic equipment through a communication circuit arranged in the neck massager;
the electronic equipment runs a health management application to establish communication connection with a cloud inquiry platform and sends a reporting instruction to the neck massager when running the health management application;
the neck massager receives the reporting instruction through the communication circuit, responds to the reporting instruction through a control circuit arranged in the neck massager, and controls the communication circuit to report the physical sign data to the electronic equipment;
the electronic equipment receives the sign data and feeds the sign data back to the cloud inquiry platform, so that the cloud inquiry platform analyzes the sign data and judges whether a user corresponding to the sign data is a suspected infected person.
14. The method of claim 13, wherein the step of the electronic device receiving the vital sign data and feeding the vital sign data back to the cloud interrogation platform comprises:
after the electronic equipment receives the sign data, the sign data are sorted to generate a sign data set with a preset format;
and the electronic equipment feeds the sign data set and the personal information of the user back to the cloud inquiry platform.
15. The method of claim 13, wherein after the step of the neck massager collecting vital sign data through a collection assembly disposed therein, the method further comprises:
when the neck massager responds to a report instruction from the external electronic equipment received by the communication circuit through the control circuit, whether the massage component is massaging or not and whether the internal electric quantity of the neck massager is lower than a threshold value or not are judged;
if the massage component is massaging and the internal electric quantity of the neck massage instrument is lower than a threshold value, the neck massage instrument discards the reporting instruction and does not report the sign data to the external electronic equipment through the communication circuit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202010442545.3A CN112089969A (en) | 2020-05-22 | 2020-05-22 | Neck massager, sign data acquisition system and sign data acquisition method |
Applications Claiming Priority (1)
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CN112842392A (en) * | 2021-02-04 | 2021-05-28 | 广东诗奇制造有限公司 | Wearable blood pressure detection device |
CN113101177A (en) * | 2021-05-13 | 2021-07-13 | 深圳市圆周率智能信息科技有限公司 | Electric pulse type intelligent fascia gun |
CN113274639A (en) * | 2021-05-20 | 2021-08-20 | 辰浩医疗科技(广东)有限公司 | Low-frequency pulse circuit and system applied to cervical vertebra massager |
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