CN208876521U - Wearable physiologic parameter monitoring device and physiological data monitoring system - Google Patents
Wearable physiologic parameter monitoring device and physiological data monitoring system Download PDFInfo
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- CN208876521U CN208876521U CN201820175141.0U CN201820175141U CN208876521U CN 208876521 U CN208876521 U CN 208876521U CN 201820175141 U CN201820175141 U CN 201820175141U CN 208876521 U CN208876521 U CN 208876521U
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Abstract
A kind of wearable physiologic parameter monitoring device provided by the present application, including host, host includes main case and control mould group, has the closed cavity for accommodating control mould group in main case, host further includes connector, and control mould group is connect by connector with a parameter measurement cable;Wearable physiologic parameter monitoring device further includes battery, and battery is electrically connected with control mould group, and battery is arranged on the outer wall of main case and is located at except closed cavity;Wearable physiologic parameter monitoring device further includes fixed frame, is accommodated battery between host and fixed frame by fixed frame and main case connection.The application also provides a kind of physiological data monitoring system.The wearable physiologic parameter monitoring device and physiological data monitoring system of the application, host is separately positioned with battery, and battery is fixed between fixed frame and host by fixed frame, facilitates battery roll and installation, easy to operate.
Description
Technical field
This application involves a kind of physiological compensation effects technical field more particularly to a kind of wearable physiologic parameter monitoring devices
And physiological data monitoring system.
Background technique
Existing physiologic parameter monitoring device is powered by external power supply, causes the physiologic parameter monitoring device that can have
Have and use in the environment of external power supply, for example, earthquake relief work is live, brings great inconvenience to user.
Utility model content
The embodiment of the present application discloses a kind of wearable physiologic parameter monitoring device and physiological data monitoring system, to solve
State problem.
A kind of wearable physiologic parameter monitoring device disclosed in the embodiment of the present application, including host, the host include master
Casing and control mould group, the interior closed cavity having for accommodating the control mould group of the main case, the host also wrap
Connector is included, the control mould group is connect by the connector with a parameter measurement cable;The wearable physiological parameter prison
Surveying device further includes battery, and the battery is electrically connected with the control mould group, and the outer wall of the main case is arranged in the battery
Above and it is located at except the closed cavity;The wearable physiologic parameter monitoring device further includes fixed frame, by described solid
Determine frame and main case connection accommodates the battery between the host and fixed frame.
A kind of physiological data monitoring system disclosed in the embodiment of the present application, including wearable physiologic parameter monitoring device, ginseng
Number measurement cable, anti-defibrillation structure and at least three electrode slice connectors, the wearable physiologic parameter monitoring device are connected to
The parameter measurement cable, the parameter measurement cable is from one end close to the wearable physiologic parameter monitoring device far from
Successively string is equipped with the anti-defibrillation structure and at least three electrode on one end of the wearable physiologic parameter monitoring device
Piece connector, the electrode slice connector is for clamping electrocardio electrode plate.
The wearable physiologic parameter monitoring device and physiological data monitoring system of the application, battery are fixed on by fixed frame
On main case, and it is independently arranged installation easy to disassemble with main case, it is easy to operate.
Detailed description of the invention
It in order to more clearly explain the technical solutions in the embodiments of the present application, below will be to needed in the embodiment
Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for ability
For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached
Figure.
Fig. 1 is the structural schematic diagram of the physiological data monitoring system in one embodiment of the application.
Fig. 2 is the dismantling status diagram of physiological data monitoring system shown in FIG. 1.
Fig. 3 is the structural schematic diagram of the wearable physiologic parameter monitoring device in one embodiment of the application.
Fig. 4 is the structural representation of wearable physiologic parameter monitoring device in another direction in one embodiment of the application
Figure.
Fig. 5 is that the wearable physiologic parameter monitoring device in one embodiment of the application removes after wrist strap on another direction
Structural schematic diagram.
Fig. 6 is the structural schematic diagram of the wrist strap mould group of the wearable physiologic parameter monitoring device in one embodiment of the application.
Fig. 7 is the structural schematic diagram of the electrode slice connector in one embodiment of the application.
Fig. 8 is the structural schematic diagram of the electrode slice connector in the another embodiment of the application.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description, it is clear that the described embodiments are only a part but not all of the embodiments of the present application.Based on this
Embodiment in application, every other reality obtained by those of ordinary skill in the art without making creative efforts
Example is applied, shall fall in the protection scope of this application.
The description and claims of this application and term " first " in the attached drawing, " second " etc. are for distinguishing
Different objects, not for description particular order.In addition, term " includes " and their any deformations, it is intended that covering is not
Exclusive includes.Such as it contains the process, method, system, product or equipment of a series of steps or units and is not limited to
The step of listing or unit, but optionally further comprising the step of not listing or unit, or optionally further comprising for these
The intrinsic other step or units of process, method, product or equipment.
Specification subsequent descriptions are to implement the preferred embodiment of the application, and so the description is to illustrate that the application's is general
For the purpose of principle, it is not intended to limit the scope of the present application.The protection scope of the application is when view appended claims institute defender
Subject to.
Referring to Fig. 1, Fig. 1 is the structural schematic diagram of the physiological data monitoring system 100 in one embodiment of the application.It is above-mentioned
Physiological data monitoring system 100 includes wearable physiologic parameter monitoring device 10, parameter measurement cable 30, anti-50 and of defibrillation structure
At least three electrode slice connectors 70.Above-mentioned wearable physiologic parameter monitoring device 10 is connected to above-mentioned parameter measurement cable 30
One end.Above-mentioned parameter measures cable 30 from one end close to above-mentioned wearable physiologic parameter monitoring device 10 to far from above-mentioned wearing
Successively string is equipped with above-mentioned anti-defibrillation structure 50 on one end of formula physiologic parameter monitoring device 10 and above-mentioned at least three electrode slice connects
Connect device 70.Above-mentioned electrode slice connector 70 is used for holding electrode piece 80.Further, in wherein some variant embodiments,
Above-mentioned parameter measurement cable 30 can successively be gone here and there using a construction of cable is equipped with above-mentioned anti-defibrillation structure 50 and above-mentioned at least three
The one-line parameter measurement cable that a electrode slice connector 70 is constituted can also be constituted using dichotomous cable structure.If above-mentioned
Parameter measurement cable 30 uses dichotomous cable structure, then parameter measurement cable 30 includes stem portion and at least three furcations,
One end of stem portion connects above-mentioned wearable physiologic parameter monitoring device 10, and the other end of stem portion connects at least three bifurcateds
At least one electrode slice connector is arranged in portion, each furcation, and above-mentioned anti-defibrillation structure is arranged in any position in stem portion.
Specifically, above-mentioned wearable physiologic parameter monitoring device 10 is for tying up the physiology number for monitoring patient in patient's wrist
It is believed that number.Each electrode slice connector 70 is used to be attached to patient body for clamping a piece of electrode slice 80, every plate electrode piece 80
A certain position is to measure the physiological data signals or impedance signal at the position.Above-mentioned anti-defibrillation structure 50 is equipped with defibrillation protection electricity
Road avoids ECG detection system when defibrillation protection circuit is for if necessary for heart of patient defibrillation to restore normal heartbeat
The impaired protection circuit of system.In the application, above-mentioned anti-defibrillation structure 50 and above-mentioned wearable physiologic parameter monitoring device 10 are independent
Setting, so that the volume of above-mentioned wearable physiologic parameter monitoring device 10 reduces, it is easy to carry, while also avoiding being applied to
The heavy current for stating anti-defibrillation structure 50 interferes the signal in above-mentioned wearable physiologic parameter monitoring device 10.
Please also refer to Fig. 2, above-mentioned physiological data monitoring system 100 is fixed on patient body for convenience, it is above-mentioned
Physiological data monitoring system 100 is divided into the two parts being detachably connected, and specially dividing above-mentioned anti-defibrillation structure 50 is first
Defibrillation portion 51 and the second defibrillation portion 53.Above-mentioned first defibrillation portion 51 and above-mentioned second defibrillation portion 53 are interconnected to form to have and remove
The above-mentioned anti-defibrillation structure 50 for function of quivering.In the present embodiment, by inserting between above-mentioned first defibrillation portion 51 and the second defibrillation portion 53
The mode connect links together.Above-mentioned first defibrillation portion 51 also measures cable 30 by above-mentioned parameter and above-mentioned wearable physiology is joined
Number monitoring device 10 connects.Above-mentioned second defibrillation portion 53 also measures cable 30 and above-mentioned at least three electrode slice by above-mentioned parameter
Connector 70 connects.To and above-mentioned wearable when above-mentioned wearable physiologic parameter monitoring device 10 is mounted on patient's wrist
Physiologic parameter monitoring device 10 connect parameter measurement cable 30 and the first defibrillation portion 51 inside the sleeve of patient through patient
Neck, at least three electrode slice connectors 70 holding electrode piece 80 and when being attached in the appointed part of patient body respectively, with
At least three electrode slice connectors 70 connection parameter measurement cable 30 and the second defibrillation portion 53 worn inside the clothes of patient to
The neck of patient, and after linking together with above-mentioned first defibrillation portion 51, by setting above-mentioned first defibrillation portion 51 and/or on
Above-mentioned anti-defibrillation structure 50 is clipped on the collar of patient by the clip for stating the second defibrillation portion 53.
Please also refer to Fig. 3, above-mentioned wearable physiologic parameter monitoring device 10 includes host 11.Above-mentioned host 11 includes master
Casing 111 and the control mould group 113 being arranged in above-mentioned main case 111.Have in main case 111 for accommodating control mould group
113 closed cavity.Above-mentioned host 11 further includes connector 115.Above-mentioned control mould group 113 by above-mentioned connector 115 with
Above-mentioned parameter measures cable 30 and connects.
In addition, above-mentioned wearable physiologic parameter monitoring device 10 further includes battery 119, battery 119 and the control mould group
113 electrical connections, battery 119 are arranged on the outer wall of main case 111 and are located at except the closed cavity of main case 111;Wearing
Formula physiologic parameter monitoring device 10 further includes fixed frame 131, is connect by fixed frame 131 with main case 111 and accommodates battery 119
Between host 10 and fixed frame 131.Battery 119 is detachably mounted on host 11 by fixed frame 131, can be facilitated
Disassembly installation, it is very convenient.
In addition, above-mentioned control mould group 113 can also can measure cable 30 and external anti-defibrillation knot by above-mentioned parameter
Structure 50 is electrically connected.
Specifically, above-mentioned host 11 further includes ear portion 117.The side of above-mentioned main case 111 is arranged in above-mentioned ear portion 117
Portion.In one embodiment, above-mentioned connector 115 is arranged in above-mentioned ear portion 117.
Further specifically, one end of main case 111 is arranged in above-mentioned ear portion 117.The above-mentioned setting of control mould group 113 exists
The one end in neighbouring above-mentioned ear portion 117 in above-mentioned main case 311.The setting of above-mentioned battery 119 is in above-mentioned main case 111 far from above-mentioned
The one end in ear portion 117.Above-mentioned battery 119 is electrically connected with above-mentioned control mould group 113.
Further specifically, above-mentioned ear portion 117 includes first ear portion 1171 and the second ear portion 1173.Above-mentioned first
Ear portion 1171 and above-mentioned second ear portion 1173 are separately positioned on the two sides of above-mentioned main case 111.Above-mentioned connector 115 includes
First connector 1151 and the second connector 1153.Above-mentioned first connector 1151 is arranged in above-mentioned first ear portion 1171 simultaneously
It is connect simultaneously with above-mentioned control mould group 113 and blood oxygen probe 90.Above-mentioned second connector 1153 is arranged in above-mentioned second ear
It is connect in portion 1173 and simultaneously with above-mentioned control mould group 113 and above-mentioned parameter measurement cable 30.
Further specifically, the first connector 1175 is provided in above-mentioned first ear portion 1171.Above-mentioned first connector
1175 connect with above-mentioned first connector 1151.To, above-mentioned first connector 1151 by above-mentioned first connector 1175 with
Above-mentioned blood oxygen probe 90 connects.
Further specifically, please also refer to Fig. 4, the second connector 1177 is provided in above-mentioned second ear portion 1173.
Above-mentioned second connector 1177 is connect with above-mentioned second connector 1153.To which, above-mentioned second connector 1153 passes through above-mentioned the
Two connectors 1177 are connect with above-mentioned parameter measurement cable 30.
Further specifically, in order to facilitate grafting, above-mentioned first connector 1175 is located at above-mentioned first ear portion 1171 and leans on
The bottom end side of nearly above-mentioned main case 111, above-mentioned second connector 1177 are arranged in above-mentioned second ear portion 1173 close to above-mentioned
The side on the top of main case 111.
Please also refer to Fig. 5, above-mentioned wearable physiologic parameter monitoring device 10 further includes wrist strap mould group 13.Wherein, Fig. 5 is only
Show the schematic diagram of the part-structure of above-mentioned wrist strap mould group 13.The side of above-mentioned host 11 is arranged in above-mentioned wrist strap mould group 13.
Above-mentioned wrist strap mould group 13 is used to for above-mentioned host 11 being fixed to the wrist of patient.
It is the structural schematic diagram of the above-mentioned wrist strap mould group 13 in one embodiment of the application please also refer to Fig. 6.Above-mentioned wrist strap
Mould group 13 may include fixed frame 131 or above-mentioned wrist strap mould group 13 may include wrist strap 133.The above-mentioned setting of fixed frame 131 exists
The side of above-mentioned host 11.Above-mentioned fixed frame 131 by above-mentioned battery 119 be fixed on above-mentioned main case 111 closed cavity it
Outside.The side that above-mentioned fixed frame 131 deviates from above-mentioned host 11 is arranged in above-mentioned wrist strap 133.Above-mentioned wrist strap 133 is used for above-mentioned master
Machine 11 is fixed to the wrist of patient.
Specifically, guide groove 1311 is provided on side of the above-mentioned fixed frame 131 towards above-mentioned host 11.Above-mentioned guide groove
1311 for guiding above-mentioned host 11 to be installed on above-mentioned fixed frame 131.Above-mentioned fixed frame 131 deviates from the side of above-mentioned host 11
It is symmetrically arranged at least one perforation 1313.Above-mentioned wrist strap 133 passes through at least one above-mentioned perforation 1313 and is fixed on above-mentioned solid
Determine on frame 131.Preferably, above-mentioned wrist strap 133 is flexible wristband.Above-mentioned wrist strap 133 can be but not limited to silicone band, strap
Deng.
Above-mentioned wrist strap mould group 13 further includes flexible rubber mat 135.Above-mentioned flexibility rubber mat 135 setting deviates from above-mentioned wrist strap 133
The side of above-mentioned fixed frame 131.It is above-mentioned flexibility rubber mat 135 for directly with the skin contact of patient, to protect the skin of patient.
Please also refer to Fig. 7, above-mentioned electrode slice connector 70 includes outline border host 71 and is arranged in above-mentioned outline border host
Two clamping pieces 73 inside 71.Above-mentioned outline border host 71 with parameter measurement cable 30 for connecting.Above-mentioned two clamping piece 73
For holding electrode piece 80.In one embodiment, above-mentioned electrode slice 80 is disposable electrode piece.In another embodiment, above-mentioned
Electrode slice 80 is disposable electrocardio electrode plate.
Specifically, above-mentioned outline border host 71 is fabricated from a flexible material and in mouth shape.Above-mentioned outline border host 71 has opposite
The first side 711 and the second side 713 being arranged.Above-mentioned two clamping piece 73 is separately positioned on above-mentioned first side 711 and upper
It states on the opposite side in the second side 713.Above-mentioned two clamping piece 73 is oppositely arranged and forms an accommodating space 731.Above-mentioned receipts
Hold space 731 for accommodating and clamping above-mentioned electrode slice 80.Reduced above-mentioned first side by grip in above-mentioned outline border host 71
When the distance between 711 and above-mentioned second side 713, above-mentioned accommodating space 731 increases to discharge above-mentioned electrode slice 80.
Further specifically, above-mentioned two clamping piece 73 is L-shaped, and O shape is formed between above-mentioned two clamping piece 73
Accommodating space 731.
Further specifically, above-mentioned clamping piece 73 is in step-like.Rank of falling from power is correspondingly arranged on above-mentioned electrode slice 80.From
And above-mentioned electrode slice 80 is by above-mentioned clamping piece 73 when being clamped, the step of the fall from power rank and above-mentioned clamping piece 73 of above-mentioned electrode slice 80
It cooperates, is clamped between above-mentioned two clamping piece 73 so that above-mentioned electrode slice 80 is stable.
Specifically, above-mentioned electrode slice connector 70 further includes the connecting column that the both ends in above-mentioned 71 outside of outline border host are arranged in
75.Above-mentioned connecting column 75 is used to connect with above-mentioned parameter measurement cable 30.
Please also refer to Fig. 8, Fig. 8 is the structural schematic diagram of electrode slice connector 70a in another embodiment of the application.It is above-mentioned
Be in place of the difference of electrode slice connector 70a and above-mentioned electrode slice connector 70, above-mentioned electrode slice connector 70a only one
Connecting column 75.It is understood that if above-mentioned electrode slice connector 70a only has one end to need to connect with above-mentioned parameter measurement cable 30
When, the quantity of above-mentioned connecting column 75 can be one.
The wearable physiological compensation effects dress of the application is separately positioned by host, battery, and is consolidated battery by fixed frame
It is scheduled between fixed frame and host, facilitates battery roll and installation, it is easy to operate.
In addition, electrode slice connector and physiological data monitoring system, anti-defibrillation structure is supervised independently of wearable physiological parameter
Device is surveyed, the high current of anti-defibrillation structure will not influence the function of wearable physiologic parameter monitoring device, and wearable physiology is joined
Number monitoring devices can be done more frivolous, and portability is more preferable.Physiological data monitoring system is placed in patient body for convenience
On, physiological data monitoring system is divided into pluggable two parts together, i.e., by anti-defibrillation structure be divided into the first defibrillation portion and
Second defibrillation portion.First defibrillation portion and the second defibrillation portion are interconnected to form the anti-defibrillation structure with defibrillating function.First
Defibrillation portion also passes through parameter measurement cable and connect with wearable physiologic parameter monitoring device.Second defibrillation portion also passes through parameter measurement
Cable is connect at least three electrode slice connectors.The frame host of electrode slice connector, can be by clamping frame in flexibility
Host realizes the clamping or release of electrocardio electrode plate, and operability is more preferable.
In the described embodiment, it all emphasizes particularly on different fields to the description of each embodiment, is not described in some embodiment
Part, reference can be made to the related descriptions of other embodiments.
The embodiment of the present application is described in detail above, specific case used herein to the principle of the application and
Embodiment is expounded, the description of the example is only used to help understand the method for the present application and its core ideas;Together
When, for those of ordinary skill in the art, according to the thought of the application, has and change on specific embodiment and application range
Become place, in conclusion the contents of this specification should not be construed as limiting the present application.
Claims (14)
1. a kind of wearable physiologic parameter monitoring device, which is characterized in that the wearable physiologic parameter monitoring device includes master
Machine, the host include main case and control mould group, are had in the main case for accommodating the closed of the control mould group
Cavity, the host further include connector, and the control mould group is connect by the connector with a parameter measurement cable;
The wearable physiologic parameter monitoring device further includes battery, and the battery is electrically connected with the control mould group, the electricity
Pond is arranged on the outer wall of the main case and is located at except the closed cavity;
The wearable physiologic parameter monitoring device further includes fixed frame, is connect with the main case by institute by the fixed frame
Battery aid is stated between the host and fixed frame.
2. wearable physiologic parameter monitoring device as described in claim 1, which is characterized in that the control mould group passes through described
Anti- defibrillation structure outside parameter measurement cable and one is electrically connected.
3. wearable physiologic parameter monitoring device as described in claim 1, which is characterized in that the host further includes ear
The side of the main case is arranged in portion, the ear portion, and the connector is arranged in the ear portion.
4. wearable physiologic parameter monitoring device as claimed in claim 3, which is characterized in that the ear portion includes the first ear
The two sides of the main case, institute are not arranged in for piece portion and the second ear portion, the first ear portion and second ear portions
Stating connector includes the first connector and the second connector, and first connector is arranged in the first ear portion and simultaneously
Connect with the control mould group and a blood oxygen probe, second connector be arranged in second ear portion and simultaneously with institute
Control mould group is stated to connect with the parameter measurement cable.
5. wearable physiologic parameter monitoring device as claimed in claim 4, which is characterized in that be arranged in the first ear portion
There is the first connector, first connector is connect by first connector with the blood oxygen probe, second ear
Portion's row is provided with the second connector, and second connector is connect by second connector with the parameter measurement cable.
6. wearable physiologic parameter monitoring device as claimed in claim 4, which is characterized in that the wearable physiological parameter prison
Surveying device further includes wrist strap mould group, and the side of the host is arranged in the wrist strap mould group, and the wrist strap mould group is used for will be described
Host is fixed to the wrist of a patient, and the wrist strap mould group further includes wrist strap, the fixed mount setting in the side of the host,
The side that the fixed frame deviates from the host is arranged in the wrist strap.
7. wearable physiologic parameter monitoring device as claimed in claim 6, which is characterized in that the fixed frame is towards the master
The side of machine is provided with guide groove, and the guide groove guides the host to be installed on the fixed frame, and the fixed frame deviates from
The side of the host is symmetrically arranged at least one perforation, and the wrist strap is fixed on and wearing at least one described perforation
On the fixed frame.
8. wearable physiologic parameter monitoring device as claimed in claim 6, which is characterized in that the wrist strap is flexible wristband.
9. wearable physiologic parameter monitoring device as claimed in claim 6, which is characterized in that the wrist strap mould group further includes soft
Property rubber mat, the side that the wrist strap deviates from the fixed frame is arranged in the flexibility rubber mat, and the flexibility rubber mat is for protecting disease
The skin of people.
10. wearable physiologic parameter monitoring device as claimed in claim 6, which is characterized in that the ear portion is arranged in institute
One end of main case is stated, the control mould group is arranged adjacent to the ear portion, and the battery is arranged in the main case far from institute
State the one end in ear portion.
11. a kind of physiological data monitoring system, which is characterized in that the physiological data monitoring system includes wearable physiological parameter
Monitoring device, parameter measurement cable, anti-defibrillation structure and at least three electrode slice connectors, the wearable physiological compensation effects
Device is connected to the parameter measurement cable, and the parameter measurement cable is from close to the wearable physiologic parameter monitoring device
One end to far from the wearable physiologic parameter monitoring device one end on successively string be equipped with the anti-defibrillation structure and it is described extremely
Few three electrode slice connectors, the electrode slice connector are used for holding electrode piece, the wearable physiologic parameter monitoring device
Using wearable physiologic parameter monitoring device described in any one in claims 1 to 10.
12. physiological data monitoring system as claimed in claim 11, which is characterized in that the first defibrillation of the anti-defibrillation structure packet
Portion and the second defibrillation portion, first defibrillation portion and the second defibrillation portion are detachably connected, and first defibrillation portion passes through the ginseng
Number measurement cable is connect with the wearable physiologic parameter monitoring device, and second defibrillation portion passes through the parameter measurement cable
It is connect at least three electrode slices connector.
13. physiological data monitoring system as claimed in claim 11, which is characterized in that the anti-defibrillation structure is for passing through folder
Sub-buckle is on the collar of patient.
14. physiological data monitoring system as claimed in claim 11, which is characterized in that the parameter measurement cable is one-line
Parameter measurement cable.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111683715A (en) * | 2018-01-31 | 2020-09-18 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological data monitoring device and physiological data monitoring system |
WO2020258179A1 (en) * | 2019-06-27 | 2020-12-30 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological parameter monitoring system and wearable physiological parameter monitoring device thereof |
CN111683715B (en) * | 2018-01-31 | 2024-06-21 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological data monitoring device and physiological data monitoring system |
-
2018
- 2018-01-31 CN CN201820175141.0U patent/CN208876521U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111683715A (en) * | 2018-01-31 | 2020-09-18 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological data monitoring device and physiological data monitoring system |
CN111683715B (en) * | 2018-01-31 | 2024-06-21 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological data monitoring device and physiological data monitoring system |
WO2020258179A1 (en) * | 2019-06-27 | 2020-12-30 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological parameter monitoring system and wearable physiological parameter monitoring device thereof |
CN112969408A (en) * | 2019-06-27 | 2021-06-15 | 深圳迈瑞生物医疗电子股份有限公司 | Wearable physiological parameter monitoring system and wearable physiological parameter monitoring device thereof |
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